Update Protocols_Details.md

Tweak the names of the STM32 serial and CC2500-only release files.

.travis.yml

@@ -1,207 +1,200 @@
-dist: trusty
-sudo: true
-  #
+os: linux
+dist: bionic
 language: c
-  #
+
 env:
-  global:
-    - IDE_VERSION=1.8.9
-  matrix:
+  jobs:
     - BOARD="multi4in1:avr:multiatmega328p:bootloader=none"
     - BOARD="multi4in1:avr:multiatmega328p:bootloader=optiboot"
     - BOARD="multi4in1:avr:multixmega32d4"
+    - BOARD="multi4in1:STM32F1:multi5in1t18int"
     - BOARD="multi4in1:STM32F1:multistm32f103c:debug_option=none"
     - BOARD="multi4in1:STM32F1:multistm32f103c:debug_option=native"
     - BOARD="multi4in1:STM32F1:multistm32f103c:debug_option=ftdi"
-    #
+
 notifications:
   email: false
-  #
+
 before_install:
-  #
   # Fetch the tag information for the current branch
   - git fetch origin --tags
-  #
+
   # Publish the buildroot script folder
   - chmod +x ${TRAVIS_BUILD_DIR}/buildroot/bin/*
   - export PATH=${TRAVIS_BUILD_DIR}/buildroot/bin/:${PATH}
-  #
-  # Install Arduino IDE
-  - wget http://downloads.arduino.cc/arduino-$IDE_VERSION-linux64.tar.xz
-  - tar xf arduino-$IDE_VERSION-linux64.tar.xz
-  - mv arduino-$IDE_VERSION $HOME/arduino-ide
-  - export PATH=$PATH:$HOME/arduino-ide
-  # Set the Multi boards package URL
-  - arduino --pref "boardsmanager.additional.urls=https://raw.githubusercontent.com/pascallanger/DIY-Multiprotocol-TX-Module-Boards/master/package_multi_4in1_board_index.json" --save-prefs
-  #
-  - if [[ "$BOARD" =~ "multi4in1:STM32F1:" ]]; then
-      arduino --install-boards multi4in1:STM32F1;
-    fi
-  #
-  - if [[ "$BOARD" =~ "multi4in1:avr:" ]]; then
-      arduino --install-boards multi4in1:avr;
-    fi
-  #
-  - buildMulti() { exitcode=0; BUILDCMD="arduino --verify --board $BOARD Multiprotocol/Multiprotocol.ino --pref build.path=./build/"; echo $BUILDCMD; $BUILDCMD; if [ $? -ne 0 ]; then exitcode=1; fi; echo; return $exitcode; }
+
+  # Helper functions for the builds
+  - buildMulti() { start_fold config_diff; travis_time_start; git diff Multiprotocol/_Config.h; end_fold config_diff; exitcode=0; BUILDCMD="arduino-cli compile -b $BOARD Multiprotocol/Multiprotocol.ino --build-path ${TRAVIS_BUILD_DIR}/build/"; echo $BUILDCMD; $BUILDCMD; if [ $? -ne 0 ]; then exitcode=1; fi; echo; return $exitcode; }
   - buildProtocol() { exitcode=0; opt_disable $ALL_PROTOCOLS; opt_enable $1; buildMulti; if [ $? -ne 0 ]; then exitcode=1; fi; return $exitcode; }
-  - buildEachProtocol() { exitcode=0; for PROTOCOL in $ALL_PROTOCOLS ; do echo Building $PROTOCOL; buildProtocol $PROTOCOL; if [ $? -ne 0 ]; then exitcode=1; fi; done; return $exitcode; }
-  #
-  # Arduino IDE adds a lot of noise caused by network traffic; firewall it
-  - sudo iptables -P INPUT DROP
-  - sudo iptables -P FORWARD DROP
-  - sudo iptables -P OUTPUT ACCEPT
-  - sudo iptables -A INPUT -i lo -j ACCEPT
-  - sudo iptables -A OUTPUT -o lo -j ACCEPT
-  - sudo iptables -A INPUT -m conntrack --ctstate ESTABLISHED,RELATED -j ACCEPT
-  #
-install: true
+  - buildEachProtocol() { exitcodesum=0; for PROTOCOL in $ALL_PROTOCOLS ; do printf "\e[33;1mBuilding $PROTOCOL\e[0m"; buildProtocol $PROTOCOL; if [ $? -ne 0 ]; then exitcodesum=$((exitcodesum + 1)); fi; done; return $exitcodesum; }
+  - buildRFModule() { exitcode=0; opt_disable $ALL_RFMODULES; opt_enable $1; buildMulti; if [ $? -ne 0 ]; then exitcode=1; fi; return $exitcode; }
+  - buildEachRFModule() { exitcodesum=0; for RFMODULE in $ALL_RFMODULES; do printf "\e[33;1mBuilding $RFMODULE\e[0m"; buildRFModule $RFMODULE; if [ $? -ne 0 ]; then exitcodesum=$((exitcodesum + 1)); fi; done; return $exitcodesum; }
+  - buildDefault() { exitcode=0; printf "\n\e[33;1mBuilding default configuration\e[0m\n"; buildMulti; if [ $? -ne 0 ]; then exitcode=1; fi; return $exitcode; }
+  - buildSerialOnly() { exitcode=0; printf "\n\e[33;1mBuilding serial mode only\e[0m\n"; opt_disable ENABLE_PPM; opt_enable ENABLE_SERIAL; buildMulti; if [ $? -ne 0 ]; then exitcode=1; fi; return $exitcode; }
+  - buildPPMOnly() { exitcode=0; printf "\n\e[33;1mBuilding PPM mode only\e[0m\n"; opt_enable ENABLE_PPM; opt_disable ENABLE_SERIAL; buildMulti; if [ $? -ne 0 ]; then exitcode=1; fi; return $exitcode; }
+  - export -f buildMulti
+
+  # Function to build the release files - dependent on board type.
+  # Release build scripts are located in buildroot/bin.
+  - if [[ "$BOARD" == "multi4in1:avr:multixmega32d4" ]]; then
+      buildReleaseFiles(){
+        build_release_orx;
+      };
+    elif [[ "$BOARD" == "multi4in1:avr:multiatmega328p:bootloader=none" ]]; then
+      buildReleaseFiles(){
+        build_release_avr_noboot;
+      };
+    elif [[ "$BOARD" == "multi4in1:avr:multiatmega328p:bootloader=optiboot" ]]; then
+      buildReleaseFiles(){
+        build_release_avr_optiboot;
+      };
+    elif [[ "$BOARD" == "multi4in1:STM32F1:multistm32f103c:debug_option=none" ]]; then
+      buildReleaseFiles(){
+        build_release_stm32f1_no_debug;
+      };
+    elif [[ "$BOARD" == "multi4in1:STM32F1:multistm32f103c:debug_option=native" ]]; then
+      buildReleaseFiles(){
+        build_release_stm32f1_native_debug;
+      };
+    elif [[ "$BOARD" == "multi4in1:STM32F1:multistm32f103c:debug_option=ftdi" ]]; then
+      buildReleaseFiles(){
+        build_release_stm32f1_serial_debug;
+      };
+    elif [[ "$BOARD" == "multi4in1:STM32F1:multi5in1t18int" ]]; then
+      buildReleaseFiles(){
+        build_release_stm32f1_t18int;
+      };
+    else
+      buildReleaseFiles() { echo "No release files for this board."; };
+    fi
+
+install:
+  # Install Arduino CLI
+  - mkdir ~/arduino-cli
+  - curl -fsSL https://raw.githubusercontent.com/arduino/arduino-cli/master/install.sh | BINDIR=~/arduino-cli sh;
+  - export PATH=$PATH:$HOME/arduino-cli
+
+  # Update the board url and package index
+  - arduino-cli core update-index --additional-urls https://raw.githubusercontent.com/pascallanger/DIY-Multiprotocol-TX-Module-Boards/master/package_multi_4in1_board_index.json
+
+  # Install the STM32 board if needed
+  - if [[ "$BOARD" =~ "multi4in1:STM32F1:" ]]; then
+      arduino-cli core install multi4in1:STM32F1 --additional-urls https://raw.githubusercontent.com/pascallanger/DIY-Multiprotocol-TX-Module-Boards/master/package_multi_4in1_board_index.json;
+    fi
+
+  # Install the AVR board if needed
+  - if [[ "$BOARD" =~ "multi4in1:avr:" ]]; then
+      arduino-cli core install arduino:avr;
+      arduino-cli core install multi4in1:avr --additional-urls https://raw.githubusercontent.com/pascallanger/DIY-Multiprotocol-TX-Module-Boards/master/package_multi_4in1_board_index.json;
+    fi
+
 before_script:
-  #
+  # Export all the variables
+  - set -a
+
   # Change current working directory to the build dir
   - cd ${TRAVIS_BUILD_DIR}
+
+  # Create somwhere to put the exported binaries
+  - mkdir ./binaries
+
   # Log the initial Multi config 
   - cat Multiprotocol/_Config.h
+
   # Back up the configuration
   - cp Multiprotocol/_Config.h ./_Config.h.bak
+
+  # Get the firmware version number from the source
+  - MAJOR_VERSION=$(grep "VERSION_MAJOR" "Multiprotocol/Multiprotocol.h" | awk -v N=3 '{gsub(/\r/,""); print $N}')
+  - MINOR_VERSION=$(grep "VERSION_MINOR" "Multiprotocol/Multiprotocol.h" | awk -v N=3 '{gsub(/\r/,""); print $N}')
+  - REVISION_VERSION=$(grep "VERSION_REVISION" "Multiprotocol//Multiprotocol.h" | awk -v N=3 '{gsub(/\r/,""); print $N}')
+  - PATCH_VERSION=$(grep "VERSION_PATCH" "Multiprotocol//Multiprotocol.h" | awk -v N=3 '{gsub(/\r/,""); print $N}')
+  - MULTI_VERSION=$MAJOR_VERSION.$MINOR_VERSION.$REVISION_VERSION.$PATCH_VERSION
+
   # Derive the Multi protocols from the Multi source
   - A7105_PROTOCOLS=$(sed -n 's/[\/\/]*[[:blank:]]*#define[[:blank:]]*\([[:alnum:]_]*_A7105_INO\)\(.*\)/\1/p' Multiprotocol/_Config.h)
   - CC2500_PROTOCOLS=$(sed -n 's/[\/\/]*[[:blank:]]*#define[[:blank:]]*\([[:alnum:]_]*_CC2500_INO\)\(.*\)/\1/p' Multiprotocol/_Config.h)
   - CYRF6936_PROTOCOLS=$(sed -n 's/[\/\/]*[[:blank:]]*#define[[:blank:]]*\([[:alnum:]_]*_CYRF6936_INO\)\(.*\)/\1/p' Multiprotocol/_Config.h)
   - NRF24L01_PROTOCOLS=$(sed -n 's/[\/\/]*[[:blank:]]*#define[[:blank:]]*\([[:alnum:]_]*_NRF24L01_INO\)\(.*\)/\1/p' Multiprotocol/_Config.h)
+  - SX1276_PROTOCOLS=$(sed -n 's/[\/\/]*[[:blank:]]*#define[[:blank:]]*\([[:alnum:]_]*_SX1276_INO\)\(.*\)/\1/p' Multiprotocol/_Config.h)
+
+  # Get the full set of protocols for each board
   - if [[ "$BOARD" =~ "multi4in1:avr:multixmega32d4" ]]; then
       ALL_PROTOCOLS=$(echo $CYRF6936_PROTOCOLS);
-    else
+    elif [[ "$BOARD" =~ "multi4in1:avr:multiatmega328p:" ]]; then
       ALL_PROTOCOLS=$(echo $A7105_PROTOCOLS $CC2500_PROTOCOLS $CYRF6936_PROTOCOLS $NRF24L01_PROTOCOLS);
+    elif [[ "$BOARD" =~ "multi4in1:STM32F1:" ]]; then
+      ALL_PROTOCOLS=$(echo $A7105_PROTOCOLS $CC2500_PROTOCOLS $CYRF6936_PROTOCOLS $NRF24L01_PROTOCOLS $SX1276_PROTOCOLS);
     fi
   - echo $ALL_PROTOCOLS
-  #
+
+  # Declare all the installed modules
+  - if [[ "$BOARD" =~ "multi4in1:avr:multixmega32d4" ]]; then
+      ALL_RFMODULES=$(echo CYRF6936_INSTALLED);
+    elif [[ "$BOARD" =~ "multi4in1:avr:multiatmega328p:" ]]; then
+      ALL_RFMODULES=$(echo A7105_INSTALLED CYRF6936_INSTALLED CC2500_INSTALLED NRF24L01_INSTALLED);
+    elif [[ "$BOARD" =~ "multi4in1:STM32F1:" ]]; then
+      ALL_RFMODULES=$(echo A7105_INSTALLED CYRF6936_INSTALLED CC2500_INSTALLED NRF24L01_INSTALLED SX1276_INSTALLED);
+    fi
+  - echo $ALL_RFMODULES
+
   # Disable CHECK_FOR_BOOTLOADER when not needed
   - if [[ "$BOARD" == "multi4in1:avr:multiatmega328p:bootloader=none" ]]; then
       opt_disable CHECK_FOR_BOOTLOADER;
     fi
-  #
-  # Trim the build down for the Atmega328p board
+
+  # Trim the enabled protocols down for the STM32 board with debugging
+  - if [[ "$BOARD" == "multi4in1:STM32F1:multistm32f103c:debug_option=ftdi" ]] || [[ "$BOARD" == "multi4in1:STM32F1:multistm32f103c:debug_option=native" ]]; then
+      opt_disable $ALL_PROTOCOLS;
+      opt_enable FRSKYX_CC2500_INO AFHDS2A_A7105_INO MJXQ_NRF24L01_INO DSM_CYRF6936_INO;
+    fi
+
+  # Trim the enabled protocols down for the Atmega328p board
   - if [[ "$BOARD" =~ "multi4in1:avr:multiatmega328p:" ]]; then
       opt_disable $ALL_PROTOCOLS;
       opt_enable FRSKYX_CC2500_INO AFHDS2A_A7105_INO MJXQ_NRF24L01_INO DSM_CYRF6936_INO;
     fi
-  #
+
+  # Useful Travis functions
+  - export -f travis_fold
+  - export -f travis_nanoseconds
+  - export -f travis_time_start
+  - export -f travis_time_finish
+  - start_fold() { echo -e "travis_fold:start:$1"; }
+  - end_fold() { echo -e "\ntravis_fold:end:$1\r"; }
+
 script:
-  # Build with all protocols enabled for STM32; a subset of protocols for Atmega
-  - buildMulti
-  #
+  # Build with default configuration - all protocols are enabled for STM32; a subset of protocols for Atmega or STM32 debugging
+  - buildDefault
+
   # Serial only
-  - opt_disable ENABLE_PPM
-  - opt_enable ENABLE_SERIAL
-  - buildMulti
-  #
+  - buildSerialOnly
+
   # PPM only
-  - opt_enable ENABLE_PPM
-  - opt_disable ENABLE_SERIAL
-  - buildMulti
-  #
+  - buildPPMOnly
+
   # Re-enable PPM and serial
   - opt_enable ENABLE_SERIAL
   - opt_enable ENABLE_PPM
-  #
-  # Build each protocol individually
-  - buildEachProtocol
-before_deploy:
-  # Create somwhere to put the binaries
-  - mkdir ./binaries
+
+  # Build for each RF module individually
+  - buildEachRFModule
+
   # Restore the default configuration
   - cp ./_Config.h.bak Multiprotocol/_Config.h
-  # Build the release files for OrangeRX
-  - if [[ "$BOARD" == "multi4in1:avr:multixmega32d4" ]]; then
-      opt_enable $ALL_PROTOCOLS;
-      opt_disable ORANGE_TX_BLUE;
-      buildMulti;
-      mv build/Multiprotocol.ino.hex ./binaries/multi-orangerx-green-inv-$TRAVIS_TAG.hex;
-      opt_enable ORANGE_TX_BLUE;
-      buildMulti;
-      mv build/Multiprotocol.ino.hex ./binaries/multi-orangerx-blue-inv-$TRAVIS_TAG.hex;
-    fi
-  # Build the release files for AVR without bootloader
-  - if [[ "$BOARD" == "multi4in1:avr:multiatmega328p:bootloader=none" ]]; then
-      opt_disable CHECK_FOR_BOOTLOADER;
-      opt_disable $ALL_PROTOCOLS;
-      opt_enable $A7105_PROTOCOLS;
-      buildMulti;
-      mv build/Multiprotocol.ino.hex ./binaries/multi-avr-usbasp-A7105-inv-$TRAVIS_TAG.hex;
-      opt_disable $ALL_PROTOCOLS;
-      opt_enable $CC2500_PROTOCOLS;
-      buildMulti;
-      mv build/Multiprotocol.ino.hex ./binaries/multi-avr-usbasp-CC2500-inv-$TRAVIS_TAG.hex;
-      opt_disable $ALL_PROTOCOLS;
-      opt_enable $CYRF6936_PROTOCOLS;
-      buildMulti;
-      mv build/Multiprotocol.ino.hex ./binaries/multi-avr-usbasp-CYRF6936-inv-$TRAVIS_TAG.hex;
-    fi
-  # Build the release files for AVR with bootloader
-  - if [[ "$BOARD" == "multi4in1:avr:multiatmega328p:bootloader=optiboot" ]]; then
-      opt_enable CHECK_FOR_BOOTLOADER;
-      opt_disable $ALL_PROTOCOLS;
-      opt_enable $A7105_PROTOCOLS;
-      buildMulti;
-      mv build/Multiprotocol.ino.hex ./binaries/multi-avr-txflash-A7105-inv-$TRAVIS_TAG.hex;
-      opt_disable $ALL_PROTOCOLS;
-      opt_enable $CC2500_PROTOCOLS;
-      buildMulti;
-      mv build/Multiprotocol.ino.hex ./binaries/multi-avr-txflash-CC2500-inv-$TRAVIS_TAG.hex;
-      opt_disable $ALL_PROTOCOLS;
-      opt_enable $CYRF6936_PROTOCOLS;
-      buildMulti;
-      mv build/Multiprotocol.ino.hex ./binaries/multi-avr-txflash-CYRF6936-inv-$TRAVIS_TAG.hex;
-    fi
-  # Build the release files for STM32 without debug
-  - if [[ "$BOARD" == "multi4in1:STM32F1:multistm32f103c:debug_option=none" ]]; then
-      opt_enable CHECK_FOR_BOOTLOADER;
-      opt_enable $ALL_PROTOCOLS;
-      opt_enable MULTI_STATUS;
-      opt_disable MULTI_TELEMETRY;
-      buildMulti;
-      mv build/Multiprotocol.ino.bin ./binaries/multi-stm-erskytx-inv-$TRAVIS_TAG.bin;
-      opt_disable INVERT_TELEMETRY;
-      buildMulti;
-      mv build/Multiprotocol.ino.bin ./binaries/multi-stm-erskytx-noinv-$TRAVIS_TAG.bin;
-      opt_disable MULTI_STATUS;
-      opt_enable MULTI_TELEMETRY;
-      opt_enable INVERT_TELEMETRY;
-      buildMulti;
-      mv build/Multiprotocol.ino.bin ./binaries/multi-stm-opentx-inv-$TRAVIS_TAG.bin;
-      opt_disable INVERT_TELEMETRY;
-      buildMulti;
-      mv build/Multiprotocol.ino.bin ./binaries/multi-stm-opentx-noinv-$TRAVIS_TAG.bin;
-    fi
-  # Build the release files for STM32 with Native USB debugging
-  - if [[ "$BOARD" == "multi4in1:STM32F1:multistm32f103c:debug_option=native" ]]; then
-      opt_enable CHECK_FOR_BOOTLOADER;
-      opt_enable $ALL_PROTOCOLS;
-      opt_enable MULTI_STATUS;
-      opt_disable MULTI_TELEMETRY;
-      buildMulti;
-      mv build/Multiprotocol.ino.bin ./binaries/multi-stm-erskytx-inv-usbdebug-$TRAVIS_TAG.bin;
-      opt_disable MULTI_STATUS;
-      opt_enable MULTI_TELEMETRY;
-      buildMulti;
-      mv build/Multiprotocol.ino.bin ./binaries/multi-stm-opentx-inv-usbdebug-$TRAVIS_TAG.bin;
-    fi
-  # Build the release files for STM32 with FTDI USB debugging
-  - if [[ "$BOARD" == "multi4in1:STM32F1:multistm32f103c:debug_option=ftdi" ]]; then
-      opt_enable CHECK_FOR_BOOTLOADER;
-      opt_enable $ALL_PROTOCOLS;
-      opt_enable MULTI_STATUS;
-      opt_disable MULTI_TELEMETRY;
-      buildMulti;
-      mv build/Multiprotocol.ino.bin ./binaries/multi-stm-erskytx-inv-ftdidebug-$TRAVIS_TAG.bin;
-      opt_disable MULTI_STATUS;
-      opt_enable MULTI_TELEMETRY;
-      buildMulti;
-      mv build/Multiprotocol.ino.bin ./binaries/multi-stm-opentx-inv-ftdidebug-$TRAVIS_TAG.bin;
-    fi
+
+  # Build each protocol individually
+  - buildEachProtocol
+
+  # Restore the default configuration
+  - cp ./_Config.h.bak Multiprotocol/_Config.h
+
+  # Builds the files for a release - always built, but only copied to Github if the test is tagged as a release
+  - buildReleaseFiles
+
 deploy:
   provider: releases
-  api_key:
+  token:
     secure: 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
   skip_cleanup: true
   file_glob: true

BootLoaders/Boards/Windows/install_drivers.bat

@@ -1,11 +1,11 @@
 @echo off
 
-echo Installing Maple DFU driver...
-"%~dp0wdi-simple" --vid 0x1EAF --pid 0x0003 --type 1 --name "Maple DFU" --dest "%~dp0maple-dfu"
+echo Installing MULTI-Module DFU Bootloader Driver...
+"%~dp0wdi-simple" --vid 0x1EAF --pid 0x0003 --type 2 --name "MULTI-Module DFU Bootloader" --dest "%~dp0MULTI-DFU-Bootloader" -b
 echo.
 
-echo Installing Maple Serial driver...
-"%~dp0wdi-simple" --vid 0x1EAF --pid 0x0004 --type 3 --name "Maple Serial" --dest "%~dp0maple-serial"
+echo Installing MULTI-Module USB Serial Driver...
+"%~dp0wdi-simple" --vid 0x1EAF --pid 0x0004 --type 3 --name "MULTI-Module USB Serial" --dest "%~dp0MULTI-USB-Serial" -b
 echo.
 
 pause

BootLoaders/package_multi_4in1_board_index.json

@@ -152,6 +152,24 @@
         ],
         "toolsDependencies": []
       },
+      {
+        "name": "Multi 4-in-1 AVR Boards",
+        "architecture": "avr",
+        "version": "1.1.0",
+        "category": "Contributed",
+        "help": {
+          "online": "https://github.com/pascallanger/DIY-Multiprotocol-TX-Module"
+        },
+        "url": "https://github.com/pascallanger/DIY-Multiprotocol-TX-Module-Boards/raw/master/archives/package_multi_4in1_avr_board_v1.1.0.tar.gz",
+        "archiveFileName": "package_multi_4in1_avr_board_v1.1.0.tar.gz",
+        "checksum": "SHA-256:7bacf2db754ceb890a203de5ce89d97aa787a9e6462debeb44cf04830859687a",
+        "size": "326431",
+        "boards": [
+          {"name": "Multi 4-in-1 (Atmega328p, 3.3V, 16MHz)"},
+          {"name": "Multi 4-in-1 (OrangeRX)"}
+        ],
+        "toolsDependencies": []
+      },
       {
         "name": "Multi 4-in-1 STM32 Board",
         "architecture": "STM32F1",
@@ -488,6 +506,49 @@
           "version": "4.8.3-2014q1"
         }]
       },
+      {
+        "name": "Multi 4-in-1 STM32 Board",
+        "architecture": "STM32F1",
+        "version": "1.1.7",
+        "category": "Contributed",
+        "help": {
+          "online": "https://github.com/pascallanger/DIY-Multiprotocol-TX-Module"
+        },
+        "url": "https://github.com/pascallanger/DIY-Multiprotocol-TX-Module-Boards/raw/master/archives/package_multi_4in1_stm32_board_v1.1.7.tar.gz",
+        "archiveFileName": "package_multi_4in1_stm32_board_v1.1.7.tar.gz",
+        "checksum": "SHA-256:37cccde7eafad3d0587d28d13d5f8b2b3244bf7c83e6819b6cb08f4f468815e2",
+        "size": "7966348",
+        "boards": [{
+          "name": "Multi 4-in-1 (STM32F103C)"
+        }],
+        "toolsDependencies": [{
+          "packager": "arduino",
+          "name": "arm-none-eabi-gcc",
+          "version": "4.8.3-2014q1"
+        }]
+      },
+      {
+        "name": "Multi X-in-1 STM32 Boards",
+        "architecture": "STM32F1",
+        "version": "1.1.8",
+        "category": "Contributed",
+        "help": {
+          "online": "https://github.com/pascallanger/DIY-Multiprotocol-TX-Module"
+        },
+        "url": "https://github.com/pascallanger/DIY-Multiprotocol-TX-Module-Boards/raw/master/archives/package_multi_4in1_stm32_board_v1.1.8.tar.gz",
+        "archiveFileName": "package_multi_4in1_stm32_board_v1.1.8.tar.gz",
+        "checksum": "SHA-256:e9ed8055ebf72abf37e60e1b8d1c6ee5472132ea7c0a3c4a63fbb8442613e4c2",
+        "size": "7481800",
+        "boards": [
+          {"name": "Multi 4-in-1 (STM32F103C)"},
+          {"name": "Multi 5-in-1 (Jumper T18 Internal)"}
+        ],
+        "toolsDependencies": [{
+          "packager": "arduino",
+          "name": "arm-none-eabi-gcc",
+          "version": "4.8.3-2014q1"
+        }]
+      },
       {
         "name": "Multi 4-in-1 OrangeRX Board - DEPRECATED, USE MULTI 4-IN-1 AVR BOARDS PACKAGE INSTEAD",
         "architecture": "orangerx",

Lua_scripts/DSM FwdPrg.lua

@@ -0,0 +1,557 @@
+local toolName = "TNS|DSM Forward Programming|TNE"
+
+---- #########################################################################
+---- #                                                                       #
+---- # Copyright (C) OpenTX                                                  #
+-----#                                                                       #
+---- # License GPLv2: http://www.gnu.org/licenses/gpl-2.0.html               #
+---- #                                                                       #
+---- # This program is free software; you can redistribute it and/or modify  #
+---- # it under the terms of the GNU General Public License version 2 as     #
+---- # published by the Free Software Foundation.                            #
+---- #                                                                       #
+---- # This program is distributed in the hope that it will be useful        #
+---- # but WITHOUT ANY WARRANTY; without even the implied warranty of        #
+---- # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the         #
+---- # GNU General Public License for more details.                          #
+---- #                                                                       #
+---- #########################################################################
+
+
+--###############################################################################
+-- Multi buffer for DSM description
+-- Multi_Buffer[0..2]=="DSM" -> Lua script is running
+-- Multi_Buffer[3]==0x70+len -> TX to RX data ready to be sent
+-- Multi_Buffer[4..9]=6 bytes of TX to RX data
+-- Multi_Buffer[10..25]=16 bytes of RX to TX data
+--
+-- To start operation:
+--   Write 0x00 at address 3
+--   Write 0x00 at address 10
+--   Write "DSM" at address 0..2
+--###############################################################################
+
+local RX_VERSION, WAIT_CMD, MENU_TITLE, MENU_LINES, MENU_VALUES, VALUE_CHANGING, VALUE_CHANGING_WAIT, VALUE_CHANGED = 0, 1, 2, 3, 4, 5, 6, 7
+local MENU, LIST_MENU_NOCHANGING, LIST_MENU2, PERCENTAGE_VALUE = 0x1C, 0x6C, 0x4C, 0xC0
+local Phase = RX_VERSION
+local Waiting_RX = 0
+local Text = {}
+local Retry=100
+local Blink = 0
+local Value_Changed=0
+
+local Menu = { Cur=nil, Id=nil, Title="", Prev=nil, PrevId=nil, Next=nil, NextId=nil, Back=nil, BackId=nil, CurLine=nil, SelLine=nil, EditLine=nil }
+local Line = {}
+local RX = { Name="", Version="" }
+
+local function conv_int16(number)
+  if number >= 0x8000 then
+    return number - 0x10000
+  end
+  return number
+end
+
+local function Get_Text(index)
+  out = Text[index]
+  if out == nil then -- unknown...
+    out = "Unknown_"..string.format("%X",index)
+  end
+  return out
+end
+
+local function DSM_Release()
+  multiBuffer( 0, 0 )
+end
+
+local function DSM_Send(...)
+  local arg = {...}
+  for i = 1 , #arg do
+    multiBuffer( 3+i, arg[i])
+  end
+  multiBuffer( 3, 0x70+#arg)
+end
+
+local function Value_Add(dir)
+  local line=Line[Menu.SelLine]
+  Speed = getRotEncSpeed()
+  if Speed == ROTENC_MIDSPEED then
+    line.Val = line.Val + (5 * dir)
+  elseif Speed == ROTENC_HIGHSPEED then
+    line.Val = line.Val + (15 * dir)
+  else
+    line.Val = line.Val + dir
+  end
+  if line.Val > line.Max then
+    line.Val = line.Max
+  elseif line.Val < line.Min then
+    line.Val = line.Min
+  end
+  if Line[Menu.SelLine].Type ~= LIST_MENU_NOCHANGING then
+    Phase = VALUE_CHANGING
+    Waiting_RX = 0
+  end
+end
+
+local function DSM_Menu(event)
+  local Speed = 0
+  if event == EVT_VIRTUAL_NEXT then
+    if Menu.EditLine == nil then
+      -- not changing a value
+      if Menu.SelLine ~= nil then
+        if Menu.SelLine < 7 then
+          local num = Menu.SelLine
+          for i = Menu.SelLine + 1, 6, 1 do
+            if Line[i].Type ~= nil and Line[i].Next ~= nil then
+              Menu.SelLine=i
+              break
+            end
+          end
+          if num == Menu.SelLine then
+            if Menu.Next ~= 0 then -- Next
+              Menu.SelLine = 7
+            elseif Menu.Prev ~= 0 then -- Prev
+                Menu.SelLine = 8
+            end
+          end
+        elseif Menu.Prev ~= 0 then -- Prev
+            Menu.SelLine = 8
+        end
+      end
+    else -- need to inc the value
+      Value_Add(1)
+    end
+  elseif event == EVT_VIRTUAL_PREV then
+    if Menu.EditLine == nil then
+      if Menu.SelLine ~= nil then
+        if Menu.SelLine == 8 and Menu.Next ~= 0 then
+          Menu.SelLine = 7
+        elseif Menu.SelLine > 0 then
+          if Menu.SelLine > 6 then
+            Menu.SelLine = 7
+          end
+          local num = Menu.SelLine
+          for i = Menu.SelLine-1, 0, -1 do
+            if Line[i].Type ~= nil and Line[i].Next ~= nil then
+              Menu.SelLine=i
+              break
+            end
+          end
+          if num == Menu.SelLine then -- Back
+            Menu.SelLine = -1
+          end
+        else
+          Menu.SelLine = -1 -- Back
+        end
+      end
+    else -- need to dec the value
+      Value_Add(-1)
+    end
+  elseif event == EVT_VIRTUAL_ENTER then
+    if Menu.SelLine == -1 then -- Back
+        Menu.Cur = Menu.Back
+        Menu.Id = Menu.BackId
+        Menu.SelLine = 0
+        Phase = MENU_TITLE
+        Waiting_RX = 0
+    elseif Menu.SelLine == 7 then -- Next
+        Menu.Cur = Menu.Next
+        Menu.Id = Menu.NextId
+        Menu.SelLine = 0
+        Phase = MENU_TITLE
+        Waiting_RX = 0
+    elseif Menu.SelLine == 8 then -- Prev
+        Menu.Cur = Menu.Prev
+        Menu.Id = Menu.PrevId
+        Menu.SelLine = 0
+        Phase = MENU_TITLE
+        Waiting_RX = 0
+    elseif Menu.SelLine ~= nil and Line[Menu.SelLine].Next ~= nil then
+      if Line[Menu.SelLine].Type == MENU then -- Next menu exist
+        Menu.Cur = Line[Menu.SelLine].Next
+        Menu.Id = Line[Menu.SelLine].NextId
+        Phase = MENU_TITLE
+        Waiting_RX = 0
+      else
+        -- value entry
+        if Menu.EditLine == Menu.SelLine then
+          Menu.EditLine = nil
+          Value_Changed = 0
+          Phase = VALUE_CHANGED
+          Waiting_RX = 0
+        else
+          Menu.EditLine = Menu.SelLine
+        end
+      end
+    end
+  end
+end
+
+local function DSM_Send_Receive()
+  if Waiting_RX == 0 then
+    Waiting_RX = 1
+    -- Need to send a request
+    if Phase == RX_VERSION then -- request RX version
+      DSM_Send(0x11,0x06,0x00,0x14,0x00,0x00)
+    elseif Phase == WAIT_CMD then -- keep connection open
+      DSM_Send(0x00,0x04,0x00,0x00)
+    elseif Phase == MENU_TITLE then -- request menu title
+      if Menu.Cur == nil then
+        DSM_Send(0x12,0x06,0x00,0x14,0x00,0x00) -- first menu only
+        Menu.Cur = 0
+      else
+        DSM_Send(0x16,0x06,Menu.Id,Menu.Cur,0x00,Menu.SelLine)
+      end
+    elseif Phase == MENU_LINES then -- request menu lines
+      if Menu.CurLine == nil then
+        DSM_Send(0x13,0x04,Menu.Id,Menu.Cur) -- line 0
+      elseif Menu.CurLine >= 0x80 then
+        local last_byte={0x40,0x01,0x02,0x04,0x00,0x00} -- unknown...
+        DSM_Send(0x20,0x06,Menu.CurLine-0x80,Menu.CurLine-0x80,0x00,last_byte[Menu.CurLine-0x80+1]) -- line X
+      else
+        DSM_Send(0x14,0x06,Menu.Id,Menu.Cur,0x00,Menu.CurLine) -- line X
+      end
+    elseif Phase == MENU_VALUES then -- request menu values
+      DSM_Send(0x15,0x06,Menu.Id,Menu.Cur,Line[Menu.CurLine].ValId,Menu.CurLine) -- line X
+    elseif Phase == VALUE_CHANGING then -- send value
+      local value=Line[Menu.SelLine].Val
+      if value < 0 then
+        value = 0x10000 + value
+      end
+      DSM_Send(0x18,0x06,Line[Menu.SelLine].ValId,Menu.SelLine,bit32.rshift(value,8),bit32.band(value,0xFF)) -- send current value
+      Phase = VALUE_CHANGING_WAIT
+    elseif Phase == VALUE_CHANGED then -- send value
+      if Value_Changed == 0 then
+        local value=Line[Menu.SelLine].Val
+        if value < 0 then
+          value = 0x10000 + value
+        end
+        DSM_Send(0x18,0x06,Line[Menu.SelLine].ValId,Menu.SelLine,bit32.rshift(value,8),bit32.band(value,0xFF)) -- send current value
+        Value_Changed = Value_Changed + 1
+        Waiting_RX = 0
+      elseif Value_Changed == 1 then
+        DSM_Send(0x19,0x06,Line[Menu.SelLine].ValId,Menu.SelLine) -- validate
+      --  Value_Changed = Value_Changed + 1
+      --  Waiting_RX = 0
+      --elseif Value_Changed == 2 then
+      --  DSM_Send(0x1B,0x06,0x10,Menu.SelLine) -- validate again?
+      --  Value_Changed = Value_Changed + 1
+      end
+    elseif Phase == VALUE_CHANGING_WAIT then
+        DSM_Send(0x1A,0x06,Line[Menu.SelLine].ValId,Menu.SelLine)
+    end
+    multiBuffer(10,0x00);
+    Retry = 50
+  elseif multiBuffer(10) == 0x09 then
+    -- Answer received
+    --if multiBuffer(11) == 0x00 then -- waiting for commands?
+    if multiBuffer(11) == 0x01 then -- read version
+      --ex: 0x09 0x01 0x00 0x15 0x02 0x22 0x01 0x00 0x14 0x00 0x00 0x00 0x00 0x00 0x00 0x00
+      RX.Name = Get_Text(multiBuffer(13))
+      RX.Version = multiBuffer(14).."."..multiBuffer(15).."."..multiBuffer(16)
+      Phase = MENU_TITLE
+    elseif multiBuffer(11) == 0x02 then -- read menu title
+      --ex: 0x09 0x02 0x4F 0x10 0xA5 0x00 0x00 0x00 0x50 0x10 0x10 0x10 0x00 0x00 0x00 0x00
+      Menu.Cur = multiBuffer(12)
+      Menu.Id  = multiBuffer(13)
+      Menu.Title = Get_Text(multiBuffer(14)+multiBuffer(15)*256)
+      Menu.Prev = multiBuffer(16)
+      Menu.PrevId = multiBuffer(17)
+      Menu.Next = multiBuffer(18)
+      Menu.NextId = multiBuffer(19)
+      Menu.Back = multiBuffer(20)
+      Menu.BackId = multiBuffer(21)
+      for i = 0, 6 do  -- clear menu
+        Line[i] = { Menu = nil, Id = nil, Type = nil, Text="", Next = nil, NextId = nil, ValLine = nil, ValId = nil, Min, Max, Def, Val, Unit, Step }
+      end
+      Menu.CurLine = nil
+      if Menu.Next ~= 0 then
+        Menu.SelLine = 7 -- highlight Next
+      else
+        Menu.SelLine = -1 -- highlight Back
+      end
+      Blink = 0
+      Phase = MENU_LINES
+    elseif multiBuffer(11) == 0x03 then -- read menu lines
+      --ex: 0x09 0x03 0x00 0x10 0x00 0x1C 0xF9 0x00 0x10 0x10 0x00 0x00 0x00 0x00 0x03 0x00
+      --              Menu Id   line Type Text_idx  Next  V_Id Val_Min   Val_Max   Val_Def
+      --ex: 0x09 0x03 0x61 0x10 0x00 0x6C 0x50 0x00 0x00 0x10 0x36 0x00 0x49 0x00 0x36 0x00
+      Menu.CurLine = multiBuffer(14)
+      local line = Line[Menu.CurLine]
+      line.Menu = multiBuffer(12)
+      line.Id = multiBuffer(13) -- not quite sure yet
+      line.Type = multiBuffer(15) -- not quite sure yet: 1C is text menu only, 4C/6C is text followed by text list, C0 is text followed by percentage value
+      line.Text = Get_Text(multiBuffer(16)+multiBuffer(17)*256)
+      if multiBuffer(18) == Menu.Cur then
+        line.Next = nil
+      else
+        line.Next = multiBuffer(18) -- not quite sure yet: 1C=text menu=>next menu, others=>line number of the value
+      end
+      if Menu.SelLine == -1 and line.Next ~= nil then -- Auto select first line of the menu
+        Menu.SelLine = Menu.CurLine
+      end
+      line.NextId = multiBuffer(19) -- not quite sure yet
+      line.ValLine = multiBuffer(18) -- not quite sure yet
+      line.ValId = multiBuffer(19) -- not quite sure yet
+      line.Min = conv_int16(multiBuffer(20)+multiBuffer(21)*256)
+      line.Max = conv_int16(multiBuffer(22)+multiBuffer(23)*256)
+      line.Def = conv_int16(multiBuffer(24)+multiBuffer(25)*256)
+      if line.Type == MENU then
+        -- nothing to do on menu entries
+      elseif line.Type == LIST_MENU_NOCHANGING or line.Type == LIST_MENU2 then
+        line.Val = nil --line.Def - line.Min -- use default value not sure if needed
+        line.Def = line.Min -- pointer to the start of the list in Text
+        line.Max = line.Max - line.Min -- max index
+        line.Min = 0 -- min index
+      else -- default to numerical value
+        line.Val = nil --line.Def -- use default value not sure if needed
+      end
+      if line.Type ~= 0x1C then -- value to follow
+        line.Text = line.Text..":"
+      end
+      Phase = MENU_LINES
+    elseif multiBuffer(11) == 0x04 then -- read menu values
+      --ex: 0x09 0x04 0x53 0x10 0x00 0x10 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00
+      --              Menu MeId line VaId Value
+      --ex: 0x09 0x04 0x61 0x10 0x02 0x10 0x01 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00
+      Menu.CurLine = multiBuffer(14)
+      Line[Menu.CurLine].Val = conv_int16(multiBuffer(16)+multiBuffer(17)*256)
+      Phase = MENU_VALUES
+    elseif multiBuffer(11) == 0x05 then -- unknown... need to get through the lines...
+      Menu.CurLine = 0x80 + multiBuffer(12)
+      Phase = MENU_LINES
+    elseif multiBuffer(11) == 0x00 and Phase == VALUE_CHANGING then
+      Phase = VALUE_CHANGING_WAIT
+    end
+    -- Data processed
+    Waiting_RX = 0
+    multiBuffer(10,0x00)
+    Retry = 50
+  else
+    Retry = Retry - 1
+    if Retry <= 0 then
+      -- Retry the RX request
+      Retry = 50
+      Waiting_RX = 0
+      if Phase ~= RX_VERSION and Phase ~= VALUE_CHANGING_WAIT then
+        Phase = WAIT_CMD
+      end
+    end
+  end
+end
+
+local function DSM_Display()
+  lcd.clear()
+  if LCD_W == 480 then
+    --Draw title
+    lcd.drawFilledRectangle(0, 0, LCD_W, 30, TITLE_BGCOLOR)
+    lcd.drawText(1, 5, "DSM Forward Programming", MENU_TITLE_COLOR)
+    --Draw RX Menu
+    if Phase == RX_VERSION then
+      lcd.drawText(10,50,"No compatible DSM RX...", BLINK)
+    else
+      if Menu.Title ~=  nil then
+        local attrib=0;
+        lcd.drawText(80,32,Menu.Title,MIDSIZE)
+        for i = 0, 6 do
+          if i == Menu.SelLine then
+            attrib = INVERS
+          else
+            attrib = 0
+          end
+          if Line[i] ~= nil and Line[i].Type ~= nil then
+            if Line[i].Type ~= MENU then -- list/value
+              if Line[i].Val ~= nil then
+                local text=""
+                if Line[i].Type == LIST_MENU_NOCHANGING or Line[i].Type == LIST_MENU2 then
+                  text = Get_Text(Line[i].Val+Line[i].Def)
+                elseif Line[i].Type == PERCENTAGE_VALUE then
+                  text = Line[i].Val.." %"
+                else
+                  text = Line[i].Val
+                end
+                if Menu.EditLine == Menu.SelLine then -- blink edited entry
+                  Blink = Blink + 1
+                  if Blink > 25 then
+                    attrib = 0
+                    if Blink > 50 then
+                      Blink = 0
+                    end
+                  end
+                end
+                lcd.drawText(240,32+20*(i+2), text, attrib) -- display value
+              end
+              attrib = 0
+            end
+            lcd.drawText(10,32+20*(i+2), Line[i].Text, attrib) -- display text
+          end
+        end
+        if Menu.SelLine == -1 then
+          lcd.drawText(437,32, "Back", INVERS)
+        else
+          lcd.drawText(437,32, "Back", 0)
+        end
+        lcd.drawRectangle(437-5, 32-2, 47, 25)
+        if Menu.Next ~= 0 then
+          if Menu.SelLine == 7 then
+            lcd.drawText(437,220, "Next",INVERS)
+          else
+            lcd.drawText(437,220, "Next")
+          end
+          lcd.drawRectangle(437-5, 220-2, 47, 25)
+        end
+        if Menu.Prev ~= 0 then
+          if Menu.SelLine == 8 then
+            lcd.drawText(5,220, "Prev",INVERS)
+          else
+            lcd.drawText(5,220, "Prev")
+          end
+          lcd.drawRectangle(5-5, 220-2, 47, 25)
+        end
+      end
+      lcd.drawText(170,252, "RX "..RX.Name.." v"..RX.Version) -- display RX info
+    end
+  else
+    -- --Draw RX Menu on LCD_W=128
+    -- if multiBuffer( 4 ) == 0xFF then
+      -- lcd.drawText(2,17,"No compatible DSM RX...",SMLSIZE)
+    -- else
+      -- if Retry_128 ~= 0 then
+        -- --Intro page
+        -- Retry_128 = Retry_128 - 1
+        -- lcd.drawScreenTitle("DSM Forward Programming",0,0)
+        -- lcd.drawText(2,17,"Press Prev Page for previous Menu" ,SMLSIZE)
+      -- else
+        -- --Menu page
+        -- for line = 0, 7, 1 do
+          -- for i = 0, 21-1, 1 do
+            -- value=multiBuffer( line*21+6+i )
+            -- if value > 0x80 then
+              -- value = value - 0x80
+              -- lcd.drawText(2+i*6,1+8*line,string.char(value).." ",SMLSIZE+INVERS)
+            -- else
+              -- lcd.drawText(2+i*6,1+8*line,string.char(value),SMLSIZE)
+            -- end
+          -- end
+        -- end
+      -- end
+    -- end
+  end
+end
+
+-- Init
+local function DSM_Init()
+  --Set protocol to talk to
+  multiBuffer( 0, string.byte('D') )
+  --test if value has been written
+  if multiBuffer( 0 ) ~=  string.byte('D') then
+    error("Not enough memory!")
+    return 2
+  end
+  --Init TX buffer
+  multiBuffer( 3, 0x00 )
+  --Init RX buffer
+  multiBuffer( 10, 0x00 )
+  --Init telemetry
+  multiBuffer( 0, string.byte('D') )
+  multiBuffer( 1, string.byte('S') )
+  multiBuffer( 2, string.byte('M') )
+
+  --Text to be displayed -> need to use a file instead?
+  --RX names--
+  Text[0x0014]="SPM4651T"
+  Text[0x0015]="AR637T"
+  --Lists--
+  Text[0x0036]="Throttle"
+  Text[0x0037]="Aileron"
+  Text[0x0038]="Elevator"
+  Text[0x0039]="Rudder"
+  Text[0x003A]="Gear"
+  for i=1,7 do -- 3B..41
+    Text[0x003A+i]="Aux"..i
+  end
+  for i=1,8 do -- 41..49
+    Text[0x0041+i]="XPlus-"..i
+  end
+  Text[0x004A]="Failsafe"
+  Text[0x004B]="Main Menu"
+  Text[0x004E]="Position"
+  Text[0x0050]="Outputs"
+  --Text[0x005E]="Inhibit"
+  Text[0x005F]="Hold Last"
+  Text[0x0060]="Preset"
+  --Text[0x0061]="Custom"
+  --Messages--
+  Text[0x0090]="Apply"
+  Text[0x0093]="Complete"
+  Text[0x0094]="Done"
+  Text[0x0097]="Factory Reset"
+  Text[0x009A]="Capture Failsafe Positions"
+  Text[0x009C]="Custom Failsafe"
+  Text[0x00A5]="First Time Setup"
+  Text[0x00F9]="Gyro settings"
+  Text[0x0100]="Make sure the model has been"
+  Text[0x0101]="configured, including wing type,"
+  Text[0x0102]="reversing, travel, trimmed, etc."
+  Text[0x0103]="before continuing setup."
+  Text[0x0104]=""
+  Text[0x0105]=""
+  Text[0x0106]="Any wing type, channel assignment,"
+  Text[0x0107]="subtrim, or servo reversing changes"
+  Text[0x0108]="require running through initial"
+  Text[0x0109]="setup again."
+  Text[0x010A]=""
+  Text[0x010B]=""
+
+  Text[0x019C]="Enter Receiver Bind Mode"
+  Text[0x020A]="Restore from Backup"
+  Text[0x0209]="Save to Backup"
+
+  Text[0x021A]="Set the model level,"
+  Text[0x021B]="and press  Continue."
+  Text[0x021C]=""
+  Text[0x021D]=""
+  
+  Text[0x021F]="Set the model on its nose,"
+  Text[0x0220]="and press Continue. If the"
+  Text[0x0221]="orientation on the next"
+  Text[0x0222]="screen is wrong go back"
+  Text[0x0223]="and try again."
+  Text[0x0224]="Continue"
+  Text[0x0229]="Set Orientation Manually"
+  
+  Text[0x0227]="Other settings"
+  Text[0x022B]="WARNING!"
+  Text[0x022C]="This will reset the"
+  Text[0x022D]="configuration to factory"
+  Text[0x022E]="defaults. This does not"
+  Text[0x022F]="affect the backup config."
+  Text[0x0230]=""
+  Text[0x0231]="This will overwrite the"
+  Text[0x0232]="backup memory with your"
+  Text[0x0233]="current configuartion."
+  Text[0x0234]=""
+  Text[0x0235]=""
+  Text[0x0236]="This will overwrite the"
+  Text[0x0237]="current config with"
+  Text[0x0238]="that which is in"
+  Text[0x0239]="the backup memory."
+  Text[0x023A]=""
+end
+
+-- Main
+local function DSM_Run(event)
+  if event == nil then
+    error("Cannot be run as a model script!")
+    return 2
+  elseif event == EVT_VIRTUAL_EXIT then
+    DSM_Release()
+    return 2
+  else
+    DSM_Menu(event)
+    DSM_Send_Receive()
+    DSM_Display()
+    return 0
+  end
+end
+
+return { init=DSM_Init, run=DSM_Run }

Lua_scripts/Graupner HoTT.lua

@@ -0,0 +1,171 @@
+---- #########################################################################
+---- #                                                                       #
+---- # Copyright (C) OpenTX                                                  #
+-----#                                                                       #
+---- # License GPLv2: http://www.gnu.org/licenses/gpl-2.0.html               #
+---- #                                                                       #
+---- # This program is free software; you can redistribute it and/or modify  #
+---- # it under the terms of the GNU General Public License version 2 as     #
+---- # published by the Free Software Foundation.                            #
+---- #                                                                       #
+---- # This program is distributed in the hope that it will be useful        #
+---- # but WITHOUT ANY WARRANTY; without even the implied warranty of        #
+---- # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the         #
+---- # GNU General Public License for more details.                          #
+---- #                                                                       #
+---- #########################################################################
+
+
+--###############################################################################
+-- Multi buffer for HoTT description
+-- To start operation:
+--   Write "HoTT" at address 0..3
+--   Write 0xFF at address 4 will request the buffer to be cleared
+--   Write 0x0F at address 5
+-- Read buffer from address 6 access the RX text for 168 bytes, 21 caracters
+--    by 8 lines
+-- Write at address 5 sends an order to the RX: 0xXF=start, 0xX7=prev page,
+--    0xXE=next page, 0xX9=enter, 0xXD=next or 0xXB=prev with X being the sensor
+--    to request data from 8=RX only, 9=Vario, A=GPS, B=Cust, C=ESC, D=GAM, E=EAM
+-- Write at address 4 the value 0xFF will request the buffer to be cleared
+-- !! Before exiting the script must write 0 at address 0 for normal operation !!
+--###############################################################################
+
+HoTT_Sensor = 0
+Timer_128 = 100
+
+local function HoTT_Release()
+  multiBuffer( 0, 0 )
+end
+
+local function HoTT_Send(button)
+  multiBuffer( 5, 0x80+(HoTT_Sensor*16) + button)
+end
+
+local function HoTT_Sensor_Inc()
+  local detected_sensors=multiBuffer( 4 )
+  local a
+  if detected_sensors ~= 0xFF then
+    repeat
+        HoTT_Sensor=(HoTT_Sensor+1)%7	-- Switch to next sensor
+        if HoTT_Sensor ~= 0 then
+          a = math.floor(detected_sensors/ (2^(HoTT_Sensor-1))) -- shift right
+        end
+    until HoTT_Sensor==0 or a % 2 == 1
+    HoTT_Send( 0x0F )
+  end
+end
+
+local function HoTT_Draw_LCD()
+  local i
+  local value
+  local line
+  local result
+  local offset=0
+  
+  local sensor_name = { "", "+Vario", "+GPS", "+Cust", "+ESC", "+GAM", "+EAM" }
+
+  lcd.clear()
+
+  if LCD_W == 480 then
+    --Draw title
+    lcd.drawFilledRectangle(0, 0, LCD_W, 30, TITLE_BGCOLOR)
+    lcd.drawText(1, 5, "Graupner HoTT: config RX" .. sensor_name[HoTT_Sensor+1] .. " - Menu cycle Sensors", MENU_TITLE_COLOR)
+    --Draw RX Menu
+    if multiBuffer( 4 ) == 0xFF then
+      lcd.drawText(10,50,"No HoTT telemetry...", BLINK)
+    else
+      for line = 0, 7, 1 do
+        for i = 0, 21-1, 1 do
+          value=multiBuffer( line*21+6+i )
+          if value > 0x80 then
+            value = value - 0x80
+            lcd.drawText(10+i*16,32+20*line,string.char(value).."   ",INVERS)
+          else
+            lcd.drawText(10+i*16,32+20*line,string.char(value))
+          end
+        end
+      end
+    end
+  else
+    --Draw RX Menu on LCD_W=128
+    if multiBuffer( 4 ) == 0xFF then
+      lcd.drawText(2,17,"No HoTT telemetry...",SMLSIZE)
+    else
+      if Timer_128 ~= 0 then
+        --Intro page
+        Timer_128 = Timer_128 - 1
+        lcd.drawScreenTitle("Graupner Hott",0,0)
+        lcd.drawText(2,17,"Configuration of RX" .. sensor_name[HoTT_Sensor+1] ,SMLSIZE)
+        lcd.drawText(2,37,"Press menu to cycle Sensors" ,SMLSIZE)
+      else
+        --Menu page
+        for line = 0, 7, 1 do
+          for i = 0, 21-1, 1 do
+            value=multiBuffer( line*21+6+i )
+            if value > 0x80 then
+              value = value - 0x80
+              lcd.drawText(2+i*6,1+8*line,string.char(value).." ",SMLSIZE+INVERS)
+            else
+              lcd.drawText(2+i*6,1+8*line,string.char(value),SMLSIZE)
+            end
+          end
+        end
+      end
+    end
+  end
+end
+
+-- Init
+local function HoTT_Init()
+  --Set protocol to talk to
+  multiBuffer( 0, string.byte('H') )
+  --test if value has been written
+  if multiBuffer( 0 ) ~=  string.byte('H') then
+    error("Not enough memory!")
+    return 2
+  end
+  multiBuffer( 1, string.byte('o') )
+  multiBuffer( 2, string.byte('T') )
+  multiBuffer( 3, string.byte('T') )
+  --Request init of the RX buffer
+  multiBuffer( 4, 0xFF )
+  --Request RX to send the config menu
+  HoTT_Send( 0x0F )
+  HoTT_Sensor = 0;
+  HoTT_Detected_Sensors=0;
+  Timer_128 = 100
+end
+
+-- Main
+local function HoTT_Run(event)
+  if event == nil then
+    error("Cannot be run as a model script!")
+    return 2
+  elseif event == EVT_VIRTUAL_EXIT then
+    HoTT_Release()
+    return 2
+  else
+    if event == EVT_VIRTUAL_PREV_PAGE then
+      killEvents(event)
+      HoTT_Send( 0x07 )
+    elseif event == EVT_VIRTUAL_ENTER then
+      HoTT_Send( 0x09 )
+    elseif event == EVT_VIRTUAL_PREV then
+      HoTT_Send( 0x0B )
+    elseif event == EVT_VIRTUAL_NEXT then
+      HoTT_Send( 0x0D )
+    elseif event == EVT_VIRTUAL_NEXT_PAGE then
+      HoTT_Send( 0x0E )
+    elseif event == EVT_VIRTUAL_MENU then
+      Timer_128 = 100
+      HoTT_Sensor_Inc()
+    else
+      HoTT_Send( 0x0F )
+    end
+    HoTT_Draw_LCD()
+    return 0
+  end
+end
+
+return { init=HoTT_Init, run=HoTT_Run }

Lua_scripts/MultiChan.txt

@@ -0,0 +1,177 @@
+24,0,Assan,Std,0,CH5,CH6,CH7,CH8
+14,0,Bayang,Std,1,Flip,RTH,Pict,Video,HLess,Invert,Rates,n-a,n-a,AnAux1,AnAux2
+14,1,Bayang,H8S3D,1,Flip,RTH,Pict,Video,HLess,Invert,Rates
+14,2,Bayang,X16_AH,1,Flip,RTH,Pict,Video,HLess,Invert,Rates,TakeOf
+14,3,Bayang,IRDRONE,1,Flip,RTH,Pict,Video,HLess,Invert,Rates,TakeOf,EmStop
+14,4,Bayang,DHD_D4,1,Flip,RTH,Pict,Video,HLess,Invert,Rates,TakeOf,EmStop
+14,5,Bayang,QX100,1,Flip,RTH,Pict,Video,HLess,Invert,Rates,TakeOf,EmStop
+59,0,BayangRX,RX,1,AnAux1,AnAux2,Flip,RTH,Pict,Video
+41,0,Bugs,3-6-8,0,Arm,Angle,Flip,Pict,Video,LED
+42,0,BugsMini,Mini,0,Arm,Angle,Flip,Pict,Video,LED
+42,1,BugsMini,3H,0,Arm,Angle,Flip,Pict,Video,LED,AltHol
+34,0,Cabell,V3,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+34,1,Cabell,V3Telem,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+13,0,CG023,Std,1,Flip,Light,Pict,Video,HLess
+13,1,CG023,YD829,1,Flip,n-a,Pict,Video,HLess
+37,0,Corona,COR_V1,0,CH5,CH6,CH7,CH8
+37,1,Corona,COR_V2,0,CH5,CH6,CH7,CH8
+37,2,Corona,FD_V3,0,CH5,CH6,CH7,CH8
+12,0,CX10,Green,1,Flip,Rate
+12,1,CX10,Blue,1,Flip,Rate,Pict,Video
+12,2,CX10,DM007,1,Flip,Mode,Pict,Video,HLess
+12,4,CX10,JC3015_1,1,Flip,Mode,Pict,Video
+12,5,CX10,JC3015_2,1,Flip,Mode,LED,DFlip
+12,6,CX10,MK33041,1,Flip,Mode,Pict,Video,HLess,RTH
+7,0,Devo,8CH,0,CH5,CH6,CH7,CH8
+7,1,Devo,10CH,0,CH5,CH6,CH7,CH8,CH9,CH10
+7,2,Devo,12CH,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12
+7,3,Devo,6CH,0,CH5,CH6
+7,4,Devo,7CH,0,CH5,CH6,CH7
+33,0,DM022,Std,1,Flip,LED,Cam1,Cam2,HLess,RTH,RLow
+6,0,DSM,2_22,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,n-a,ThKill
+6,1,DSM,2_11,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,n-a,ThKill
+6,2,DSM,X_22,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,n-a,ThKill
+6,3,DSM,X_11,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,n-a,ThKill
+6,4,DSM,AUTO,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,n-a,ThKill
+70,0,DSM_RX,RX,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12
+45,0,E01X,E012,1,n-a,Flip,n-a,HLess,RTH
+45,1,E01X,E015,1,Arm,Flip,LED,HLess,RTH
+45,2,E01X,E016H,1,Stop,Flip,n-a,HLess,RTH
+16,0,ESKY,Std,0,Gyro,Pitch
+16,1,ESKY,ET4,0,Gyro,Pitch
+35,0,ESKY150,4CH,0
+35,1,ESKY150,7CH,0,FMode,Aux6,Aux7
+69,0,ESKY150V2,Std,0,CH5_RA,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+1,0,Flysky,Flysky,0,CH5,CH6,CH7,CH8
+1,1,Flysky,V9x9,1,Flip,Light,Pict,Video
+1,2,Flysky,V6x6,1,Flip,Light,Pict,Video,HLess,RTH,XCAL,YCAL
+1,3,Flysky,V912,1,BtmBtn,TopBtn
+1,4,Flysky,CX20,0,CH5,CH6,CH7
+28,0,Flysky_AFHDS2A,PWM_IBUS,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14
+28,1,Flysky_AFHDS2A,PPM_IBUS,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14
+28,2,Flysky_AFHDS2A,PWM_SBUS,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14
+28,3,Flysky_AFHDS2A,PPM_SBUS,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14
+28,4,Flysky_AFHDS2A,PWM_IB16,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+28,5,Flysky_AFHDS2A,PPM_IB16,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+56,0,Flysky2A_RX,RX,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14
+53,0,Height,5ch,0,Gear
+53,1,Height,8ch,0,Gear,Gyro,Flap,Light
+25,0,FrSkyV,V8,0,CH5,CH6,CH7,CH8
+3,0,FrSkyD,D8,0,CH5,CH6,CH7,CH8
+3,0,FrSkyD,D8Cloned,0,CH5,CH6,CH7,CH8
+67,0,FrSkyL,LR12,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12
+67,1,FrSkyL,LR12_6CH,0,CH5,CH6
+15,0,FrSkyX,D16_FCC,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+15,1,FrSkyX,D16_8CH_FCC,0,CH5,CH6,CH7,CH8
+15,2,FrSkyX,D16_LBT,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+15,3,FrSkyX,D16_8CH_LBT,0,CH5,CH6,CH7,CH8
+15,4,FrSkyX,D16Cloned,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+15,5,FrSkyX,D16Cloned_8CH,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+64,0,FrSkyX2,D16_FCC,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+64,1,FrSkyX2,D16_8CH_FCC,0,CH5,CH6,CH7,CH8
+64,2,FrSkyX2,D16_LBT,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+64,3,FrSkyX2,D16_8CH_LBT,1,CH5,CH6,CH7,CH8
+64,4,FrSkyX2,D16Cloned,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+64,5,FrSkyX2,D16Cloned_8CH,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+65,0,FrSkyR9,R9_915,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+65,1,FrSkyR9,R9_868,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+65,2,FrSkyR9,R9_915_8CH,0,CH5,CH6,CH7,CH8
+65,3,FrSkyR9,R9_968_8CH,0,CH5,CH6,CH7,CH8
+55,0,FrSkyRX,RX,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14,CH15,CH16
+55,1,FrSkyRX,CloneTX,0
+58,0,FX816,P38,1
+20,0,FY326,FY326,1,Flip,RTH,HLess,Expert,Calib
+20,1,FY326,FY319,1,Flip,RTH,HLess,Expert,Calib
+23,0,FY326,FY326,1,Flip,RTH,HLess,Expert
+47,0,GD00x,V1,1,Trim,LED,Rate
+47,1,GD00x,V2,1,Trim,LED,Rate
+32,0,GW008,FY326,1,Flip
+36,0,H8_3D,Std,1,Flip,Light,Pict,Video,RTH,FlMode,Cal1
+36,1,H8_3D,H20H,1,Flip,Light,Pict,Video,Opt1,Opt2,Cal1,Cal2,Gimbal
+36,2,H8_3D,H20,1,Flip,Light,Pict,Video,Opt1,Opt2,Cal1,Cal2,Gimbal
+36,3,H8_3D,H30,1,Flip,Light,Pict,Video,Opt1,Opt2,Cal1,Cal2,Gimbal
+4,0,Hisky,Std,0,Gear,Pitch,Gyro,CH8
+4,1,Hisky,HK310,0,Aux
+39,0,Hitec,Opt_Fw,0,CH5,CH6,CH7,CH8,CH9
+39,1,Hitec,Opt_Hub,0,CH5,CH6,CH7,CH8,CH9
+39,2,Hitec,Minima,0,CH5,CH6,CH7,CH8,CH9
+26,0,Hontai,Std,1,Flip,LED,Pict,Video,HLess,RTH,Calib
+26,1,Hontai,JJRCX1,1,Flip,Arm,Pict,Video,HLess,RTH,Calib
+26,2,Hontai,X5C1,1,Flip,Arm,Pict,Video,HLess,RTH,Calib
+26,3,Hontai,FQ777_951,1,Flip,Arm,Pict,Video,HLess,RTH,Calib
+57,0,HoTT,Sync,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12
+57,1,HoTT,No_Sync,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12
+2,0,Hubsan,H107,1,Flip,Light,Pict,Video,HLess
+2,1,Hubsan,H301,0,RTH,Light,Stab,Video
+2,2,Hubsan,H501,0,RTH,Light,Pict,Video,HLess,GPS_H,ALT_H,Flip,FModes
+22,0,J6Pro,Std,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12
+71,0,JJRC345,JJRC345,1,Flip,HLess,RTH,LED,UNK1,UNK2,UNK3
+71,1,JJRC345,SkyTmblr,1,Flip,HLess,RTH,LED,UNK1,UNK2,UNK3
+49,0,KF606,Std,1,Trim
+9,0,KN,WLToys,0,DRate,THold,IdleUp,Gyro,Ttrim,Atrim,Etrim
+9,1,KN,Feilun,0,DRate,THold,IdleUp,Gyro,Ttrim,Atrim,Etrim
+73,0,Kyosho,Std,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12,CH13,CH14
+18,0,MJXQ,WHL08,1,Flip,LED,Pict,Video,HLess,RTH,AuFlip,Pan,Tilt,Rate
+18,1,MJXQ,X600,1,Flip,LED,Pict,Video,HLess,RTH,AuFlip,Pan,Tilt,Rate
+18,2,MJXQ,X800,1,Flip,LED,Pict,Video,HLess,RTH,AuFlip,Pan,Tilt,Rate
+18,3,MJXQ,H26D,1,Flip,LED,Pict,Video,HLess,RTH,AuFlip,Pan,Tilt,Rate
+18,4,MJXQ,E010,1,Flip,LED,Pict,Video,HLess,RTH,AuFlip,Pan,Tilt,Rate
+18,5,MJXQ,H26WH,1,Flip,Arm,Pict,Video,HLess,RTH,AuFlip,Pan,Tilt,Rate
+18,6,MJXQ,Phoenix,1,Flip,Arm,Pict,Video,HLess,RTH,AuFlip,Pan,Tilt,Rate
+17,0,MT99XX,Std,1,Flip,LED,Pict,Video,HLess
+17,1,MT99XX,H7,1,Flip,LED,Pict,Video,HLess
+17,2,MT99XX,YZ,1,Flip,LED,Pict,Video,HLess
+17,3,MT99XX,LS,1,Flip,Invert,Pict,Video,HLess
+17,4,MT99XX,FY805,1,Flip,n-a,n-a,n-a,HLess
+44,0,NCC1701,Std,1,Warp
+77,0,OMP,M2,0,THold,IdleUp,6G_3D
+60,0,Pelikan,PRO_V4,0,CH5,CH6,CH7,CH8
+60,1,Pelikan,LITE_V4,0,CH5,CH6,CH7,CH8
+51,0,Potensic,A20,1,TakLan,Emerg,Mode,HLess
+66,0,Propel,74-Z,1,LEDs,RollCW,RolCCW,Fire,Weapon,Calib,AltHol,TakeOf,Land,Train
+29,0,Q2x2,Q222,1,Flip,LED,Mod2,Mod1,HLess,RTH,XCal,YCal
+29,1,Q2x2,Q242,1,Flip,LED,Pict,Video,HLess,RTH,XCal,YCal
+29,2,Q2x2,Q282,1,Flip,LED,Pict,Video,HLess,RTH,XCal,YCal
+31,0,Q303,Q303,1,AltHol,Flip,Pict,Video,HLess,RTH,Gimbal
+31,1,Q303,C35,1,Arm,VTX,Pict,Video,n-a,RTH,Gimbal
+31,2,Q303,CX10D,1,Arm,Flip
+31,3,Q303,CX10WD,1,Arm,Flip
+72,0,Q90C,Std,0,FMode,VTX+
+74,0,RadioLink,Surface,0,CH5,CH6,CH7,CH8,FS_CH1,FS_CH2,FS_CH3,FS_CH4,FS_CH5,FS_CH6,FS_CH7,FS_CH8
+74,1,RadioLink,Air,0,CH5,CH6,CH7,CH8,FS_CH1,FS_CH2,FS_CH3,FS_CH4,FS_CH5,FS_CH6,FS_CH7,FS_CH8
+76,0,Realacc,R11,1,Flip,Light,Calib,HLess,RTH,UNK
+50,0,Redpine,Fast,0,sCH5,sCH6,sCH7,sCH8,sCH9,sCH10,sCH11,sCH12,sCH13,sCH14,sCH15,sCH16
+50,1,Redpine,Slow,0,sCH5,sCH6,sCH7,sCH8,sCH9,sCH10,sCH11,sCH12,sCH13,sCH14,sCH15,sCH16
+21,0,Futaba,SFHSS,0,CH5,CH6,CH7,CH8
+19,0,Shenqi,Cycle,1
+68,0,Skyartec,Std,0,CH5,CH6,CH7
+11,0,SLT,V1,0,Gear,Pitch
+11,1,SLT,V2,0,CH5,CH6,CH7,CH8
+11,2,SLT,Q100,0,Rates,n-a,CH7,CH8,Mode,Flip,n-a,n-a,Calib
+11,3,SLT,Q200,0,Rates,n-a,CH7,CH8,Mode,VidOn,VidOff,Calib
+11,4,SLT,MR100,0,Rates,n-a,CH7,CH8,Mode,Flip,Video,Pict
+10,0,Symax,Std,1,Flip,Rates,Pict,Video,HLess
+10,1,Symax,X5C,1,Flip,Rates,Pict,Video,HLess
+61,0,Tiger,Std,1,Flip,Light
+43,0,Traxxas,6519,0
+5,0,V2x2,Std,1,Flip,Light,Pict,Video,HLess,CalX,CalY
+5,1,V2x2,JXD506,1,Flip,Light,Pict,Video,HLess,StaSto,Emerg,Cam_UD
+48,0,V761,3CH,0,Gyro,Calib,Flip,RtnAct,Rtn
+48,1,V761,4CH,0,Gyro,Calib,Flip,RtnAct,Rtn
+46,0,V911s,V911s,1,Calib
+46,1,V911s,E119,1,Calib
+22,0,WFLY,WFR0xS,0,CH5,CH6,CH7,CH8,CH9
+30,0,WK2x01,WK2801,0,CH5,CH6,CH7,CH8
+30,1,WK2x01,WK2401,0
+30,2,WK2x01,W6_5_1,0,Gear,Dis,Gyro
+30,3,WK2x01,W6_6_1,0,Gear,Col,Gyro
+30,4,WK2x01,W6HEL,0,Gear,Col,Gyro
+30,5,WK2x01,W6HEL_I,0,Gear,Col,Gyro
+62,0,XK,X450,1,FMode,TakeOf,Emerg,3D_6G,Pict,Video
+62,1,XK,X420,1,FMode,TakeOf,Emerg,3D_6G,Pict,Video
+8,0,YD717,Std,1,Flip,Light,Pict,Video,HLess
+8,1,YD717,SkyWlkr,1,Flip,Light,Pict,Video,HLess
+8,2,YD717,Simax4,1,Flip,Light,Pict,Video,HLess
+8,3,YD717,XinXun,1,Flip,Light,Pict,Video,HLess
+8,4,YD717,NiHui,1,Flip,Light,Pict,Video,HLess
+52,0,ZSX,280,1,Light

Lua_scripts/MultiChannelsUpdater.lua

@@ -0,0 +1,311 @@
+
+local toolName = "TNS|Multi chan namer|TNE"
+
+---- #########################################################################
+---- #                                                                       #
+---- # Copyright (C) OpenTX                                                  #
+-----#                                                                       #
+---- # License GPLv2: http://www.gnu.org/licenses/gpl-2.0.html               #
+---- #                                                                       #
+---- # This program is free software; you can redistribute it and/or modify  #
+---- # it under the terms of the GNU General Public License version 2 as     #
+---- # published by the Free Software Foundation.                            #
+---- #                                                                       #
+---- # This program is distributed in the hope that it will be useful        #
+---- # but WITHOUT ANY WARRANTY; without even the implied warranty of        #
+---- # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the         #
+---- # GNU General Public License for more details.                          #
+---- #                                                                       #
+---- #########################################################################
+
+local protocol_name = ""
+local sub_protocol_name = ""
+local bind_ch = 0
+local module_conf = {}
+local module_pos = "Internal"
+local file_ok = 0
+local done = 0
+local protocol = 0
+local sub_protocol = 0
+local f_seek = 0
+local channel_names={}
+local num_search = "Searching"
+
+local function drawScreenTitle(title)
+    if LCD_W == 480 then
+        lcd.drawFilledRectangle(0, 0, LCD_W, 30, TITLE_BGCOLOR)
+        lcd.drawText(1, 5, title, MENU_TITLE_COLOR)
+    else
+        lcd.drawScreenTitle(title, 0, 0)
+    end
+end
+
+function bitand(a, b)
+    local result = 0
+    local bitval = 1
+    while a > 0 and b > 0 do
+      if a % 2 == 1 and b % 2 == 1 then -- test the rightmost bits
+          result = result + bitval      -- set the current bit
+      end
+      bitval = bitval * 2 -- shift left
+      a = math.floor(a/2) -- shift right
+      b = math.floor(b/2)
+    end
+    return result
+end
+
+local function Multi_Draw_LCD(event)
+  local line = 0
+
+  lcd.clear()
+  drawScreenTitle("Multi channels namer")
+
+  --Display settings
+  local lcd_opt = 0
+  if LCD_W == 480 then
+    x_pos = 10
+    y_pos = 32
+    y_inc = 20
+  else
+    x_pos = 0
+    y_pos = 9
+    y_inc = 8
+    lcd_opt = SMLSIZE
+  end
+
+  --Multi Module detection
+  if module_conf["Type"] ~= 6 then
+    if LCD_W == 480 then
+      lcd.drawText(10,50,"No Multi module configured...", BLINK)
+    else
+      --Draw on LCD_W=128
+      lcd.drawText(2,17,"No Multi module configured...",SMLSIZE)
+    end
+    return
+  else
+    lcd.drawText(x_pos, y_pos+y_inc*line,module_pos .. " Multi detected.", lcd_opt)
+    line = line + 1
+  end
+
+  --Channel order
+  if (ch_order == -1) then
+    lcd.drawText(x_pos, y_pos+y_inc*line,"Channels order can't be read from Multi...", lcd_opt)
+    line = line + 1
+  end
+
+  --Can't open file MultiChan.txt
+  if file_ok == 0 then
+    lcd.drawText(x_pos, y_pos+y_inc*line,"Can't read MultiChan.txt file...", lcd_opt)
+    return
+  end
+
+  if ( protocol_name == "" or sub_protocol_name == "" ) and f_seek ~=-1 then
+    local f = io.open("/SCRIPTS/TOOLS/MultiChan.txt", "r")
+    if f == nil then return end
+    lcd.drawText(x_pos, y_pos+y_inc*line,num_search, lcd_opt)
+    num_search = num_search .. "."
+    if #num_search > 15 then
+      num_search = string.sub(num_search,1,9)
+    end
+    local proto = 0
+    local sub_proto = 0
+    local proto_name = ""
+    local sub_proto_name = ""
+    local channels = ""
+    local nbr_try = 0
+    local nbr_car = 0
+    repeat
+      io.seek(f, f_seek)
+      local data = io.read(f, 100)      -- read 100 characters
+      if #data ==0 then
+          f_seek = -1                   -- end of file
+          break
+      end
+      proto, sub_proto, proto_name, sub_proto_name, bind_ch, channels = string.match(data,'(%d+),(%d),([%w-_ ]+),([%w-_ ]+),(%d)(.+)')
+      if proto ~= nil and sub_proto ~= nil and protocol_name ~= nil and sub_protocol_name ~= nil and bind_ch ~= nil then
+        if tonumber(proto) == protocol and tonumber(sub_proto) == sub_protocol then
+          protocol_name = proto_name
+          sub_protocol_name = sub_proto_name
+          bind_ch = tonumber(bind_ch)
+          if channels ~= nil then
+            --extract channel names
+            nbr_car = string.find(channels, "\r")
+            if nbr_car == nil then nbr_car = string.find(channels, "\n") end
+            if nbr_car ~= nil then
+              channels = string.sub(channels,1,nbr_car-1)
+            end
+            local i = 5
+            for k in string.gmatch(channels, ",([%w-_ ]+)") do
+              channel_names[i] = k
+              i = i + 1
+            end
+          end
+          f_seek = -1                   -- protocol found
+          break
+        end
+      end
+      if f_seek ~= -1 then
+        nbr_car = string.find(data, "\n")
+        if nbr_car == nil then nbr_car = string.find(data, "\r") end
+        if nbr_car == nil then
+          f_seek = -1                   -- end of file
+          break
+        end
+        f_seek = f_seek + nbr_car       -- seek to next line
+        nbr_try = nbr_try + 1
+      end
+    until nbr_try > 20 or f_seek == -1
+    io.close(f)
+  end
+  
+  if f_seek ~= -1 then
+    return -- continue searching...
+  end
+
+  --Protocol & Sub_protocol
+  if protocol_name == "" or sub_protocol_name == "" then
+    lcd.drawText(x_pos, y_pos+y_inc*line,"Unknown protocol "..tostring(protocol).."/"..tostring(sub_protocol).." ...", lcd_opt)
+    return
+  elseif LCD_W > 128 then
+    lcd.drawText(x_pos, y_pos+y_inc*line,"Protocol: " .. protocol_name .. " / SubProtocol: " .. sub_protocol_name, lcd_opt)
+    line = line + 1
+  else
+    lcd.drawText(x_pos, y_pos+y_inc*line,"Protocol: " .. protocol_name, lcd_opt)
+    line = line + 1
+    lcd.drawText(x_pos, y_pos+y_inc*line,"SubProtocol: " .. sub_protocol_name, lcd_opt)
+    line = line + 1
+  end
+
+  text1=""
+  text2=""
+  for i,v in ipairs(channel_names) do
+    if i<=8 then
+      if i==1 then
+        text1 = v
+      else
+        text1=text1 .. "," .. v
+      end
+    else
+      if i==9 then
+        text2 = v
+      else
+        text2=text2 .. "," .. v
+      end
+    end
+  end
+  if LCD_W > 128 then
+    lcd.drawText(x_pos, y_pos+y_inc*line,"Channels: " .. text1, lcd_opt)
+    line = line + 1
+    if text2 ~= "" then
+      lcd.drawText(x_pos*9, y_pos+y_inc*line,text2, lcd_opt)
+      line = line + 1
+    end
+  end
+
+  if event ~= EVT_VIRTUAL_ENTER and done == 0 then
+    lcd.drawText(x_pos, y_pos+y_inc*line,"<ENT> Save", lcd_opt + INVERS + BLINK)
+    return
+  end
+  
+  lcd.drawText(x_pos, y_pos+y_inc*line,"Setting channel names.", lcd_opt)
+  line = line + 1
+  local output, nbr
+  if done == 0 then
+    for i,v in ipairs(channel_names) do
+      output = model.getOutput(i-1)
+      output["name"] = v
+      model.setOutput(i-1,output)
+      nbr = i
+    end
+    for i = nbr, 15 do
+      output = model.getOutput(i)
+      output["name"] = "n-a"
+      model.setOutput(i,output)
+    end
+    if bind_ch == 1 then
+      output = model.getOutput(15)
+      output["name"] = "BindCH"
+      model.setOutput(15,output)
+    end
+    done = 1
+  end
+  lcd.drawText(x_pos, y_pos+y_inc*line,"Done!", lcd_opt)
+  line = line + 1
+end
+
+-- Init
+local function Multi_Init()
+  module_conf = model.getModule(0)
+  if module_conf["Type"] ~= 6 then
+    module_pos = "External"
+    module_conf = model.getModule(1)
+    if module_conf["Type"] ~= 6 then
+      return
+    end
+  end
+
+  protocol = module_conf["protocol"]
+  sub_protocol = module_conf["subProtocol"]
+
+  --Exceptions on first 4 channels...
+  local stick_names = { "Rud", "Ele", "Thr", "Ail" }
+  if ( protocol == 4 and sub_protocol == 1 ) or protocol == 19  or protocol == 52 then -- Hisky/HK310, Shenqi, ZSX
+    stick_names[2] = "n-a"
+    stick_names[4] = "n-a"
+  elseif protocol == 43 then -- Traxxas
+    stick_names[2] = "Aux4"
+    stick_names[4] = "Aux3"
+  elseif ( protocol == 48 and sub_protocol == 0 ) then -- V761 3CH
+    stick_names[4] = "n-a"
+  elseif protocol == 47 or  protocol == 49 or  protocol == 58 then -- GD00x, KF606, FX816
+    stick_names[1] = "n-a"
+    stick_names[2] = "n-a"
+  end
+
+  --Determine fist 4 channels order
+  local ch_order=module_conf["channelsOrder"]
+  if (ch_order == -1) then
+    channel_names[1] = stick_names[defaultChannel(0)+1]
+    channel_names[2] = stick_names[defaultChannel(1)+1]
+    channel_names[3] = stick_names[defaultChannel(2)+1]
+    channel_names[4] = stick_names[defaultChannel(3)+1]
+  else
+    channel_names[bitand(ch_order,3)+1] = stick_names[4]
+    ch_order = math.floor(ch_order/4)
+    channel_names[bitand(ch_order,3)+1] = stick_names[2]
+    ch_order = math.floor(ch_order/4)
+    channel_names[bitand(ch_order,3)+1] = stick_names[3]
+    ch_order = math.floor(ch_order/4)
+    channel_names[bitand(ch_order,3)+1] = stick_names[1]
+  end
+ 
+  --Exceptions on first 4 channels...
+  if ( protocol == 73 or (protocol == 74 and sub_protocol == 0) ) then -- Kyosho or RadioLink Surface
+    channel_names[1] = "ST"
+    channel_names[2] = "THR"
+    channel_names[3] = "CH3"
+    channel_names[4] = "CH4"
+  end
+ 
+  --Check MultiChan.txt
+  local f = io.open("/SCRIPTS/TOOLS/MultiChan.txt", "r")
+  if f == nil then return end
+  file_ok = 1
+  io.close(f)
+end
+
+-- Main
+local function Multi_Run(event)
+  if event == nil then
+    error("Cannot be run as a model script!")
+    return 2
+  else
+    Multi_Draw_LCD(event)
+    if event == EVT_VIRTUAL_EXIT then
+      return 2
+    end
+  end
+  return 0
+end
+
+return { init=Multi_Init, run=Multi_Run }

Lua_scripts/README.md

@@ -0,0 +1,44 @@
+# Multiprotocol TX Module OpenTX LUA scripts
+<img align="right" width=300 src="../docs/images/multi.png" />
+
+If you like this project and want to support further development please consider making a [donation](../docs/Donations.md).  
+
+<table cellspacing=0>
+  <tr>
+    <td align=center width=200><a href="https://www.paypal.com/cgi-bin/webscr?cmd=_donations&business=VF2K9T23DRY56&lc=US&item_name=DIY%20Multiprotocol&currency_code=EUR&amount=5&bn=PP%2dDonationsBF%3abtn_donate_SM%2egif%3aNonHosted"><img src="../docs/images/donate_button.png" border="0" name="submit" title="PayPal - Donate €5" alt="Donate €5"/></a><br><b>€5</b></td>
+    <td align=center width=200><a href="https://www.paypal.com/cgi-bin/webscr?cmd=_donations&business=VF2K9T23DRY56&lc=US&item_name=DIY%20Multiprotocol&currency_code=EUR&amount=10&bn=PP%2dDonationsBF%3abtn_donate_SM%2egif%3aNonHosted"><img src="../docs/images/donate_button.png" border="0" name="submit" title="PayPal - Donate €10" alt="Donate €10"/></a><br><b>€10</b></td>
+    <td align=center width=200><a href="https://www.paypal.com/cgi-bin/webscr?cmd=_donations&business=VF2K9T23DRY56&lc=US&item_name=DIY%20Multiprotocol&currency_code=EUR&amount=15&bn=PP%2dDonationsBF%3abtn_donate_SM%2egif%3aNonHosted"><img src="../docs/images/donate_button.png" border="0" name="submit" title="PayPal - Donate €15" alt="Donate €10"/></a><br><b>€15</b></td>
+    <td align=center width=200><a href="https://www.paypal.com/cgi-bin/webscr?cmd=_donations&business=VF2K9T23DRY56&lc=US&item_name=DIY%20Multiprotocol&currency_code=EUR&amount=25&bn=PP%2dDonationsBF%3abtn_donate_SM%2egif%3aNonHosted"><img src="../docs/images/donate_button.png" border="0" name="submit" title="PayPal - Donate €25" alt="Donate €25"/></a><br><b>€25</b></td>
+    <td align=center width=200><a href="https://www.paypal.com/cgi-bin/webscr?cmd=_donations&business=VF2K9T23DRY56&lc=US&item_name=DIY%20Multiprotocol&currency_code=EUR&bn=PP%2dDonationsBF%3abtn_donate_SM%2egif%3aNonHosted"><img src="../docs/images/donate_button.png" border="0" name="submit" title="PayPal - Donate" alt="Donate"/></a><br><b>Other</b></td>
+  </tr>
+</table>
+
+## MultiChannelsUpdater.lua
+
+Automatically name the channels based on the loaded Multi protocol and sub protocol including the module channel order convention.
+
+Need OpenTX 2.3.9 or above. Located on the radio SD card under \SCRIPTS\TOOLS. This script needs MultiChan.txt to be present in the same folder.
+
+[![MultiChannelsUpdater](https://img.youtube.com/vi/L58ayXuewyA/0.jpg)](https://www.youtube.com/watch?v=L58ayXuewyA)
+
+## DSM Forward Programming
+
+This is a work in progress. It's only available for color screens (Horus, TX16S, T16, T18...).
+
+If some text appears as Unknown_xxx, please report xxx and what the exact text display should be.
+
+Need OpenTX 2.3.10 nightly or above. Located on the radio SD card under \SCRIPTS\TOOLS.
+
+[![DSM Forward Programming](https://img.youtube.com/vi/sjIaDw5j9nE/0.jpg)](https://www.youtube.com/watch?v=sjIaDw5j9nE)
+
+## Graupner HoTT.ua
+
+Enable text configuration of the HoTT RX and sensors: Vario, GPS, ESC, GAM and EAM.
+
+Need OpenTX 2.3.9 or above. Located on the radio SD card under \SCRIPTS\TOOLS.
+
+Notes:
+- Menu/MDL/Model is used to cycle through the detected sensors.
+- It's normal to lose the telemetry feed while using the text mode configuration. Telemetry will resume properly if the script is exited by doing a short press on the exit button.
+
+[![Text mode video](https://img.youtube.com/vi/81wd8NlF3Qw/0.jpg)](https://www.youtube.com/watch?v=81wd8NlF3Qw)

Multiprotocol/A7105_SPI.ino

@@ -27,7 +27,7 @@ void A7105_WriteData(uint8_t len, uint8_t channel)
 	for (i = 0; i < len; i++)
 		SPI_Write(packet[i]);
 	A7105_CSN_on;
-	if(protocol!=PROTO_FLYSKY)
+	if(!(protocol==PROTO_FLYSKY || protocol==PROTO_KYOSHO))
 	{
 		A7105_Strobe(A7105_STANDBY);	//Force standby mode, ie cancel any TX or RX...
 		A7105_SetTxRxMode(TX_EN);		//Switch to PA
@@ -192,12 +192,23 @@ void A7105_AdjustLOBaseFreq(uint8_t cmd)
 					offset=(int16_t)FORCE_FLYSKY_TUNING;
 				#endif
 				break;
-			case PROTO_FLYZONE:
-				#ifdef FORCE_FLYZONE_TUNING
-					offset=(int16_t)FORCE_FLYZONE_TUNING;
+			case PROTO_HEIGHT:
+				#ifdef FORCE_HEIGHT_TUNING
+					offset=(int16_t)FORCE_HEIGHT_TUNING;
+				#endif
+				break;
+			case PROTO_PELIKAN:
+				#ifdef FORCE_PELIKAN_TUNING
+					offset=(int16_t)FORCE_PELIKAN_TUNING;
+				#endif
+				break;
+			case PROTO_KYOSHO:
+				#ifdef FORCE_KYOSHO_TUNING
+					offset=(int16_t)FORCE_KYOSHO_TUNING;
 				#endif
 				break;
 			case PROTO_AFHDS2A:
+			case PROTO_AFHDS2A_RX:
 				#ifdef FORCE_AFHDS2A_TUNING
 					offset=(int16_t)FORCE_AFHDS2A_TUNING;
 				#endif
@@ -252,7 +263,7 @@ static void __attribute__((unused)) A7105_SetVCOBand(uint8_t vb1, uint8_t vb2)
 		A7105_WriteReg(A7105_25_VCO_SBCAL_I, vb2 | 0x08);
 }
 
-#ifdef AFHDS2A_A7105_INO
+#if defined(AFHDS2A_A7105_INO) || defined(AFHDS2A_RX_A7105_INO)
 const uint8_t PROGMEM AFHDS2A_A7105_regs[] = {
 	0xFF, 0x42 | (1<<5), 0x00, 0x25, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x01, 0x3c, 0x05, 0x00, 0x50,	// 00 - 0f
 	0x9e, 0x4b, 0x00, 0x02, 0x16, 0x2b, 0x12, 0x4f, 0x62, 0x80, 0xFF, 0xFF, 0x2a, 0x32, 0xc3, 0x1f,				// 10 - 1f
@@ -276,8 +287,8 @@ const uint8_t PROGMEM FLYSKY_A7105_regs[] = {
 	0x01, 0x0f // 30 - 31
 };
 #endif
-#ifdef FLYZONE_A7105_INO
-const uint8_t PROGMEM FLYZONE_A7105_regs[] = {
+#ifdef HEIGHT_A7105_INO
+const uint8_t PROGMEM HEIGHT_A7105_regs[] = {
 	0xff, 0x42, 0x00, 0x07, 0x00, 0xff, 0xff ,0x00, 0x00, 0x00, 0x00, 0x01, 0x21, 0x05, 0x01, 0x50,	// 00 - 0f
 	0x9e, 0x4b, 0x00, 0x02, 0x16, 0x2b, 0x12, 0x00, 0x62, 0x80, 0x80, 0x00, 0x0a, 0x32, 0xc3, 0x1f,	// 10 - 1f
 	0x12, 0x00, 0x00, 0xff, 0x00, 0x00, 0x3a, 0x00, 0x3f, 0x47, 0x80, 0x03, 0x01, 0x45, 0x18, 0x00,	// 20 - 2f
@@ -292,6 +303,28 @@ const uint8_t PROGMEM HUBSAN_A7105_regs[] = {
 	0xFF, 0xFF // 30 - 31
 };
 #endif
+#ifdef PELIKAN_A7105_INO
+const uint8_t PROGMEM PELIKAN_A7105_regs[] = {
+	0xff, 0x42, 0x00, 0x0F, 0x00, 0xff, 0xff ,0x00, 0x00, 0x00, 0x00, 0x01, 0x21, 0x05, 0x01, 0x50,	// 00 - 0f
+	0x9e, 0x4b, 0x00, 0x02, 0x16, 0x2b, 0x12, 0x00, 0x62, 0x80, 0x80, 0x00, 0x0a, 0x32, 0xc3, 0x07,	// 10 - 1f
+	0x16, 0x00, 0x00, 0xff, 0x00, 0x00, 0x3b, 0x00, 0x1f, 0x47, 0x80, 0x03, 0x01, 0x45, 0x18, 0x00,	// 20 - 2f
+	0x01, 0x0f // 30 - 31
+};
+#endif
+#ifdef KYOSHO_A7105_INO
+const uint8_t PROGMEM KYOSHO_A7105_regs[] = {
+	0xff, 0x42, 0xff, 0x25, 0x00, 0xff, 0xff ,0x00, 0x00, 0x00, 0x00, 0x01, 0x21, 0x05, 0x00, 0x50,	// 00 - 0f
+	0x9e, 0x4b, 0x00, 0x02, 0x16, 0x2b, 0x12, 0x40, 0x62, 0x80, 0x80, 0x00, 0x0a, 0x32, 0x03, 0x1f,	// 10 - 1f
+	0x1e, 0x00, 0x00, 0xff, 0x00, 0x00, 0x23, 0x70, 0x1F, 0x47, 0x80, 0x57, 0x01, 0x45, 0x19, 0x00,	// 20 - 2f
+	0x01, 0x0f // 30 - 31
+};
+const uint8_t PROGMEM KYOSHO_HYPE_A7105_regs[] = {
+	0xff, 0x42, 0x00, 0x10, 0xC0, 0xff, 0xff ,0x00, 0x00, 0x00, 0x00, 0x01, 0x09, 0x05, 0x01, 0x04,	// 00 - 0f
+	0x9e, 0x4b, 0x00, 0x02, 0x16, 0x2b, 0x12, 0x00, 0x62, 0x80, 0x80, 0x00, 0x0a, 0x96, 0xc2, 0x1f,	// 10 - 1f
+	0x12, 0x00, 0x00, 0xff, 0x00, 0x00, 0x3a, 0x00, 0x17, 0x47, 0x80, 0x03, 0x01, 0x45, 0x18, 0x00,	// 20 - 2f
+	0x01, 0x0f // 30 - 31
+};
+#endif
 
 #define ID_NORMAL 0x55201041
 #define ID_PLUS   0xAA201041
@@ -300,14 +333,22 @@ void A7105_Init(void)
 	uint8_t *A7105_Regs=0;
     uint8_t vco_calibration0, vco_calibration1;
 	
-	#ifdef FLYZONE_A7105_INO
-		if(protocol==PROTO_FLYZONE)
+	#ifdef HEIGHT_A7105_INO
+		if(protocol==PROTO_HEIGHT)
 		{
-			A7105_Regs=(uint8_t*)FLYZONE_A7105_regs;
+			A7105_Regs=(uint8_t*)HEIGHT_A7105_regs;
 			A7105_WriteID(0x25A53C45);
 		}
 		else
 	#endif
+	#ifdef PELIKAN_A7105_INO
+		if(protocol==PROTO_PELIKAN)
+		{
+			A7105_Regs=(uint8_t*)PELIKAN_A7105_regs;
+			A7105_WriteID(0x06230623);
+		}
+		else
+	#endif
 	#ifdef BUGS_A7105_INO
 		if(protocol==PROTO_BUGS)
 			A7105_Regs=(uint8_t*)BUGS_A7105_regs;
@@ -326,13 +367,20 @@ void A7105_Init(void)
 			#ifdef FLYSKY_A7105_INO
 				if(protocol==PROTO_FLYSKY)
 					A7105_Regs=(uint8_t*)FLYSKY_A7105_regs;
-				else
 			#endif
+			#if defined(AFHDS2A_A7105_INO) || defined(AFHDS2A_RX_A7105_INO)
+				if(protocol==PROTO_AFHDS2A)
+					A7105_Regs=(uint8_t*)AFHDS2A_A7105_regs;
+			#endif
+			#ifdef KYOSHO_A7105_INO
+				if(protocol==PROTO_KYOSHO)
 				{
-					#ifdef AFHDS2A_A7105_INO
-						A7105_Regs=(uint8_t*)AFHDS2A_A7105_regs;
-					#endif
+					if(sub_protocol==KYOSHO_FHSS)
+						A7105_Regs=(uint8_t*)KYOSHO_A7105_regs;
+					else
+						A7105_Regs=(uint8_t*)KYOSHO_HYPE_A7105_regs;
 				}
+			#endif
 		}
 
 	for (uint8_t i = 0; i < 0x32; i++)
@@ -346,61 +394,84 @@ void A7105_Init(void)
 				if(i==0x20) val=0x1E;
 			}
 		#endif
+		#ifdef HEIGHT_A7105_INO
+			if(protocol==PROTO_HEIGHT && sub_protocol==HEIGHT_8CH)
+				if(i==0x03) val=0x0A;
+		#endif
 		if( val != 0xFF)
 			A7105_WriteReg(i, val);
 	}
 	A7105_Strobe(A7105_STANDBY);
 
-	//IF Filter Bank Calibration
-	A7105_WriteReg(A7105_02_CALC,1);
-	while(A7105_ReadReg(A7105_02_CALC));			// Wait for calibration to end
-//	A7105_ReadReg(A7105_22_IF_CALIB_I);
-//	A7105_ReadReg(A7105_24_VCO_CURCAL);
-
-	if(protocol!=PROTO_HUBSAN)
-	{
-		//VCO Current Calibration
-		A7105_WriteReg(A7105_24_VCO_CURCAL,0x13);	//Recommended calibration from A7105 Datasheet
-		//VCO Bank Calibration
-		A7105_WriteReg(A7105_26_VCO_SBCAL_II,0x3b);	//Recommended calibration from A7105 Datasheet
+	if(protocol==PROTO_KYOSHO && sub_protocol==KYOSHO_FHSS)
+	{//strange calibration...
+		//IF Filter Bank Calibration
+		A7105_WriteReg(A7105_02_CALC,0x0F);
+		while(A7105_ReadReg(A7105_02_CALC));			// Wait for calibration to end
+	//	A7105_ReadReg(A7105_22_IF_CALIB_I);
+	//	A7105_ReadReg(A7105_24_VCO_CURCAL);
+	//	A7105_ReadReg(25_VCO_SBCAL_I);
+	//	A7105_ReadReg(1A_RX_GAIN_II);
+	//	A7105_ReadReg(1B_RX_GAIN_III);
 	}
-
-	//VCO Bank Calibrate channel 0
-	A7105_WriteReg(A7105_0F_CHANNEL, 0);
-	A7105_WriteReg(A7105_02_CALC,2);
-	while(A7105_ReadReg(A7105_02_CALC));			// Wait for calibration to end
-	vco_calibration0 = A7105_ReadReg(A7105_25_VCO_SBCAL_I);
-	
-	//VCO Bank Calibrate channel A0
-	A7105_WriteReg(A7105_0F_CHANNEL, 0xa0);
-	A7105_WriteReg(A7105_02_CALC, 2);
-	while(A7105_ReadReg(A7105_02_CALC));			// Wait for calibration to end
-	vco_calibration1 = A7105_ReadReg(A7105_25_VCO_SBCAL_I);
-
-	if(protocol==PROTO_BUGS)
-		A7105_SetVCOBand(vco_calibration0 & 0x07, vco_calibration1 & 0x07);	// Set calibration band value to best match
 	else
+	{
+		//IF Filter Bank Calibration
+		A7105_WriteReg(A7105_02_CALC,1);
+		while(A7105_ReadReg(A7105_02_CALC));			// Wait for calibration to end
+	//	A7105_ReadReg(A7105_22_IF_CALIB_I);
+	//	A7105_ReadReg(A7105_24_VCO_CURCAL);
+
 		if(protocol!=PROTO_HUBSAN)
 		{
-			switch(protocol)
-			{
-				case PROTO_FLYSKY:
-					vco_calibration1=0x08;
-					break;
-				case PROTO_FLYZONE:
-					vco_calibration1=0x02;
-					break;
-				default:
-					vco_calibration1=0x0A;
-					break;
-			}
-			A7105_WriteReg(A7105_25_VCO_SBCAL_I,vco_calibration1);	//Reset VCO Band calibration
+			//VCO Current Calibration
+			A7105_WriteReg(A7105_24_VCO_CURCAL,0x13);	//Recommended calibration from A7105 Datasheet
+			//VCO Bank Calibration
+			A7105_WriteReg(A7105_26_VCO_SBCAL_II,0x3b);	//Recommended calibration from A7105 Datasheet
 		}
 
+		//VCO Bank Calibrate channel 0
+		A7105_WriteReg(A7105_0F_CHANNEL, 0);
+		A7105_WriteReg(A7105_02_CALC,2);
+		while(A7105_ReadReg(A7105_02_CALC));			// Wait for calibration to end
+		vco_calibration0 = A7105_ReadReg(A7105_25_VCO_SBCAL_I);
+		
+		//VCO Bank Calibrate channel A0
+		A7105_WriteReg(A7105_0F_CHANNEL, 0xa0);
+		A7105_WriteReg(A7105_02_CALC, 2);
+		while(A7105_ReadReg(A7105_02_CALC));			// Wait for calibration to end
+		vco_calibration1 = A7105_ReadReg(A7105_25_VCO_SBCAL_I);
+
+		if(protocol==PROTO_BUGS)
+			A7105_SetVCOBand(vco_calibration0 & 0x07, vco_calibration1 & 0x07);	// Set calibration band value to best match
+		else
+			if(protocol!=PROTO_HUBSAN)
+			{
+				switch(protocol)
+				{
+					case PROTO_FLYSKY:
+						vco_calibration1=0x08;
+						break;
+					case PROTO_HEIGHT:
+						vco_calibration1=0x02;
+						break;
+					case PROTO_PELIKAN:
+					case PROTO_KYOSHO: //sub_protocol Hype
+						vco_calibration1=0x0C;
+						break;
+					default:
+						vco_calibration1=0x0A;
+						break;
+				}
+				A7105_WriteReg(A7105_25_VCO_SBCAL_I,vco_calibration1);	//Reset VCO Band calibration
+			}
+	}
 	A7105_SetTxRxMode(TX_EN);
 	A7105_SetPower();
 
-	A7105_AdjustLOBaseFreq(0);
+	#ifdef USE_A7105_CH15_TUNING
+		A7105_AdjustLOBaseFreq(0);
+	#endif
 	
 	A7105_Strobe(A7105_STANDBY);
 }

Multiprotocol/AFHDS2A_Rx_a7105.ino

@@ -0,0 +1,205 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(AFHDS2A_RX_A7105_INO)
+
+#include "iface_a7105.h" 
+
+#define AFHDS2A_RX_TXPACKET_SIZE	38
+#define AFHDS2A_RX_RXPACKET_SIZE	37
+#define AFHDS2A_RX_NUMFREQ			16
+
+enum {
+	AFHDS2A_RX_BIND1,
+	AFHDS2A_RX_BIND2,
+	AFHDS2A_RX_DATA
+};
+
+static void __attribute__((unused)) AFHDS2A_Rx_build_telemetry_packet()
+{
+	uint32_t bits = 0;
+	uint8_t bitsavailable = 0;
+	uint8_t idx = 0;
+
+	packet_in[idx++] = RX_LQI; // 0 - 130
+	packet_in[idx++] = RX_RSSI;
+	packet_in[idx++] = 0; // start channel
+	packet_in[idx++] = 14; // number of channels in packet
+	// pack channels
+	for (uint8_t i = 0; i < 14; i++) {
+		uint32_t val = packet[9+i*2] | ((packet[10+i*2] << 8)&0x0F);
+		if (val < 860)
+			val = 860;
+		// convert ppm (860-2140) to Multi (0-2047)
+		val = min(((val-860)<<3)/5, 2047);
+
+		bits |= val << bitsavailable;
+		bitsavailable += 11;
+		while (bitsavailable >= 8) {
+			packet_in[idx++] = bits & 0xff;
+			bits >>= 8;
+			bitsavailable -= 8;
+		}
+	}
+}
+
+static uint8_t __attribute__((unused)) AFHDS2A_Rx_data_ready()
+{
+	// check if FECF+CRCF Ok
+	return !(A7105_ReadReg(A7105_00_MODE) & (1 << 5 | 1 << 6 | 1 << 0));
+}
+
+uint16_t initAFHDS2A_Rx()
+{
+	uint8_t i;
+	A7105_Init();
+	hopping_frequency_no = 0;
+	packet_count = 0;
+	rx_data_started = false;
+	rx_disable_lna = IS_POWER_FLAG_on;
+	A7105_SetTxRxMode(rx_disable_lna ? TXRX_OFF : RX_EN);
+	A7105_Strobe(A7105_RX);
+
+	if (IS_BIND_IN_PROGRESS) {
+		phase = AFHDS2A_RX_BIND1;
+	}
+	else {
+		uint16_t temp = AFHDS2A_RX_EEPROM_OFFSET;
+		for (i = 0; i < 4; i++)
+			rx_id[i] = eeprom_read_byte((EE_ADDR)temp++);
+		for (i = 0; i < AFHDS2A_RX_NUMFREQ; i++)
+			hopping_frequency[i] = eeprom_read_byte((EE_ADDR)temp++);
+		phase = AFHDS2A_RX_DATA;
+	}
+	return 1000;
+}
+
+#define AFHDS2A_RX_WAIT_WRITE 0x80
+
+uint16_t AFHDS2A_Rx_callback()
+{
+	static int8_t read_retry;
+	int16_t temp;
+	uint8_t i;
+
+#ifndef FORCE_AFHDS2A_TUNING
+	A7105_AdjustLOBaseFreq(1);
+#endif
+	if (rx_disable_lna != IS_POWER_FLAG_on) {
+		rx_disable_lna = IS_POWER_FLAG_on;
+		A7105_SetTxRxMode(rx_disable_lna ? TXRX_OFF : RX_EN);
+	}
+
+	switch(phase) {
+	case AFHDS2A_RX_BIND1:
+		if(IS_BIND_DONE) return initAFHDS2A_Rx();	// Abort bind
+		if (AFHDS2A_Rx_data_ready()) {
+			A7105_ReadData(AFHDS2A_RX_TXPACKET_SIZE);
+			if ((packet[0] == 0xbb && packet[9] == 0x01) ||	(packet[0] == 0xbc && packet[9] <= 0x02)) {
+				memcpy(rx_id, &packet[1], 4); // TX id actually
+				memcpy(hopping_frequency, &packet[11], AFHDS2A_RX_NUMFREQ);
+				phase = AFHDS2A_RX_BIND2;
+			}
+		}
+		A7105_WriteReg(A7105_0F_PLL_I, (packet_count++ & 1) ? 0x0D : 0x8C); // bind channels
+		A7105_SetTxRxMode(RX_EN);
+		A7105_Strobe(A7105_RX);
+		return 10000;
+
+	case AFHDS2A_RX_BIND2:
+		if(IS_BIND_DONE) return initAFHDS2A_Rx();	// Abort bind
+		// got 2nd bind packet from tx ?
+		if (AFHDS2A_Rx_data_ready()) {
+			A7105_ReadData(AFHDS2A_RX_TXPACKET_SIZE);
+			if ((packet[0] == 0xBC && packet[9] == 0x02 && packet[10] == 0x00) &&
+				(memcmp(rx_id, &packet[1], 4) == 0) &&
+				(memcmp(rx_tx_addr, &packet[5], 4) == 0)) {
+				// save tx info to eeprom
+				temp = AFHDS2A_RX_EEPROM_OFFSET;
+				for (i = 0; i < 4; i++)
+					eeprom_write_byte((EE_ADDR)temp++, rx_id[i]);
+				for (i = 0; i < AFHDS2A_RX_NUMFREQ; i++)
+					eeprom_write_byte((EE_ADDR)temp++, hopping_frequency[i]);
+				BIND_DONE;
+				phase = AFHDS2A_RX_DATA;
+				return 3850;
+			}
+		}
+
+		// transmit response packet
+		packet[0] = 0xBC;
+		memcpy(&packet[1], rx_id, 4);
+		memcpy(&packet[5], rx_tx_addr, 4);
+		packet[9] = 0x01;
+		packet[10] = 0x00;
+		memset(&packet[11], 0xFF, 26);
+		A7105_SetTxRxMode(TX_EN);
+		A7105_WriteData(AFHDS2A_RX_RXPACKET_SIZE, packet_count++ & 1 ? 0x0D : 0x8C);
+		phase |= AFHDS2A_RX_WAIT_WRITE;
+		return 1700;
+	
+	case AFHDS2A_RX_BIND2 | AFHDS2A_RX_WAIT_WRITE:
+		//Wait for TX completion
+		pps_timer = micros();
+		while (micros() - pps_timer < 700) // Wait max 700µs, using serial+telemetry exit in about 120µs
+			if (!(A7105_ReadReg(A7105_00_MODE) & 0x01))
+				break;
+		A7105_SetTxRxMode(RX_EN);
+		A7105_Strobe(A7105_RX);
+		phase &= ~AFHDS2A_RX_WAIT_WRITE;
+		return 10000;
+	
+	case AFHDS2A_RX_DATA:
+		if (AFHDS2A_Rx_data_ready()) {
+			A7105_ReadData(AFHDS2A_RX_TXPACKET_SIZE);
+			if (memcmp(&packet[1], rx_id, 4) == 0 && memcmp(&packet[5], rx_tx_addr, 4) == 0) {
+				if (packet[0] == 0x58 && packet[37] == 0x00 && telemetry_link == 0) { // standard packet, send channels to TX
+					int rssi = min(A7105_ReadReg(A7105_1D_RSSI_THOLD),160);
+					RX_RSSI = map16b(rssi, 160, 8, 0, 128);
+					AFHDS2A_Rx_build_telemetry_packet();
+					telemetry_link = 1;
+				}
+				rx_data_started = true;
+				read_retry = 10; // hop to next channel
+				pps_counter++;
+			}
+		}
+		
+		// packets per second
+		if (millis() - pps_timer >= 1000) {
+			pps_timer = millis();
+			debugln("%d pps", pps_counter);
+			RX_LQI = pps_counter / 2;
+			pps_counter = 0;
+		}
+
+		// frequency hopping
+		if (read_retry++ >= 10) {
+			hopping_frequency_no++;
+			if(hopping_frequency_no >= AFHDS2A_RX_NUMFREQ)
+				hopping_frequency_no = 0;
+			A7105_WriteReg(A7105_0F_PLL_I, hopping_frequency[hopping_frequency_no]);
+			A7105_Strobe(A7105_RX);
+			if (rx_data_started)
+				read_retry = 0;
+			else
+				read_retry = -127; // retry longer until first packet is catched
+		}
+		return 385;
+	}
+	return 3850; // never reached
+}
+
+#endif

Multiprotocol/AFHDS2A_a7105.ino

@@ -20,6 +20,10 @@
 #define AFHDS2A_RXPACKET_SIZE	37
 #define AFHDS2A_NUMFREQ			16
 
+#if not defined TELEMETRY
+	uint8_t RX_LQI=0;
+#endif
+
 enum{
 	AFHDS2A_PACKET_STICKS,
 	AFHDS2A_PACKET_SETTINGS,
@@ -65,7 +69,6 @@ static void AFHDS2A_calc_channels()
 	}
 }
 
-#if defined(AFHDS2A_FW_TELEMETRY) || defined(AFHDS2A_HUB_TELEMETRY)
 // telemetry sensors ID
 enum{
 	AFHDS2A_SENSOR_RX_VOLTAGE   = 0x00,
@@ -76,10 +79,9 @@ enum{
 	AFHDS2A_SENSOR_A3_VOLTAGE   = 0x03,
 };
 
+#if defined(AFHDS2A_FW_TELEMETRY) || defined(AFHDS2A_HUB_TELEMETRY)
 static void AFHDS2A_update_telemetry()
 {
-	if(packet[0]==0xAA && packet[9]==0xFD)
-		return;	// ignore packets which contain the RX configuration: FD FF 32 00 01 00 FF FF FF 05 DC 05 DE FA FF FF FF FF FF FF FF FF FF FF FF FF FF FF
 	// Read TX RSSI
 	int16_t temp=256-(A7105_ReadReg(A7105_1D_RSSI_THOLD)*8)/5;		// value from A7105 is between 8 for maximum signal strength to 160 or less
 	if(temp<0) temp=0;
@@ -90,14 +92,14 @@ static void AFHDS2A_update_telemetry()
 	#ifdef AFHDS2A_FW_TELEMETRY
 		if (option & 0x80)
 		{// forward 0xAA and 0xAC telemetry to TX, skip rx and tx id to save space
-			pkt[0]= TX_RSSI;
+			packet_in[0]= TX_RSSI;
 			debug("T(%02X)=",packet[0]);
 			for(uint8_t i=9;i < AFHDS2A_RXPACKET_SIZE; i++)
 			{
-				pkt[i-8]=packet[i];
+				packet_in[i-8]=packet[i];
 				debug(" %02X",packet[i]);
 			}
-			pkt[29]=packet[0];	// 0xAA Normal telemetry, 0xAC Extended telemetry
+			packet_in[29]=packet[0];	// 0xAA Normal telemetry, 0xAC Extended telemetry
 			telemetry_link=2;
 			debugln("");
 			return;
@@ -122,7 +124,8 @@ static void AFHDS2A_update_telemetry()
 						telemetry_link=1;
 						break;
 					case AFHDS2A_SENSOR_RX_ERR_RATE:
-						RX_LQI=packet[index+2];
+						if(packet[index+2]<=100)
+							RX_LQI=packet[index+2];
 						break;
 					case AFHDS2A_SENSOR_RX_RSSI:
 						RX_RSSI = -packet[index+2];
@@ -182,37 +185,64 @@ static void AFHDS2A_build_packet(uint8_t type)
 	{
 		case AFHDS2A_PACKET_STICKS:		
 			packet[0] = 0x58;
-			for(uint8_t ch=0; ch<14; ch++)
+			//16 channels + RX_LQI on channel 17
+			for(uint8_t ch=0; ch<num_ch; ch++)
 			{
-				uint16_t channelMicros = convert_channel_ppm(CH_AETR[ch]);
-				packet[9 +  ch*2] = channelMicros&0xFF;
-				packet[10 + ch*2] = (channelMicros>>8)&0xFF;
+				if(ch == 16 // CH17=RX_LQI
+				#ifdef AFHDS2A_LQI_CH
+					|| ch == (AFHDS2A_LQI_CH-1)	// override channel with LQI
+				#endif
+					)
+					val = 2000 - 10*RX_LQI;
+				else
+					val = convert_channel_ppm(CH_AETR[ch]);
+				if(ch<14)
+				{
+					packet[9 +  ch*2] = val;
+					packet[10 + ch*2] = (val>>8)&0x0F;
+				}
+				else
+				{
+					packet[10 + (ch-14)*6] |= (val)<<4;
+					packet[12 + (ch-14)*6] |= (val)&0xF0;
+					packet[14 + (ch-14)*6] |= (val>>4)&0xF0;
+				}
 			}
-			#ifdef AFHDS2A_LQI_CH
-				// override channel with LQI
-				val = 2000 - 10*RX_LQI;
-				packet[9+((AFHDS2A_LQI_CH-1)*2)] = val & 0xff;
-				packet[10+((AFHDS2A_LQI_CH-1)*2)] = (val >> 8) & 0xff;
-			#endif
 			break;
 		case AFHDS2A_PACKET_FAILSAFE:
 			packet[0] = 0x56;
-			for(uint8_t ch=0; ch<14; ch++)
+			for(uint8_t ch=0; ch<num_ch; ch++)
 			{
 				#ifdef FAILSAFE_ENABLE
-					uint16_t failsafeMicros = Failsafe_data[CH_AETR[ch]];
-					if( failsafeMicros!=FAILSAFE_CHANNEL_HOLD && failsafeMicros!=FAILSAFE_CHANNEL_NOPULSES)
+					if(ch<16)
+						val = Failsafe_data[CH_AETR[ch]];
+					else
+						val = FAILSAFE_CHANNEL_NOPULSES;
+					if(val!=FAILSAFE_CHANNEL_HOLD && val!=FAILSAFE_CHANNEL_NOPULSES)
 					{ // Failsafe values
-						failsafeMicros = (((failsafeMicros<<2)+failsafeMicros)>>3)+860;
-						packet[9 + ch*2] =  failsafeMicros & 0xff;
-						packet[10+ ch*2] = ( failsafeMicros >> 8) & 0xff;
+						val = (((val<<2)+val)>>3)+860;
+						if(ch<14)
+						{
+							packet[9 +  ch*2] = val;
+							packet[10 + ch*2] = (val>>8)&0x0F;
+						}
+						else
+						{
+							packet[10 + (ch-14)*6] &= 0x0F;
+							packet[10 + (ch-14)*6] |= (val)<<4;
+							packet[12 + (ch-14)*6] &= 0x0F;
+							packet[12 + (ch-14)*6] |= (val)&0xF0;
+							packet[14 + (ch-14)*6] &= 0x0F;
+							packet[14 + (ch-14)*6] |= (val>>4)&0xF0;
+						}
 					}
 					else
 				#endif
-					{ // no values
-						packet[9 + ch*2] = 0xff;
-						packet[10+ ch*2] = 0xff;
-					}
+						if(ch<14)
+						{ // no values
+							packet[9 + ch*2] = 0xff;
+							packet[10+ ch*2] = 0xff;
+						}
 			}
 			break;
 		case AFHDS2A_PACKET_SETTINGS:
@@ -223,17 +253,14 @@ static void AFHDS2A_build_packet(uint8_t type)
 			if(val<50 || val>400) val=50;	// default is 50Hz
 			packet[11]= val;
 			packet[12]= val >> 8;
-			if(sub_protocol == PPM_IBUS || sub_protocol == PPM_SBUS)
-				packet[13] = 0x01;	// PPM output enabled
-			else
-				packet[13] = 0x00;
+			packet[13] = sub_protocol & 0x01;	// 1 -> PPM output enabled
 			packet[14]= 0x00;
 			for(uint8_t i=15; i<37; i++)
 				packet[i] = 0xff;
 			packet[18] = 0x05;		// ?
 			packet[19] = 0xdc;		// ?
 			packet[20] = 0x05;		// ?
-			if(sub_protocol == PWM_SBUS || sub_protocol == PPM_SBUS)
+			if(sub_protocol&2)
 				packet[21] = 0xdd;	// SBUS output enabled
 			else
 				packet[21] = 0xde;	// IBUS
@@ -243,11 +270,18 @@ static void AFHDS2A_build_packet(uint8_t type)
 }
 
 #define AFHDS2A_WAIT_WRITE 0x80
+
+#ifdef STM32_BOARD
+	#define AFHDS2A_WRITE_TIME 1550
+#else
+	#define AFHDS2A_WRITE_TIME 1700
+#endif
+
 uint16_t ReadAFHDS2A()
 {
 	static uint8_t packet_type;
 	static uint16_t packet_counter;
-	uint8_t data_rx;
+	uint8_t data_rx=0;
 	uint16_t start;
 	#ifndef FORCE_AFHDS2A_TUNING
 		A7105_AdjustLOBaseFreq(1);
@@ -264,11 +298,15 @@ uint16_t ReadAFHDS2A()
 				A7105_ReadData(AFHDS2A_RXPACKET_SIZE);
 				if(packet[0] == 0xbc && packet[9] == 0x01)
 				{
-					uint8_t temp=AFHDS2A_EEPROM_OFFSET+RX_num*4;
+					uint8_t addr;
+					if(RX_num<16)
+						addr=AFHDS2A_EEPROM_OFFSET+RX_num*4;
+					else
+						addr=AFHDS2A_EEPROM_OFFSET2+(RX_num-16)*4;
 					for(uint8_t i=0; i<4; i++)
 					{
 						rx_id[i] = packet[5+i];
-						eeprom_write_byte((EE_ADDR)(temp+i),rx_id[i]);
+						eeprom_write_byte((EE_ADDR)(addr+i),rx_id[i]);
 					}
 					phase = AFHDS2A_BIND4;
 					packet_count++;
@@ -316,11 +354,12 @@ uint16_t ReadAFHDS2A()
 			packet_type = AFHDS2A_PACKET_STICKS;
 			phase = AFHDS2A_DATA;
 		case AFHDS2A_DATA:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(3850);
+			#endif
 			AFHDS2A_build_packet(packet_type);
-			if((A7105_ReadReg(A7105_00_MODE) & 0x01))		// Check if something has been received...
-				data_rx=0;
-			else
-				data_rx=1;									// Yes
+			if((A7105_ReadReg(A7105_00_MODE) & 0x01)==0)		// Check if something has been received...
+				data_rx=1;										// Yes
 			A7105_WriteData(AFHDS2A_TXPACKET_SIZE, hopping_frequency[hopping_frequency_no++]);
 			if(hopping_frequency_no >= AFHDS2A_NUMFREQ)
 				hopping_frequency_no = 0;
@@ -330,29 +369,33 @@ uint16_t ReadAFHDS2A()
 			{
 				#ifdef FAILSAFE_ENABLE
 					if(!(packet_counter % 1569) && IS_FAILSAFE_VALUES_on)
+					{
 						packet_type = AFHDS2A_PACKET_FAILSAFE;
+						FAILSAFE_VALUES_off;
+					}
 					else
 				#endif
-						packet_type = AFHDS2A_PACKET_STICKS;		// todo : check for settings changes
+						packet_type = AFHDS2A_PACKET_STICKS;	// todo : check for settings changes
 			}
 			if(!(A7105_ReadReg(A7105_00_MODE) & (1<<5 | 1<<6)) && data_rx==1)
 			{ // RX+FECF+CRCF Ok
 				A7105_ReadData(AFHDS2A_RXPACKET_SIZE);
 				if(packet[0] == 0xAA && packet[9] == 0xFC)
-					packet_type=AFHDS2A_PACKET_SETTINGS;	// RX is asking for settings
+					packet_type=AFHDS2A_PACKET_SETTINGS;		// RX is asking for settings
 				else
-					if(packet[0] == 0xAA || packet[0] == 0xAC)
-					{
+					if((packet[0] == 0xAA && packet[9]!=0xFD) || packet[0] == 0xAC)
+					{// Normal telemetry packet, ignore packets which contain the RX configuration: AA FD FF 32 00 01 00 FF FF FF 05 DC 05 DE FA FF FF FF FF FF FF FF FF FF FF FF FF FF FF
 						if(!memcmp(&packet[1], rx_tx_addr, 4))
-						{ // Validate TX address
-							#ifdef AFHDS2A_LQI_CH
-								for(uint8_t sensor=0; sensor<7; sensor++)
-								{//read LQI value for RX output
-									uint8_t index = 9+(4*sensor);
-									if(packet[index]==AFHDS2A_SENSOR_RX_ERR_RATE)
-										RX_LQI=packet[index+2];
+						{ // TX address validated
+							for(uint8_t sensor=0; sensor<7; sensor++)
+							{//read LQI value for RX output
+								uint8_t index = 9+(4*sensor);
+								if(packet[index]==AFHDS2A_SENSOR_RX_ERR_RATE && packet[index+2]<=100)
+								{
+									RX_LQI=packet[index+2];
+									break;
 								}
-							#endif
+							}
 							#if defined(AFHDS2A_FW_TELEMETRY) || defined(AFHDS2A_HUB_TELEMETRY)
 								AFHDS2A_update_telemetry();
 							#endif
@@ -361,7 +404,7 @@ uint16_t ReadAFHDS2A()
 			}
 			packet_counter++;
 			phase |= AFHDS2A_WAIT_WRITE;
-			return 1700;
+			return AFHDS2A_WRITE_TIME;
 		case AFHDS2A_DATA|AFHDS2A_WAIT_WRITE:
 			//Wait for TX completion
 			start=micros();
@@ -372,7 +415,7 @@ uint16_t ReadAFHDS2A()
 			A7105_SetTxRxMode(RX_EN);
 			A7105_Strobe(A7105_RX);
 			phase &= ~AFHDS2A_WAIT_WRITE;
-			return 2150;
+			return 3850-AFHDS2A_WRITE_TIME;
 	}
 	return 3850; // never reached, please the compiler
 }
@@ -390,14 +433,19 @@ uint16_t initAFHDS2A()
 	{
 		phase = AFHDS2A_DATA_INIT;
 		//Read RX ID from EEPROM based on RX_num, RX_num must be uniq for each RX
-		uint8_t temp=AFHDS2A_EEPROM_OFFSET+RX_num*4;
+		uint8_t addr;
+		if(RX_num<16)
+			addr=AFHDS2A_EEPROM_OFFSET+RX_num*4;
+		else
+			addr=AFHDS2A_EEPROM_OFFSET2+(RX_num-16)*4;
 		for(uint8_t i=0;i<4;i++)
-			rx_id[i]=eeprom_read_byte((EE_ADDR)(temp+i));
+			rx_id[i]=eeprom_read_byte((EE_ADDR)(addr+i));
 	}
 	hopping_frequency_no = 0;
-#if defined(AFHDS2A_FW_TELEMETRY) || defined(AFHDS2A_HUB_TELEMETRY)
-	init_frskyd_link_telemetry();
-#endif
+	if(sub_protocol&0x04)
+		num_ch=17;
+	else
+		num_ch=14;
 	return 50000;
 }
 #endif

Multiprotocol/ASSAN_nrf24l01.ino

@@ -127,6 +127,9 @@ uint16_t ASSAN_callback()
 			phase=ASSAN_DATA2;
 			return 2000;
 		case ASSAN_DATA2:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(12000);
+			#endif
 		case ASSAN_DATA3:
 			ASSAN_send_packet();
 			phase++;	// DATA 3 or 4

Multiprotocol/BUGSMINI_nrf24l01.ino

@@ -181,7 +181,7 @@ static void __attribute__((unused)) BUGSMINI_make_address()
     uint8_t start, length, index;
 
 	//read rxid
-	uint8_t base_adr=BUGSMINI_EEPROM_OFFSET+RX_num*2;
+	uint8_t base_adr=BUGSMINI_EEPROM_OFFSET+(RX_num&0x0F)*2;
     uint8_t rxid_high = eeprom_read_byte((EE_ADDR)(base_adr+0));
     uint8_t rxid_low  = eeprom_read_byte((EE_ADDR)(base_adr+1));
     
@@ -272,7 +272,7 @@ uint16_t BUGSMINI_callback()
 			if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
 			{ // RX fifo data ready
 				XN297_ReadPayload(packet, BUGSMINI_RX_PAYLOAD_SIZE);
-				base_adr=BUGSMINI_EEPROM_OFFSET+RX_num*2;
+				base_adr=BUGSMINI_EEPROM_OFFSET+(RX_num&0x0F)*2;
 				eeprom_write_byte((EE_ADDR)(base_adr+0),packet[1]);	// Save rxid in EEPROM
 				eeprom_write_byte((EE_ADDR)(base_adr+1),packet[2]);	// Save rxid in EEPROM
 				NRF24L01_SetTxRxMode(TXRX_OFF);
@@ -299,6 +299,9 @@ uint16_t BUGSMINI_callback()
 			phase = BUGSMINI_BIND1;
 			return BUGSMINI_PACKET_INTERVAL - BUGSMINI_WRITE_WAIT;
 		case BUGSMINI_DATA1:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(BUGSMINI_PACKET_INTERVAL);
+			#endif
 			if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
 			{ // RX fifo data ready => read only 12 bytes to not overwrite channel change flag
 				XN297_ReadPayload(packet, 12);
@@ -375,9 +378,6 @@ uint16_t initBUGSMINI()
 	armed = 0;
 	arm_flags = BUGSMINI_FLAG_DISARM;    // initial value from captures
 	arm_channel_previous = BUGSMINI_CH_SW_ARM;
-	#ifdef BUGS_HUB_TELEMETRY
-		init_frskyd_link_telemetry();
-	#endif
 	return BUGSMINI_INITIAL_WAIT;
 }
 

Multiprotocol/Bayang_Rx_nrf24l01.ino

@@ -0,0 +1,206 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(BAYANG_RX_NRF24L01_INO)
+
+#include "iface_nrf24l01.h"
+
+#define BAYANG_RX_PACKET_SIZE		15
+#define BAYANG_RX_RF_NUM_CHANNELS	4
+#define BAYANG_RX_RF_BIND_CHANNEL	0
+#define BAYANG_RX_ADDRESS_LENGTH	5
+
+enum {
+	BAYANG_RX_BIND = 0,
+	BAYANG_RX_DATA
+};
+
+static void __attribute__((unused)) Bayang_Rx_init_nrf24l01()
+{
+	const uint8_t bind_address[BAYANG_RX_ADDRESS_LENGTH] = { 0,0,0,0,0 };
+	NRF24L01_Initialize();
+	XN297_SetTXAddr(bind_address, BAYANG_RX_ADDRESS_LENGTH);
+	XN297_SetRXAddr(bind_address, BAYANG_RX_ADDRESS_LENGTH);
+	NRF24L01_FlushRx();
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);     	// Clear data ready, data sent, and retransmit
+	NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);      	// No Auto Acknowldgement on all data pipes
+	NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x01);  	// Enable data pipe 0 only
+	NRF24L01_WriteReg(NRF24L01_11_RX_PW_P0, BAYANG_RX_PACKET_SIZE + 2); // 2 extra bytes for xn297 crc
+	NRF24L01_WriteReg(NRF24L01_05_RF_CH, BAYANG_RX_RF_BIND_CHANNEL);
+	NRF24L01_SetBitrate(NRF24L01_BR_1M);             	// 1Mbps
+	NRF24L01_SetPower();
+	NRF24L01_Activate(0x73);							// Activate feature register
+	NRF24L01_WriteReg(NRF24L01_1C_DYNPD, 0x00);			// Disable dynamic payload length on all pipes
+	NRF24L01_WriteReg(NRF24L01_1D_FEATURE, 0x01);
+	NRF24L01_Activate(0x73);
+	NRF24L01_SetTxRxMode(TXRX_OFF);
+	NRF24L01_FlushRx();
+	NRF24L01_SetTxRxMode(RX_EN);
+	XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP) | _BV(NRF24L01_00_PRIM_RX));
+}
+
+static uint8_t __attribute__((unused)) Bayang_Rx_check_validity() {
+	uint8_t sum = packet[0];
+	for (uint8_t i = 1; i < BAYANG_RX_PACKET_SIZE - 1; i++)
+		sum += packet[i];
+	return sum == packet[14];
+}
+
+static void __attribute__((unused)) Bayang_Rx_build_telemetry_packet()
+{
+	uint32_t bits = 0;
+	uint8_t bitsavailable = 0;
+	uint8_t idx = 0;
+
+	packet_in[idx++] = RX_LQI;
+	packet_in[idx++] = RX_LQI>>1;	// no RSSI: 125..0
+	packet_in[idx++] = 0;			// start channel
+	packet_in[idx++] = 10;			// number of channels in packet
+
+	// convert & pack channels
+	for (uint8_t i = 0; i < packet_in[3]; i++) {
+		uint32_t val = CHANNEL_MIN_100;
+		if (i < 4) {
+			// AETR
+			//val = (((packet[4 + i * 2] & ~0x7C) << 8) | packet[5 + i * 2]) << 1;
+			val=packet[4 + i * 2]&0x03;
+			val=(val<<8)+packet[5 + i * 2];
+			val=((val+128)<<3)/5;
+		} else if (i == 4 || i == 5) {
+			val=packet[i==4?1:13];
+			val=((val+32)<<5)/5;						// extra analog channel
+		} else if (((i == 6) && (packet[2] & 0x08)) ||	// flip
+				 ((i == 7) && (packet[2] & 0x01)) ||	// rth
+				 ((i == 8) && (packet[2] & 0x20)) ||	// picture
+				 ((i == 9) && (packet[2] & 0x10))) {	// video
+			// set channel to 100% if feature is enabled
+			val = CHANNEL_MAX_100;
+		}
+		bits |= val << bitsavailable;
+		bitsavailable += 11;
+		while (bitsavailable >= 8) {
+			packet_in[idx++] = bits & 0xff;
+			bits >>= 8;
+			bitsavailable -= 8;
+		}
+	}
+}
+
+uint16_t initBayang_Rx()
+{
+	uint8_t i;
+	Bayang_Rx_init_nrf24l01();
+	hopping_frequency_no = 0;
+	rx_data_started = false;
+	rx_data_received = false;
+	
+	if (IS_BIND_IN_PROGRESS) {
+		phase = BAYANG_RX_BIND;
+	}
+	else {
+		uint16_t temp = BAYANG_RX_EEPROM_OFFSET;
+		for (i = 0; i < 5; i++)
+			rx_tx_addr[i] = eeprom_read_byte((EE_ADDR)temp++);
+		for (i = 0; i < BAYANG_RX_RF_NUM_CHANNELS; i++)
+			hopping_frequency[i] = eeprom_read_byte((EE_ADDR)temp++);
+		XN297_SetTXAddr(rx_tx_addr, BAYANG_RX_ADDRESS_LENGTH);
+		XN297_SetRXAddr(rx_tx_addr, BAYANG_RX_ADDRESS_LENGTH);
+		phase = BAYANG_RX_DATA;
+	}
+	return 1000;
+}
+
+uint16_t Bayang_Rx_callback()
+{
+	uint8_t i;
+	static int8_t read_retry;
+
+	switch (phase) {
+	case BAYANG_RX_BIND:
+		if(IS_BIND_DONE) return initBayang_Rx();	// Abort bind
+		if (NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR)) {
+			// data received from TX
+			if (XN297_ReadPayload(packet, BAYANG_RX_PACKET_SIZE) && ( packet[0] == 0xA4 || packet[0] == 0xA2 ) && Bayang_Rx_check_validity()) {
+				// store tx info into eeprom
+				uint16_t temp = BAYANG_RX_EEPROM_OFFSET;
+				for (i = 0; i < 5; i++) {
+					rx_tx_addr[i] = packet[i + 1];
+					eeprom_write_byte((EE_ADDR)temp++, rx_tx_addr[i]);
+				}
+				for (i = 0; i < 4; i++) {
+					hopping_frequency[i] = packet[i + 6];
+					eeprom_write_byte((EE_ADDR)temp++, hopping_frequency[i]);
+				}
+				XN297_SetTXAddr(rx_tx_addr, BAYANG_RX_ADDRESS_LENGTH);
+				XN297_SetRXAddr(rx_tx_addr, BAYANG_RX_ADDRESS_LENGTH);
+				BIND_DONE;
+				phase = BAYANG_RX_DATA;
+			}
+			NRF24L01_FlushRx();
+			NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
+		}
+		break;
+	case BAYANG_RX_DATA:
+		if (NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR)) {
+			if (XN297_ReadPayload(packet, BAYANG_RX_PACKET_SIZE) && packet[0] == 0xA5 && Bayang_Rx_check_validity()) {
+				if (telemetry_link == 0) {
+					Bayang_Rx_build_telemetry_packet();
+					telemetry_link = 1;
+				}
+				rx_data_started = true;
+				rx_data_received = true;
+				read_retry = 8;
+				pps_counter++;
+			}
+		}
+		// packets per second
+		if (millis() - pps_timer >= 1000) {
+			pps_timer = millis();
+			debugln("%d pps", pps_counter);
+			RX_LQI = pps_counter >> 1;
+			pps_counter = 0;
+		}
+		// frequency hopping
+		if (read_retry++ >= 8) {
+			hopping_frequency_no++;
+			if (hopping_frequency_no >= BAYANG_RX_RF_NUM_CHANNELS)
+				hopping_frequency_no = 0;
+			NRF24L01_WriteReg(NRF24L01_05_RF_CH, hopping_frequency[hopping_frequency_no]);
+			NRF24L01_FlushRx();
+			NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
+			if (rx_data_started)
+			{
+				if(rx_data_received)
+				{ // In sync
+					rx_data_received = false;
+					read_retry = 5;
+					return 1500;
+				}
+				else
+				{ // packet lost
+					read_retry = 0;
+					if(RX_LQI==0)	// communication lost
+						rx_data_started=false;
+				}
+			}
+			else
+				read_retry = -16; // retry longer until first packet is caught
+		}
+		return 250;
+	}
+	return 1000;
+}
+
+#endif

Multiprotocol/Bayang_nrf24l01.ino

@@ -20,7 +20,8 @@ Multiprotocol is distributed in the hope that it will be useful,
 #include "iface_nrf24l01.h"
 
 #define BAYANG_BIND_COUNT		1000
-#define BAYANG_PACKET_PERIOD	1000
+#define BAYANG_PACKET_PERIOD	2000
+#define BAYANG_PACKET_TELEM_PERIOD	5000
 #define BAYANG_INITIAL_WAIT		500
 #define BAYANG_PACKET_SIZE		15
 #define BAYANG_RF_NUM_CHANNELS	4
@@ -46,10 +47,10 @@ enum BAYANG_OPTION_FLAGS {
 	BAYANG_OPTION_FLAG_ANALOGAUX	= 0x02,
 };
 
-static void __attribute__((unused)) BAYANG_send_packet(uint8_t bind)
+static void __attribute__((unused)) BAYANG_send_packet()
 {
 	uint8_t i;
-	if (bind)
+	if (IS_BIND_IN_PROGRESS)
 	{
 	#ifdef BAYANG_HUB_TELEMETRY
 		if(option & BAYANG_OPTION_FLAG_TELEMETRY)
@@ -66,12 +67,16 @@ static void __attribute__((unused)) BAYANG_send_packet(uint8_t bind)
 		else
 	#endif
 			packet[0]= 0xA4;
+		if(sub_protocol==QX100)
+			packet[0] = 0x53;
+
 		for(i=0;i<5;i++)
 			packet[i+1]=rx_tx_addr[i];
 		for(i=0;i<4;i++)
 			packet[i+6]=hopping_frequency[i];
 		switch (sub_protocol)
 		{
+			case QX100:
 			case X16_AH:
 				packet[10] = 0x00;
 				packet[11] = 0x00;
@@ -160,6 +165,7 @@ static void __attribute__((unused)) BAYANG_send_packet(uint8_t bind)
 			packet[12] = rx_tx_addr[2];	// txid[2]
 			packet[13] = 0x34;
 			break;
+		case QX100:
 		case X16_AH:
 			packet[12] = 0;
 			packet[13] = 0;
@@ -186,29 +192,15 @@ static void __attribute__((unused)) BAYANG_send_packet(uint8_t bind)
 	for (uint8_t i=0; i < BAYANG_PACKET_SIZE-1; i++)
 		packet[14] += packet[i];
 
-	NRF24L01_WriteReg(NRF24L01_05_RF_CH, bind ? rf_ch_num:hopping_frequency[hopping_frequency_no++]);
+	NRF24L01_WriteReg(NRF24L01_05_RF_CH, IS_BIND_IN_PROGRESS ? rf_ch_num:hopping_frequency[hopping_frequency_no++]);
 	hopping_frequency_no%=BAYANG_RF_NUM_CHANNELS;
 
-	// clear packet status bits and TX FIFO
-	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
-	NRF24L01_FlushTx();
-
-	XN297_WritePayload(packet, BAYANG_PACKET_SIZE);
-
-	NRF24L01_SetTxRxMode(TXRX_OFF);
-	NRF24L01_SetTxRxMode(TX_EN);
-
 	// Power on, TX mode, 2byte CRC
 	// Why CRC0? xn297 does not interpret it - either 16-bit CRC or nothing
+	NRF24L01_FlushTx();
+	NRF24L01_SetTxRxMode(TX_EN);
 	XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP));
-
-	#ifdef BAYANG_HUB_TELEMETRY
-	if (option & BAYANG_OPTION_FLAG_TELEMETRY)
-	{	// switch radio to rx as soon as packet is sent
-		while (!(NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_TX_DS)));
-		NRF24L01_WriteReg(NRF24L01_00_CONFIG, 0x03);
-    }
-	#endif
+	XN297_WritePayload(packet, BAYANG_PACKET_SIZE);
 
 	NRF24L01_SetPower();	// Set tx_power
 }
@@ -229,11 +221,12 @@ static void __attribute__((unused)) BAYANG_check_rx(void)
 		if (packet[0] == 0x85 && packet[14] == check)
 		{
 			// uncompensated battery volts*100/2
-			v_lipo1 = (packet[3]<<7) + (packet[4]>>2);
+			v_lipo1 = (packet[3]<<7) + (packet[4]>>1);
 			// compensated battery volts*100/2
-			v_lipo2 = (packet[5]<<7) + (packet[6]>>2);
+			v_lipo2 = (packet[5]<<7) + (packet[6]>>1);
 			// reception in packets / sec
-			RX_RSSI = packet[7];
+			RX_LQI = packet[7];
+			RX_RSSI = RX_LQI;
 			//Flags
 			//uint8_t flags = packet[3] >> 3;
 			// battery low: flags & 1
@@ -242,6 +235,7 @@ static void __attribute__((unused)) BAYANG_check_rx(void)
 				telemetry_link=1;
 		}
 	}
+	NRF24L01_SetTxRxMode(TXRX_OFF);
 }
 #endif
 
@@ -278,53 +272,73 @@ static void __attribute__((unused)) BAYANG_init()
 	}
 }
 
+enum {
+	BAYANG_BIND=0,
+	BAYANG_WRITE,
+	BAYANG_CHECK,
+	BAYANG_READ,
+};
+
+#define BAYANG_CHECK_DELAY		1000		// Time after write phase to check write complete
+#define BAYANG_READ_DELAY		600			// Time before read phase
+
 uint16_t BAYANG_callback()
 {
-	if(IS_BIND_DONE)
+	#ifdef BAYANG_HUB_TELEMETRY
+		uint16_t start;
+	#endif
+	switch(phase)
 	{
-		if(packet_count==0)
-			BAYANG_send_packet(0);
-		packet_count++;
-		#ifdef BAYANG_HUB_TELEMETRY
-			if (option & BAYANG_OPTION_FLAG_TELEMETRY)
-			{	// telemetry is enabled 
-				state++;
-				if (state > 1000)
-				{
-					//calculate telemetry reception packet rate - packets per 1000ms
-					TX_RSSI = telemetry_counter;
-					telemetry_counter = 0;
-					state = 0;
-					telemetry_lost=0;
-				}
-
-				if (packet_count > 1)
-					BAYANG_check_rx();
-
-				packet_count %= 5;
+		case BAYANG_BIND:
+			if (--bind_counter == 0)
+			{
+				XN297_SetTXAddr(rx_tx_addr, BAYANG_ADDRESS_LENGTH);
+				#ifdef BAYANG_HUB_TELEMETRY
+					XN297_SetRXAddr(rx_tx_addr, BAYANG_ADDRESS_LENGTH);
+				#endif
+				BIND_DONE;
+				phase++;	//WRITE
 			}
 			else
-		#endif
-				packet_count%=2;
-	}
-	else
-	{
-		if (bind_counter == 0)
-		{
-			XN297_SetTXAddr(rx_tx_addr, BAYANG_ADDRESS_LENGTH);
-			#ifdef BAYANG_HUB_TELEMETRY
-				XN297_SetRXAddr(rx_tx_addr, BAYANG_ADDRESS_LENGTH);
+				BAYANG_send_packet();
+			break;
+		case BAYANG_WRITE:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync((option & BAYANG_OPTION_FLAG_TELEMETRY)?BAYANG_PACKET_TELEM_PERIOD:BAYANG_PACKET_PERIOD);
 			#endif
-			BIND_DONE;
-		}
-		else
-		{
-			if(packet_count==0)
-				BAYANG_send_packet(1);
-			packet_count++;
-			packet_count%=4;
-			bind_counter--;
-		}
+			BAYANG_send_packet();
+			#ifdef BAYANG_HUB_TELEMETRY
+				if (option & BAYANG_OPTION_FLAG_TELEMETRY)
+				{	// telemetry is enabled
+					state++;
+					if (state > 200)
+					{
+						state = 0;
+						//telemetry reception packet rate - packets per second
+						TX_LQI = telemetry_counter>>1;
+						telemetry_counter = 0;
+						telemetry_lost=0;
+					}
+					phase++;	//CHECK
+					return BAYANG_CHECK_DELAY;
+				}
+			#endif
+			break;
+	#ifdef BAYANG_HUB_TELEMETRY
+		case BAYANG_CHECK:
+			// switch radio to rx as soon as packet is sent
+			start=(uint16_t)micros();
+			while ((uint16_t)((uint16_t)micros()-(uint16_t)start) < 1000)			// Wait max 1ms
+				if((NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_TX_DS)))
+					break;
+			NRF24L01_WriteReg(NRF24L01_00_CONFIG, 0x03);
+			phase++;	// READ
+			return BAYANG_PACKET_TELEM_PERIOD - BAYANG_CHECK_DELAY - BAYANG_READ_DELAY;
+		case BAYANG_READ:
+			BAYANG_check_rx();
+			phase=BAYANG_WRITE;
+			return BAYANG_READ_DELAY;
+	#endif
 	}
 	return BAYANG_PACKET_PERIOD;
 }
@@ -345,14 +359,11 @@ static void __attribute__((unused)) BAYANG_initialize_txid()
 uint16_t initBAYANG(void)
 {
 	BIND_IN_PROGRESS;	// autobind protocol
+	phase=BAYANG_BIND;
     bind_counter = BAYANG_BIND_COUNT;
 	BAYANG_initialize_txid();
 	BAYANG_init();
 	packet_count=0;
-	#ifdef BAYANG_HUB_TELEMETRY
-		init_frskyd_link_telemetry();
-		telemetry_lost=1;	// do not send telemetry to TX right away until we have a TX_RSSI value to prevent warning message...
-	#endif
 	return BAYANG_INITIAL_WAIT+BAYANG_PACKET_PERIOD;
 }
 

Multiprotocol/Binary_Signature.ino

@@ -0,0 +1,184 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+/************************/
+/** Firmware Signature **/
+/************************/
+
+/*
+The firmware signature is appended to the compiled binary image in order to provide information
+about the options used to compile the firmware file.  This information is then used by Multi-module 
+flashing tools to verify that the image is correct / valid.
+
+In order for the build process to determine the options used to build the firmware this file conditionally
+declares 'flag' variables for the options we are interested in.
+
+When the pre-compiler parses the source code these variables are either present or not in the parsed cpp file,
+typically '$build_dir$/preproc/ctags_target_for_gcc_minus_e.cpp'.
+
+Once the .bin file is created an additional command-line build tool scans the parsed cpp file, detects the
+flags, assembles the signature, and finally appends the signature to the end of the binary file.
+
+The signature is 24 bytes long:
+multi-x[8-byte hex code]-[8-byte version number]
+
+For example:
+multi-x1234abcd-01020199
+
+The 8-byte hex code is a 32-bit bitmask value indicating the configuration options, currently:
+
+Bit(s)  Bitmask    Option                  Comment
+1-2     0x3        Module type             Read as a two-bit value indicating a number from 0-3 which maps to a module type (AVR, STM32, OrangeRX)
+3-7     0x7C       Channel order           Read as a five-bit value indicating a number from 0-23 which maps to as channel order (AETR, TAER, RETA, etc) (right-shift two bits to read)
+8       0x80       Bootloader support      Indicates whether or not the firmware was built with support for the bootloader
+9       0x100      CHECK_FOR_BOOTLOADER    Indicates if CHECK_FOR_BOOTLOADER is defined
+10      0x200      INVERT_TELEMETRY        Indicates if INVERT_TELEMETRY is defined
+11      0x400      MULTI_STATUS            Indicates if MULTI_STATUS is defined
+12      0x800      MULTI_TELEMETRY         Indicates if MULTI_TELEMETRY is defined
+13      0x1000     DEBUG_SERIAL            Indicates if DEBUG_SERIAL is defined
+
+The 8-byte version number is the version number zero-padded to a fixed width of two-bytes per segment and no separator.  
+E.g. 1.2.3.45 becomes 01020345.
+
+Multi Telemetery Type can be read from bits 11 and 12 using the bitmask 0xC00 and right-shifting ten bits:
+Telemetry Type    Decimal Value   Binary Value
+Undefined         0               00
+erSkyTX           1               01
+OpenTX            2               10
+
+Module types are mapped to the following decimal / binary values:
+Module Type       Decimal Value   Binary Valsue
+AVR               0               00
+STM32             1               01
+OrangeRX          2               10
+
+Channel orders are mapped to the following decimal / binary values:
+Channel Order	  Decimal Value	  Binary Value
+AETR	          0	              00000
+AERT	          1	              00001
+ARET	          2	              00010
+ARTE	          3	              00011
+ATRE	          4	              00100
+ATER	          5	              00101
+EATR	          6	              00110
+EART	          7	              00111
+ERAT	          8	              01000
+ERTA	          9	              01001
+ETRA	          10	          01010
+ETAR	          11	          01011
+TEAR	          12	          01100
+TERA	          13	          01101
+TREA	          14	          01110
+TRAE	          15	          01111
+TARE	          16	          10000
+TAER	          17	          10001
+RETA	          18	          10010
+REAT	          19	          10011
+RAET	          20	          10100
+RATE	          21	          10101
+RTAE	          22	          10110
+RTEA	          23	          10111
+*/
+ 
+// Set the flags for detecting and writing the firmware signature
+#if defined (CHECK_FOR_BOOTLOADER)
+    bool firmwareFlag_CHECK_FOR_BOOTLOADER = true;
+#endif
+#if defined (INVERT_TELEMETRY)
+    bool firmwareFlag_INVERT_TELEMETRY = true;
+#endif
+#if defined (MULTI_STATUS)
+    bool firmwareFlag_MULTI_STATUS = true;
+#endif
+#if defined (MULTI_TELEMETRY)
+    bool firmwareFlag_MULTI_TELEMETRY = true;
+#endif
+#if defined (DEBUG_SERIAL)
+    bool firmwareFlag_DEBUG_SERIAL = true;
+#endif
+
+// Channel order flags
+#if defined (AETR)
+    bool firmwareFlag_ChannelOrder_AETR = true;
+#endif
+#if defined (AERT)
+    bool firmwareFlag_ChannelOrder_AERT = true;
+#endif
+#if defined (ARET)
+    bool firmwareFlag_ChannelOrder_ARET = true;
+#endif
+#if defined (ARTE)
+    bool firmwareFlag_ChannelOrder_ARTE = true;
+#endif
+#if defined (ATRE)
+    bool firmwareFlag_ChannelOrder_ATRE = true;
+#endif
+#if defined (ATER)
+    bool firmwareFlag_ChannelOrder_ATER = true;
+#endif
+#if defined (EATR)
+    bool firmwareFlag_ChannelOrder_EATR = true;
+#endif
+#if defined (EART)
+    bool firmwareFlag_ChannelOrder_EART = true;
+#endif
+#if defined (ERAT)
+    bool firmwareFlag_ChannelOrder_ERAT = true;
+#endif
+#if defined (ERTA)
+    bool firmwareFlag_ChannelOrder_ERTA = true;
+#endif
+#if defined (ETRA)
+    bool firmwareFlag_ChannelOrder_ETRA = true;
+#endif
+#if defined (ETAR)
+    bool firmwareFlag_ChannelOrder_ETAR = true;
+#endif
+#if defined (TEAR)
+    bool firmwareFlag_ChannelOrder_TEAR = true;
+#endif
+#if defined (TERA)
+    bool firmwareFlag_ChannelOrder_TERA = true;
+#endif
+#if defined (TREA)
+    bool firmwareFlag_ChannelOrder_TREA = true;
+#endif
+#if defined (TRAE)
+    bool firmwareFlag_ChannelOrder_TRAE = true;
+#endif
+#if defined (TARE)
+    bool firmwareFlag_ChannelOrder_TARE = true;
+#endif
+#if defined (TAER)
+    bool firmwareFlag_ChannelOrder_TAER = true;
+#endif
+#if defined (RETA)
+    bool firmwareFlag_ChannelOrder_RETA = true;
+#endif
+#if defined (REAT)
+    bool firmwareFlag_ChannelOrder_REAT = true;
+#endif
+#if defined (RAET)
+    bool firmwareFlag_ChannelOrder_RAET = true;
+#endif
+#if defined (RATE)
+    bool firmwareFlag_ChannelOrder_RATE = true;
+#endif
+#if defined (RTAE)
+    bool firmwareFlag_ChannelOrder_RTAE = true;
+#endif
+#if defined (RTEA)
+    bool firmwareFlag_ChannelOrder_RTEA = true;
+#endif

Multiprotocol/Bugs_a7105.ino

@@ -284,7 +284,7 @@ static void  __attribute__((unused))BUGS_set_radio_data()
 	{
 		offset=BUGS_NUM_RFCHAN;
 		// Read radio_id from EEPROM
-		uint8_t base_adr=BUGS_EEPROM_OFFSET+RX_num*2;
+		uint8_t base_adr=BUGS_EEPROM_OFFSET+(RX_num&0x0F)*2;
 		uint16_t rxid=0;
 		for(uint8_t i=0; i<2; i++)
 			rxid|=eeprom_read_byte((EE_ADDR)(base_adr+i))<<(i*8);
@@ -374,7 +374,7 @@ uint16_t ReadBUGS(void)
 			BIND_DONE;
 			// set radio_id
 			rxid = (packet[1] << 8) + packet[2];
-			base_adr=BUGS_EEPROM_OFFSET+RX_num*2;
+			base_adr=BUGS_EEPROM_OFFSET+(RX_num&0x0F)*2;
 			for(uint8_t i=0; i<2; i++)
 				eeprom_write_byte((EE_ADDR)(base_adr+i),rxid>>(i*8));	// Save rxid in EEPROM
 			BUGS_set_radio_data();
@@ -385,6 +385,9 @@ uint16_t ReadBUGS(void)
 			break;
 
 		case BUGS_DATA_1:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(BUGS_PACKET_PERIOD);
+			#endif
 			A7105_SetPower();
 			BUGS_build_packet(0);
 			A7105_WriteReg(A7105_03_FIFOI, BUGS_FIFO_SIZE_TX);
@@ -437,7 +440,7 @@ uint16_t ReadBUGS(void)
 uint16_t initBUGS(void)
 {
 	uint16_t rxid=0;
-	uint8_t base_adr=BUGS_EEPROM_OFFSET+RX_num*2;
+	uint8_t base_adr=BUGS_EEPROM_OFFSET+(RX_num&0x0F)*2;
 	for(uint8_t i=0; i<2; i++)
 		rxid|=eeprom_read_byte((EE_ADDR)(base_adr+i))<<(i*8);
 	if(rxid==0xffff)
@@ -456,9 +459,6 @@ uint16_t initBUGS(void)
 	armed = 0;
 	arm_flags = BUGS_FLAG_DISARM;		// initial value from captures
 	arm_channel_previous = BUGS_CH_SW_ARM;
-	#ifdef BUGS_HUB_TELEMETRY
-		init_frskyd_link_telemetry();
-	#endif
 
 	return 10000;
 }

Multiprotocol/CABELL_nrf224l01.ino

@@ -406,9 +406,12 @@ uint16_t CABELL_callback()
 	if (IS_BIND_DONE)
 	{
 		CABELL_send_packet(0);  // packet_period is set/adjusted in CABELL_send_packet
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(packet_period);
+		#endif
 		return packet_period;
 	}
-	if (bind_counter == 0)
+	else if (bind_counter == 0)
 	{
 		BIND_DONE;
 		CABELL_init();   // non-bind address 
@@ -429,10 +432,6 @@ uint16_t initCABELL(void)
 	else  
 		bind_counter = CABELL_BIND_COUNT;
 	CABELL_init();
-	#if defined CABELL_HUB_TELEMETRY 
-		init_frskyd_link_telemetry();
-		telemetry_lost=1;				// do not send telemetry to TX right away until we have a TX_RSSI value to prevent warning message...
-	#endif
 
 	packet_period = CABELL_PACKET_PERIOD;
 

Multiprotocol/CC2500_SPI.ino

@@ -150,6 +150,11 @@ void CC2500_SetPower()
 		#else
 			power=CC2500_HIGH_POWER;
 		#endif
+	if(IS_LBT_POWER_on)
+	{
+		power=CC2500_LBT_POWER;
+		LBT_POWER_off;			// Only accept once
+	}
 	if(IS_RANGE_FLAG_on)
 		power=CC2500_RANGE_POWER;
 	if(prev_power != power)

Multiprotocol/CFlie_nrf24l01.ino

@@ -97,7 +97,7 @@ static inline uint8_t crtp_create_header(uint8_t port, uint8_t channel)
 #define TX_ADDR_SIZE 5
 
 // Timeout for callback in uSec, 10ms=10000us for Crazyflie
-#define PACKET_PERIOD 10000
+#define CFLIE_PACKET_PERIOD 10000
 
 #define MAX_PACKET_SIZE 32  // CRTP is 32 bytes
 
@@ -781,7 +781,10 @@ static uint16_t cflie_callback()
         break;
 
     case CFLIE_DATA:
-        // if (Model.proto_opts[PROTOOPTS_TELEMETRY] == TELEM_ON_CRTPLOG) {
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(CFLIE_PACKET_PERIOD);
+		#endif
+		// if (Model.proto_opts[PROTOOPTS_TELEMETRY] == TELEM_ON_CRTPLOG) {
         //     update_telemetry_crtplog();
         // } else if (Model.proto_opts[PROTOOPTS_TELEMETRY] == TELEM_ON_ACKPKT) {
         //     update_telemetry_ackpkt();
@@ -792,7 +795,7 @@ static uint16_t cflie_callback()
         send_cmd_packet();
         break;
     }
-    return PACKET_PERIOD;                  // Packet at standard protocol interval
+    return CFLIE_PACKET_PERIOD;                  // Packet at standard protocol interval
 }
 
 // Generate address to use from TX id and manufacturer id (STM32 unique id)

Multiprotocol/CG023_nrf24l01.ino

@@ -138,7 +138,12 @@ static void __attribute__((unused)) CG023_init()
 uint16_t CG023_callback()
 {
 	if(IS_BIND_DONE)
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(packet_period);
+		#endif
 		CG023_send_packet(0);
+	}
 	else
 	{
 		if (bind_counter == 0)

Multiprotocol/CX10_nrf24l01.ino

@@ -229,6 +229,9 @@ uint16_t CX10_callback()
 			}
 			break;
 		case CX10_DATA:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(packet_period);
+			#endif
 			CX10_Write_Packet(0);
 			break;
 	}

Multiprotocol/CYRF6936_SPI.ino

@@ -284,7 +284,7 @@ void CYRF_FindBestChannels(uint8_t *channels, uint8_t len, uint8_t minspace, uin
 	}
 	CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x20);		// Abort RX operation
 	CYRF_SetTxRxMode(TX_EN);
-	CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x20);		// Clear abort RX
+	CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x00);		// Clear abort RX
 }
 
 #if defined(DEVO_CYRF6936_INO) || defined(J6PRO_CYRF6936_INO)
@@ -313,6 +313,7 @@ const uint8_t PROGMEM DEVO_j6pro_sopcodes[][8] = {
 #endif
 };
 #endif
+
 static void __attribute__((unused)) CYRF_PROGMEM_ConfigSOPCode(const uint8_t *data)
 {
 	uint8_t code[8];

Multiprotocol/Common.ino

@@ -1,376 +0,0 @@
-/*
- This project is free software: you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation, either version 3 of the License, or
- (at your option) any later version.
-
- Multiprotocol is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License
- along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
- */
-
-#ifdef FAILSAFE_ENABLE
-//Convert from percentage to failsafe value
-#define FAILSAFE_THROTTLE_LOW_VAL (((FAILSAFE_THROTTLE_LOW+125)*1024)/125)
-#if FAILSAFE_THROTTLE_LOW_VAL <= 0
-	#undef FAILSAFE_THROTTLE_LOW_VAL
-	#define FAILSAFE_THROTTLE_LOW_VAL 1
-#elif (FAILSAFE_THROTTLE_LOW_VAL) >= 2046
-	#undef FAILSAFE_THROTTLE_LOW_VAL
-	#define FAILSAFE_THROTTLE_LOW_VAL 2046
-#endif
-void InitFailsafe()
-{
-	for(uint8_t i=0;i<NUM_CHN;i++)
-		Failsafe_data[i]=1024;
-	Failsafe_data[THROTTLE]=(uint16_t)FAILSAFE_THROTTLE_LOW_VAL;	//1=-125%, 204=-100%
-	FAILSAFE_VALUES_on;
-	#ifdef FAILSAFE_SERIAL_ONLY
-		if(mode_select == MODE_SERIAL)
-			FAILSAFE_VALUES_off;
-	#endif
-}
-#endif
-#ifdef ENABLE_PPM
-void InitPPM()
-{
-	for(uint8_t i=0;i<NUM_CHN;i++)
-		PPM_data[i]=PPM_MAX_100+PPM_MIN_100;
-	PPM_data[THROTTLE]=PPM_MIN_100*2;
-}
-#endif
-void InitChannel()
-{
-	for(uint8_t i=0;i<NUM_CHN;i++)
-		Channel_data[i]=1024;
-	#ifdef FAILSAFE_THROTTLE_LOW_VAL
-		Channel_data[THROTTLE]=(uint16_t)FAILSAFE_THROTTLE_LOW_VAL;	//0=-125%, 204=-100%
-	#else
-		Channel_data[THROTTLE]=204;
-	#endif
-}
-/************************/
-/**  Convert routines  **/
-/************************/
-// Convert channel 8b with limit and deadband
-uint8_t convert_channel_8b_limit_deadband(uint8_t num,uint8_t min,uint8_t mid, uint8_t max, uint8_t deadband)
-{
-	uint16_t val=limit_channel_100(num);		// 204<->1844
-	uint16_t db_low=CHANNEL_MID-deadband, db_high=CHANNEL_MID+deadband; // 1024+-deadband
-	if(val>=db_low && val<=db_high)
-		return mid;
-	else if(val<db_low)
-		val=min+(val-CHANNEL_MIN_100)*(mid-min)/(db_low-CHANNEL_MIN_100);
-	else
-		val=mid+(val-db_high)*(max-mid)/(CHANNEL_MAX_100-1-db_high);
-	return val;
-}
-
-// Reverse a channel and store it
-void reverse_channel(uint8_t num)
-{
-	uint16_t val=2048-Channel_data[num];
-	if(val>=2048) val=2047;
-	Channel_data[num]=val;
-}
-// Channel value is converted to ppm 860<->2140 -125%<->+125% and 988<->2012 -100%<->+100%
-uint16_t convert_channel_ppm(uint8_t num)
-{
-	uint16_t val=Channel_data[num];
-	return (((val<<2)+val)>>3)+860;				//value range 860<->2140 -125%<->+125%
-}
-// Channel value 100% is converted to 10bit values 0<->1023
-uint16_t convert_channel_10b(uint8_t num)
-{
-	uint16_t val=Channel_data[num];
-	val=((val<<2)+val)>>3;
-	if(val<=128) return 0;
-	if(val>=1152) return 1023;
-	return val-128;
-}
-// Channel value 100% is converted to 8bit values 0<->255
-uint8_t convert_channel_8b(uint8_t num)
-{
-	uint16_t val=Channel_data[num];
-	val=((val<<2)+val)>>5;
-	if(val<=32) return 0;
-	if(val>=288) return 255;
-	return val-32;
-}
-
-// Channel value 100% is converted to value scaled
-int16_t convert_channel_16b_limit(uint8_t num,int16_t min,int16_t max)
-{
-	int32_t val=limit_channel_100(num);			// 204<->1844
-	val=(val-CHANNEL_MIN_100)*(max-min)/(CHANNEL_MAX_100-CHANNEL_MIN_100)+min;
-	return (uint16_t)val;
-}
-
-// Channel value -125%<->125% is scaled to 16bit value with no limit
-int16_t convert_channel_16b_nolimit(uint8_t num, int16_t min, int16_t max)
-{
-	int32_t val=Channel_data[num];				// 0<->2047
-	val=(val-CHANNEL_MIN_100)*(max-min)/(CHANNEL_MAX_100-CHANNEL_MIN_100)+min;
-	return (uint16_t)val;
-}
-
-// Channel value is converted sign + magnitude 8bit values
-uint8_t convert_channel_s8b(uint8_t num)
-{
-	uint8_t ch;
-	ch = convert_channel_8b(num);
-	return (ch < 128 ? 127-ch : ch);	
-}
-
-// Channel value is limited to 100%
-uint16_t limit_channel_100(uint8_t num)
-{
-	if(Channel_data[num]>=CHANNEL_MAX_100)
-		return CHANNEL_MAX_100;
-	if (Channel_data[num]<=CHANNEL_MIN_100)
-		return CHANNEL_MIN_100;
-	return Channel_data[num];
-}
-
-// Channel value is converted for HK310
-void convert_channel_HK310(uint8_t num, uint8_t *low, uint8_t *high)
-{
-	uint16_t temp=0xFFFF-(3440+((Channel_data[num]*5)>>1))/3;
-	*low=(uint8_t)(temp&0xFF);
-	*high=(uint8_t)(temp>>8);
-}
-#ifdef FAILSAFE_ENABLE
-// Failsafe value is converted for HK310
-void convert_failsafe_HK310(uint8_t num, uint8_t *low, uint8_t *high)
-{
-	uint16_t temp=0xFFFF-(3440+((Failsafe_data[num]*5)>>1))/3;
-	*low=(uint8_t)(temp&0xFF);
-	*high=(uint8_t)(temp>>8);
-}
-#endif
-
-// Channel value for FrSky (PPM is multiplied by 1.5)
-uint16_t convert_channel_frsky(uint8_t num)
-{
-	uint16_t val=Channel_data[num];
-	return ((val*15)>>4)+1290;
-}
-
-/******************************/
-/**  FrSky D and X routines  **/
-/******************************/
-
-#if defined(FRSKYX_CC2500_INO) || defined(FRSKYX_RX_CC2500_INO)
-//**CRC**
-const uint16_t PROGMEM frskyX_CRC_Short[]={
-	0x0000, 0x1189, 0x2312, 0x329B, 0x4624, 0x57AD, 0x6536, 0x74BF,
-	0x8C48, 0x9DC1, 0xAF5A, 0xBED3, 0xCA6C, 0xDBE5, 0xE97E, 0xF8F7 };
-static uint16_t __attribute__((unused)) frskyX_CRCTable(uint8_t val)
-{
-	uint16_t word ;
-	word = pgm_read_word(&frskyX_CRC_Short[val&0x0F]) ;
-	val /= 16 ;
-	return word ^ (0x1081 * val) ;
-}
-uint16_t frskyX_crc_x(uint8_t *data, uint8_t len)
-{
-	uint16_t crc = 0;
-	for(uint8_t i=0; i < len; i++)
-		crc = (crc<<8) ^ frskyX_CRCTable((uint8_t)(crc>>8) ^ *data++);
-	return crc;
-}
-#endif
-
-
-#if defined(FRSKYD_CC2500_INO) || defined(FRSKYX_CC2500_INO)
-enum {
-	FRSKY_BIND		= 0,
-	FRSKY_BIND_DONE	= 1000,
-	FRSKY_DATA1,
-	FRSKY_DATA2,
-	FRSKY_DATA3,
-	FRSKY_DATA4,
-	FRSKY_DATA5
-};
-
-void Frsky_init_hop(void)
-{
-	uint8_t val;
-	uint8_t channel = rx_tx_addr[0]&0x07;
-	uint8_t channel_spacing = rx_tx_addr[1];
-	//Filter bad tables
-	if(channel_spacing<0x02) channel_spacing+=0x02;
-	if(channel_spacing>0xE9) channel_spacing-=0xE7;
-	if(channel_spacing%0x2F==0) channel_spacing++;
-		
-	hopping_frequency[0]=channel;
-	for(uint8_t i=1;i<50;i++)
-	{
-		channel=(channel+channel_spacing) % 0xEB;
-		val=channel;
-		if((val==0x00) || (val==0x5A) || (val==0xDC))
-			val++;
-		hopping_frequency[i]=i>46?0:val;
-	}
-}
-#endif
-/******************************/
-/**  FrSky V, D and X routines  **/
-/******************************/
-#if defined(FRSKYV_CC2500_INO) || defined(FRSKYD_CC2500_INO) || defined(FRSKYX_CC2500_INO)
-	const PROGMEM uint8_t FRSKY_common_startreg_cc2500_conf[]= {
-		 CC2500_02_IOCFG0 ,		
-		 CC2500_00_IOCFG2 ,
-		 CC2500_17_MCSM1 ,
-		 CC2500_18_MCSM0 ,
-		 CC2500_06_PKTLEN ,
-		 CC2500_07_PKTCTRL1 ,
-		 CC2500_08_PKTCTRL0 ,
-		 CC2500_3E_PATABLE ,
-		 CC2500_0B_FSCTRL1 ,
-		 CC2500_0C_FSCTRL0 ,	// replaced by option value
-		 CC2500_0D_FREQ2 ,	
-		 CC2500_0E_FREQ1 ,
-		 CC2500_0F_FREQ0 ,
-		 CC2500_10_MDMCFG4 ,		
-		 CC2500_11_MDMCFG3 ,
-		 CC2500_12_MDMCFG2 ,
-		 CC2500_13_MDMCFG1 ,
-		 CC2500_14_MDMCFG0 ,
-		 CC2500_15_DEVIATN  };
-
-	#if defined(FRSKYV_CC2500_INO)
-		const PROGMEM uint8_t FRSKYV_cc2500_conf[]= {
-		/*02_IOCFG0*/  	 0x06 ,		
-		/*00_IOCFG2*/  	 0x06 ,
-		/*17_MCSM1*/   	 0x0c ,
-		/*18_MCSM0*/   	 0x18 ,
-		/*06_PKTLEN*/  	 0xff ,
-		/*07_PKTCTRL1*/	 0x04 ,
-		/*08_PKTCTRL0*/	 0x05 ,
-		/*3E_PATABLE*/ 	 0xfe ,
-		/*0B_FSCTRL1*/ 	 0x08 ,
-		/*0C_FSCTRL0*/ 	 0x00 ,
-		/*0D_FREQ2*/   	 0x5c ,	
-		/*0E_FREQ1*/   	 0x58 ,
-		/*0F_FREQ0*/   	 0x9d ,
-		/*10_MDMCFG4*/ 	 0xAA ,		
-		/*11_MDMCFG3*/ 	 0x10 ,
-		/*12_MDMCFG2*/ 	 0x93 ,
-		/*13_MDMCFG1*/ 	 0x23 ,
-		/*14_MDMCFG0*/ 	 0x7a ,
-		/*15_DEVIATN*/ 	 0x41  };
-	#endif
-
-	#if defined(FRSKYD_CC2500_INO)
-		const PROGMEM uint8_t FRSKYD_cc2500_conf[]= {
-		/*02_IOCFG0*/  	 0x06 ,		
-		/*00_IOCFG2*/  	 0x06 ,
-		/*17_MCSM1*/   	 0x0c ,
-		/*18_MCSM0*/   	 0x18 ,
-		/*06_PKTLEN*/  	 0x19 ,
-		/*07_PKTCTRL1*/	 0x04 ,
-		/*08_PKTCTRL0*/	 0x05 ,
-		/*3E_PATABLE*/ 	 0xff ,
-		/*0B_FSCTRL1*/ 	 0x08 ,
-		/*0C_FSCTRL0*/ 	 0x00 ,
-		/*0D_FREQ2*/   	 0x5c ,	
-		/*0E_FREQ1*/   	 0x76 ,
-		/*0F_FREQ0*/   	 0x27 ,
-		/*10_MDMCFG4*/ 	 0xAA ,		
-		/*11_MDMCFG3*/ 	 0x39 ,
-		/*12_MDMCFG2*/ 	 0x11 ,
-		/*13_MDMCFG1*/ 	 0x23 ,
-		/*14_MDMCFG0*/ 	 0x7a ,
-		/*15_DEVIATN*/ 	 0x42  };
-	#endif
-
-	#if defined(FRSKYX_CC2500_INO)
-		const PROGMEM uint8_t FRSKYX_cc2500_conf[]= {
-	//FRSKYX
-		/*02_IOCFG0*/  	 0x06 ,		
-		/*00_IOCFG2*/  	 0x06 ,
-		/*17_MCSM1*/   	 0x0c ,
-		/*18_MCSM0*/   	 0x18 ,
-		/*06_PKTLEN*/  	 0x1E ,
-		/*07_PKTCTRL1*/	 0x04 ,
-		/*08_PKTCTRL0*/	 0x01 ,
-		/*3E_PATABLE*/ 	 0xff ,
-		/*0B_FSCTRL1*/ 	 0x0A ,
-		/*0C_FSCTRL0*/ 	 0x00 ,
-		/*0D_FREQ2*/   	 0x5c ,	
-		/*0E_FREQ1*/   	 0x76 ,
-		/*0F_FREQ0*/   	 0x27 ,
-		/*10_MDMCFG4*/ 	 0x7B ,		
-		/*11_MDMCFG3*/ 	 0x61 ,
-		/*12_MDMCFG2*/ 	 0x13 ,
-		/*13_MDMCFG1*/ 	 0x23 ,
-		/*14_MDMCFG0*/ 	 0x7a ,
-		/*15_DEVIATN*/ 	 0x51  };
-		const PROGMEM uint8_t FRSKYXEU_cc2500_conf[]= {
-		/*02_IOCFG0*/  	 0x06 ,		
-		/*00_IOCFG2*/  	 0x06 ,
-		/*17_MCSM1*/   	 0x0E ,
-		/*18_MCSM0*/   	 0x18 ,
-		/*06_PKTLEN*/  	 0x23 ,
-		/*07_PKTCTRL1*/	 0x04 ,
-		/*08_PKTCTRL0*/	 0x01 ,
-		/*3E_PATABLE*/ 	 0xff ,
-		/*0B_FSCTRL1*/ 	 0x08 ,
-		/*0C_FSCTRL0*/ 	 0x00 ,
-		/*0D_FREQ2*/   	 0x5c ,	
-		/*0E_FREQ1*/   	 0x80 ,
-		/*0F_FREQ0*/   	 0x00 ,
-		/*10_MDMCFG4*/ 	 0x7B ,		
-		/*11_MDMCFG3*/ 	 0xF8 ,
-		/*12_MDMCFG2*/ 	 0x03 ,
-		/*13_MDMCFG1*/ 	 0x23 ,
-		/*14_MDMCFG0*/ 	 0x7a ,
-		/*15_DEVIATN*/ 	 0x53  };
-	#endif
-
-	const PROGMEM uint8_t FRSKY_common_end_cc2500_conf[][2]= {
-		{ CC2500_19_FOCCFG,   0x16 },
-		{ CC2500_1A_BSCFG,    0x6c },	
-		{ CC2500_1B_AGCCTRL2, 0x43 },
-		{ CC2500_1C_AGCCTRL1, 0x40 },
-		{ CC2500_1D_AGCCTRL0, 0x91 },
-		{ CC2500_21_FREND1,   0x56 },
-		{ CC2500_22_FREND0,   0x10 },
-		{ CC2500_23_FSCAL3,   0xa9 },
-		{ CC2500_24_FSCAL2,   0x0A },
-		{ CC2500_25_FSCAL1,   0x00 },
-		{ CC2500_26_FSCAL0,   0x11 },
-		{ CC2500_29_FSTEST,   0x59 },
-		{ CC2500_2C_TEST2,    0x88 },
-		{ CC2500_2D_TEST1,    0x31 },
-		{ CC2500_2E_TEST0,    0x0B },
-		{ CC2500_03_FIFOTHR,  0x07 },
-		{ CC2500_09_ADDR,     0x00 } };
-
-	void FRSKY_init_cc2500(const uint8_t *ptr)
-	{
-		for(uint8_t i=0;i<19;i++)
-		{
-			uint8_t reg=pgm_read_byte_near(&FRSKY_common_startreg_cc2500_conf[i]);
-			uint8_t val=pgm_read_byte_near(&ptr[i]);
-			if(reg==CC2500_0C_FSCTRL0)
-				val=option;
-			CC2500_WriteReg(reg,val);
-		}
-		prev_option = option ;		// Save option to monitor FSCTRL0 change
-		for(uint8_t i=0;i<17;i++)
-		{
-			uint8_t reg=pgm_read_byte_near(&FRSKY_common_end_cc2500_conf[i][0]);
-			uint8_t val=pgm_read_byte_near(&FRSKY_common_end_cc2500_conf[i][1]);
-			CC2500_WriteReg(reg,val);
-		}
-		CC2500_SetTxRxMode(TX_EN);
-		CC2500_SetPower();
-		CC2500_Strobe(CC2500_SIDLE);    // Go to idle...
-	}
-#endif

Multiprotocol/Convert.ino

@@ -0,0 +1,164 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+/************************/
+/**  Convert routines  **/
+/************************/
+// Reverse a channel and store it
+void reverse_channel(uint8_t num)
+{
+	uint16_t val=2048-Channel_data[num];
+	if(val>=2048) val=2047;
+	Channel_data[num]=val;
+}
+
+// Channel value is converted to ppm 860<->2140 -125%<->+125% and 988<->2012 -100%<->+100%
+uint16_t convert_channel_ppm(uint8_t num)
+{
+	uint16_t val=Channel_data[num];
+	return (((val<<2)+val)>>3)+860;				//value range 860<->2140 -125%<->+125%
+}
+
+// Channel value 100% is converted to 10bit values 0<->1023
+uint16_t convert_channel_10b(uint8_t num)
+{
+	uint16_t val=Channel_data[num];
+	val=((val<<2)+val)>>3;
+	if(val<=128) return 0;
+	if(val>=1152) return 1023;
+	return val-128;
+}
+
+// Channel value 100% is converted to 8bit values 0<->255
+uint8_t convert_channel_8b(uint8_t num)
+{
+	uint16_t val=Channel_data[num];
+	val=((val<<2)+val)>>5;
+	if(val<=32) return 0;
+	if(val>=288) return 255;
+	return val-32;
+}
+
+// Channel value 100% is converted to 8b with deadband
+uint8_t convert_channel_8b_limit_deadband(uint8_t num,uint8_t min,uint8_t mid, uint8_t max, uint8_t deadband)
+{
+	uint16_t val=limit_channel_100(num);		// 204<->1844
+	uint16_t db_low=CHANNEL_MID-deadband, db_high=CHANNEL_MID+deadband; // 1024+-deadband
+	int32_t calc;
+	uint8_t out;
+	if(val>=db_low && val<=db_high)
+		return mid;
+	else if(val<db_low)
+	{
+		val-=CHANNEL_MIN_100;
+		calc=mid-min;
+		calc*=val;
+		calc/=(db_low-CHANNEL_MIN_100);
+		out=calc;
+		out+=min;
+	}
+	else
+	{
+		val-=db_high;
+		calc=max-mid;
+		calc*=val;
+		calc/=(CHANNEL_MAX_100-db_high+1);
+		out=calc;
+		out+=mid;
+		if(max>min) out++; else out--;
+	}
+	return out;
+}
+
+// Channel value 100% is converted to value scaled
+int16_t convert_channel_16b_limit(uint8_t num,int16_t min,int16_t max)
+{
+	int32_t val=limit_channel_100(num);			// 204<->1844
+	val=(val-CHANNEL_MIN_100)*(max-min)/(CHANNEL_MAX_100-CHANNEL_MIN_100)+min;
+	return (uint16_t)val;
+}
+
+// Channel value -125%<->125% is scaled to 16bit value with no limit
+int16_t convert_channel_16b_nolimit(uint8_t num, int16_t min, int16_t max)
+{
+	int32_t val=Channel_data[num];				// 0<->2047
+	val=(val-CHANNEL_MIN_100)*(max-min)/(CHANNEL_MAX_100-CHANNEL_MIN_100)+min;
+	return (uint16_t)val;
+}
+
+// Channel value is converted sign + magnitude 8bit values
+uint8_t convert_channel_s8b(uint8_t num)
+{
+	uint8_t ch;
+	ch = convert_channel_8b(num);
+	return (ch < 128 ? 127-ch : ch);	
+}
+
+// Channel value is limited to 100%
+uint16_t limit_channel_100(uint8_t num)
+{
+	if(Channel_data[num]>=CHANNEL_MAX_100)
+		return CHANNEL_MAX_100;
+	if (Channel_data[num]<=CHANNEL_MIN_100)
+		return CHANNEL_MIN_100;
+	return Channel_data[num];
+}
+
+// Channel value is converted for HK310
+void convert_channel_HK310(uint8_t num, uint8_t *low, uint8_t *high)
+{
+	uint16_t temp=0xFFFF-(3440+((Channel_data[num]*5)>>1))/3;
+	*low=(uint8_t)(temp&0xFF);
+	*high=(uint8_t)(temp>>8);
+}
+
+#ifdef FAILSAFE_ENABLE
+// Failsafe value is converted for HK310
+void convert_failsafe_HK310(uint8_t num, uint8_t *low, uint8_t *high)
+{
+	uint16_t temp=0xFFFF-(3440+((Failsafe_data[num]*5)>>1))/3;
+	*low=(uint8_t)(temp&0xFF);
+	*high=(uint8_t)(temp>>8);
+}
+#endif
+
+// Channel value for FrSky (PPM is multiplied by 1.5)
+uint16_t convert_channel_frsky(uint8_t num)
+{
+	uint16_t val=Channel_data[num];
+	return ((val*15)>>4)+1290;
+}
+
+// 0-2047, 0 = 817, 1024 = 1500, 2047 = 2182
+//64=860,1024=1500,1984=2140//Taranis 125%
+static uint16_t  __attribute__((unused)) FrSkyX_scaleForPXX( uint8_t i, uint8_t num_chan=8)
+{	//mapped 860,2140(125%) range to 64,1984(PXX values);
+	uint16_t chan_val=convert_channel_frsky(i)-1226;
+	if(i>=num_chan) chan_val|=2048;   // upper channels offset
+	return chan_val;
+}
+
+#ifdef FAILSAFE_ENABLE
+static uint16_t  __attribute__((unused)) FrSkyX_scaleForPXX_FS( uint8_t i )
+{	//mapped 1,2046(125%) range to 64,1984(PXX values);
+	uint16_t chan_val=((Failsafe_data[i]*15)>>4)+64;
+	if(Failsafe_data[i]==FAILSAFE_CHANNEL_NOPULSES)
+		chan_val=FAILSAFE_CHANNEL_NOPULSES;
+	else if(Failsafe_data[i]==FAILSAFE_CHANNEL_HOLD)
+		chan_val=FAILSAFE_CHANNEL_HOLD;
+	if(i>7) chan_val|=2048;   // upper channels offset
+	return chan_val;
+}
+#endif

Multiprotocol/Corona_cc2500.ino

@@ -258,6 +258,9 @@ static uint16_t __attribute__((unused)) CORONA_build_packet()
 
 uint16_t ReadCORONA()
 {
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(22000);
+	#endif
 	// Tune frequency if it has been changed
 	if ( prev_option != option )
 	{

Multiprotocol/DM002_nrf24l01.ino

@@ -113,7 +113,12 @@ static void __attribute__((unused)) DM002_init()
 uint16_t DM002_callback()
 {
 	if(IS_BIND_DONE)
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(DM002_PACKET_PERIOD);
+		#endif
 		DM002_send_packet(0);
+	}
 	else
 	{
 		if (bind_counter == 0)

Multiprotocol/DSM.ino

@@ -0,0 +1,182 @@
+#if defined(DSM_CYRF6936_INO) || defined(DSM_RX_CYRF6936_INO)
+
+#include "iface_cyrf6936.h"
+
+uint8_t sop_col;
+
+const uint8_t PROGMEM DSM_pncodes[5][9][8] = {
+	/* Note these are in order transmitted (LSB 1st) */
+	{ /* Row 0 */
+		/* Col 0 */ {0x03, 0xBC, 0x6E, 0x8A, 0xEF, 0xBD, 0xFE, 0xF8},
+		/* Col 1 */ {0x88, 0x17, 0x13, 0x3B, 0x2D, 0xBF, 0x06, 0xD6},
+		/* Col 2 */ {0xF1, 0x94, 0x30, 0x21, 0xA1, 0x1C, 0x88, 0xA9},
+		/* Col 3 */ {0xD0, 0xD2, 0x8E, 0xBC, 0x82, 0x2F, 0xE3, 0xB4},
+		/* Col 4 */ {0x8C, 0xFA, 0x47, 0x9B, 0x83, 0xA5, 0x66, 0xD0},
+		/* Col 5 */ {0x07, 0xBD, 0x9F, 0x26, 0xC8, 0x31, 0x0F, 0xB8},
+		/* Col 6 */ {0xEF, 0x03, 0x95, 0x89, 0xB4, 0x71, 0x61, 0x9D},
+		/* Col 7 */ {0x40, 0xBA, 0x97, 0xD5, 0x86, 0x4F, 0xCC, 0xD1},
+		/* Col 8 */ {0xD7, 0xA1, 0x54, 0xB1, 0x5E, 0x89, 0xAE, 0x86}
+	},
+	{ /* Row 1 */
+		/* Col 0 */ {0x83, 0xF7, 0xA8, 0x2D, 0x7A, 0x44, 0x64, 0xD3},
+		/* Col 1 */ {0x3F, 0x2C, 0x4E, 0xAA, 0x71, 0x48, 0x7A, 0xC9},
+		/* Col 2 */ {0x17, 0xFF, 0x9E, 0x21, 0x36, 0x90, 0xC7, 0x82},
+		/* Col 3 */ {0xBC, 0x5D, 0x9A, 0x5B, 0xEE, 0x7F, 0x42, 0xEB},
+		/* Col 4 */ {0x24, 0xF5, 0xDD, 0xF8, 0x7A, 0x77, 0x74, 0xE7},
+		/* Col 5 */ {0x3D, 0x70, 0x7C, 0x94, 0xDC, 0x84, 0xAD, 0x95},
+		/* Col 6 */ {0x1E, 0x6A, 0xF0, 0x37, 0x52, 0x7B, 0x11, 0xD4},
+		/* Col 7 */ {0x62, 0xF5, 0x2B, 0xAA, 0xFC, 0x33, 0xBF, 0xAF},
+		/* Col 8 */ {0x40, 0x56, 0x32, 0xD9, 0x0F, 0xD9, 0x5D, 0x97}
+	},
+	{ /* Row 2 */
+		/* Col 0 */ {0x40, 0x56, 0x32, 0xD9, 0x0F, 0xD9, 0x5D, 0x97},
+		/* Col 1 */ {0x8E, 0x4A, 0xD0, 0xA9, 0xA7, 0xFF, 0x20, 0xCA},
+		/* Col 2 */ {0x4C, 0x97, 0x9D, 0xBF, 0xB8, 0x3D, 0xB5, 0xBE},
+		/* Col 3 */ {0x0C, 0x5D, 0x24, 0x30, 0x9F, 0xCA, 0x6D, 0xBD},
+		/* Col 4 */ {0x50, 0x14, 0x33, 0xDE, 0xF1, 0x78, 0x95, 0xAD},
+		/* Col 5 */ {0x0C, 0x3C, 0xFA, 0xF9, 0xF0, 0xF2, 0x10, 0xC9},
+		/* Col 6 */ {0xF4, 0xDA, 0x06, 0xDB, 0xBF, 0x4E, 0x6F, 0xB3},
+		/* Col 7 */ {0x9E, 0x08, 0xD1, 0xAE, 0x59, 0x5E, 0xE8, 0xF0},
+		/* Col 8 */ {0xC0, 0x90, 0x8F, 0xBB, 0x7C, 0x8E, 0x2B, 0x8E}
+	},
+	{ /* Row 3 */
+		/* Col 0 */ {0xC0, 0x90, 0x8F, 0xBB, 0x7C, 0x8E, 0x2B, 0x8E},
+		/* Col 1 */ {0x80, 0x69, 0x26, 0x80, 0x08, 0xF8, 0x49, 0xE7},
+		/* Col 2 */ {0x7D, 0x2D, 0x49, 0x54, 0xD0, 0x80, 0x40, 0xC1},
+		/* Col 3 */ {0xB6, 0xF2, 0xE6, 0x1B, 0x80, 0x5A, 0x36, 0xB4},
+		/* Col 4 */ {0x42, 0xAE, 0x9C, 0x1C, 0xDA, 0x67, 0x05, 0xF6},
+		/* Col 5 */ {0x9B, 0x75, 0xF7, 0xE0, 0x14, 0x8D, 0xB5, 0x80},
+		/* Col 6 */ {0xBF, 0x54, 0x98, 0xB9, 0xB7, 0x30, 0x5A, 0x88},
+		/* Col 7 */ {0x35, 0xD1, 0xFC, 0x97, 0x23, 0xD4, 0xC9, 0x88},
+		/* Col 8 */ {0xE1, 0xD6, 0x31, 0x26, 0x5F, 0xBD, 0x40, 0x93}
+// Wrong values used by Orange TX/RX
+//		/* Col 8 */ {0x88, 0xE1, 0xD6, 0x31, 0x26, 0x5F, 0xBD, 0x40}
+	},
+	{ /* Row 4 */
+		/* Col 0 */ {0xE1, 0xD6, 0x31, 0x26, 0x5F, 0xBD, 0x40, 0x93},
+		/* Col 1 */ {0xDC, 0x68, 0x08, 0x99, 0x97, 0xAE, 0xAF, 0x8C},
+		/* Col 2 */ {0xC3, 0x0E, 0x01, 0x16, 0x0E, 0x32, 0x06, 0xBA},
+		/* Col 3 */ {0xE0, 0x83, 0x01, 0xFA, 0xAB, 0x3E, 0x8F, 0xAC},
+		/* Col 4 */ {0x5C, 0xD5, 0x9C, 0xB8, 0x46, 0x9C, 0x7D, 0x84},
+		/* Col 5 */ {0xF1, 0xC6, 0xFE, 0x5C, 0x9D, 0xA5, 0x4F, 0xB7},
+		/* Col 6 */ {0x58, 0xB5, 0xB3, 0xDD, 0x0E, 0x28, 0xF1, 0xB0},
+		/* Col 7 */ {0x5F, 0x30, 0x3B, 0x56, 0x96, 0x45, 0xF4, 0xA1},
+		/* Col 8 */ {0x03, 0xBC, 0x6E, 0x8A, 0xEF, 0xBD, 0xFE, 0xF8}
+	},
+};
+
+static void __attribute__((unused)) DSM_read_code(uint8_t *buf, uint8_t row, uint8_t col, uint8_t len)
+{
+	for(uint8_t i=0;i<len;i++)
+		buf[i]=pgm_read_byte_near( &DSM_pncodes[row][col][i] );
+}
+
+const uint8_t PROGMEM DSM_init_vals[][2] = {
+	{CYRF_02_TX_CTRL, 0x00},				// All TX interrupt disabled
+	{CYRF_05_RX_CTRL, 0x00},				// All RX interrupt disabled
+	{CYRF_28_CLK_EN, 0x02},					// Force receive clock enable
+	{CYRF_32_AUTO_CAL_TIME, 0x3c},			// Default init value
+	{CYRF_35_AUTOCAL_OFFSET, 0x14},			// Default init value
+	{CYRF_26_XTAL_CFG, 0x08},				// Start delay
+	{CYRF_06_RX_CFG, 0x4A},					// LNA enabled, RX override enabled, Fast turn mode enabled, RX is 1MHz below TX
+	{CYRF_1B_TX_OFFSET_LSB, 0x55},			// Default init value
+	{CYRF_1C_TX_OFFSET_MSB, 0x05},			// Default init value
+	{CYRF_39_ANALOG_CTRL, 0x01},			// All slow for synth setting time
+	{CYRF_01_TX_LENGTH, 0x10},				// 16 bytes packet
+	{CYRF_14_EOP_CTRL, 0x02},				// Set EOP Symbol Count to 2
+	{CYRF_12_DATA64_THOLD, 0x0a},			// 64 Chip Data PN corelator threshold, default datasheet value is 0x0E
+	//Below is for bind only
+	{CYRF_03_TX_CFG, 0x38 | CYRF_BIND_POWER}, //64 chip codes, SDR mode
+	{CYRF_10_FRAMING_CFG, 0x4a},			// SOP disabled, no LEN field and SOP correlator of 0x0a but since SOP is disabled...
+	{CYRF_1F_TX_OVERRIDE, 0x04},			// Disable TX CRC, no ACK, use TX synthesizer
+	{CYRF_1E_RX_OVERRIDE, 0x14},			// Disable RX CRC, Force receive data rate, use RX synthesizer
+};
+
+const uint8_t PROGMEM DSM_data_vals[][2] = {
+	{CYRF_29_RX_ABORT, 0x20},				// Abort RX operation in case we are coming from bind
+	{CYRF_0F_XACT_CFG, 0x24},				// Force Idle
+	{CYRF_29_RX_ABORT, 0x00},				// Clear abort RX
+	{CYRF_03_TX_CFG, 0x28 | CYRF_HIGH_POWER}, // 64 chip codes, 8DR mode
+	{CYRF_10_FRAMING_CFG, 0xea},			// SOP enabled, SOP_CODE_ADR 64 chips, Packet len enabled, SOP correlator 0x0A
+	{CYRF_1F_TX_OVERRIDE, 0x00},			// CRC16 enabled, no ACK
+	{CYRF_1E_RX_OVERRIDE, 0x00},			// CRC16 enabled, no ACK
+};
+
+static void __attribute__((unused)) DSM_cyrf_config()
+{
+	for(uint8_t i = 0; i < sizeof(DSM_init_vals) / 2; i++)	
+		CYRF_WriteRegister(pgm_read_byte_near(&DSM_init_vals[i][0]), pgm_read_byte_near(&DSM_init_vals[i][1]));
+	CYRF_WritePreamble(0x333304);
+}
+
+static void __attribute__((unused)) DSM_cyrf_configdata()
+{
+	for(uint8_t i = 0; i < sizeof(DSM_data_vals) / 2; i++)
+		CYRF_WriteRegister(pgm_read_byte_near(&DSM_data_vals[i][0]), pgm_read_byte_near(&DSM_data_vals[i][1]));
+}
+
+static uint8_t __attribute__((unused)) DSM_get_pn_row(uint8_t channel, bool dsmx)
+{
+	return (dsmx ? (channel - 2) % 5 : channel % 5);	
+}
+
+static void __attribute__((unused)) DSM_set_sop_data_crc(bool ch2, bool dsmx)
+{
+	//The crc for channel '1' is NOT(mfgid[0] << 8 + mfgid[1])
+	//The crc for channel '2' is (mfgid[0] << 8 + mfgid[1])
+	if(ch2)
+		CYRF_ConfigCRCSeed(seed);	//CH2
+	else
+		CYRF_ConfigCRCSeed(~seed);	//CH1
+
+	uint8_t pn_row = DSM_get_pn_row(hopping_frequency[hopping_frequency_no], dsmx);
+	uint8_t code[16];
+	DSM_read_code(code,pn_row,sop_col,8);					// pn_row between 0 and 4, sop_col between 1 and 7
+	CYRF_ConfigSOPCode(code);
+	DSM_read_code(code,pn_row,7 - sop_col,8);				// 7-sop_col between 0 and 6
+	DSM_read_code(code+8,pn_row,7 - sop_col + 1,8);			// 7-sop_col+1 between 1 and 7
+	CYRF_ConfigDataCode(code, 16);
+
+	CYRF_ConfigRFChannel(hopping_frequency[hopping_frequency_no]);
+	hopping_frequency_no++;
+	if(dsmx)
+		hopping_frequency_no %=23;
+	else
+		hopping_frequency_no %=2;
+}
+
+static void __attribute__((unused)) DSM_calc_dsmx_channel()
+{
+	uint8_t idx = 0;
+	uint32_t id = ~(((uint32_t)cyrfmfg_id[0] << 24) | ((uint32_t)cyrfmfg_id[1] << 16) | ((uint32_t)cyrfmfg_id[2] << 8) | (cyrfmfg_id[3] << 0));
+	uint32_t id_tmp = id;
+	while(idx < 23)
+	{
+		uint8_t i;
+		uint8_t count_3_27 = 0, count_28_51 = 0, count_52_76 = 0;
+		id_tmp = id_tmp * 0x0019660D + 0x3C6EF35F;		// Randomization
+		uint8_t next_ch = ((id_tmp >> 8) % 0x49) + 3;	// Use least-significant byte and must be larger than 3
+		if ( (next_ch ^ cyrfmfg_id[3]) & 0x01 )
+			continue;
+		for (i = 0; i < idx; i++)
+		{
+			if(hopping_frequency[i] == next_ch)
+				break;
+			if(hopping_frequency[i] <= 27)
+				count_3_27++;
+			else
+				if (hopping_frequency[i] <= 51)
+					count_28_51++;
+				else
+					count_52_76++;
+		}
+		if (i != idx)
+			continue;
+		if ((next_ch < 28 && count_3_27 < 8)
+			||(next_ch >= 28 && next_ch < 52 && count_28_51 < 7)
+			||(next_ch >= 52 && count_52_76 < 8))
+			hopping_frequency[idx++] = next_ch;
+	}
+}
+
+#endif

Multiprotocol/DSM_Rx_cyrf6936.ino

@@ -0,0 +1,505 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(DSM_RX_CYRF6936_INO)
+
+#include "iface_cyrf6936.h"
+
+//#define DSM_DEBUG_RF
+//#define DSM_DEBUG_CH
+
+uint8_t DSM_rx_type;
+
+enum {
+	DSM_RX_BIND1 = 0,
+	DSM_RX_BIND2,
+	DSM_RX_DATA_PREP,
+	DSM2_RX_SCAN,
+	DSM_RX_DATA_CH1,
+	DSM_RX_DATA_CH2,
+};
+
+static void __attribute__((unused)) DSM_Rx_init()
+{
+	DSM_cyrf_config();
+	rx_disable_lna = IS_POWER_FLAG_on;
+	if(IS_BIND_IN_PROGRESS)
+	{
+		//64 SDR Mode is configured so only the 8 first values are needed but need to write 16 values...
+		uint8_t code[16];
+		DSM_read_code(code,0,8,8);
+		CYRF_ConfigDataCode(code, 16);
+		CYRF_ConfigRFChannel(1);
+		CYRF_SetTxRxMode(RX_EN);									// Force end state read
+		CYRF_WriteRegister(CYRF_05_RX_CTRL, 0x83);					// Prepare to receive
+	}
+	else
+	{
+		DSM_cyrf_configdata();
+		CYRF_WriteRegister(CYRF_06_RX_CFG, rx_disable_lna ? 0x0A:0x4A);	// AGC disabled, LNA disabled/enabled, Attenuator disabled, RX override enabled, Fast turn mode enabled, RX is 1MHz below TX
+	}
+}
+
+uint16_t convert_channel_DSM_nolimit(int32_t val)
+{
+	val=(val-0x150)*(CHANNEL_MAX_100-CHANNEL_MIN_100)/(0x6B0-0x150)+CHANNEL_MIN_100;
+	if(val<0)
+		val=0;
+	else
+		if(val>2047)
+			val=2047;
+	return (uint16_t)val;
+}
+
+static uint8_t __attribute__((unused)) DSM_Rx_check_packet()
+{
+ 	uint8_t rx_status=CYRF_ReadRegister(CYRF_07_RX_IRQ_STATUS);
+	if((rx_status & 0x03) == 0x02)  									// RXC=1, RXE=0 then 2nd check is required (debouncing)
+		rx_status |= CYRF_ReadRegister(CYRF_07_RX_IRQ_STATUS);
+	if((rx_status & 0x07) == 0x02)
+	{ // data received with no errors
+		len=CYRF_ReadRegister(CYRF_09_RX_COUNT);
+		#ifdef DSM_DEBUG_RF
+			debugln("l=%d",len);
+		#endif
+		if(len>=2 && len<=16)
+		{
+			// Read packet
+			CYRF_WriteRegister(CYRF_07_RX_IRQ_STATUS, 0x80);		// Need to set RXOW before data read
+			CYRF_ReadDataPacketLen(packet, len);
+
+			// Check packet ID
+			if ((DSM_rx_type&0x80) == 0)
+			{//DSM2
+				packet[0] ^= 0xff;
+				packet[1] ^= 0xff;
+			}
+			#ifdef DSM_DEBUG_CH
+				for(uint8_t i=0;i<len;i++)
+					debug("%02X ",packet[i]);
+				debugln("");
+			#endif
+			if(packet[0] == cyrfmfg_id[2] && packet[1] == cyrfmfg_id[3])
+				return 0x02;										// Packet ok
+		}
+		return 0x00;												// Wrong size or ID -> nothing received
+	}
+	return rx_status;												// Return error code
+}
+
+static void __attribute__((unused)) DSM_Rx_build_telemetry_packet()
+{
+	uint8_t nbr_bits = 11;
+	if((DSM_rx_type&0xF0) == 0x00)
+		nbr_bits=10;												// Only DSM_22 is using a resolution of 1024
+
+	// Use packet length to calculate the number of channels
+	len -= 2;														// Remove header length
+	len >>= 1;														// Channels are on 2 bytes
+	if(len==0) return;												// No channels...
+
+	// Extract channels
+	uint8_t idx;
+	for (uint8_t i = 0; i < len; i++)
+	{
+		uint16_t value=(packet[i*2+2]<<8) | packet[i*2+3];
+		if(value!=0xFFFF)
+		{
+			idx=(value&0x7FFF)>>nbr_bits;							// retrieve channel index
+			#ifdef DSM_DEBUG_CH
+				debugln("i=%d,v=%d,u=%X",idx,value&0x7FF,value&0x8000);
+			#endif
+			if(idx<13)
+			{
+				if(nbr_bits==10) value <<= 1;						// switch to 11 bits
+				value &= 0x7FF;
+				rx_rc_chan[CH_TAER[idx]]=convert_channel_DSM_nolimit(value);
+			}
+		}
+	}
+
+	// Buid telemetry packet
+	idx=0;
+	packet_in[idx++] = RX_LQI;
+	packet_in[idx++] = RX_LQI;
+	packet_in[idx++] = 0;  											// start channel
+	packet_in[idx++] = 12; 											// number of channels in packet
+
+	// Pack channels
+	uint32_t bits = 0;
+	uint8_t bitsavailable = 0;
+	for (uint8_t i = 0; i < 12; i++)
+	{
+		bits |= ((uint32_t)rx_rc_chan[i]) << bitsavailable;
+		bitsavailable += 11;
+		while (bitsavailable >= 8)
+		{
+			packet_in[idx++] = bits & 0xff;
+			bits >>= 8;
+			bitsavailable -= 8;
+		}
+	}
+	if(bitsavailable)
+		packet_in[idx++] = bits & 0xff;
+	// Send telemetry
+	telemetry_link = 1;
+}
+
+static bool __attribute__((unused)) DSM_Rx_bind_check_validity()
+{
+	uint16_t sum = 384 - 0x10;//
+	for(uint8_t i = 0; i < 8; i++)
+		sum += packet_in[i];
+	if( packet_in[8] != (sum>>8) || packet_in[9] != (sum&0xFF))		//Checksum
+		return false;
+	for(uint8_t i = 8; i < 14; i++)
+		sum += packet_in[i];
+	if( packet_in[14] != (sum>>8) || packet_in[15] != (sum&0xFF))	//Checksum
+		return false;
+	if(memcmp(packet_in,packet_in+4,4))								//Check ID
+		return false;
+	return true;
+}
+
+static void __attribute__((unused)) DSM_Rx_build_bind_packet()
+{
+	uint16_t sum = 384 - 0x10;//
+	packet[0] = 0xff ^ cyrfmfg_id[0];								// ID
+	packet[1] = 0xff ^ cyrfmfg_id[1];
+	packet[2] = 0xff ^ cyrfmfg_id[2];
+	packet[3] = 0xff ^ cyrfmfg_id[3];
+	packet[4] = 0x01;												// RX version
+	packet[5] = num_ch;												// Number of channels
+	packet[6] = DSM_rx_type;										// DSM type, let's just send back whatever the TX gave us...
+	packet[7] = 0x00;												// Unknown
+	for(uint8_t i = 0; i < 8; i++)
+		sum += packet[i];
+	packet[8] = sum >> 8;
+	packet[9] = sum & 0xff;
+}
+
+static void __attribute__((unused)) DSM_abort_channel_rx(uint8_t ch)
+{
+	CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x20);						// Abort RX operation
+	CYRF_SetTxRxMode(IS_POWER_FLAG_on ? TXRX_OFF:RX_EN);			// Force end state read
+	if (rx_disable_lna != IS_POWER_FLAG_on && IS_BIND_DONE)
+	{
+		rx_disable_lna = IS_POWER_FLAG_on;
+		CYRF_WriteRegister(CYRF_06_RX_CFG, rx_disable_lna ? 0x0A:0x4A);	// AGC disabled, LNA disabled/enabled, Attenuator disabled, RX override enabled, Fast turn mode enabled, RX is 1MHz below TX
+	}
+	if(ch&0x02) DSM_set_sop_data_crc(true ,DSM_rx_type&0x80);		// Set sop data,crc seed and rf channel using CH1, DSM2/X
+	if(ch&0x01) DSM_set_sop_data_crc(false,DSM_rx_type&0x80);		// Set sop data,crc seed and rf channel using CH1, DSM2/X
+	CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x00);						// Clear abort RX operation
+	CYRF_WriteRegister(CYRF_05_RX_CTRL, 0x83);						// Prepare to receive
+}
+
+uint16_t DSM_Rx_callback()
+{
+	uint8_t rx_status;
+	static uint8_t read_retry=0;
+
+	switch (phase)
+	{
+		case DSM_RX_BIND1:
+			if(IS_BIND_DONE)										// Abort bind
+			{
+				phase = DSM_RX_DATA_PREP;
+				break;
+			}
+			if(packet_count==0)
+				read_retry=0;
+			//Check received data
+			rx_status = CYRF_ReadRegister(CYRF_07_RX_IRQ_STATUS);
+			if((rx_status & 0x03) == 0x02)  						// RXC=1, RXE=0 then 2nd check is required (debouncing)
+				rx_status |= CYRF_ReadRegister(CYRF_07_RX_IRQ_STATUS);
+			if((rx_status & 0x07) == 0x02)
+			{ // data received with no errors
+				CYRF_WriteRegister(CYRF_07_RX_IRQ_STATUS, 0x80);	// Need to set RXOW before data read
+				len=CYRF_ReadRegister(CYRF_09_RX_COUNT);
+				debugln("RX:%d, CH:%d",len,hopping_frequency_no);
+				if(len==16)
+				{
+					CYRF_ReadDataPacketLen(packet_in, 16);
+					if(DSM_Rx_bind_check_validity())
+					{
+						// store tx info into eeprom
+						uint16_t temp = DSM_RX_EEPROM_OFFSET;
+						debug("ID=");
+						for(uint8_t i=0;i<4;i++)
+						{
+							cyrfmfg_id[i]=packet_in[i]^0xFF;
+							eeprom_write_byte((EE_ADDR)temp++, cyrfmfg_id[i]);
+							debug(" %02X", cyrfmfg_id[i]);
+						}
+						// check num_ch
+						num_ch=packet_in[11];
+						if(num_ch>12) num_ch=12;
+						//check DSM_rx_type
+						/*packet[12]     1 byte -> max DSM type allowed:
+							0x01 => 22ms 1024 DSM2 1 packet => number of channels is <8
+							0x02 => 22ms 1024 DSM2 2 packets => either a number of channel >7
+							0x12 => 11ms 2048 DSM2 2 packets => can be any number of channels
+							0xA2 => 22ms 2048 DSMX 1 packet => number of channels is <8
+							0xB2 => 11ms 2048 DSMX => can be any number of channels
+							(0x01 or 0xA2) and num_ch < 7 => 22ms else 11ms
+							&0x80 => false=DSM2, true=DSMX
+							&0xF0 => false=1024, true=2048 */
+						DSM_rx_type=packet_in[12];
+						switch(DSM_rx_type)
+						{
+							case 0x01:
+								if(num_ch>7) DSM_rx_type = 0x02;	// Can't be 0x01 with this number of channels
+								break;
+							case 0xA2:
+								if(num_ch>7) DSM_rx_type = 0xB2;	// Can't be 0xA2 with this number of channels
+								break;
+							case 0x02:
+							case 0x12:
+							case 0xB2:
+								break;
+							default:								// Unknown type, default to DSMX 11ms
+								DSM_rx_type = 0xB2;
+								break;
+						}
+						eeprom_write_byte((EE_ADDR)temp, DSM_rx_type);
+						debugln(", num_ch=%d, type=%02X",num_ch, DSM_rx_type);
+						CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x20);	// Abort RX operation
+						CYRF_SetTxRxMode(TX_EN);					// Force end state TX
+						CYRF_ConfigDataCode((const uint8_t *)"\x98\x88\x1B\xE4\x30\x79\x03\x84", 16);
+						CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x00);	// Clear abort RX
+						DSM_Rx_build_bind_packet();
+						bind_counter=500;
+						phase++;									// DSM_RX_BIND2;
+						return 1000;
+					}
+				}
+				DSM_abort_channel_rx(0);							// Abort RX operation and receive
+				if(read_retry==0)
+					read_retry=8;
+			}
+			else
+				if(rx_status & 0x02)								// RX error
+					DSM_abort_channel_rx(0);						// Abort RX operation and receive
+			packet_count++;
+			if(packet_count>12)
+			{
+				packet_count=1;
+				if(read_retry)
+					read_retry--;
+				if(read_retry==0)
+				{
+					packet_count=0;
+					hopping_frequency_no++;								// Change channel
+					hopping_frequency_no %= 0x50;
+					hopping_frequency_no |= 0x01;						// Odd channels only
+					CYRF_ConfigRFChannel(hopping_frequency_no);
+					DSM_abort_channel_rx(0);							// Abort RX operation and receive
+				}
+			}
+			return 1000;
+		case DSM_RX_BIND2:
+			//Transmit settings back
+			CYRF_WriteDataPacketLen(packet,10);						// Send packet
+			if(bind_counter--==0)
+			{
+				BIND_DONE;
+				phase++;											// DSM_RX_DATA_PREP
+			}
+			break;
+		case DSM_RX_DATA_PREP:
+			hopping_frequency_no = 0;
+			read_retry=0;
+			rx_data_started = false;
+			pps_counter = 0;
+			RX_LQI = 100;
+			DSM_cyrf_configdata();
+			pps_timer=millis();
+			sop_col = (cyrfmfg_id[0] + cyrfmfg_id[1] + cyrfmfg_id[2] + 2) & 0x07;
+			seed = (cyrfmfg_id[0] << 8) + cyrfmfg_id[1];
+			if(DSM_rx_type&0x80)
+			{ // DSMX
+				DSM_calc_dsmx_channel();							// Build hop table
+				DSM_abort_channel_rx(1);							// Abort RX operation, set sop&data&seed&rf using CH1, DSM2/X and receive
+				phase=DSM_RX_DATA_CH1;
+			}
+			else
+			{ // DSM2
+				rf_ch_num=0;
+				hopping_frequency_no = 0;
+				hopping_frequency[0] = 3;
+				hopping_frequency[1] = 0;
+				DSM_abort_channel_rx(1);							// Abort RX operation, set sop&data&seed&rf using CH1, DSM2/X and receive
+				phase=DSM2_RX_SCAN;
+			}
+			break;
+		case DSM2_RX_SCAN:											// Scan for DSM2 frequencies
+			//Received something ?
+			rx_status = DSM_Rx_check_packet();
+			if(rx_status == 0x02)
+			{ // data received with no errors
+				debugln("CH%d:Found %d",rf_ch_num+1,hopping_frequency[rf_ch_num]);
+				read_retry=0;
+				if(rf_ch_num)
+				{													// Both CH1 and CH2 found
+					read_retry=0;
+					hopping_frequency_no=0;
+					DSM_abort_channel_rx(1);						// Abort RX operation, set sop&data&seed&rf using CH1, DSM2/X and receive
+					pps_timer=millis();
+					phase++;										// DSM_RX_DATA_CH1
+				}
+				else
+				{
+					rf_ch_num++;									// CH1 found, scan for CH2
+					hopping_frequency_no = 1;
+					if(hopping_frequency[1] < 3)					// If no CH2 keep then restart from current
+						hopping_frequency[1]=hopping_frequency[0]+1;
+					DSM_abort_channel_rx(2);						// Abort RX operation, set sop&data&seed&rf using CH2, DSM2/X and receive
+				}
+			}
+			else
+			{
+				read_retry++;
+				if(read_retry>50)									// After 50ms
+				{ // Try next channel
+					debugln("CH%d:Next channel",rf_ch_num+1);
+					read_retry=0;
+					hopping_frequency_no = rf_ch_num;
+					hopping_frequency[rf_ch_num]++;
+					if(hopping_frequency[rf_ch_num] > 73) hopping_frequency[rf_ch_num] = 3;
+					DSM_abort_channel_rx(rf_ch_num+1);				// Abort RX operation, set sop&data&seed&rf using CH1/2, DSM2/X and receive
+				}
+				else if(rx_status & 0x02)
+				{ // data received with errors
+					if((rx_status & 0x01) && rf_ch_num==0)
+						hopping_frequency[1] = hopping_frequency[0];// Might be CH2 since it's a CRC error so keep it
+					debugln("CH%d:RX error",rf_ch_num+1);
+					DSM_abort_channel_rx(0);						// Abort RX operation and receive
+				}
+			}
+			return 1000;
+		case DSM_RX_DATA_CH1:
+			//Packets per second
+			if (millis() - pps_timer >= 1000)
+			{//182pps @11ms, 91pps @22ms
+				pps_timer = millis();
+				if(DSM_rx_type!=0xA2 && DSM_rx_type!=0x01)			// if 11ms
+					pps_counter >>=1;								// then /2
+				debugln("%d pps", pps_counter);
+				RX_LQI = pps_counter;								// max=91pps
+				pps_counter = 0;
+			}
+			//Received something ?
+			rx_status = DSM_Rx_check_packet();
+			if(rx_status == 0x02)
+			{ // data received with no errors
+				#ifdef DSM_DEBUG_RF
+					debugln("CH1:RX");
+				#endif
+				DSM_Rx_build_telemetry_packet();
+				rx_data_started = true;
+				pps_counter++;
+				DSM_abort_channel_rx(2);							// Abort RX operation, set sop&data&seed&rf using CH2, DSM2/X and receive
+				phase++;
+				return 5000;
+			}
+			else
+			{
+				read_retry++;
+				if(rx_data_started && read_retry>6)					// After 6*500=3ms
+				{ // skip to CH2
+					#ifdef DSM_DEBUG_RF
+						debugln("CH1:Skip to CH2");
+					#endif
+					DSM_abort_channel_rx(2);						// Abort RX operation, set sop&data&seed&rf using CH2, DSM2/X and receive
+					phase++;
+					return 4000;
+				}
+				if(rx_data_started && RX_LQI==0)
+				{  // communication lost
+					#ifdef DSM_DEBUG_RF
+						debugln("CH1:Restart...");
+					#endif
+					phase=DSM_RX_DATA_PREP;
+					return 1000;
+				}
+				if(read_retry>250)
+				{ // move to next RF channel
+					#ifdef DSM_DEBUG_RF
+						debugln("CH1:Scan");
+					#endif
+					DSM_abort_channel_rx(3);						// Abort RX operation, set sop&data&seed&rf using CH2 then CH1, DSM2/X and receive
+					read_retry=0;
+				}
+				else if(rx_status & 0x02)
+				{ // data received with errors
+					#ifdef DSM_DEBUG_RF
+						debugln("CH1:RX error %02X",rx_status);
+					#endif
+					DSM_abort_channel_rx(0);						// Abort RX operation and receive
+				}
+			}
+			return 500;
+		case DSM_RX_DATA_CH2:
+			rx_status = DSM_Rx_check_packet();
+			if(rx_status == 0x02)
+			{ // data received with no errors
+				#ifdef DSM_DEBUG_RF
+					debugln("CH2:RX");
+				#endif
+				DSM_Rx_build_telemetry_packet();
+				pps_counter++;
+			}
+			#ifdef DSM_DEBUG_RF
+				else
+					debugln("CH2:No RX");
+			#endif
+			DSM_abort_channel_rx(1);								// Abort RX operation, set sop&data&seed&rf using CH1, DSM2/X and receive
+			read_retry=0;
+			phase=DSM_RX_DATA_CH1;
+			if(DSM_rx_type==0xA2) //|| DSM_rx_type==0x01 -> not needed for DSM2 since we are ok to listen even if there will be nothing
+				return 15000;										//22ms
+			else
+				return 4000;										//11ms
+	}
+	return 10000;
+}
+
+uint16_t initDSM_Rx()
+{
+	DSM_Rx_init();
+	hopping_frequency_no = 0;
+	
+	if (IS_BIND_IN_PROGRESS)
+	{
+		packet_count=0;
+		phase = DSM_RX_BIND1;
+	}
+	else
+	{
+		uint16_t temp = DSM_RX_EEPROM_OFFSET;
+		debug("ID=");
+		for(uint8_t i=0;i<4;i++)
+		{
+			cyrfmfg_id[i]=eeprom_read_byte((EE_ADDR)temp++);
+			debug(" %02X", cyrfmfg_id[i]);
+		}
+		DSM_rx_type=eeprom_read_byte((EE_ADDR)temp);
+		debugln(", type=%02X", DSM_rx_type);
+		phase = DSM_RX_DATA_PREP;
+	}
+	return 15000;
+}
+
+#endif

Multiprotocol/DSM_cyrf6936.ino

@@ -17,6 +17,10 @@
 
 #include "iface_cyrf6936.h"
 
+//#define DSM_DEBUG_FWD_PGM
+
+//#define DSM_GR300
+
 #define DSM_BIND_CHANNEL 0x0d //13 This can be any odd channel
 
 //During binding we will send BIND_COUNT/2 packets
@@ -41,10 +45,10 @@ enum {
 };
 
 //
-uint8_t sop_col;
 uint8_t ch_map[14];
 const uint8_t PROGMEM DSM_ch_map_progmem[][14] = {
-//22+11ms for 4..7 channels
+//22+11ms for 3..7 channels
+	{1, 0, 2, 0xff, 0xff, 0xff, 0xff, 1,  0,   2, 0xff, 0xff, 0xff,    0xff}, //3ch  - Guess
 	{1, 0, 2, 3, 0xff, 0xff, 0xff, 1,    0,    2,    3, 0xff, 0xff,    0xff}, //4ch  - Guess
 	{1, 0, 2, 3, 4,    0xff, 0xff, 1,    0,    2,    3,    4, 0xff,    0xff}, //5ch  - Guess
 	{1, 5, 2, 3, 0,    4,    0xff, 1,    5,    2,    3,    0,    4,    0xff}, //6ch  - HP6DSM
@@ -54,123 +58,14 @@ const uint8_t PROGMEM DSM_ch_map_progmem[][14] = {
 	{1, 5, 2, 3, 6,    0xff, 0xff, 4,    0,    7,    8,    0xff, 0xff, 0xff}, //9ch  - Guess
 	{1, 5, 2, 3, 6,    0xff, 0xff, 4,    0,    7,    8,    9,    0xff, 0xff}, //10ch - Guess
 	{1, 5, 2, 3, 6,    10,   0xff, 4,    0,    7,    8,    9,    0xff, 0xff}, //11ch - Guess
-	{1, 5, 2, 4, 6,    10,   0xff, 0,    7,    3,    8,    9   , 11  , 0xff}, //12ch - DX18
-//11ms for 8..12 channels
+	{1, 5, 2, 4, 6,    10,   0xff, 0,    7,    3,    8,    9   , 11  , 0xff}, //12ch - DX18/DX8G2
+//11ms for 8..11 channels
 	{1, 5, 2, 3, 6,    7,    0xff, 1,    5,    2,    4,    0,    0xff, 0xff}, //8ch  - DX7
 	{1, 5, 2, 3, 6,    7,    0xff, 1,    5,    2,    4,    0,    8,    0xff}, //9ch  - Guess
-	{1, 5, 2, 3, 4,    8,    9,    1,    5,    2,    3,     0,   7,    6   }, //10ch - DX18
+	{1, 5, 2, 3, 4,    8,    9,    1,    5,    2,    3,    0,    7,    6   }, //10ch - DX18
+	{1, 5, 2, 3, 4,    8,    9,    1,   10,    2,    3,    0,    7,    6   }, //11ch - Guess
 };
 
-const uint8_t PROGMEM DSM_pncodes[5][8][8] = {
-	/* Note these are in order transmitted (LSB 1st) */
-	{ /* Row 0 */
-		/* Col 0 */ {0x03, 0xBC, 0x6E, 0x8A, 0xEF, 0xBD, 0xFE, 0xF8},
-		/* Col 1 */ {0x88, 0x17, 0x13, 0x3B, 0x2D, 0xBF, 0x06, 0xD6},
-		/* Col 2 */ {0xF1, 0x94, 0x30, 0x21, 0xA1, 0x1C, 0x88, 0xA9},
-		/* Col 3 */ {0xD0, 0xD2, 0x8E, 0xBC, 0x82, 0x2F, 0xE3, 0xB4},
-		/* Col 4 */ {0x8C, 0xFA, 0x47, 0x9B, 0x83, 0xA5, 0x66, 0xD0},
-		/* Col 5 */ {0x07, 0xBD, 0x9F, 0x26, 0xC8, 0x31, 0x0F, 0xB8},
-		/* Col 6 */ {0xEF, 0x03, 0x95, 0x89, 0xB4, 0x71, 0x61, 0x9D},
-		/* Col 7 */ {0x40, 0xBA, 0x97, 0xD5, 0x86, 0x4F, 0xCC, 0xD1},
-		/* Col 8    {0xD7, 0xA1, 0x54, 0xB1, 0x5E, 0x89, 0xAE, 0x86}*/
-	},
-	{ /* Row 1 */
-		/* Col 0 */ {0x83, 0xF7, 0xA8, 0x2D, 0x7A, 0x44, 0x64, 0xD3},
-		/* Col 1 */ {0x3F, 0x2C, 0x4E, 0xAA, 0x71, 0x48, 0x7A, 0xC9},
-		/* Col 2 */ {0x17, 0xFF, 0x9E, 0x21, 0x36, 0x90, 0xC7, 0x82},
-		/* Col 3 */ {0xBC, 0x5D, 0x9A, 0x5B, 0xEE, 0x7F, 0x42, 0xEB},
-		/* Col 4 */ {0x24, 0xF5, 0xDD, 0xF8, 0x7A, 0x77, 0x74, 0xE7},
-		/* Col 5 */ {0x3D, 0x70, 0x7C, 0x94, 0xDC, 0x84, 0xAD, 0x95},
-		/* Col 6 */ {0x1E, 0x6A, 0xF0, 0x37, 0x52, 0x7B, 0x11, 0xD4},
-		/* Col 7 */ {0x62, 0xF5, 0x2B, 0xAA, 0xFC, 0x33, 0xBF, 0xAF},
-		/* Col 8    {0x40, 0x56, 0x32, 0xD9, 0x0F, 0xD9, 0x5D, 0x97} */
-	},
-	{ /* Row 2 */
-		/* Col 0 */ {0x40, 0x56, 0x32, 0xD9, 0x0F, 0xD9, 0x5D, 0x97},
-		/* Col 1 */ {0x8E, 0x4A, 0xD0, 0xA9, 0xA7, 0xFF, 0x20, 0xCA},
-		/* Col 2 */ {0x4C, 0x97, 0x9D, 0xBF, 0xB8, 0x3D, 0xB5, 0xBE},
-		/* Col 3 */ {0x0C, 0x5D, 0x24, 0x30, 0x9F, 0xCA, 0x6D, 0xBD},
-		/* Col 4 */ {0x50, 0x14, 0x33, 0xDE, 0xF1, 0x78, 0x95, 0xAD},
-		/* Col 5 */ {0x0C, 0x3C, 0xFA, 0xF9, 0xF0, 0xF2, 0x10, 0xC9},
-		/* Col 6 */ {0xF4, 0xDA, 0x06, 0xDB, 0xBF, 0x4E, 0x6F, 0xB3},
-		/* Col 7 */ {0x9E, 0x08, 0xD1, 0xAE, 0x59, 0x5E, 0xE8, 0xF0},
-		/* Col 8    {0xC0, 0x90, 0x8F, 0xBB, 0x7C, 0x8E, 0x2B, 0x8E} */
-	},
-	{ /* Row 3 */
-		/* Col 0 */ {0xC0, 0x90, 0x8F, 0xBB, 0x7C, 0x8E, 0x2B, 0x8E},
-		/* Col 1 */ {0x80, 0x69, 0x26, 0x80, 0x08, 0xF8, 0x49, 0xE7},
-		/* Col 2 */ {0x7D, 0x2D, 0x49, 0x54, 0xD0, 0x80, 0x40, 0xC1},
-		/* Col 3 */ {0xB6, 0xF2, 0xE6, 0x1B, 0x80, 0x5A, 0x36, 0xB4},
-		/* Col 4 */ {0x42, 0xAE, 0x9C, 0x1C, 0xDA, 0x67, 0x05, 0xF6},
-		/* Col 5 */ {0x9B, 0x75, 0xF7, 0xE0, 0x14, 0x8D, 0xB5, 0x80},
-		/* Col 6 */ {0xBF, 0x54, 0x98, 0xB9, 0xB7, 0x30, 0x5A, 0x88},
-		/* Col 7 */ {0x35, 0xD1, 0xFC, 0x97, 0x23, 0xD4, 0xC9, 0x88},
-		/* Col 8    {0xE1, 0xD6, 0x31, 0x26, 0x5F, 0xBD, 0x40, 0x93} */
-// Wrong values used by Orange TX/RX
-//		/* Col 8 */ {0x88, 0xE1, 0xD6, 0x31, 0x26, 0x5F, 0xBD, 0x40}
-	},
-	{ /* Row 4 */
-		/* Col 0 */ {0xE1, 0xD6, 0x31, 0x26, 0x5F, 0xBD, 0x40, 0x93},
-		/* Col 1 */ {0xDC, 0x68, 0x08, 0x99, 0x97, 0xAE, 0xAF, 0x8C},
-		/* Col 2 */ {0xC3, 0x0E, 0x01, 0x16, 0x0E, 0x32, 0x06, 0xBA},
-		/* Col 3 */ {0xE0, 0x83, 0x01, 0xFA, 0xAB, 0x3E, 0x8F, 0xAC},
-		/* Col 4 */ {0x5C, 0xD5, 0x9C, 0xB8, 0x46, 0x9C, 0x7D, 0x84},
-		/* Col 5 */ {0xF1, 0xC6, 0xFE, 0x5C, 0x9D, 0xA5, 0x4F, 0xB7},
-		/* Col 6 */ {0x58, 0xB5, 0xB3, 0xDD, 0x0E, 0x28, 0xF1, 0xB0},
-		/* Col 7 */ {0x5F, 0x30, 0x3B, 0x56, 0x96, 0x45, 0xF4, 0xA1},
-		/* Col 8    {0x03, 0xBC, 0x6E, 0x8A, 0xEF, 0xBD, 0xFE, 0xF8} */
-	},
-};
-
-static void __attribute__((unused)) DSM_read_code(uint8_t *buf, uint8_t row, uint8_t col, uint8_t len)
-{
-	for(uint8_t i=0;i<len;i++)
-		buf[i]=pgm_read_byte_near( &DSM_pncodes[row][col][i] );
-}
-
-static uint8_t __attribute__((unused)) DSM_get_pn_row(uint8_t channel)
-{
-	return ((sub_protocol == DSMX_11 || sub_protocol == DSMX_22 )? (channel - 2) % 5 : channel % 5);	
-}
-
-const uint8_t PROGMEM DSM_init_vals[][2] = {
-	{CYRF_02_TX_CTRL, 0x00},				// All TX interrupt disabled
-	{CYRF_05_RX_CTRL, 0x00},				// All RX interrupt disabled
-	{CYRF_28_CLK_EN, 0x02},					// Force receive clock enable
-	{CYRF_32_AUTO_CAL_TIME, 0x3c},			// Default init value
-	{CYRF_35_AUTOCAL_OFFSET, 0x14},			// Default init value
-	{CYRF_06_RX_CFG, 0x4A},					// LNA enabled, RX override enabled, Fast turn mode enabled, RX is 1MHz below TX
-	{CYRF_1B_TX_OFFSET_LSB, 0x55},			// Default init value
-	{CYRF_1C_TX_OFFSET_MSB, 0x05},			// Default init value
-	{CYRF_39_ANALOG_CTRL, 0x01},			// All slow for synth setting time
-	{CYRF_01_TX_LENGTH, 0x10},				// 16 bytes packet
-	{CYRF_14_EOP_CTRL, 0x02},				// Set EOP Symbol Count to 2
-	{CYRF_12_DATA64_THOLD, 0x0a},			// 64 Chip Data PN corelator threshold, default datasheet value is 0x0E
-	//Below is for bind only
-	{CYRF_03_TX_CFG, 0x38 | CYRF_BIND_POWER}, //64 chip codes, SDR mode
-	{CYRF_10_FRAMING_CFG, 0x4a},			// SOP disabled, no LEN field and SOP correlator of 0x0a but since SOP is disabled...
-	{CYRF_1F_TX_OVERRIDE, 0x04},			// Disable TX CRC, no ACK, use TX synthesizer
-	{CYRF_1E_RX_OVERRIDE, 0x14},			// Disable RX CRC, Force receive data rate, use RX synthesizer
-};
-
-const uint8_t PROGMEM DSM_data_vals[][2] = {
-	{CYRF_29_RX_ABORT, 0x20},				// Abort RX operation in case we are coming from bind
-	{CYRF_0F_XACT_CFG, 0x24},				// Force Idle
-	{CYRF_29_RX_ABORT, 0x00},				// Clear abort RX
-	{CYRF_03_TX_CFG, 0x28 | CYRF_HIGH_POWER}, // 64 chip codes, 8DR mode
-	{CYRF_10_FRAMING_CFG, 0xea},			// SOP enabled, SOP_CODE_ADR 64 chips, Packet len enabled, SOP correlator 0x0A
-	{CYRF_1F_TX_OVERRIDE, 0x00},			// CRC16 enabled, no ACK
-	{CYRF_1E_RX_OVERRIDE, 0x00},			// CRC16 enabled, no ACK
-};
-
-static void __attribute__((unused)) DSM_cyrf_config()
-{
-	for(uint8_t i = 0; i < sizeof(DSM_init_vals) / 2; i++)	
-		CYRF_WriteRegister(pgm_read_byte_near(&DSM_init_vals[i][0]), pgm_read_byte_near(&DSM_init_vals[i][1]));
-	CYRF_WritePreamble(0x333304);
-	CYRF_ConfigRFChannel(0x61);
-}
-
 static void __attribute__((unused)) DSM_build_bind_packet()
 {
 	uint8_t i;
@@ -187,23 +82,26 @@ static void __attribute__((unused)) DSM_build_bind_packet()
 		sum += packet[i];
 	packet[8] = sum >> 8;
 	packet[9] = sum & 0xff;
-	packet[10] = 0x01; //???
-	packet[11] = num_ch;
+	packet[10] = 0x01;						// ???
+	if(sub_protocol==DSM_AUTO)
+		packet[11] = 12;
+	else
+		packet[11] = num_ch;
 
 	if (sub_protocol==DSM2_22)
-		packet[12]=num_ch<8?0x01:0x02;	// DSM2/1024 1 or 2 packets depending on the number of channels
-	if(sub_protocol==DSM2_11)
+		packet[12]=num_ch<8?0x01:0x02;		// DSM2/1024 1 or 2 packets depending on the number of channels
+	else if(sub_protocol==DSM2_11)
 		packet[12]=0x12;					// DSM2/2048 2 packets
-	if(sub_protocol==DSMX_22)
+	else if(sub_protocol==DSMX_22)
 		#if defined DSM_TELEMETRY
 			packet[12] = 0xb2;				// DSMX/2048 2 packets
 		#else
 			packet[12] = num_ch<8? 0xa2 : 0xb2;	// DSMX/2048 1 or 2 packets depending on the number of channels
 		#endif
-	if(sub_protocol==DSMX_11 || sub_protocol==DSM_AUTO) // Force DSMX/1024 in mode Auto
-		packet[12]=0xb2;					// DSMX/1024 2 packets
+	else									// DSMX_11 && DSM_AUTO
+		packet[12]=0xb2;					// DSMX/2048 2 packets
 	
-	packet[13] = 0x00; //???
+	packet[13] = 0x00;						//???
 	for(i = 8; i < 14; i++)
 		sum += packet[i];
 	packet[14] = sum >> 8;
@@ -214,30 +112,24 @@ static void __attribute__((unused)) DSM_initialize_bind_phase()
 {
 	CYRF_ConfigRFChannel(DSM_BIND_CHANNEL); //This seems to be random?
 	//64 SDR Mode is configured so only the 8 first values are needed but need to write 16 values...
-	CYRF_ConfigDataCode((const uint8_t*)"\xD7\xA1\x54\xB1\x5E\x89\xAE\x86\xc6\x94\x22\xfe\x48\xe6\x57\x4e", 16);
+	uint8_t code[16];
+	DSM_read_code(code,0,8,8);
+	CYRF_ConfigDataCode(code, 16);
 	DSM_build_bind_packet();
 }
 
-static void __attribute__((unused)) DSM_cyrf_configdata()
-{
-	for(uint8_t i = 0; i < sizeof(DSM_data_vals) / 2; i++)
-		CYRF_WriteRegister(pgm_read_byte_near(&DSM_data_vals[i][0]), pgm_read_byte_near(&DSM_data_vals[i][1]));
-}
-
 static void __attribute__((unused)) DSM_update_channels()
 {
 	prev_option=option;
-	if(sub_protocol==DSM_AUTO)
-		num_ch=12;						// Force 12 channels in mode Auto
-	else
-		num_ch=option;
-	if(num_ch<4 || num_ch>12)
+	num_ch=option & 0x0F;				// Remove flags 0x80=max_throw, 0x40=11ms
+
+	if(num_ch<3 || num_ch>12)
 		num_ch=6;						// Default to 6 channels if invalid choice...
 
 	// Create channel map based on number of channels and refresh rate
-	uint8_t idx=num_ch-4;
-	if(num_ch>7 && num_ch<11 && (sub_protocol==DSM2_11 || sub_protocol==DSMX_11))
-		idx+=5;								// In 11ms mode change index only for channels 8..10
+	uint8_t idx=num_ch-3;
+	if((option & 0x40) && num_ch>7 && num_ch<12)
+		idx+=5;							// In 11ms mode change index only for channels 8..11
 	for(uint8_t i=0;i<14;i++)
 		ch_map[i]=pgm_read_byte_near(&DSM_ch_map_progmem[idx][i]);
 }
@@ -250,32 +142,35 @@ static void __attribute__((unused)) DSM_build_data_packet(uint8_t upper)
 		DSM_update_channels();
 
 	if (sub_protocol==DSMX_11 || sub_protocol==DSMX_22 )
-	{
+	{//DSMX
 		packet[0] = cyrfmfg_id[2];
 		packet[1] = cyrfmfg_id[3];
 	}
 	else
-	{
+	{//DSM2
 		packet[0] = (0xff ^ cyrfmfg_id[2]);
 		packet[1] = (0xff ^ cyrfmfg_id[3]);
 		if(sub_protocol==DSM2_22)
-			bits=10;						// Only DSM_22 is using a resolution of 1024
+			bits=10;								// Only DSM2_22 is using a resolution of 1024
 	}
+
 	#ifdef DSM_THROTTLE_KILL_CH
 		uint16_t kill_ch=Channel_data[DSM_THROTTLE_KILL_CH-1];
 	#endif
 	for (uint8_t i = 0; i < 7; i++)
 	{	
-		uint8_t idx = ch_map[(upper?7:0) + i];//1,5,2,3,0,4	   
-		uint16_t value = 0xffff;;	
+		uint8_t idx = ch_map[(upper?7:0) + i];		// 1,5,2,3,0,4	   
+		uint16_t value = 0xffff;
+		if((option&0x40) == 0 && num_ch < 8 && upper)
+			idx=0xff;								// in 22ms do not transmit upper channels if <8, is it the right method???
 		if (idx != 0xff)
 		{
 			/* Spektrum own remotes transmit normal values during bind and actually use this (e.g. Nano CP X) to
 			   select the transmitter mode (e.g. computer vs non-computer radio), so always send normal output */
 			#ifdef DSM_THROTTLE_KILL_CH
-				if(CH_TAER[idx]==THROTTLE && kill_ch<=604)
-				{//Activate throttle kill only if DSM_THROTTLE_KILL_CH below -50%
-					if(kill_ch<CHANNEL_MIN_100)					// restrict val to 0...400
+				if(idx==CH1 && kill_ch<=604)
+				{//Activate throttle kill only if channel is throttle and DSM_THROTTLE_KILL_CH below -50%
+					if(kill_ch<CHANNEL_MIN_100)		// restrict val to 0...400
 						kill_ch=0;
 					else
 						kill_ch-=CHANNEL_MIN_100;
@@ -284,9 +179,12 @@ static void __attribute__((unused)) DSM_build_data_packet(uint8_t upper)
 				else
 			#endif
 				#ifdef DSM_MAX_THROW
-					value=Channel_data[CH_TAER[idx]];								// -100%..+100% => 1024..1976us and -125%..+125% => 904..2096us based on Redcon 6 channel DSM2 RX
+					value=Channel_data[CH_TAER[idx]];									// -100%..+100% => 1024..1976us and -125%..+125% => 904..2096us based on Redcon 6 channel DSM2 RX
 				#else
-					value=convert_channel_16b_nolimit(CH_TAER[idx],0x150,0x6B0);	// -100%..+100% => 1100..1900us and -125%..+125% => 1000..2000us based on Redcon 6 channel DSM2 RX
+					if(option & 0x80)
+						value=Channel_data[CH_TAER[idx]];								// -100%..+100% => 1024..1976us and -125%..+125% => 904..2096us based on Redcon 6 channel DSM2 RX
+					else
+						value=convert_channel_16b_nolimit(CH_TAER[idx],0x156,0x6AA);	// -100%..+100% => 1100..1900us and -125%..+125% => 1000..2000us based on a DX8 G2 dump
 				#endif
 			if(bits==10) value>>=1;
 			value |= (upper && i==0 ? 0x8000 : 0) | (idx << bits);
@@ -294,81 +192,38 @@ static void __attribute__((unused)) DSM_build_data_packet(uint8_t upper)
 		packet[i*2+2] = (value >> 8) & 0xff;
 		packet[i*2+3] = (value >> 0) & 0xff;
 	}
-}
-
-static void __attribute__((unused)) DSM_set_sop_data_crc()
-{
-	//The crc for channel '1' is NOT(mfgid[0] << 8 + mfgid[1])
-	//The crc for channel '2' is (mfgid[0] << 8 + mfgid[1])
-	uint16_t crc = (cyrfmfg_id[0] << 8) + cyrfmfg_id[1];
-	if(phase==DSM_CH1_CHECK_A||phase==DSM_CH1_CHECK_B)
-		CYRF_ConfigCRCSeed(crc);	//CH2
-	else
-		CYRF_ConfigCRCSeed(~crc);	//CH1
-
-	uint8_t pn_row = DSM_get_pn_row(hopping_frequency[hopping_frequency_no]);
-	uint8_t code[16];
-	DSM_read_code(code,pn_row,sop_col,8);					// pn_row between 0 and 4, sop_col between 1 and 7
-	CYRF_ConfigSOPCode(code);
-	DSM_read_code(code,pn_row,7 - sop_col,8);				// 7-sop_col between 0 and 6
-	DSM_read_code(code+8,pn_row,7 - sop_col + 1,8);			// 7-sop_col+1 between 1 and 7
-	CYRF_ConfigDataCode(code, 16);
-
-	CYRF_ConfigRFChannel(hopping_frequency[hopping_frequency_no]);
-	hopping_frequency_no++;
-	if(sub_protocol == DSMX_11 || sub_protocol == DSMX_22)
-		hopping_frequency_no %=23;
-	else
-		hopping_frequency_no %=2;
-}
-
-static void __attribute__((unused)) DSM_calc_dsmx_channel()
-{
-	uint8_t idx = 0;
-	uint32_t id = ~(((uint32_t)cyrfmfg_id[0] << 24) | ((uint32_t)cyrfmfg_id[1] << 16) | ((uint32_t)cyrfmfg_id[2] << 8) | (cyrfmfg_id[3] << 0));
-	uint32_t id_tmp = id;
-	while(idx < 23)
-	{
-		uint8_t i;
-		uint8_t count_3_27 = 0, count_28_51 = 0, count_52_76 = 0;
-		id_tmp = id_tmp * 0x0019660D + 0x3C6EF35F;		// Randomization
-		uint8_t next_ch = ((id_tmp >> 8) % 0x49) + 3;	// Use least-significant byte and must be larger than 3
-		if ( (next_ch ^ cyrfmfg_id[3]) & 0x01 )
-			continue;
-		for (i = 0; i < idx; i++)
-		{
-			if(hopping_frequency[i] == next_ch)
-				break;
-			if(hopping_frequency[i] <= 27)
-				count_3_27++;
-			else
-				if (hopping_frequency[i] <= 51)
-					count_28_51++;
-				else
-					count_52_76++;
+	#ifdef DSM_FWD_PGM
+		if(upper==0 && DSM_SerialRX && (DSM_SerialRX_val[0]&0xF8)==0x70 )
+		{ // Send forward programming data if available
+			for(uint8_t i=0; i<(DSM_SerialRX_val[0]&0x07);i++)
+			{
+				packet[i*2+4]=0x70+i;
+				packet[i*2+5]=DSM_SerialRX_val[i+1];
+			}
+			DSM_SerialRX=false;
+			#ifdef DSM_DEBUG_FWD_PGM
+				debug("FWD=");
+				for(uint8_t i=4; i<16;i++)
+					debug(" %02X",packet[i]);
+				debugln("");
+			#endif
 		}
-		if (i != idx)
-			continue;
-		if ((next_ch < 28 && count_3_27 < 8)
-			||(next_ch >= 28 && next_ch < 52 && count_28_51 < 7)
-			||(next_ch >= 52 && count_52_76 < 8))
-			hopping_frequency[idx++] = next_ch;
-	}
+	#endif
 }
 
 static uint8_t __attribute__((unused)) DSM_Check_RX_packet()
 {
-	uint8_t result=1;						// assume good packet
+	uint8_t result=1;							// assume good packet
 	
 	uint16_t sum = 384 - 0x10;
 	for(uint8_t i = 1; i < 9; i++)
 	{
-		sum += pkt[i];
+		sum += packet_in[i];
 		if(i<5)
-			if(pkt[i] != (0xff ^ cyrfmfg_id[i-1]))
-				result=0; 					// bad packet
+			if(packet_in[i] != (0xff ^ cyrfmfg_id[i-1]))
+				result=0; 						// bad packet
 	}
-	if( pkt[9] != (sum>>8)  && pkt[10] != (uint8_t)sum )
+	if( packet_in[9] != (sum>>8)  && packet_in[10] != (uint8_t)sum )
 		result=0;
 	return result;
 }
@@ -377,7 +232,7 @@ uint16_t ReadDsm()
 {
 	#define DSM_CH1_CH2_DELAY	4010			// Time between write of channel 1 and channel 2
 	#ifdef STM32_BOARD
-		#define DSM_WRITE_DELAY		1500		// Time after write to verify write complete
+		#define DSM_WRITE_DELAY		1600		// Time after write to verify write complete
 	#else
 		#define DSM_WRITE_DELAY		1950		// Time after write to verify write complete
 	#endif
@@ -387,46 +242,62 @@ uint16_t ReadDsm()
 		uint8_t len;
 	#endif
 	uint8_t start;
+
+	#ifdef DSM_GR300
+		uint16_t timing=5000+(convert_channel_8b(CH13)*100);
+		debugln("T=%u",timing);
+	#endif
 	
 	switch(phase)
 	{
 		case DSM_BIND_WRITE:
 			if(bind_counter--==0)
 			#if defined DSM_TELEMETRY
-				phase=DSM_BIND_CHECK;						//Check RX answer
+				phase=DSM_BIND_CHECK;							//Check RX answer
 			#else
-				phase=DSM_CHANSEL;							//Switch to normal mode
+				phase=DSM_CHANSEL;								//Switch to normal mode
 			#endif
 			CYRF_WriteDataPacket(packet);
 			return 10000;
 	#if defined DSM_TELEMETRY
 		case DSM_BIND_CHECK:
 			//64 SDR Mode is configured so only the 8 first values are needed but we need to write 16 values...
-			CYRF_ConfigDataCode((const uint8_t *)"\x98\x88\x1B\xE4\x30\x79\x03\x84\xC9\x2C\x06\x93\x86\xB9\x9E\xD7", 16);
-			CYRF_SetTxRxMode(RX_EN);						//Receive mode
-			CYRF_WriteRegister(CYRF_05_RX_CTRL, 0x87);		//Prepare to receive
-			bind_counter=2*DSM_BIND_COUNT;					//Timeout of 4.2s if no packet received
-			phase++;										// change from BIND_CHECK to BIND_READ
+			CYRF_ConfigDataCode((const uint8_t *)"\x98\x88\x1B\xE4\x30\x79\x03\x84", 16);
+			CYRF_SetTxRxMode(RX_EN);							//Receive mode
+			CYRF_WriteRegister(CYRF_05_RX_CTRL, 0x87);			//Prepare to receive
+			bind_counter=2*DSM_BIND_COUNT;						//Timeout of 4.2s if no packet received
+			phase++;											// change from BIND_CHECK to BIND_READ
 			return 2000;
 		case DSM_BIND_READ:
 			//Read data from RX
 			rx_phase = CYRF_ReadRegister(CYRF_07_RX_IRQ_STATUS);
-			if((rx_phase & 0x03) == 0x02)  					// RXC=1, RXE=0 then 2nd check is required (debouncing)
+			if((rx_phase & 0x03) == 0x02)  						// RXC=1, RXE=0 then 2nd check is required (debouncing)
 				rx_phase |= CYRF_ReadRegister(CYRF_07_RX_IRQ_STATUS);
 			if((rx_phase & 0x07) == 0x02)
 			{ // data received with no errors
-				CYRF_WriteRegister(CYRF_07_RX_IRQ_STATUS, 0x80);	// need to set RXOW before data read
-				len=CYRF_ReadRegister(CYRF_09_RX_COUNT);
-				if(len>MAX_PKT-2)
-					len=MAX_PKT-2;
-				CYRF_ReadDataPacketLen(pkt+1, len);
-				if(len==10 && DSM_Check_RX_packet())
+				CYRF_WriteRegister(CYRF_07_RX_IRQ_STATUS, 0x80);// Need to set RXOW before data read
+				if(CYRF_ReadRegister(CYRF_09_RX_COUNT)==10)		// Len
 				{
-					pkt[0]=0x80;
-					telemetry_link=1;						// send received data on serial
-					phase++;
-					return 2000;
+					CYRF_ReadDataPacketLen(packet_in+1, 10);
+					if(DSM_Check_RX_packet())
+					{
+						debug("Bind");
+						for(uint8_t i=0;i<10;i++)
+							debug(" %02X",packet_in[i+1]);
+						debugln("");
+						packet_in[0]=0x80;
+						packet_in[6]&=0x0F;						// It looks like there is a flag 0x40 being added by some receivers
+						if(packet_in[6]>12) packet_in[6]=12;
+						else if(packet_in[6]<3) packet_in[6]=6;
+						telemetry_link=1;						// Send received data on serial
+						phase++;
+						return 2000;
+					}
 				}
+				CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x20);		// Abort RX operation
+				CYRF_SetTxRxMode(RX_EN);						// Force end state read
+				CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x00);		// Clear abort RX operation
+				CYRF_WriteRegister(CYRF_05_RX_CTRL, 0x83);		// Prepare to receive
 			}
 			else
 				if((rx_phase & 0x02) != 0x02)
@@ -438,7 +309,7 @@ uint16_t ReadDsm()
 				}
 			if( --bind_counter == 0 )
 			{ // Exit if no answer has been received for some time
-				phase++;									// DSM_CHANSEL
+				phase++;										// DSM_CHANSEL
 				return 7000 ;
 			}
 			return 7000;
@@ -449,15 +320,23 @@ uint16_t ReadDsm()
 			CYRF_SetTxRxMode(TX_EN);
 			hopping_frequency_no = 0;
 			phase = DSM_CH1_WRITE_A;						// in fact phase++
-			DSM_set_sop_data_crc();
+			DSM_set_sop_data_crc(phase==DSM_CH1_CHECK_A||phase==DSM_CH1_CHECK_B, sub_protocol==DSMX_11||sub_protocol==DSMX_22);
 			return 10000;
 		case DSM_CH1_WRITE_A:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(11000);			// Always request 11ms spacing even if we don't use half of it in 22ms mode
+			#endif
 		case DSM_CH1_WRITE_B:
+			DSM_build_data_packet(phase == DSM_CH1_WRITE_B);	// build lower or upper channels
 		case DSM_CH2_WRITE_A:
 		case DSM_CH2_WRITE_B:
-			DSM_build_data_packet(phase == DSM_CH1_WRITE_B||phase == DSM_CH2_WRITE_B);	// build lower or upper channels
 			CYRF_ReadRegister(CYRF_04_TX_IRQ_STATUS);		// clear IRQ flags
 			CYRF_WriteDataPacket(packet);
+			#if 0
+				for(uint8_t i=0;i<16;i++)
+					debug(" %02X", packet[i]);
+				debugln("");
+			#endif
 			phase++;										// change from WRITE to CHECK mode
 			return DSM_WRITE_DELAY;
 		case DSM_CH1_CHECK_A:
@@ -481,7 +360,7 @@ uint16_t ReadDsm()
 						CYRF_SetTxRxMode(TX_EN);
 					}
 				#endif
-				DSM_set_sop_data_crc();
+				DSM_set_sop_data_crc(phase==DSM_CH1_CHECK_A||phase==DSM_CH1_CHECK_B, sub_protocol==DSMX_11 || sub_protocol==DSMX_22);
 				phase++;										// change from CH1_CHECK to CH2_WRITE
 				return DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY;
 			}
@@ -491,6 +370,10 @@ uint16_t ReadDsm()
 			phase++;										// change from CH2_CHECK to CH2_READ
 			CYRF_SetTxRxMode(RX_EN);						//Receive mode
 			CYRF_WriteRegister(CYRF_05_RX_CTRL, 0x87);		//0x80??? //Prepare to receive
+			#ifdef DSM_GR300
+				if(num_ch==3)
+					return timing - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY - DSM_READ_DELAY;
+			#endif
 			return 11000 - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY - DSM_READ_DELAY;
 		case DSM_CH2_READ_A:
 		case DSM_CH2_READ_B:
@@ -502,10 +385,19 @@ uint16_t ReadDsm()
 			{ // good data (complete with no errors)
 				CYRF_WriteRegister(CYRF_07_RX_IRQ_STATUS, 0x80);	// need to set RXOW before data read
 				len=CYRF_ReadRegister(CYRF_09_RX_COUNT);
-				if(len>MAX_PKT-2)
-					len=MAX_PKT-2;
-				CYRF_ReadDataPacketLen(pkt+1, len);
-				pkt[0]=CYRF_ReadRegister(CYRF_13_RSSI)&0x1F;// store RSSI of the received telemetry signal
+				if(len>TELEMETRY_BUFFER_SIZE-2)
+					len=TELEMETRY_BUFFER_SIZE-2;
+				CYRF_ReadDataPacketLen(packet_in+1, len);
+				#ifdef DSM_DEBUG_FWD_PGM
+					//debug(" %02X", packet_in[1]);
+					if(packet_in[1]==9)
+					{
+						for(uint8_t i=0;i<len;i++)
+							debug(" %02X", packet_in[i+1]);
+						debugln("");
+					}
+				#endif
+				packet_in[0]=CYRF_ReadRegister(CYRF_13_RSSI)&0x1F;// store RSSI of the received telemetry signal
 				telemetry_link=1;
 			}
 			CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x20);		// Abort RX operation
@@ -515,6 +407,10 @@ uint16_t ReadDsm()
 				CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x00);	// Clear abort RX operation
 				CYRF_WriteRegister(CYRF_05_RX_CTRL, 0x87);	//0x80???	//Prepare to receive
 				phase = DSM_CH2_READ_B;
+				#ifdef DSM_GR300
+					if(num_ch==3)
+						return timing;
+				#endif
 				return 11000;
 			}
 			if (phase == DSM_CH2_READ_A)
@@ -523,11 +419,11 @@ uint16_t ReadDsm()
 				phase = DSM_CH1_WRITE_A;					//Transmit lower
 			CYRF_SetTxRxMode(TX_EN);						//TX mode
 			CYRF_WriteRegister(CYRF_29_RX_ABORT, 0x00);		//Clear abort RX operation
-			DSM_set_sop_data_crc();
+			DSM_set_sop_data_crc(phase==DSM_CH1_CHECK_A||phase==DSM_CH1_CHECK_B, sub_protocol==DSMX_11||sub_protocol==DSMX_22);
 			return DSM_READ_DELAY;
 #else
 			// No telemetry
-			DSM_set_sop_data_crc();
+			DSM_set_sop_data_crc(phase==DSM_CH1_CHECK_A||phase==DSM_CH1_CHECK_B, sub_protocol==DSMX_11||sub_protocol==DSMX_22);
 			if (phase == DSM_CH2_CHECK_A)
 			{
 				if(num_ch > 7 || sub_protocol==DSM2_11 || sub_protocol==DSMX_11)
@@ -535,11 +431,19 @@ uint16_t ReadDsm()
 				else										
 				{											//Normal mode 22ms
 					phase = DSM_CH1_WRITE_A;				// change from CH2_CHECK_A to CH1_WRITE_A (ie no upper)
+					#ifdef DSM_GR300
+						if(num_ch==3)
+							return timing - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY ;
+					#endif
 					return 22000 - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY ;
 				}
 			}
 			else
 				phase = DSM_CH1_WRITE_A;					// change from CH2_CHECK_B to CH1_WRITE_A (upper already transmitted so transmit lower)
+			#ifdef DSM_GR300
+				if(num_ch==3)
+					return timing - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY ;
+			#endif
 			return 11000 - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY;
 #endif
 	}
@@ -559,6 +463,8 @@ uint16_t initDsm()
 	   cyrfmfg_id[rx_tx_addr[0]%3]^=0x01;					//Change a bit so sop_col will be different from 0
 	   sop_col = (cyrfmfg_id[0] + cyrfmfg_id[1] + cyrfmfg_id[2] + 2) & 0x07;
 	}
+	//Calc CRC seed
+	seed = (cyrfmfg_id[0] << 8) + cyrfmfg_id[1];
 	//Hopping frequencies
 	if (sub_protocol == DSMX_11 || sub_protocol == DSMX_22)
 		DSM_calc_dsmx_channel();

Multiprotocol/Devo_cyrf6936.ino

@@ -162,6 +162,33 @@ static void __attribute__((unused)) DEVO_build_data_pkt()
 	DEVO_add_pkt_suffix();
 }
 
+#if defined DEVO_HUB_TELEMETRY
+static void __attribute__((unused)) DEVO_parse_telemetry_packet()
+{
+	DEVO_scramble_pkt(); //This will unscramble the packet
+	
+	debugln("RX");
+	if ((((uint32_t)packet[15] << 16) | ((uint32_t)packet[14] << 8) | packet[13]) != (MProtocol_id & 0x00ffffff))
+		return;	// ID does not match
+	
+	//RSSI
+	TX_RSSI = CYRF_ReadRegister(CYRF_13_RSSI) & 0x1F;
+	TX_RSSI = (TX_RSSI << 1) + TX_RSSI;
+	RX_RSSI = TX_RSSI;
+	telemetry_link = 1;
+
+	//TODO: FW telemetry https://github.com/DeviationTX/deviation/blob/5efb6a28bea697af9a61b5a0ed2528cc8d203f90/src/protocol/devo_cyrf6936.c#L232
+
+	debug("P[0]=%02X",packet[0]);
+	
+	if (packet[0] == 0x30)	// Volt packet
+	{
+		v_lipo1 = packet[1] << 1;
+		v_lipo2 = packet[3] << 1;
+	}
+}
+#endif
+
 static void __attribute__((unused)) DEVO_cyrf_set_bound_sop_code()
 {
 	/* crc == 0 isn't allowed, so use 1 if the math results in 0 */
@@ -270,8 +297,87 @@ static void __attribute__((unused)) DEVO_BuildPacket()
 uint16_t devo_callback()
 {
 	static uint8_t txState=0;
+	
+#if defined DEVO_HUB_TELEMETRY
+	int delay;
+	
 	if (txState == 0)
 	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(2400);
+		#endif
+		DEVO_BuildPacket();
+		CYRF_WriteDataPacket(packet);
+		txState = 1;
+		return 900;
+	}
+	if (txState == 1)
+	{
+		int i = 0;
+		uint8_t reg;
+		while (! ((reg = CYRF_ReadRegister(CYRF_04_TX_IRQ_STATUS)) & 0x02))
+		{
+			if (++i >= DEVO_NUM_WAIT_LOOPS)
+				break;
+		}
+		if (((reg & 0x22) == 0x20) || (CYRF_ReadRegister(CYRF_02_TX_CTRL) & 0x80))
+		{
+			CYRF_Reset();
+			DEVO_cyrf_init();
+			DEVO_cyrf_set_bound_sop_code();
+			CYRF_ConfigRFChannel(*hopping_frequency_ptr);
+			//printf("Rst CYRF\n");
+			delay = 1500;
+			txState = 15;
+		}
+		else
+		{
+			if (phase == DEVO_BOUND)
+			{
+				/* exit binding state */
+				phase = DEVO_BOUND_3;
+				DEVO_cyrf_set_bound_sop_code();
+			}
+			if((packet_count != 0) && (bind_counter == 0))
+			{
+				CYRF_SetTxRxMode(RX_EN); //Receive mode
+				CYRF_WriteRegister(CYRF_05_RX_CTRL, 0x87); //0x80??? //Prepare to receive
+				txState = 2;
+				return 1300;
+			}
+		}
+		if(packet_count == 0)
+		{
+			CYRF_SetPower(0x08);		//Keep tx power updated
+			hopping_frequency_ptr = hopping_frequency_ptr == &hopping_frequency[2] ? hopping_frequency : hopping_frequency_ptr + 1;
+			CYRF_ConfigRFChannel(*hopping_frequency_ptr);
+		}
+		delay = 1500;
+	}
+	if(txState == 2)
+	{
+		uint8_t rx_state = CYRF_ReadRegister(CYRF_07_RX_IRQ_STATUS);
+		if((rx_state & 0x03) == 0x02)
+		{  // RXC=1, RXE=0 then 2nd check is required (debouncing)
+			rx_state |= CYRF_ReadRegister(CYRF_07_RX_IRQ_STATUS);   
+		}
+		if((rx_state & 0x07) == 0x02)
+		{ // good data (complete with no errors)
+			CYRF_WriteRegister(CYRF_07_RX_IRQ_STATUS, 0x80);	// need to set RXOW before data read
+			CYRF_ReadDataPacketLen(packet, CYRF_ReadRegister(CYRF_09_RX_COUNT));
+			DEVO_parse_telemetry_packet();
+		}
+		CYRF_SetTxRxMode(TX_EN); //Write mode
+		delay = 200;
+	}
+	txState = 0;   
+	return delay;
+#else
+	if (txState == 0)
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(2400);
+		#endif
 		txState = 1;
 		DEVO_BuildPacket();
 		CYRF_WriteDataPacket(packet);
@@ -295,6 +401,7 @@ uint16_t devo_callback()
 		CYRF_ConfigRFChannel(*hopping_frequency_ptr);
 	}
 	return 1200;
+#endif
 }
 
 uint16_t DevoInit()

Multiprotocol/E01X_nrf24l01.ino

@@ -287,7 +287,12 @@ uint16_t E01X_callback()
 		}
 	}
 	else
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(packet_period);
+		#endif
 		E01X_send_packet(0);
+	}
 	return packet_period;
 }
 

Multiprotocol/ESky150_nrf24l01.ino

@@ -92,8 +92,8 @@ static void __attribute__((unused)) ESKY150_send_packet()
 	uint8_t flight_mode=0;
 	uint16_t aux_ch6=0;
 	uint8_t aux_ch7=0;
-	if(option==1)
-	{
+	if(sub_protocol)
+	{ // 7 channels
 		flight_mode=ESKY150_convert_2bit_channel(CH5);
 		aux_ch6=convert_channel_16b_limit(CH6,1000,2000);
 		aux_ch7=ESKY150_convert_2bit_channel(CH7);
@@ -151,7 +151,12 @@ uint8_t ESKY150_convert_2bit_channel(uint8_t num)
 uint16_t ESKY150_callback()
 {
 	if(IS_BIND_DONE)
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(ESKY150_SENDING_PACKET_PERIOD);
+		#endif
 		ESKY150_send_packet();
+	}
 	else
 	{
 		NRF24L01_WritePayload(packet, ESKY150_PAYLOADSIZE);

Multiprotocol/ESky150v2_cc2500.ino

@@ -0,0 +1,141 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(ESKY150V2_CC2500_INO)
+
+#include "iface_nrf250k.h"
+
+//#define ESKY150V2_FORCE_ID
+
+#define ESKY150V2_PAYLOADSIZE 40
+#define ESKY150V2_BINDPAYLOADSIZE 150
+#define ESKY150V2_NFREQCHANNELS 70
+#define ESKY150V2_TXID_SIZE 4
+#define ESKY150V2_BIND_CHANNEL 0x00
+#define ESKY150V2_PACKET_PERIOD 10000
+#define ESKY150V2_BINDING_PACKET_PERIOD 57000
+
+#ifdef ESKY150V2_FORCE_ID
+const uint8_t PROGMEM ESKY150V2_hop[ESKY150V2_NFREQCHANNELS]= {
+	0x07, 0x47, 0x09, 0x27, 0x0B, 0x42, 0x0D, 0x35, 0x17, 0x40, 0x26, 0x3D, 0x16, 0x43, 0x06, 0x2A, 0x24, 0x44,
+	0x0E, 0x38, 0x20, 0x48, 0x22, 0x2D, 0x2B, 0x39, 0x0F, 0x36, 0x23, 0x46, 0x14, 0x3B, 0x1A, 0x41, 0x10, 0x2E,
+	0x1E, 0x28, 0x0C, 0x49, 0x1D, 0x3E, 0x29, 0x2C, 0x25, 0x30, 0x1C, 0x2F, 0x1B, 0x33, 0x13, 0x31, 0x0A, 0x37,
+	0x12, 0x3C, 0x18, 0x4B, 0x11, 0x45, 0x21, 0x4A, 0x1F, 0x3F, 0x15, 0x32, 0x08, 0x3A, 0x19, 0x34 };
+/*const uint8_t PROGMEM ESKY150V2_hop2[40]= {
+	0x19, 0x23, 0x13, 0x1B, 0x09, 0x22, 0x14, 0x27, 0x06, 0x26, 0x16, 0x24, 0x0B, 0x2A, 0x0E, 0x1C, 0x11, 0x1E,
+	0x08, 0x29, 0x0D, 0x28, 0x18, 0x2D, 0x12, 0x20, 0x0C, 0x1A, 0x10, 0x1D, 0x07, 0x2C, 0x0A, 0x2B, 0x0F, 0x25,
+	0x15, 0x1F, 0x17, 0x21 };*/
+#endif
+
+static void __attribute__((unused)) ESKY150V2_set_freq(void)
+{
+	calc_fh_channels(ESKY150V2_NFREQCHANNELS);
+	
+	#ifdef ESKY150V2_FORCE_ID
+		for(uint8_t i=0; i<ESKY150V2_NFREQCHANNELS; i++)
+			hopping_frequency[i]=pgm_read_byte_near( &ESKY150V2_hop[i] );
+	#endif
+	
+	//Bind channel
+	hopping_frequency[ESKY150V2_NFREQCHANNELS]=ESKY150V2_BIND_CHANNEL;
+	
+	//Calib all channels
+	NRF250K_SetFreqOffset();	// Set frequency offset
+	NRF250K_HoppingCalib(ESKY150V2_NFREQCHANNELS+1);
+}
+
+static void __attribute__((unused)) ESKY150V2_send_packet()
+{
+	NRF250K_SetFreqOffset();	// Set frequency offset
+	NRF250K_Hopping(hopping_frequency_no);
+	if (++hopping_frequency_no >= ESKY150V2_NFREQCHANNELS)
+		hopping_frequency_no = 0;
+	NRF250K_SetPower();			//Set power level
+
+	packet[0] = 0xFA;		// Unknown
+	packet[1] = 0x41;		// Unknown
+	packet[2] = 0x08;		// Unknown
+	packet[3] = 0x00;		// Unknown
+	for(uint8_t i=0;i<16;i++)
+	{
+		uint16_t channel=convert_channel_16b_limit(CH_TAER[i],200,1000);
+		packet[4+2*i] = channel;
+		packet[5+2*i] = channel>>8;
+	}
+	NRF250K_WritePayload(packet, ESKY150V2_PAYLOADSIZE);
+}
+
+uint16_t ESKY150V2_callback()
+{
+	if(option==0) option=1; 	//Trick the RF component auto select system
+	if(IS_BIND_DONE)
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(ESKY150V2_PACKET_PERIOD);
+		#endif
+		ESKY150V2_send_packet();
+	}
+	else
+	{
+		BIND_DONE;					//Need full power for bind to work...
+		NRF250K_SetPower();			//Set power level
+		BIND_IN_PROGRESS;
+		NRF250K_WritePayload(packet, ESKY150V2_BINDPAYLOADSIZE);
+		if (--bind_counter == 0)
+		{
+			BIND_DONE;
+			// Change TX address from bind to normal mode
+			NRF250K_SetTXAddr(rx_tx_addr, ESKY150V2_TXID_SIZE);
+			memset(packet,0x00,ESKY150V2_PAYLOADSIZE);
+		}
+		return 30000; //ESKY150V2_BINDING_PACKET_PERIOD;
+	}
+	return ESKY150V2_PACKET_PERIOD;
+}
+
+uint16_t initESKY150V2()
+{
+	if(option==0) option=1;		 // Trick the RF component auto select system
+	NRF250K_Init();
+	ESKY150V2_set_freq();
+	hopping_frequency_no = 0;
+
+	#ifdef ESKY150V2_FORCE_ID	// ID taken from TX dump
+		rx_tx_addr[0]=0x87;rx_tx_addr[1]=0x5B;rx_tx_addr[2]=0x2C;rx_tx_addr[3]=0x5D;
+	#endif
+
+	memset(packet,0x00,ESKY150V2_BINDPAYLOADSIZE);
+
+	if(IS_BIND_IN_PROGRESS)
+	{
+		NRF250K_SetTXAddr((uint8_t *)"\x73\x73\x74\x63", ESKY150V2_TXID_SIZE);	//Bind address
+		NRF250K_Hopping(ESKY150V2_NFREQCHANNELS);	//Bind channel
+		memcpy(packet,"\x73\x73\x74\x63", ESKY150V2_TXID_SIZE);
+		memcpy(&packet[ESKY150V2_TXID_SIZE],rx_tx_addr, ESKY150V2_TXID_SIZE);
+		packet[8]=0x41;								//Unknown
+		packet[9]=0x88;								//Unknown
+		packet[10]=0x41;							//Unknown
+		memset(&packet[11],0xAA,4);					//Unknown
+		memcpy(&packet[15],hopping_frequency,ESKY150V2_NFREQCHANNELS);	// hop table
+		//for(uint8_t i=0; i<40; i++)				// Does not seem to be needed
+		//	packet[i+85]=pgm_read_byte_near( &ESKY150V2_hop2[i] );
+		bind_counter=100;
+	}
+	else
+		NRF250K_SetTXAddr(rx_tx_addr, ESKY150V2_TXID_SIZE);
+	return 50000;
+}
+
+#endif

Multiprotocol/ESky_nrf24l01.ino

@@ -18,8 +18,13 @@
 
 #include "iface_nrf24l01.h"
 
+//#define ESKY_ET4_FORCE_ID
+
 #define ESKY_BIND_COUNT		1000
-#define ESKY_PACKET_PERIOD	3333
+#define ESKY_STD_PACKET_PERIOD	3333
+#define ESKY_ET4_PACKET_PERIOD	1190
+#define ESKY_ET4_TOTAL_PACKET_PERIOD	20300
+#define ESKY_ET4_BIND_PACKET_PERIOD	5000
 #define ESKY_PAYLOAD_SIZE	13
 #define ESKY_PACKET_CHKTIME	100 // Time to wait for packet to be sent (no ACK, so very short)
 
@@ -63,28 +68,37 @@ static void __attribute__((unused)) ESKY_init()
 static void __attribute__((unused)) ESKY_init2()
 {
 	NRF24L01_FlushTx();
-	hopping_frequency_no = 0;
-	uint16_t channel_ord = rx_tx_addr[0] % 74;
-	hopping_frequency[12] = 10 + (uint8_t)channel_ord;	//channel_code
-	uint8_t channel1, channel2;
-	channel1 = 10 + (uint8_t)((37 + channel_ord*5) % 74);
-	channel2 = 10 + (uint8_t)((     channel_ord*5) % 74) ;
+	if(sub_protocol==ESKY_STD)
+	{
+		uint16_t channel_ord = rx_tx_addr[0] % 74;
+		hopping_frequency[12] = 10 + (uint8_t)channel_ord;	//channel_code
+		uint8_t channel1, channel2;
+		channel1 = 10 + (uint8_t)((37 + channel_ord*5) % 74);
+		channel2 = 10 + (uint8_t)((     channel_ord*5) % 74) ;
 
-	hopping_frequency[0] = channel1;
-	hopping_frequency[1] = channel1;
-	hopping_frequency[2] = channel1;
-	hopping_frequency[3] = channel2;
-	hopping_frequency[4] = channel2;
-	hopping_frequency[5] = channel2;
-
-	//end_bytes
-	hopping_frequency[6] = 6;
-	hopping_frequency[7] = channel1*2;
-	hopping_frequency[8] = channel2*2;
-	hopping_frequency[9] = 6;
-	hopping_frequency[10] = channel1*2;
-	hopping_frequency[11] = channel2*2;
+		hopping_frequency[0] = channel1;
+		hopping_frequency[1] = channel1;
+		hopping_frequency[2] = channel1;
+		hopping_frequency[3] = channel2;
+		hopping_frequency[4] = channel2;
+		hopping_frequency[5] = channel2;
 
+		//end_bytes
+		hopping_frequency[6] = 6;
+		hopping_frequency[7] = channel1*2;
+		hopping_frequency[8] = channel2*2;
+		hopping_frequency[9] = 6;
+		hopping_frequency[10] = channel1*2;
+		hopping_frequency[11] = channel2*2;
+	}
+	else
+	{ // ESKY_ET4
+		hopping_frequency[0]  = 0x29;	//41
+		hopping_frequency[1]  = 0x12;	//18
+		hopping_frequency[6]  = 0x87;	//135 payload end byte
+		hopping_frequency[12] = 0x84;	//132 indicates which channels to use
+	}
+		
 	// Turn radio power on
 	NRF24L01_SetTxRxMode(TX_EN);
 }
@@ -111,20 +125,32 @@ static void __attribute__((unused)) ESKY_send_packet(uint8_t bind)
 	}
 	else
 	{
-		// Regular packet
-		// Each data packet is repeated 3 times on one channel, and 3 times on another channel
-		// For arithmetic simplicity, channels are repeated in rf_channels array
-		if (hopping_frequency_no == 0)
+		if (packet_count == 0)
 			for (uint8_t i = 0; i < 6; i++)
 			{
 				uint16_t val=convert_channel_ppm(CH_AETR[i]);
 				packet[i*2]   = val>>8;		//high byte of servo timing(1000-2000us)
 				packet[i*2+1] = val&0xFF;	//low byte of servo timing(1000-2000us)
 			}
-		rf_ch = hopping_frequency[hopping_frequency_no];
-		packet[12] = hopping_frequency[hopping_frequency_no+6];	// end_bytes
-		hopping_frequency_no++;
-		if (hopping_frequency_no > 6) hopping_frequency_no = 0;
+		if(sub_protocol==ESKY_STD)
+		{
+			// Regular packet
+			// Each data packet is repeated 3 times on one channel, and 3 times on another channel
+			// For arithmetic simplicity, channels are repeated in rf_channels array
+			rf_ch = hopping_frequency[packet_count];
+			packet[12] = hopping_frequency[packet_count+6];	// end_bytes
+			packet_count++;
+			if (packet_count > 6) packet_count = 0;
+		}
+		else
+		{ // ESKY_ET4
+			// Regular packet
+			// Each data packet is repeated 14 times alternating between 2 channels
+			rf_ch = hopping_frequency[packet_count&1];
+			packet_count++;
+			if(packet_count>14) packet_count=0;
+			packet[12] = hopping_frequency[6];	// end_byte
+		}
 	}
 	NRF24L01_WriteReg(NRF24L01_05_RF_CH, rf_ch);
 	NRF24L01_FlushTx();
@@ -135,7 +161,20 @@ static void __attribute__((unused)) ESKY_send_packet(uint8_t bind)
 uint16_t ESKY_callback()
 {
 	if(IS_BIND_DONE)
+	{
+		#ifdef MULTI_SYNC
+			if(packet_count==0)
+				telemetry_set_input_sync(sub_protocol==ESKY_STD?ESKY_STD_PACKET_PERIOD*6:ESKY_ET4_TOTAL_PACKET_PERIOD);
+		#endif
 		ESKY_send_packet(0);
+		if(sub_protocol==ESKY_ET4)
+		{
+			if(packet_count==0)
+				return ESKY_ET4_TOTAL_PACKET_PERIOD-ESKY_ET4_PACKET_PERIOD*13;
+			else
+				return ESKY_ET4_PACKET_PERIOD;
+		}
+	}
 	else
 	{
 		ESKY_send_packet(1);
@@ -145,16 +184,25 @@ uint16_t ESKY_callback()
 			BIND_DONE;
 		}
 	}
-	return ESKY_PACKET_PERIOD;
+	return ESKY_STD_PACKET_PERIOD;
 }
 
 uint16_t initESKY(void)
 {
 	bind_counter = ESKY_BIND_COUNT;
 	rx_tx_addr[2] = rx_tx_addr[3];	// Model match
+	#ifdef ESKY_ET4_FORCE_ID
+	  if(sub_protocol==ESKY_ET4)
+	  {
+		  rx_tx_addr[0]=0x72;
+		  rx_tx_addr[1]=0xBB;
+		  rx_tx_addr[2]=0xCC;
+	  }
+	#endif
 	rx_tx_addr[3] = 0xBB;
 	ESKY_init();
 	ESKY_init2();
+	packet_count=0;
 	return 50000;
 }
 

Multiprotocol/FQ777_nrf24l01.ino

@@ -188,7 +188,12 @@ uint16_t FQ777_callback()
 		}
 	}
 	else
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(FQ777_PACKET_PERIOD);
+		#endif
 		FQ777_send_packet(0);
+	}
 	return FQ777_PACKET_PERIOD;
 }
 

Multiprotocol/FX816_nrf24l01.ino

@@ -0,0 +1,113 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+// Compatible with FEI XIONG P38 plane.
+
+#if defined(FX816_NRF24L01_INO)
+
+#include "iface_nrf24l01.h"
+
+#define FX816_INITIAL_WAIT    500
+#define FX816_PACKET_PERIOD   10000
+#define FX816_RF_BIND_CHANNEL 0x28		//40
+#define FX816_RF_NUM_CHANNELS 4
+#define FX816_PAYLOAD_SIZE    6
+#define FX816_BIND_COUNT	  300		//3sec
+
+static void __attribute__((unused)) FX816_send_packet()
+{
+	packet[0] = IS_BIND_IN_PROGRESS?0x55:0xAA;
+	packet[1] = rx_tx_addr[0];
+	packet[2] = rx_tx_addr[1];
+	uint8_t val=convert_channel_8b(AILERON);
+	#define FX816_SWITCH 20
+	if(val>127+FX816_SWITCH)
+		packet[3] = 1;
+	else if(val<127-FX816_SWITCH)
+		packet[3] = 2;
+	else
+		packet[3] = 0;
+	packet[4] = convert_channel_16b_limit(THROTTLE,0,100);
+	val=0;
+	for(uint8_t i=0;i<FX816_PAYLOAD_SIZE-1;i++)
+		val+=packet[i];
+	packet[5]=val;
+
+	NRF24L01_WriteReg(NRF24L01_05_RF_CH, IS_BIND_IN_PROGRESS ? FX816_RF_BIND_CHANNEL:hopping_frequency[hopping_frequency_no++]);
+	hopping_frequency_no%=FX816_RF_NUM_CHANNELS;
+
+	// clear packet status bits and TX FIFO
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
+	NRF24L01_FlushTx();
+	XN297_WritePayload(packet, FX816_PAYLOAD_SIZE);
+
+	// Power on, TX mode, 2byte CRC
+	XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP));
+
+	NRF24L01_SetPower();	// Set tx_power
+}
+
+static void __attribute__((unused)) FX816_init()
+{
+	NRF24L01_Initialize();
+	NRF24L01_SetTxRxMode(TX_EN);
+	XN297_SetTXAddr((uint8_t *)"\xcc\xcc\xcc\xcc\xcc", 5);
+	NRF24L01_FlushTx();
+	NRF24L01_FlushRx();
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);     	// Clear data ready, data sent, and retransmit
+	NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);      	// No Auto Acknowldgement on all data pipes
+	NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x01);  	// Enable data pipe 0 only
+	NRF24L01_SetBitrate(NRF24L01_BR_1M);             	// 1Mbps
+	NRF24L01_WriteReg(NRF24L01_04_SETUP_RETR, 0x00);	// No retransmits
+	NRF24L01_SetPower();
+	NRF24L01_Activate(0x73);							// Activate feature register
+	NRF24L01_WriteReg(NRF24L01_1C_DYNPD, 0x00);			// Disable dynamic payload length on all pipes
+	NRF24L01_WriteReg(NRF24L01_1D_FEATURE, 0x01);
+	NRF24L01_Activate(0x73);
+}
+
+static void __attribute__((unused)) FX816_initialize_txid()
+{
+	//Only 8 IDs: the RX led does not indicate frame loss.
+	//I didn't open the plane to find out if I could connect there so this is the best I came up with with few trial and errors...
+	rx_tx_addr[0]=0x35+(rx_tx_addr[3]&0x07);							//Original dump=0x35
+	rx_tx_addr[1]=0x09;													//Original dump=0x09
+	memcpy(hopping_frequency,"\x09\x1B\x30\x42",FX816_RF_NUM_CHANNELS); //Original dump=9=0x09,27=0x1B,48=0x30,66=0x42
+	for(uint8_t i=0;i<FX816_RF_NUM_CHANNELS;i++)
+		hopping_frequency[i]+=rx_tx_addr[3]&0x07;
+}
+
+uint16_t FX816_callback()
+{
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(FX816_PACKET_PERIOD);
+	#endif
+	if(IS_BIND_IN_PROGRESS)
+		if(--bind_counter==0)
+			BIND_DONE;
+	FX816_send_packet();
+	return FX816_PACKET_PERIOD;
+}
+
+uint16_t initFX816()
+{
+	BIND_IN_PROGRESS;	// autobind protocol
+	FX816_initialize_txid();
+	FX816_init();
+	hopping_frequency_no = 0;
+	bind_counter=FX816_BIND_COUNT;
+	return FX816_INITIAL_WAIT;
+}
+
+#endif

Multiprotocol/FY326_nrf24l01.ino

@@ -188,6 +188,9 @@ uint16_t FY326_callback()
 				return FY326_PACKET_CHKTIME;
 			break;
 		case FY326_DATA:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(FY326_PACKET_PERIOD);
+			#endif
 			FY326_send_packet(0);
 			break;
 	}

Multiprotocol/FlySky_a7105.ino

@@ -145,7 +145,7 @@ static void __attribute__((unused)) flysky_build_packet(uint8_t init)
 	for(i = 0; i < 8; i++)
 	{
 		uint16_t temp=convert_channel_ppm(CH_AETR[i]);
-		if(sub_protocol == CX20 && CH_AETR[i]==ELEVATOR)
+		if(sub_protocol == CX20 && i==CH2) //ELEVATOR
 			temp=3000-temp;
 		packet[5 + i*2]=temp&0xFF;		//low byte of servo timing(1000-2000us)
 		packet[6 + i*2]=(temp>>8)&0xFF;	//high byte of servo timing(1000-2000us)
@@ -168,16 +168,15 @@ uint16_t ReadFlySky()
 	}
 	else
 	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(packet_period);
+		#endif
 		flysky_build_packet(0);
 		A7105_WriteData(21, hopping_frequency[hopping_frequency_no & 0x0F]);
 		A7105_SetPower();
 	}
 	hopping_frequency_no++;
-
-	if(sub_protocol==CX20)
-		return 3984;
-	else
-		return 1510;	//1460 on deviation but not working with the latest V911 bricks... Turnigy 9X v2 is 1533, Flysky TX for 9XR/9XR Pro is 1510, V911 TX is 1490.
+	return packet_period;
 }
 
 const uint8_t PROGMEM tx_channels[8][4] = {
@@ -235,6 +234,10 @@ uint16_t initFlySky()
 	}
 	hopping_frequency_no=0;
 	packet_count=0;
+	if(sub_protocol==CX20)
+		packet_period=3984;
+	else
+		packet_period=1510;	//1460 on deviation but not working with the latest V911 bricks... Turnigy 9X v2 is 1533, Flysky TX for 9XR/9XR Pro is 1510, V911 TX is 1490.
 	if(IS_BIND_IN_PROGRESS)
 		bind_counter = FLYSKY_BIND_COUNT;
 	else

Multiprotocol/FrSkyDVX_common.ino

@@ -0,0 +1,546 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+/******************************/
+/**  FrSky D and X routines  **/
+/******************************/
+
+#if defined(FRSKYD_CC2500_INO) || defined(FRSKYX_CC2500_INO) || defined(FRSKYL_CC2500_INO) || defined(FRSKY_RX_CC2500_INO) || defined(FRSKYR9_SX1276_INO)
+	uint8_t FrSkyFormat=0;
+	uint8_t FrSkyX_chanskip;
+#endif
+
+#if defined(FRSKYX_CC2500_INO) || defined(FRSKYL_CC2500_INO) || defined(FRSKY_RX_CC2500_INO) || defined(FRSKYR9_SX1276_INO)
+//**CRC**
+const uint16_t PROGMEM FrSkyX_CRC_Short[]={
+	0x0000, 0x1189, 0x2312, 0x329B, 0x4624, 0x57AD, 0x6536, 0x74BF,
+	0x8C48, 0x9DC1, 0xAF5A, 0xBED3, 0xCA6C, 0xDBE5, 0xE97E, 0xF8F7 };
+static uint16_t __attribute__((unused)) FrSkyX_CRCTable(uint8_t val)
+{
+	uint16_t word ;
+	word = pgm_read_word(&FrSkyX_CRC_Short[val&0x0F]) ;
+	val /= 16 ;
+	return word ^ (0x1081 * val) ;
+}
+uint16_t FrSkyX_crc(uint8_t *data, uint8_t len, uint16_t init=0)
+{
+	uint16_t crc = init;
+	for(uint8_t i=0; i < len; i++)
+		crc = (crc<<8) ^ FrSkyX_CRCTable((uint8_t)(crc>>8) ^ *data++);
+	return crc;
+}
+#endif
+
+#if defined(FRSKYX_CC2500_INO) || defined(FRSKYR9_SX1276_INO)
+static void __attribute__((unused)) FrSkyX_channels(uint8_t offset)
+{
+	static uint8_t chan_start=0;
+
+	//packet[7] = FLAGS 00 - standard packet
+	//10, 12, 14, 16, 18, 1A, 1C, 1E - failsafe packet
+	//20 - range check packet
+	#ifdef FAILSAFE_ENABLE
+		#define FRSKYX_FAILSAFE_TIMEOUT 1032
+		static uint16_t failsafe_count=0;
+		static uint8_t FS_flag=0,failsafe_chan=0;
+		if (FS_flag == 0  &&  failsafe_count > FRSKYX_FAILSAFE_TIMEOUT  &&  chan_start == 0  &&  IS_FAILSAFE_VALUES_on)
+		{
+			FS_flag = 0x10;
+			failsafe_chan = 0;
+		} else if (FS_flag & 0x10 && failsafe_chan < (FrSkyFormat & 0x01 ? 8-1:16-1))
+		{
+			FS_flag = 0x10 | ((FS_flag + 2) & 0x0F);					//10, 12, 14, 16, 18, 1A, 1C, 1E - failsafe packet
+			failsafe_chan ++;
+		} else if (FS_flag & 0x10)
+		{
+			FS_flag = 0;
+			failsafe_count = 0;
+			FAILSAFE_VALUES_off;
+		}
+		failsafe_count++;
+		if(protocol==PROTO_FRSKY_R9)
+			failsafe_count++;					// R9 is 20ms, X is 9ms
+		packet[offset] = FS_flag;
+	#else
+		packet[offset] = 0;
+	#endif
+	//
+	packet[offset+1] = 0;						//??
+	//
+	uint8_t chan_index = chan_start;
+	uint16_t ch1,ch2;
+	for(uint8_t i = offset+2; i < 12+offset+2 ; i+=3)
+	{//12 bytes of channel data
+		#ifdef FAILSAFE_ENABLE
+			if( (FS_flag & 0x10) && ((failsafe_chan & 0x07) == (chan_index & 0x07)) )
+				ch1 = FrSkyX_scaleForPXX_FS(failsafe_chan);
+			else
+		#endif
+				ch1 = FrSkyX_scaleForPXX(chan_index);
+		chan_index++;
+		//
+		#ifdef FAILSAFE_ENABLE
+			if( (FS_flag & 0x10) && ((failsafe_chan & 0x07) == (chan_index & 0x07)) )
+				ch2 = FrSkyX_scaleForPXX_FS(failsafe_chan);
+			else
+		#endif
+				ch2 = FrSkyX_scaleForPXX(chan_index);
+		chan_index++;
+		//3 bytes per channel
+		packet[i] = ch1;
+		packet[i+1]=(((ch1>>8) & 0x0F)|(ch2 << 4));
+		packet[i+2]=ch2>>4;
+	}
+	if(FrSkyFormat & 0x01)											//In X8 mode send only 8ch every 9ms
+		chan_start = 0 ;
+	else
+		chan_start^=0x08;
+}
+#endif
+
+
+#if defined(FRSKYD_CC2500_INO) || defined(FRSKYX_CC2500_INO) || defined(FRSKYX_CC2500_INO) || defined(FRSKYL_CC2500_INO) || defined(FRSKY_RX_CC2500_INO)
+enum {
+	FRSKY_BIND		= 0,
+	FRSKY_BIND_DONE	= 1000,
+	FRSKY_DATA1,
+	FRSKY_DATA2,
+	FRSKY_DATA3,
+	FRSKY_DATA4,
+	FRSKY_DATA5,
+};
+
+void Frsky_init_hop(void)
+{
+	uint8_t val;
+	uint8_t channel = rx_tx_addr[0]&0x07;
+	uint8_t channel_spacing = rx_tx_addr[1];
+	//Filter bad tables
+	if(channel_spacing<0x02) channel_spacing+=0x02;
+	if(channel_spacing>0xE9) channel_spacing-=0xE7;
+	if(channel_spacing%0x2F==0) channel_spacing++;
+		
+	hopping_frequency[0]=channel;
+	for(uint8_t i=1;i<50;i++)
+	{
+		channel=(channel+channel_spacing) % 0xEB;
+		val=channel;
+		if((val==0x00) || (val==0x5A) || (val==0xDC))
+			val++;
+		hopping_frequency[i]=i>46?0:val;
+	}
+}
+
+void FrSkyX2_init_hop(void)
+{
+	uint16_t id=(rx_tx_addr[2]<<8) + rx_tx_addr[3];
+	//Increment
+	uint8_t inc = (id % 46) + 1;
+	if( inc == 12 || inc ==35 ) inc++;							//Exception list from dumps
+	//Start offset
+	uint8_t offset = id % 5;
+
+	debug("hop: ");
+	uint8_t channel;
+	for(uint8_t i=0; i<47; i++)
+	{
+		channel = 5 * (uint16_t(inc * i) % 47) + offset;
+		//Exception list from dumps
+		if(FrSkyFormat & 2 )// LBT or FCC
+		{//LBT
+			if( channel <=1 || channel == 43 || channel == 44 || channel == 87 || channel == 88 || channel == 129 || channel == 130 || channel == 173 || channel == 174)
+				channel += 2;
+			else if( channel == 216 || channel == 217 || channel == 218)
+				channel += 3;
+		}
+		else //FCC
+			if ( channel == 3 || channel == 4 || channel == 46 || channel == 47 || channel == 90 || channel == 91  || channel == 133 || channel == 134 || channel == 176 || channel == 177 || channel == 220 || channel == 221 )
+				channel += 2;
+		//Store
+		hopping_frequency[i] = channel;
+		debug(" %02X",channel);
+	}
+	debugln("");
+	hopping_frequency[47] = 0;									//Bind freq
+}
+
+void Frsky_init_clone(void)
+{
+	debugln("Clone mode");
+	uint16_t temp = FRSKYD_CLONE_EEPROM_OFFSET;
+	if(protocol==PROTO_FRSKYX)
+		temp=FRSKYX_CLONE_EEPROM_OFFSET;
+	else if(protocol==PROTO_FRSKYX2)
+		temp=FRSKYX2_CLONE_EEPROM_OFFSET;
+	FrSkyFormat=eeprom_read_byte((EE_ADDR)temp++);
+	/*	FRSKY_RX_D8			=0,
+	FRSKY_RX_D16FCC		=1,
+	FRSKY_RX_D16LBT		=2,
+	FRSKY_RX_D16v2FCC	=3,
+	FRSKY_RX_D16v2LBT	=4,*/
+	if(protocol==PROTO_FRSKYX)
+		FrSkyFormat >>= 1;
+	else
+		FrSkyFormat >>= 2;
+	FrSkyFormat <<= 1;	//FCC_16/LBT_16
+	if(sub_protocol==XCLONE_8)
+		FrSkyFormat++;	//FCC_8/LBT_8
+	rx_tx_addr[3] = eeprom_read_byte((EE_ADDR)temp++);
+	rx_tx_addr[2] = eeprom_read_byte((EE_ADDR)temp++);
+	rx_tx_addr[1] = eeprom_read_byte((EE_ADDR)temp++);
+	memset(hopping_frequency,0x00,50);
+	if(protocol!=PROTO_FRSKYX2)
+	{//D8 and D16v1
+		for (uint8_t ch = 0; ch < 47; ch++)
+			hopping_frequency[ch] = eeprom_read_byte((EE_ADDR)temp++);
+	}
+	else
+		FrSkyX2_init_hop();
+}
+
+#endif
+/******************************/
+/**  FrSky V, D and X routines  **/
+/******************************/
+#if defined(FRSKYV_CC2500_INO) || defined(FRSKYD_CC2500_INO) || defined(FRSKYX_CC2500_INO) || defined(FRSKYL_CC2500_INO)
+	const PROGMEM uint8_t FRSKY_common_startreg_cc2500_conf[]= {
+		 CC2500_02_IOCFG0 ,		
+		 CC2500_00_IOCFG2 ,
+		 CC2500_17_MCSM1 ,
+		 CC2500_18_MCSM0 ,
+		 CC2500_06_PKTLEN ,
+		 CC2500_07_PKTCTRL1 ,
+		 CC2500_08_PKTCTRL0 ,
+		 CC2500_3E_PATABLE ,
+		 CC2500_0B_FSCTRL1 ,
+		 CC2500_0C_FSCTRL0 ,	// replaced by option value
+		 CC2500_0D_FREQ2 ,	
+		 CC2500_0E_FREQ1 ,
+		 CC2500_0F_FREQ0 ,
+		 CC2500_10_MDMCFG4 ,		
+		 CC2500_11_MDMCFG3 ,
+		 CC2500_12_MDMCFG2 ,
+		 CC2500_13_MDMCFG1 ,
+		 CC2500_14_MDMCFG0 ,
+		 CC2500_15_DEVIATN  };
+
+	#if defined(FRSKYV_CC2500_INO)
+		const PROGMEM uint8_t FRSKYV_cc2500_conf[]= {
+		/*02_IOCFG0*/  	 0x06 ,		
+		/*00_IOCFG2*/  	 0x06 ,
+		/*17_MCSM1*/   	 0x0c ,
+		/*18_MCSM0*/   	 0x18 ,
+		/*06_PKTLEN*/  	 0xff ,
+		/*07_PKTCTRL1*/	 0x04 ,
+		/*08_PKTCTRL0*/	 0x05 ,
+		/*3E_PATABLE*/ 	 0xfe ,
+		/*0B_FSCTRL1*/ 	 0x08 ,
+		/*0C_FSCTRL0*/ 	 0x00 ,
+		/*0D_FREQ2*/   	 0x5c ,	
+		/*0E_FREQ1*/   	 0x58 ,
+		/*0F_FREQ0*/   	 0x9d ,
+		/*10_MDMCFG4*/ 	 0xAA ,		
+		/*11_MDMCFG3*/ 	 0x10 ,
+		/*12_MDMCFG2*/ 	 0x93 ,
+		/*13_MDMCFG1*/ 	 0x23 ,
+		/*14_MDMCFG0*/ 	 0x7a ,
+		/*15_DEVIATN*/ 	 0x41  };
+	#endif
+
+	#if defined(FRSKYD_CC2500_INO)
+		const PROGMEM uint8_t FRSKYD_cc2500_conf[]= {
+		/*02_IOCFG0*/  	 0x06 ,		
+		/*00_IOCFG2*/  	 0x06 ,
+		/*17_MCSM1*/   	 0x0c ,
+		/*18_MCSM0*/   	 0x18 ,
+		/*06_PKTLEN*/  	 0x19 ,
+		/*07_PKTCTRL1*/	 0x04 ,
+		/*08_PKTCTRL0*/	 0x05 ,
+		/*3E_PATABLE*/ 	 0xff ,
+		/*0B_FSCTRL1*/ 	 0x08 ,
+		/*0C_FSCTRL0*/ 	 0x00 ,
+		/*0D_FREQ2*/   	 0x5c ,	
+		/*0E_FREQ1*/   	 0x76 ,
+		/*0F_FREQ0*/   	 0x27 ,
+		/*10_MDMCFG4*/ 	 0xAA ,		
+		/*11_MDMCFG3*/ 	 0x39 ,
+		/*12_MDMCFG2*/ 	 0x11 ,
+		/*13_MDMCFG1*/ 	 0x23 ,
+		/*14_MDMCFG0*/ 	 0x7a ,
+		/*15_DEVIATN*/ 	 0x42  };
+	#endif
+
+	#if defined(FRSKYX_CC2500_INO) || defined(FRSKYL_CC2500_INO)
+		const PROGMEM uint8_t FRSKYX_cc2500_conf[]= {
+	//FRSKYX
+		/*02_IOCFG0*/  	 0x06 ,
+		/*00_IOCFG2*/  	 0x06 ,
+		/*17_MCSM1*/   	 0x0c ,	//X2->0x0E -> RX stays in RX and TX stays in TX???
+		/*18_MCSM0*/   	 0x18 ,
+		/*06_PKTLEN*/  	 0x1E ,
+		/*07_PKTCTRL1*/	 0x04 ,
+		/*08_PKTCTRL0*/	 0x01 , //X2->0x05 -> CRC enabled
+		/*3E_PATABLE*/ 	 0xff ,
+		/*0B_FSCTRL1*/ 	 0x0A ,
+		/*0C_FSCTRL0*/ 	 0x00 ,
+		/*0D_FREQ2*/   	 0x5c ,	
+		/*0E_FREQ1*/   	 0x76 ,
+		/*0F_FREQ0*/   	 0x27 ,
+		/*10_MDMCFG4*/ 	 0x7B ,
+		/*11_MDMCFG3*/ 	 0x61 ,	//X2->0x84 -> bitrate 70K->77K
+		/*12_MDMCFG2*/ 	 0x13 ,
+		/*13_MDMCFG1*/ 	 0x23 ,
+		/*14_MDMCFG0*/ 	 0x7a ,
+		/*15_DEVIATN*/ 	 0x51  };
+		const PROGMEM uint8_t FRSKYXEU_cc2500_conf[]= {
+		/*02_IOCFG0*/  	 0x06 ,
+		/*00_IOCFG2*/  	 0x06 ,
+		/*17_MCSM1*/   	 0x0E ,
+		/*18_MCSM0*/   	 0x18 ,
+		/*06_PKTLEN*/  	 0x23 ,
+		/*07_PKTCTRL1*/	 0x04 ,
+		/*08_PKTCTRL0*/	 0x01 , //X2->0x05 -> CRC enabled
+		/*3E_PATABLE*/ 	 0xff ,
+		/*0B_FSCTRL1*/ 	 0x08 ,
+		/*0C_FSCTRL0*/ 	 0x00 ,
+		/*0D_FREQ2*/   	 0x5c ,
+		/*0E_FREQ1*/   	 0x80 ,
+		/*0F_FREQ0*/   	 0x00 ,
+		/*10_MDMCFG4*/ 	 0x7B ,
+		/*11_MDMCFG3*/ 	 0xF8 ,
+		/*12_MDMCFG2*/ 	 0x03 ,
+		/*13_MDMCFG1*/ 	 0x23 ,
+		/*14_MDMCFG0*/ 	 0x7a ,
+		/*15_DEVIATN*/ 	 0x53  };
+		const PROGMEM uint8_t FRSKYL_cc2500_conf[]= {
+		/*02_IOCFG0*/  	 0x02 ,
+		/*00_IOCFG2*/  	 0x02 ,
+		/*17_MCSM1*/   	 0x0C ,
+		/*18_MCSM0*/   	 0x18 ,
+		/*06_PKTLEN*/  	 0xFF ,
+		/*07_PKTCTRL1*/	 0x00 ,
+		/*08_PKTCTRL0*/	 0x02 ,
+		/*3E_PATABLE*/ 	 0xFE ,
+		/*0B_FSCTRL1*/ 	 0x0A ,
+		/*0C_FSCTRL0*/ 	 0x00 ,
+		/*0D_FREQ2*/   	 0x5c ,
+		/*0E_FREQ1*/   	 0x76 ,
+		/*0F_FREQ0*/   	 0x27 ,
+		/*10_MDMCFG4*/ 	 0x5C ,
+		/*11_MDMCFG3*/ 	 0x3B ,
+		/*12_MDMCFG2*/ 	 0x00 ,
+		/*13_MDMCFG1*/ 	 0x03 ,
+		/*14_MDMCFG0*/ 	 0x7A ,
+		/*15_DEVIATN*/ 	 0x47  };
+	#endif
+
+	const PROGMEM uint8_t FRSKY_common_end_cc2500_conf[][2]= {
+		{ CC2500_19_FOCCFG,   0x16 },
+		{ CC2500_1A_BSCFG,    0x6c },	
+		{ CC2500_1B_AGCCTRL2, 0x43 },
+		{ CC2500_1C_AGCCTRL1, 0x40 },
+		{ CC2500_1D_AGCCTRL0, 0x91 },
+		{ CC2500_21_FREND1,   0x56 },
+		{ CC2500_22_FREND0,   0x10 },
+		{ CC2500_23_FSCAL3,   0xa9 },
+		{ CC2500_24_FSCAL2,   0x0A },
+		{ CC2500_25_FSCAL1,   0x00 },
+		{ CC2500_26_FSCAL0,   0x11 },
+		{ CC2500_29_FSTEST,   0x59 },
+		{ CC2500_2C_TEST2,    0x88 },
+		{ CC2500_2D_TEST1,    0x31 },
+		{ CC2500_2E_TEST0,    0x0B },
+		{ CC2500_03_FIFOTHR,  0x07 },
+		{ CC2500_09_ADDR,     0x00 } };
+
+	void FRSKY_init_cc2500(const uint8_t *ptr)
+	{
+		for(uint8_t i=0;i<19;i++)
+		{
+			uint8_t reg=pgm_read_byte_near(&FRSKY_common_startreg_cc2500_conf[i]);
+			uint8_t val=pgm_read_byte_near(&ptr[i]);
+			if(reg==CC2500_0C_FSCTRL0)
+				val=option;
+			CC2500_WriteReg(reg,val);
+		}
+		prev_option = option ;		// Save option to monitor FSCTRL0 change
+		for(uint8_t i=0;i<17;i++)
+		{
+			uint8_t reg=pgm_read_byte_near(&FRSKY_common_end_cc2500_conf[i][0]);
+			uint8_t val=pgm_read_byte_near(&FRSKY_common_end_cc2500_conf[i][1]);
+			CC2500_WriteReg(reg,val);
+		}
+		CC2500_SetTxRxMode(TX_EN);
+		CC2500_SetPower();
+		CC2500_Strobe(CC2500_SIDLE);    // Go to idle...
+	}
+#endif
+
+#if defined(FRSKYX_CC2500_INO) || defined(FRSKYR9_SX1276_INO)
+	uint8_t FrSkyX_TX_Seq, FrSkyX_TX_IN_Seq;
+	uint8_t FrSkyX_RX_Seq ;
+
+	#ifdef SPORT_SEND
+		struct t_FrSkyX_TX_Frame
+		{
+			uint8_t count;
+			uint8_t payload[8];
+		} ;
+		// Store FrskyX telemetry
+		struct t_FrSkyX_TX_Frame FrSkyX_TX_Frames[4] ;
+	#endif
+	
+	static void __attribute__((unused)) FrSkyX_seq_sport(uint8_t start, uint8_t end)
+	{
+		for (uint8_t i=start+1;i<=end;i++)
+			packet[i]=0;
+		packet[start] = FrSkyX_RX_Seq << 4;									//TX=8 at startup
+		#ifdef SPORT_SEND
+			if (FrSkyX_TX_IN_Seq!=0xFF)
+			{//RX has replied at least once
+				if (FrSkyX_TX_IN_Seq & 0x08)
+				{//Request init
+					//debugln("Init");
+					FrSkyX_TX_Seq = 0 ;	
+					for(uint8_t i=0;i<4;i++)
+						FrSkyX_TX_Frames[i].count=0;						//Discard frames in current output buffer
+				}
+				else if (FrSkyX_TX_IN_Seq & 0x04)
+				{//Retransmit the requested packet
+					debugln("Retry:%d",FrSkyX_TX_IN_Seq&0x03);
+					packet[start] |= FrSkyX_TX_IN_Seq&0x03;
+					packet[start+1]  = FrSkyX_TX_Frames[FrSkyX_TX_IN_Seq&0x03].count;
+					for (uint8_t i=start+2;i<start+2+FrSkyX_TX_Frames[FrSkyX_TX_IN_Seq&0x03].count;i++)
+						packet[i] = FrSkyX_TX_Frames[FrSkyX_TX_IN_Seq&0x03].payload[i];
+				}
+				else if ( FrSkyX_TX_Seq != 0x08 )
+				{
+					if(FrSkyX_TX_Seq==FrSkyX_TX_IN_Seq)
+					{//Send packet from the incoming radio buffer
+						//debugln("Send:%d",FrSkyX_TX_Seq);
+						packet[start] |= FrSkyX_TX_Seq;
+						uint8_t nbr_bytes=0;
+						for (uint8_t i=start+2;i<=end;i++)
+						{
+							if(SportHead==SportTail)
+								break; //buffer empty
+							packet[i]=SportData[SportHead];
+							FrSkyX_TX_Frames[FrSkyX_TX_Seq].payload[i-start+2]=SportData[SportHead];
+							SportHead=(SportHead+1) & (MAX_SPORT_BUFFER-1);
+							nbr_bytes++;
+						}
+						packet[start+1]=nbr_bytes;
+						FrSkyX_TX_Frames[FrSkyX_TX_Seq].count=nbr_bytes;
+						if(nbr_bytes)
+						{//Check the buffer status
+							uint8_t used = SportTail;
+							if ( SportHead > SportTail )
+								used += MAX_SPORT_BUFFER - SportHead ;
+							else
+								used -= SportHead ;
+							if ( used < (MAX_SPORT_BUFFER>>1) )
+							{
+								DATA_BUFFER_LOW_off;
+								debugln("Ok buf:%d",used);
+							}
+						}
+						FrSkyX_TX_Seq = ( FrSkyX_TX_Seq + 1 ) & 0x03 ;		//Next iteration send next packet
+					}
+					else
+					{//Not in sequence somehow, transmit what the receiver wants but why not asking for retransmit...
+						//debugln("RX_Seq:%d,TX:%d",FrSkyX_TX_IN_Seq,FrSkyX_TX_Seq);
+						packet[start] |= FrSkyX_TX_IN_Seq;
+						packet[start+1] = FrSkyX_TX_Frames[FrSkyX_TX_IN_Seq].count;
+						for (uint8_t i=start+2;i<start+2+FrSkyX_TX_Frames[FrSkyX_TX_IN_Seq].count;i++)
+							packet[i] = FrSkyX_TX_Frames[FrSkyX_TX_IN_Seq].payload[i-start+2];
+					}
+				}
+				else
+					packet[start] |= 0x08 ;									//FrSkyX_TX_Seq=8 at startup
+			}
+			if(packet[start+1])
+			{//Debug
+				debug("SP: ");
+				for(uint8_t i=0;i<packet[start+1];i++)
+					debug("%02X ",packet[start+2+i]);
+				debugln("");
+			}
+		#else
+			packet[start] |= FrSkyX_TX_Seq ;//TX=8 at startup
+			if ( !(FrSkyX_TX_IN_Seq & 0xF8) )
+				FrSkyX_TX_Seq = ( FrSkyX_TX_Seq + 1 ) & 0x03 ;				// Next iteration send next packet
+		#endif // SPORT_SEND
+	}
+
+	static void __attribute__((unused)) FrSkyX_telem_init(void)
+	{
+		FrSkyX_TX_Seq = 0x08 ;				// Request init
+		#ifdef SPORT_SEND
+			FrSkyX_TX_IN_Seq = 0xFF ;		// No sequence received yet
+			for(uint8_t i=0;i<4;i++)
+				FrSkyX_TX_Frames[i].count=0;// discard frames in current output buffer
+			SportHead=SportTail=0;			// empty data buffer
+		#endif
+		FrSkyX_RX_Seq = 0 ;					// Seq 0 to start with
+		#ifdef TELEMETRY
+			telemetry_lost=1;
+			telemetry_link=0;					//Stop sending telemetry
+		#endif
+	}
+#endif
+
+#if defined(FRSKYX_CC2500_INO) || defined(FRSKYL_CC2500_INO)
+static void __attribute__((unused)) FrSkyX_set_start(uint8_t ch )
+{
+	CC2500_Strobe(CC2500_SIDLE);
+	CC2500_WriteReg(CC2500_25_FSCAL1, calData[ch]);
+	CC2500_WriteReg(CC2500_0A_CHANNR, hopping_frequency[ch]);
+}		
+
+static void __attribute__((unused)) FrSkyX_init()
+{
+	if(protocol==PROTO_FRSKYL)
+		FRSKY_init_cc2500(FRSKYL_cc2500_conf);
+	else
+		FRSKY_init_cc2500((FrSkyFormat&2)?FRSKYXEU_cc2500_conf:FRSKYX_cc2500_conf); // LBT or FCC
+	if(protocol==PROTO_FRSKYX2)
+	{
+		CC2500_WriteReg(CC2500_08_PKTCTRL0, 0x05);		// Enable CRC
+		if(!(FrSkyFormat&2))
+		{ // FCC
+			CC2500_WriteReg(CC2500_17_MCSM1, 0x0E);		//0x0E -> RX stays in RX and TX stays in TX???
+			CC2500_WriteReg(CC2500_11_MDMCFG3, 0x84);	// bitrate 70K->77K
+		}
+	}
+	//
+	for(uint8_t c=0;c < 48;c++)
+	{//calibrate hop channels
+		CC2500_Strobe(CC2500_SIDLE);    
+		CC2500_WriteReg(CC2500_0A_CHANNR,hopping_frequency[c]);
+		CC2500_Strobe(CC2500_SCAL);
+		delayMicroseconds(900);//
+		calData[c] = CC2500_ReadReg(CC2500_25_FSCAL1);
+	}
+	//#######END INIT########		
+}
+
+static void __attribute__((unused)) FrSkyX_initialize_data(uint8_t adr)
+{
+	CC2500_WriteReg(CC2500_18_MCSM0,    0x8);	
+	CC2500_WriteReg(CC2500_09_ADDR, adr ? 0x03 : rx_tx_addr[3]);
+	CC2500_WriteReg(CC2500_07_PKTCTRL1,0x05);	// check address
+}
+
+#endif

Multiprotocol/FrSkyD_cc2500.ino

@@ -21,6 +21,7 @@ static void __attribute__((unused)) frsky2way_init(uint8_t bind)
 {
 	FRSKY_init_cc2500(FRSKYD_cc2500_conf);	
 
+	CC2500_WriteReg(CC2500_1B_AGCCTRL2, bind ? 0x43 : 0x03);
 	CC2500_WriteReg(CC2500_09_ADDR, bind ? 0x03 : rx_tx_addr[3]);
 	CC2500_WriteReg(CC2500_07_PKTCTRL1, 0x05);
 	CC2500_Strobe(CC2500_SIDLE);	// Go to idle...
@@ -53,7 +54,7 @@ static void __attribute__((unused)) frsky2way_build_bind_packet()
 	packet[14] = 0x00;
 	packet[15] = 0x00;
 	packet[16] = 0x00;
-	packet[17] = 0x01;
+	packet[17] = rx_tx_addr[1];
 }
 
 static void __attribute__((unused)) frsky2way_data_frame()
@@ -70,7 +71,7 @@ static void __attribute__((unused)) frsky2way_data_frame()
 		packet[4] = 0x00;
 	#endif
 
-	packet[5] = 0x01;
+	packet[5] = rx_tx_addr[1];
 	//
 	packet[10] = 0;
 	packet[11] = 0;
@@ -95,11 +96,24 @@ static void __attribute__((unused)) frsky2way_data_frame()
 
 uint16_t initFrSky_2way()
 {
-	Frsky_init_hop();
+	//FrskyD init hop
+	if (sub_protocol==DCLONE)
+		Frsky_init_clone();
+	else
+	{
+		for(uint8_t i=0;i<50;i++)
+		{
+			uint8_t freq = (i * 0x1e) % 0xeb;
+			if(i == 3 || i == 23 || i == 47)
+				freq++;
+			if(i > 47)
+				freq=0;
+			hopping_frequency[i]=freq;
+		}
+		rx_tx_addr[1]=1;		// keep compatibility with already bound RXs
+	}
+	
 	packet_count=0;
-	#if defined TELEMETRY
-		init_frskyd_link_telemetry();
-	#endif
 	if(IS_BIND_IN_PROGRESS)
 	{
 		frsky2way_init(1);
@@ -156,15 +170,18 @@ uint16_t ReadFrSky_2way()
 	{
 		if (state == FRSKY_DATA1)
 		{
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(9000);
+			#endif
 			len = CC2500_ReadReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
 			if (len && len<=(0x11+3))// 20bytes
 			{		
-				CC2500_ReadData(pkt, len);				//received telemetry packets
+				CC2500_ReadData(packet_in, len);				//received telemetry packets
 				#if defined(TELEMETRY)
-					if(pkt[len-1] & 0x80)
+					if(packet_in[len-1] & 0x80)
 					{//with valid crc
 						packet_count=0;
-						frsky_check_telemetry(pkt,len);	//check if valid telemetry packets and buffer them.
+						frsky_process_telemetry(packet_in,len);	//check if valid telemetry packets and buffer them.
 					}
 				#endif
 			}
@@ -177,7 +194,7 @@ uint16_t ReadFrSky_2way()
 					packet_count=0;
 					#if defined TELEMETRY
 						telemetry_link=0;//no link frames
-						pkt[6]=0;//no user frames.
+						packet_in[6]=0;//no user frames.
 					#endif
 				}
 			}

Multiprotocol/FrSkyL_cc2500.ino

@@ -0,0 +1,262 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+
+#if defined(FRSKYL_CC2500_INO)
+
+#include "iface_cc2500.h"
+
+//#define FRSKYL_FORCE_ID
+#define FRSKYL_PACKET_LEN	256
+#define FRSKYL_PERIOD		18000
+
+uint8_t FrSkyL_buffer[FRSKYL_PACKET_LEN];
+
+static void __attribute__((unused)) FrSkyL_build_bind_packet()
+{
+	//Header
+	packet[0] = 0x4E;				// Unknown but constant
+	//Bind packet
+	memset(&packet[1],0x00,3);
+	//ID
+	packet[4 ] = rx_tx_addr[3];		// ID
+	packet[5 ] = rx_tx_addr[2];		// ID
+	int idx = ((state -FRSKY_BIND) % 10) * 5;
+	packet[6 ] = idx;
+	packet[7 ] = hopping_frequency[idx++];
+	packet[8 ] = hopping_frequency[idx++];
+	packet[9 ] = hopping_frequency[idx++];
+	packet[10] = hopping_frequency[idx++];
+	packet[11] = hopping_frequency[idx++];
+	packet[12] = rx_tx_addr[1];		// ID or hw ver?
+	packet[13] = RX_num;
+	packet[14] = 0x00;				// Unknown but constant
+	//CRC
+	uint16_t lcrc = FrSkyX_crc(&packet[1], 14);
+	packet[15] = lcrc >> 8;
+	packet[16] = lcrc;
+	//Debug
+/*	debug("Bind:");
+	for(uint8_t i=0;i<17;i++)
+		debug(" %02X",packet[i]);
+	debugln("");*/
+}
+
+static void __attribute__((unused)) FrSkyL_build_packet()
+{
+	static uint8_t chan_offset=0;
+	uint16_t chan_0,chan_1;
+
+	//Header
+	packet[0 ] = 0x4E;				// Unknown but constant
+	//ID
+	packet[1 ] = rx_tx_addr[3];		// ID
+	packet[2 ] = rx_tx_addr[2];		// ID
+	packet[3 ] = rx_tx_addr[1];		// ID or hw ver?
+	//skip_hop
+	packet[4 ] = (FrSkyX_chanskip<<6)|hopping_frequency_no; 
+	packet[5 ] = FrSkyX_chanskip>>2;
+	//Channels
+	uint8_t startChan = chan_offset;
+	for(uint8_t i = 0; i <9 ; i+=3)
+	{//9 bytes of channel data
+		chan_0 = FrSkyX_scaleForPXX(startChan,6);
+		startChan++;
+		//
+		chan_1 = FrSkyX_scaleForPXX(startChan,6);
+		startChan++;
+		//
+		packet[6+i] = lowByte(chan_0);									//3 bytes*4
+		packet[6+i+1]=(((chan_0>>8) & 0x0F)|(chan_1 << 4));
+		packet[6+i+2]=chan_1>>4;
+	}
+	if(sub_protocol & 0x01 )											//6ch mode only??
+		chan_offset = 0 ;
+	else
+		chan_offset^=0x06;
+	//CRC
+	uint16_t lcrc = FrSkyX_crc(&packet[1], 14, RX_num);
+	packet[15] = lcrc >> 8;
+	packet[16] = lcrc;
+	//Debug
+	/*debug("Norm:");
+	for(uint8_t i=0;i<17;i++)
+		debug(" %02X",packet[i]);
+	debugln("");*/
+}
+
+static void __attribute__((unused))  FrSkyL_encode_packet(bool type)
+{
+	#define FRSKYL_BIT0 0xED
+	#define FRSKYL_BIT1 0x712
+	
+	uint32_t bits = 0;
+	uint8_t bitsavailable = 0;
+	uint8_t idx = 0,len=6;
+	if(type)
+	{//just replace packet content
+		idx=66;
+		len=17;
+	}
+
+	//debugln("Encode:");
+	for (uint8_t i = 0; i < len; i++)
+	{
+		uint8_t tmp=packet[i];
+		//debug("%02X =",tmp);
+		for(uint8_t j=0;j<8;j++)
+		{
+			bits <<= 11;
+			if(tmp&0x01)
+				bits |= FRSKYL_BIT1;
+			else
+				bits |= FRSKYL_BIT0;
+			tmp >>=1;
+			bitsavailable += 11;
+			while (bitsavailable >= 8) {
+				uint32_t bits_tmp=bits>>(bitsavailable-8);
+				bitsavailable -= 8;
+				FrSkyL_buffer[idx] = bits_tmp;
+				//debug(" %02X",FrSkyL_buffer[idx]);
+				idx++;
+			}
+		}
+		//debugln("");
+	}
+}
+
+uint16_t ReadFrSkyL()
+{
+	static uint8_t written=0, send=0;
+	switch(send)
+	{
+		case 1:
+			CC2500_Strobe(CC2500_SIDLE);
+			CC2500_Strobe(CC2500_SFTX);
+			CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, FrSkyL_buffer, 64);
+			CC2500_Strobe(CC2500_STX);
+			CC2500_Strobe(CC2500_SIDLE);	// This cancels the current transmission???
+			CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, FrSkyL_buffer, 64);
+			CC2500_Strobe(CC2500_SFTX);		// This just clears what we've written???
+			CC2500_Strobe(CC2500_STX);
+			CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, FrSkyL_buffer, 64);
+			written=64;
+			send++;
+			return 2623;
+		case 2:
+			len=FRSKYL_PACKET_LEN-written;
+			if(len>31)
+				len=31;
+			CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, FrSkyL_buffer+written, len);
+			written+=len;
+			if(len!=31)			//everything has been sent
+			{
+				send=0;
+				return 2936;
+			}
+			return 1984;
+	}
+	
+	switch(state)
+	{	
+		default: 
+			//Bind
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(9000);
+			#endif
+			FrSkyX_set_start(47);
+			CC2500_SetPower();
+			CC2500_Strobe(CC2500_SFRX);
+			//		
+			FrSkyL_build_bind_packet();
+			FrSkyL_encode_packet(true);
+
+			CC2500_Strobe(CC2500_SIDLE);
+			if(IS_BIND_DONE)
+				state = FRSKY_BIND_DONE;
+			else
+			{
+				state++;
+				send=1;
+			}
+			return 537;
+		case FRSKY_BIND_DONE:
+			FrSkyX_initialize_data(0);
+			hopping_frequency_no=0;
+			BIND_DONE;
+			state++;													//FRSKY_DATA1
+			break;
+
+		case FRSKY_DATA1:
+			if ( prev_option != option )
+			{
+				CC2500_WriteReg(CC2500_0C_FSCTRL0,option);				//Frequency offset hack 
+				prev_option = option ;
+			}
+			FrSkyX_set_start(hopping_frequency_no);
+			FrSkyL_build_packet();
+			FrSkyL_encode_packet(true);
+			CC2500_SetPower();
+			hopping_frequency_no = (hopping_frequency_no+FrSkyX_chanskip)%47;
+			send=1;
+			return 537;
+	}		
+	return 1;		
+}
+
+uint16_t initFrSkyL()
+{
+	set_rx_tx_addr(MProtocol_id_master);
+	rx_tx_addr[1]=0x02;		// ID related, hw version?
+
+	#ifdef FRSKYL_FORCE_ID
+		rx_tx_addr[3]=0x0E;
+		rx_tx_addr[2]=0x1C;
+		rx_tx_addr[1]=0x02;
+	#endif
+	FrSkyX2_init_hop();
+	
+	while(!FrSkyX_chanskip)
+		FrSkyX_chanskip=random(0xfefefefe)%47;
+
+	FrSkyX_init();
+
+	//Prepare frame
+	memset(FrSkyL_buffer,0x00,FRSKYL_PACKET_LEN-3);
+	memset(&FrSkyL_buffer[FRSKYL_PACKET_LEN-3],0x55,3);
+	memset(packet,0xAA,6);
+	FrSkyL_encode_packet(false);
+	/*debugln("Frame:");
+	for(uint16_t i=0;i<FRSKYL_PACKET_LEN;i++)
+	{
+		debug(" %02X",FrSkyL_buffer[i]);
+		if(i%11==10)
+			debugln("");
+	}
+	debugln("");*/
+	
+	if(IS_BIND_IN_PROGRESS)
+	{	   
+		state = FRSKY_BIND;
+		FrSkyX_initialize_data(1);
+	}
+	else
+	{
+		state = FRSKY_DATA1;
+		FrSkyX_initialize_data(0);
+	}
+	return 10000;
+}	
+#endif

Multiprotocol/FrSkyR9_sx1276.ino

@@ -0,0 +1,307 @@
+#if defined(FRSKYR9_SX1276_INO)
+#include "iface_sx1276.h"
+
+#define DISP_FREQ_TABLE
+
+#define FLEX_FREQ	29
+#define FCC_FREQ	43
+#define EU_FREQ		19
+
+enum {
+	FRSKYR9_FREQ=0,
+	FRSKYR9_DATA,
+	FRSKYR9_RX1,
+	FRSKYR9_RX2,
+};
+
+void FrSkyR9_set_frequency()
+{
+	uint8_t data[3];
+	uint16_t num=0;
+	hopping_frequency_no += FrSkyX_chanskip;
+	switch(sub_protocol & 0xFD)
+	{
+		case R9_868:
+			if(IS_BIND_DONE)							// if bind is in progress use R9_915 instead
+			{
+				hopping_frequency_no %= FLEX_FREQ;
+				num=hopping_frequency_no;
+				if(hopping_frequency_no>=FLEX_FREQ-2)
+					num+=FrSkyX_chanskip-FLEX_FREQ+2;	// the last 2 values are FrSkyX_chanskip and FrSkyX_chanskip+1
+				num <<= 5;
+				num += 0xD700;
+				break;
+			}//else use R9_915
+		case R9_915:
+			hopping_frequency_no %= FLEX_FREQ;
+			num=hopping_frequency_no;
+			if(hopping_frequency_no>=FLEX_FREQ-2)
+				num+=FrSkyX_chanskip-FLEX_FREQ+2;		// the last 2 values are FrSkyX_chanskip and FrSkyX_chanskip+1
+			num <<= 5;
+			num += 0xE4C0;
+			break;
+		case R9_FCC:
+			hopping_frequency_no %= FCC_FREQ;
+			num=hopping_frequency_no;
+			num <<= 5;
+			num += 0xE200;
+			break;
+		case R9_EU:
+			hopping_frequency_no %= EU_FREQ;
+			num=hopping_frequency_no;
+			num <<= 4;
+			num += 0xD7D0;
+			break;
+	}
+	data[0] = num>>8;
+	data[1] = num&0xFF;
+	data[2] = 0x00;
+
+	#ifdef DISP_FREQ_TABLE
+		if(phase==0xFF)
+			debugln("F%d=%02X%02X%02X=%lu", hopping_frequency_no, data[0], data[1], data[2], (uint32_t)((data[0]<<16)+(data[1]<<8)+data[2])*61);
+	#endif
+	SX1276_WriteRegisterMulti(SX1276_06_FRFMSB, data, 3);
+}
+
+static void __attribute__((unused)) FrSkyR9_build_packet()
+{
+	//ID
+	packet[0] = rx_tx_addr[1];
+	packet[1] = rx_tx_addr[2];
+	packet[2] = rx_tx_addr[3];
+
+	//Hopping
+	packet[3] = hopping_frequency_no;	// current channel index
+	packet[4] = FrSkyX_chanskip;		// step size and last 2 channels start index
+
+	//RX number
+	packet[5] = RX_num;					// receiver number from OpenTX
+
+	//Channels
+	FrSkyX_channels(6);					// Set packet[6]=failsafe, packet[7]=0?? and packet[8..19]=channels data
+
+	//Bind
+	if(IS_BIND_IN_PROGRESS)
+	{// 915 0x01=CH1-8_TELEM_ON 0x41=CH1-8_TELEM_OFF 0xC1=CH9-16_TELEM_OFF 0x81=CH9-16_TELEM_ON
+		packet[6] = 0x01;				// bind indicator
+		if(sub_protocol & 1)
+			packet[6] |= 0x20;			// 868
+		if(binding_idx&0x01)
+			packet[6] |= 0x40;			// telem OFF
+		if(binding_idx&0x02)
+			packet[6] |= 0x80;			// ch9-16
+	}
+
+	//Sequence and send SPort
+	FrSkyX_seq_sport(20,23);			//20=RX|TXseq, 21=bytes count, 22&23=data
+
+	//CRC
+	uint16_t crc = FrSkyX_crc(packet, 24);
+	packet[24] = crc;					// low byte
+	packet[25] = crc >> 8;				// high byte
+}
+
+static uint8_t __attribute__((unused)) FrSkyR9_CRC8(uint8_t *p, uint8_t l)
+{
+	uint8_t crc = 0xFF;
+	for (uint8_t i = 0; i < l; i++)
+    {
+		crc = crc ^ p[i];
+		for ( uint8_t j = 0; j < 8; j++ ) 
+			if ( crc & 0x80 )
+			{
+				crc <<= 1;
+				crc ^= 0x07;
+			}
+			else
+				crc <<= 1;
+	}
+	return crc;
+}
+
+static void __attribute__((unused)) FrSkyR9_build_EU_packet()
+{
+	//ID
+	packet[0] = rx_tx_addr[1];
+	packet[1] = rx_tx_addr[2];
+	packet[2] = rx_tx_addr[3];
+
+	//Hopping
+	packet[3] = FrSkyX_chanskip;		// step size and last 2 channels start index
+
+	//RX number
+	packet[4] = RX_num;					// receiver number from OpenTX
+
+	//Channels
+	//TODO FrSkyX_channels(5,4);			// Set packet[5]=failsafe and packet[6..11]=4 channels data
+
+	//Bind
+	if(IS_BIND_IN_PROGRESS)
+	{
+		packet[5] = 0x01;				// bind indicator
+		if((sub_protocol & 2) == 0)
+			packet[5] |= 0x10;			// 16CH
+		// if(sub_protocol & 1)
+			// packet[5] |= 0x20;			// 868
+		if(binding_idx&0x01)
+			packet[5] |= 0x40;			// telem OFF
+		if(binding_idx&0x02)
+			packet[5] |= 0x80;			// ch9-16
+	}
+
+	//Sequence and send SPort
+	packet[12] = (FrSkyX_RX_Seq << 4)|0x08;	//TX=8 at startup
+
+	//CRC
+	packet[13] = FrSkyR9_CRC8(packet, 13);
+}
+
+uint16_t initFrSkyR9()
+{
+	//Check frequencies
+	#ifdef DISP_FREQ_TABLE
+		phase=0xFF;
+		FrSkyX_chanskip=1;
+		hopping_frequency_no=0xFF;
+		for(uint8_t i=0;i<FCC_FREQ;i++)
+			FrSkyR9_set_frequency();
+	#endif
+
+	//Reset ID
+	set_rx_tx_addr(MProtocol_id_master);
+
+	//FrSkyX_chanskip
+	FrSkyX_chanskip = 1 + (random(0xfefefefe) % 24);
+	debugln("chanskip=%d", FrSkyX_chanskip);
+	
+	//Set FrSkyFormat
+	if((sub_protocol & 0x02) == 0)
+		FrSkyFormat=0;											// 16 channels
+	else
+		FrSkyFormat=1;											// 8 channels
+	debugln("%dCH", FrSkyFormat&1 ? 8:16);
+	
+	//EU packet length
+	if( (sub_protocol & 0xFD) == R9_EU )
+		packet_length=14;
+	else
+		packet_length=26;
+
+	//SX1276 Init
+	SX1276_SetMode(true, false, SX1276_OPMODE_SLEEP);
+	SX1276_SetMode(true, false, SX1276_OPMODE_STDBY);
+
+	// uint8_t buffer[2];
+	// buffer[0] = 0x00;
+	// buffer[1] = 0x00;
+	// SX1276_WriteRegisterMulti(SX1276_40_DIOMAPPING1, buffer, 2);
+
+	SX1276_SetDetectOptimize(true, SX1276_DETECT_OPTIMIZE_SF6);
+	SX1276_ConfigModem1(SX1276_MODEM_CONFIG1_BW_500KHZ, SX1276_MODEM_CONFIG1_CODING_RATE_4_5, true);
+	SX1276_ConfigModem2(6, false, false);
+	SX1276_ConfigModem3(false, false);
+	SX1276_SetPreambleLength(9);
+	SX1276_SetDetectionThreshold(SX1276_MODEM_DETECTION_THRESHOLD_SF6);
+	SX1276_SetLna(1, true);
+	SX1276_SetHopPeriod(0);										// 0 = disabled, we hop frequencies manually
+	SX1276_SetPaDac(true);
+	SX1276_SetTxRxMode(TX_EN);									// Set RF switch to TX
+	//Enable all IRQ flags
+	SX1276_WriteReg(SX1276_11_IRQFLAGSMASK,0x00);
+	FrSkyX_telem_init();
+	
+	hopping_frequency_no=0;
+	phase=FRSKYR9_FREQ;
+	return 20000;												// Start calling FrSkyR9_callback in 20 milliseconds
+}
+
+uint16_t FrSkyR9_callback()
+{
+	switch (phase)
+	{
+		case FRSKYR9_FREQ:
+			//Force standby
+			SX1276_SetMode(true, false, SX1276_OPMODE_STDBY);
+			//Set frequency
+			FrSkyR9_set_frequency(); 							// Set current center frequency
+			//Set power
+			// max power: 15dBm (10.8 + 0.6 * MaxPower [dBm])
+			// output_power: 2 dBm (17-(15-OutputPower) (if pa_boost_pin == true))
+			SX1276_SetPaConfig(true, 7, 0);						// Lowest power for the T18
+			//Build packet
+			if( packet_length == 26 )
+				FrSkyR9_build_packet();
+			else
+				FrSkyR9_build_EU_packet();
+			phase++;
+			return 460;											// Frequency settle time
+		case FRSKYR9_DATA:
+			//Set RF switch to TX
+			SX1276_SetTxRxMode(TX_EN);
+			//Send packet
+			SX1276_WritePayloadToFifo(packet, packet_length);
+			SX1276_SetMode(true, false, SX1276_OPMODE_TX);
+#if not defined TELEMETRY
+			phase=FRSKYR9_FREQ;
+			return 20000-460;
+#else
+			phase++;
+			return 11140;										// Packet send time
+		case FRSKYR9_RX1:
+			//Force standby
+			SX1276_SetMode(true, false, SX1276_OPMODE_STDBY);
+			//RX packet size is 13
+			SX1276_WriteReg(SX1276_22_PAYLOAD_LENGTH, 13);
+			//Reset pointer
+			SX1276_WriteReg(SX1276_0D_FIFOADDRPTR, 0x00);
+			//Set RF switch to RX
+			SX1276_SetTxRxMode(RX_EN);
+			//Clear all IRQ flags
+			SX1276_WriteReg(SX1276_12_REGIRQFLAGS,0xFF);
+			//Switch to RX
+			SX1276_WriteReg(SX1276_01_OPMODE, 0x85);
+			phase++;
+			return 7400;
+		case FRSKYR9_RX2:
+			if( (SX1276_ReadReg(SX1276_12_REGIRQFLAGS)&0xF0) == (_BV(SX1276_REGIRQFLAGS_RXDONE) | _BV(SX1276_REGIRQFLAGS_VALIDHEADER)) )
+			{
+				if(SX1276_ReadReg(SX1276_13_REGRXNBBYTES)==13)
+				{
+					SX1276_ReadRegisterMulti(SX1276_00_FIFO,packet_in,13);
+					if( packet_in[9]==rx_tx_addr[1] && packet_in[10]==rx_tx_addr[2] && FrSkyX_crc(packet_in, 11, rx_tx_addr[1]+(rx_tx_addr[2]<<8))==(packet_in[11]+(packet_in[12]<<8)) )
+					{
+						if(packet_in[0]&0x80)
+							RX_RSSI=packet_in[0]<<1;
+						else
+							v_lipo1=(packet_in[0]<<1)+1;
+						//TX_LQI=~(SX1276_ReadReg(SX1276_19_PACKETSNR)>>2)+1;
+						TX_RSSI=SX1276_ReadReg(SX1276_1A_PACKETRSSI)-157;
+						for(uint8_t i=0;i<9;i++)
+							packet[4+i]=packet_in[i];			// Adjust buffer to match FrSkyX
+						frsky_process_telemetry(packet,len);	// Process telemetry packet
+						pps_counter++;
+						if(TX_LQI==0)
+							TX_LQI++;							// Recover telemetry right away
+					}
+				}
+			}
+			if (millis() - pps_timer >= 1000)
+			{//1 packet every 20ms
+				pps_timer = millis();
+				debugln("%d pps", pps_counter);
+				TX_LQI = pps_counter<<1;						// Max=100%
+				pps_counter = 0;
+			}
+			if(TX_LQI==0)
+				FrSkyX_telem_init();							// Reset telemetry
+			else
+				telemetry_link=1;								// Send telemetry out anyway
+			phase=FRSKYR9_FREQ;
+			break;
+#endif
+	}
+	return 1000;
+}
+
+#endif

Multiprotocol/FrSkyV_cc2500.ino

@@ -117,6 +117,9 @@ uint16_t ReadFRSKYV()
 {
 	if(IS_BIND_DONE)
 	{	// Normal operation
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(9006);
+		#endif
 		uint8_t chan = FRSKYV_calc_channel();
 		CC2500_Strobe(CC2500_SIDLE);
 		if (option != prev_option)

Multiprotocol/FrSkyX_Rx_cc2500.ino

@@ -1,301 +0,0 @@
-/*
- This project is free software: you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation, either version 3 of the License, or
- (at your option) any later version.
-
- Multiprotocol is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License
- along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
- */
-
-#if defined(FRSKYX_RX_CC2500_INO)
-
-#include "iface_cc2500.h" 
-
- #define FRSKYX_FCC_LENGTH	30+2
- #define FRSKYX_LBT_LENGTH	33+2
-
- enum {
-	FRSKYX_RX_BIND,
-	FRSKYX_RX_DATA,
- };
-
- static uint8_t frskyx_rx_chanskip;
- static uint8_t frskyx_rx_disable_lna;
- static uint8_t frskyx_rx_data_started;
-
-static void __attribute__((unused)) FrSkyX_Rx_initialise() {
-	CC2500_Reset();
-	
-	CC2500_WriteReg(CC2500_02_IOCFG0, 0x01);
-	CC2500_WriteReg(CC2500_18_MCSM0, 0x18);
-	CC2500_WriteReg(CC2500_07_PKTCTRL1, 0x04);
-	CC2500_WriteReg(CC2500_3E_PATABLE, 0xFF);
-	CC2500_WriteReg(CC2500_0C_FSCTRL0, option); // Frequency offset hack
-	CC2500_WriteReg(CC2500_0D_FREQ2, 0x5C);
-	CC2500_WriteReg(CC2500_13_MDMCFG1, 0x23);
-	CC2500_WriteReg(CC2500_14_MDMCFG0, 0x7A);
-	CC2500_WriteReg(CC2500_19_FOCCFG, 0x16);
-	CC2500_WriteReg(CC2500_1A_BSCFG, 0x6C);
-	CC2500_WriteReg(CC2500_1B_AGCCTRL2, 0x03);
-	CC2500_WriteReg(CC2500_1C_AGCCTRL1, 0x40);
-	CC2500_WriteReg(CC2500_1D_AGCCTRL0, 0x91);
-	CC2500_WriteReg(CC2500_21_FREND1, 0x56);
-	CC2500_WriteReg(CC2500_22_FREND0, 0x10);
-	CC2500_WriteReg(CC2500_23_FSCAL3, 0xA9);
-	CC2500_WriteReg(CC2500_24_FSCAL2, 0x0A);
-	CC2500_WriteReg(CC2500_25_FSCAL1, 0x00);
-	CC2500_WriteReg(CC2500_26_FSCAL0, 0x11);
-	CC2500_WriteReg(CC2500_29_FSTEST, 0x59);
-	CC2500_WriteReg(CC2500_2C_TEST2, 0x88);
-	CC2500_WriteReg(CC2500_2D_TEST1, 0x31);
-	CC2500_WriteReg(CC2500_2E_TEST0, 0x0B);
-	CC2500_WriteReg(CC2500_03_FIFOTHR, 0x07);
-	CC2500_WriteReg(CC2500_09_ADDR, 0x00);
-
-	switch (sub_protocol) {
-	case FRSKYX_FCC:
-		CC2500_WriteReg(CC2500_17_MCSM1, 0x0C);
-		CC2500_WriteReg(CC2500_0E_FREQ1, 0x76);
-		CC2500_WriteReg(CC2500_0F_FREQ0, 0x27);
-		CC2500_WriteReg(CC2500_06_PKTLEN, 0x1E);
-		CC2500_WriteReg(CC2500_08_PKTCTRL0, 0x01);
-		CC2500_WriteReg(CC2500_0B_FSCTRL1, 0x0A);
-		CC2500_WriteReg(CC2500_10_MDMCFG4, 0x7B);
-		CC2500_WriteReg(CC2500_11_MDMCFG3, 0x61);
-		CC2500_WriteReg(CC2500_12_MDMCFG2, 0x13);
-		CC2500_WriteReg(CC2500_15_DEVIATN, 0x51);
-		break;
-	case FRSKYX_LBT:
-		CC2500_WriteReg(CC2500_17_MCSM1, 0x0E);
-		CC2500_WriteReg(CC2500_0E_FREQ1, 0x80);
-		CC2500_WriteReg(CC2500_0F_FREQ0, 0x00);
-		CC2500_WriteReg(CC2500_06_PKTLEN, 0x23);
-		CC2500_WriteReg(CC2500_08_PKTCTRL0, 0x01);
-		CC2500_WriteReg(CC2500_0B_FSCTRL1, 0x08);
-		CC2500_WriteReg(CC2500_10_MDMCFG4, 0x7B);
-		CC2500_WriteReg(CC2500_11_MDMCFG3, 0xF8);
-		CC2500_WriteReg(CC2500_12_MDMCFG2, 0x03);
-		CC2500_WriteReg(CC2500_15_DEVIATN, 0x53);
-		break;
-	}
-
-	frskyx_rx_disable_lna = IS_POWER_FLAG_on;
-	CC2500_SetTxRxMode(frskyx_rx_disable_lna ? TXRX_OFF : RX_EN); // lna disable / enable
-
-	CC2500_Strobe(CC2500_SIDLE);
-	CC2500_Strobe(CC2500_SFRX);
-	CC2500_Strobe(CC2500_SRX);
-	CC2500_WriteReg(CC2500_0A_CHANNR, 0);  // bind channel
-	delayMicroseconds(1000); // wait for RX to activate
-}
-
-static void __attribute__((unused)) frskyx_rx_set_channel(uint8_t channel)
-{
-	CC2500_WriteReg(CC2500_0A_CHANNR, hopping_frequency[channel]);
-	CC2500_WriteReg(CC2500_25_FSCAL1, calData[channel]);
-	CC2500_Strobe(CC2500_SIDLE);
-	CC2500_Strobe(CC2500_SFRX);
-	CC2500_Strobe(CC2500_SRX);
-}
-
-static void __attribute__((unused)) frskyx_rx_calibrate()
-{
-	CC2500_Strobe(CC2500_SIDLE);
-	CC2500_Strobe(CC2500_SFRX);
-	CC2500_Strobe(CC2500_SRX);
-	for (unsigned c = 0; c < 47; c++)
-	{
-		CC2500_Strobe(CC2500_SIDLE);
-		CC2500_WriteReg(CC2500_0A_CHANNR, hopping_frequency[c]);
-		CC2500_Strobe(CC2500_SCAL);
-		delayMicroseconds(900);
-		calData[c] = CC2500_ReadReg(CC2500_25_FSCAL1);
-	}
-}
-
-static uint8_t __attribute__((unused)) frskyx_rx_check_crc()
-{
-	uint8_t limit = packet_length - 4;
-	uint16_t lcrc = frskyX_crc_x(&packet[3], limit - 3); // computed crc
-	uint16_t rcrc = (packet[limit] << 8) | (packet[limit + 1] & 0xff); // received crc
-	return lcrc == rcrc;
-}
-
-static void __attribute__((unused)) frskyx_rx_build_telemetry_packet()
-{
-	static uint16_t frskyx_rx_rc_chan[16];
-	uint16_t pxx_channel[8];
-	uint32_t bits = 0;
-	uint8_t bitsavailable = 0;
-	uint8_t idx = 0;
-
-	// decode PXX channels
-	pxx_channel[0] = ((packet[10] << 8) & 0xF00) | packet[9];
-	pxx_channel[1] = ((packet[11] << 4) & 0xFF0) | (packet[10] >> 4);
-	pxx_channel[2] = ((packet[13] << 8) & 0xF00) | packet[12];
-	pxx_channel[3] = ((packet[14] << 4) & 0xFF0) | (packet[13] >> 4);
-	pxx_channel[4] = ((packet[16] << 8) & 0xF00) | packet[15];
-	pxx_channel[5] = ((packet[17] << 4) & 0xFF0) | (packet[16] >> 4);
-	pxx_channel[6] = ((packet[19] << 8) & 0xF00) | packet[18];
-	pxx_channel[7] = ((packet[20] << 4) & 0xFF0) | (packet[19] >> 4);
-	for (unsigned i = 0; i < 8; i++) {
-		uint8_t shifted = (pxx_channel[i] & 0x800)>0;
-		uint16_t channel_value = pxx_channel[i] & 0x7FF;
-		if (channel_value < 64)
-			frskyx_rx_rc_chan[shifted ? i + 8 : i] = 0;
-		else
-			frskyx_rx_rc_chan[shifted ? i + 8 : i] = min(((channel_value - 64) << 4) / 15, 2047);
-	}
-
-	// buid telemetry packet
-	pkt[idx++] = RX_LQI;
-	pkt[idx++] = RX_RSSI;
-	pkt[idx++] = 0;  // start channel
-	pkt[idx++] = 16; // number of channels in packet
-
-	// pack channels
-	for (int i = 0; i < 16; i++) {
-		bits |= frskyx_rx_rc_chan[i] << bitsavailable;
-		bitsavailable += 11;
-		while (bitsavailable >= 8) {
-			pkt[idx++] = bits & 0xff;
-			bits >>= 8;
-			bitsavailable -= 8;
-		}
-	}
-}
-
-uint16_t initFrSkyX_Rx()
-{
-	FrSkyX_Rx_initialise();
-	state = 0;
-	frskyx_rx_chanskip = 1;
-	hopping_frequency_no = 0;
-	frskyx_rx_data_started = 0;
-	telemetry_link = 0;
-	if (IS_BIND_IN_PROGRESS) {
-		phase = FRSKYX_RX_BIND;
-	}
-	else {
-		uint16_t temp = FRSKYX_RX_EEPROM_OFFSET;
-		rx_tx_addr[0] = eeprom_read_byte(temp++);
-		rx_tx_addr[1] = eeprom_read_byte(temp++);
-		rx_tx_addr[2] = eeprom_read_byte(temp++);
-		for(uint8_t ch = 0; ch < 47; ch++)
-			hopping_frequency[ch] = eeprom_read_byte(temp++);
-		frskyx_rx_calibrate();
-		CC2500_WriteReg(CC2500_18_MCSM0, 0x08); // FS_AUTOCAL = manual
-		CC2500_WriteReg(CC2500_09_ADDR, rx_tx_addr[0]); // set address
-		CC2500_WriteReg(CC2500_07_PKTCTRL1, 0x05); // check address
-		frskyx_rx_set_channel(hopping_frequency_no);
-		phase = FRSKYX_RX_DATA;
-	}
-	packet_length = (sub_protocol == FRSKYX_LBT) ? FRSKYX_LBT_LENGTH : FRSKYX_FCC_LENGTH;
-	return 1000;
-}
-
-uint16_t FrSkyX_Rx_callback()
-{
-	static uint32_t pps_timer=0;
-	static uint8_t pps_counter=0;
-	static int8_t read_retry = 0;
-	uint8_t len, ch;
-	if (prev_option != option)
-	{
-		CC2500_WriteReg(CC2500_0C_FSCTRL0, option);	// Frequency offset hack
-		prev_option = option;
-	}
-	if (frskyx_rx_disable_lna != IS_POWER_FLAG_on) {
-		frskyx_rx_disable_lna = IS_POWER_FLAG_on;
-		CC2500_SetTxRxMode(frskyx_rx_disable_lna ? TXRX_OFF : RX_EN);
-	}
-	switch(phase) {
-	case FRSKYX_RX_BIND:
-		len = CC2500_ReadReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
-		if(len >= packet_length) {
-			CC2500_ReadData(packet, packet_length);
-			if (frskyx_rx_check_crc()) {
-				if (packet[5] <= 0x2D) {
-					for (ch = 0; ch < 5; ch++)
-						hopping_frequency[packet[5]+ch] = packet[6+ch];
-					state |= 1 << (packet[5] / 5);
-				}
-			}
-			if (state == 0x3ff) {
-				debugln("bind complete");
-				frskyx_rx_calibrate();
-				rx_tx_addr[0] = packet[3];	// TXID
-				rx_tx_addr[1] = packet[4];	// TXID
-				rx_tx_addr[2] = packet[12]; // RX #
-				CC2500_WriteReg(CC2500_18_MCSM0, 0x08); // FS_AUTOCAL = manual
-				CC2500_WriteReg(CC2500_09_ADDR, rx_tx_addr[0]); // set address
-				CC2500_WriteReg(CC2500_07_PKTCTRL1, 0x05); // check address
-				phase = FRSKYX_RX_DATA;
-				frskyx_rx_set_channel(hopping_frequency_no);
-				// store txid and channel list
-				uint16_t temp = FRSKYX_RX_EEPROM_OFFSET;
-				eeprom_write_byte((EE_ADDR)temp++, rx_tx_addr[0]);
-				eeprom_write_byte((EE_ADDR)temp++, rx_tx_addr[1]);
-				eeprom_write_byte((EE_ADDR)temp++, rx_tx_addr[2]);
-				for (ch = 0; ch < 47; ch++)
-					eeprom_write_byte((EE_ADDR)temp++, hopping_frequency[ch]);
-				BIND_DONE;
-			}
-			CC2500_Strobe(CC2500_SIDLE);
-			CC2500_Strobe(CC2500_SFRX);
-			CC2500_Strobe(CC2500_SRX);
-		}
-		return 1000;
-	case FRSKYX_RX_DATA:
-		len = CC2500_ReadReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
-		if (len >= packet_length) {
-			CC2500_ReadData(packet, packet_length);
-			if (packet[1] == rx_tx_addr[0] && packet[2] == rx_tx_addr[1] && packet[6] == rx_tx_addr[2] && frskyx_rx_check_crc()) {
-				RX_RSSI = packet[packet_length-2];
-				if(RX_RSSI >= 128)
-					RX_RSSI -= 128;
-				else
-					RX_RSSI += 128;
-				// hop to next channel
-				frskyx_rx_chanskip = ((packet[4] & 0xC0) >> 6) | ((packet[5] & 0x3F) << 2);
-				hopping_frequency_no = (hopping_frequency_no + frskyx_rx_chanskip) % 47;
-				frskyx_rx_set_channel(hopping_frequency_no);
-				if(packet[7] == 0 && telemetry_link == 0) { // standard packet, send channels to TX
-						frskyx_rx_build_telemetry_packet();
-						telemetry_link = 1;
-				}
-				frskyx_rx_data_started = 1;
-				read_retry = 0;
-				pps_counter++;
-			}
-		}
-		
-		// packets per second
-		if (millis() - pps_timer >= 1000) {
-			pps_timer = millis();
-			debugln("%ld pps", pps_counter);
-			RX_LQI = pps_counter;
-			pps_counter = 0;
-		}
-
-		// skip channel if no packet received in time
-		if (read_retry++ >= 9) {
-			hopping_frequency_no = (hopping_frequency_no + frskyx_rx_chanskip) % 47;
-			frskyx_rx_set_channel(hopping_frequency_no);
-			if(frskyx_rx_data_started)
-				read_retry = 0;
-			else
-				read_retry = -50; // retry longer until first packet is catched
-		}
-		break;
-	}
-	return 1000;
-}
-
-#endif

Multiprotocol/FrSkyX_cc2500.ino

@@ -1,215 +1,119 @@
-/*  **************************
-	* By Midelic on RCGroups *
-	**************************
-	This project is free software: you can redistribute it and/or modify
-	it under the terms of the GNU General Public License as published by
-	the Free Software Foundation, either version 3 of the License, or
-	(at your option) any later version.
-	
-	Multiprotocol is distributed in the hope that it will be useful,
-	but WITHOUT ANY WARRANTY; without even the implied warranty of
-	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
-	GNU General Public License for more details.
-	
-	You should have received a copy of the GNU General Public License
-	along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
-*/
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
 
 #if defined(FRSKYX_CC2500_INO)
 
 #include "iface_cc2500.h"
 
-uint8_t FrX_chanskip;
-uint8_t FrX_send_seq ;
-uint8_t FrX_receive_seq ;
-
-#define FRX_FAILSAFE_TIMEOUT 1032
-
-static void __attribute__((unused)) frskyX_set_start(uint8_t ch )
+static void __attribute__((unused)) FrSkyX_build_bind_packet()
 {
-	CC2500_Strobe(CC2500_SIDLE);
-	CC2500_WriteReg(CC2500_25_FSCAL1, calData[ch]);
-	CC2500_WriteReg(CC2500_0A_CHANNR, hopping_frequency[ch]);
-}		
+	uint8_t packet_size = 0x1D;
+	if(protocol==PROTO_FRSKYX && (FrSkyFormat & 2 ))
+		packet_size=0x20;				// FrSkyX V1 LBT
+	//Header
+	packet[0] = packet_size;			// Number of bytes in the packet (after this one)
+	packet[1] = 0x03;					// Bind packet
+	packet[2] = 0x01;					// Bind packet
 
-static void __attribute__((unused)) frskyX_init()
-{
-	FRSKY_init_cc2500((sub_protocol&2)?FRSKYXEU_cc2500_conf:FRSKYX_cc2500_conf); // LBT or FCC
-	//
-	for(uint8_t c=0;c < 48;c++)
-	{//calibrate hop channels
-		CC2500_Strobe(CC2500_SIDLE);    
-		CC2500_WriteReg(CC2500_0A_CHANNR,hopping_frequency[c]);
-		CC2500_Strobe(CC2500_SCAL);
-		delayMicroseconds(900);//
-		calData[c] = CC2500_ReadReg(CC2500_25_FSCAL1);
+	//ID
+	packet[3] = rx_tx_addr[3];			// ID
+	packet[4] = rx_tx_addr[2];			// ID
+
+	if(protocol==PROTO_FRSKYX)
+	{
+		int idx = ((state -FRSKY_BIND) % 10) * 5;
+		packet[5] = idx;
+		packet[6] = hopping_frequency[idx++];
+		packet[7] = hopping_frequency[idx++];
+		packet[8] = hopping_frequency[idx++];
+		packet[9] = hopping_frequency[idx++];
+		packet[10] = hopping_frequency[idx++];
+		packet[11] = rx_tx_addr[1];		// Unknown but constant ID?
+		packet[12] = RX_num;
+		//
+		memset(&packet[13], 0, packet_size - 14);
+		if(binding_idx&0x01)
+			memcpy(&packet[13],(void *)"\x55\xAA\x5A\xA5",4);	// Telem off
+		if(binding_idx&0x02)
+			memcpy(&packet[17],(void *)"\x55\xAA\x5A\xA5",4);	// CH9-16
 	}
-	//#######END INIT########		
+	else
+	{
+		//packet 1D 03 01 0E 1C 02 00 00 32 0B 00 00 A8 26 28 01 A1 00 00 00 3E F6 87 C7 00 00 00 00 C9 C9
+		packet[5] = rx_tx_addr[1];		// Unknown but constant ID?
+		packet[6] = RX_num;
+		//Bind flags
+		packet[7]=0;
+		if(binding_idx&0x01)
+			packet[7] |= 0x40;				// Telem off
+		if(binding_idx&0x02)
+			packet[7] |= 0x80;				// CH9-16
+		//Unknown bytes
+		memcpy(&packet[8],"\x32\x0B\x00\x00\xA8\x26\x28\x01\xA1\x00\x00\x00\x3E\xF6\x87\xC7",16);
+		packet[20]^= 0x0E ^ rx_tx_addr[3];	// Update the ID
+		packet[21]^= 0x1C ^ rx_tx_addr[2];	// Update the ID
+		//Xor
+		for(uint8_t i=3; i<packet_size-1; i++)
+			packet[i] ^= 0xA7;
+	}
+	//CRC
+	uint16_t lcrc = FrSkyX_crc(&packet[3], packet_size-4);
+	packet[packet_size-1] = lcrc >> 8;
+	packet[packet_size] = lcrc;
+
+	/*//Debug
+	debug("Bind:");
+	for(uint8_t i=0;i<=packet_size;i++)
+		debug(" %02X",packet[i]);
+	debugln("");*/
 }
 
-static void __attribute__((unused)) frskyX_initialize_data(uint8_t adr)
-{
-	CC2500_WriteReg(CC2500_0C_FSCTRL0,option);	// Frequency offset hack 
-	CC2500_WriteReg(CC2500_18_MCSM0,    0x8);	
-	CC2500_WriteReg(CC2500_09_ADDR, adr ? 0x03 : rx_tx_addr[3]);
-	CC2500_WriteReg(CC2500_07_PKTCTRL1,0x05);
-}
-
-static void __attribute__((unused)) frskyX_build_bind_packet()
-{
-	packet[0] = (sub_protocol & 2 ) ? 0x20 : 0x1D ; // LBT or FCC
-	packet[1] = 0x03;
-	packet[2] = 0x01;
-	//
-	packet[3] = rx_tx_addr[3];
-	packet[4] = rx_tx_addr[2];
-	int idx = ((state -FRSKY_BIND) % 10) * 5;
-	packet[5] = idx;
-	packet[6] = hopping_frequency[idx++];
-	packet[7] = hopping_frequency[idx++];
-	packet[8] = hopping_frequency[idx++];
-	packet[9] = hopping_frequency[idx++];
-	packet[10] = hopping_frequency[idx++];
-	packet[11] = 0x02;
-	packet[12] = RX_num;
-	//
-	uint8_t limit = (sub_protocol & 2 ) ? 31 : 28 ;
-	memset(&packet[13], 0, limit - 13);
-	uint16_t lcrc = frskyX_crc_x(&packet[3], limit-3);
-	//
-	packet[limit++] = lcrc >> 8;
-	packet[limit] = lcrc;
-	//
-}
-
-// 0-2047, 0 = 817, 1024 = 1500, 2047 = 2182
-//64=860,1024=1500,1984=2140//Taranis 125%
-static uint16_t  __attribute__((unused)) frskyX_scaleForPXX( uint8_t i )
-{	//mapped 860,2140(125%) range to 64,1984(PXX values);
-	uint16_t chan_val=convert_channel_frsky(i)-1226;
-	if(i>7) chan_val|=2048;   // upper channels offset
-	return chan_val;
-}
-#ifdef FAILSAFE_ENABLE
-static uint16_t  __attribute__((unused)) frskyX_scaleForPXX_FS( uint8_t i )
-{	//mapped 1,2046(125%) range to 64,1984(PXX values);
-	uint16_t chan_val=((Failsafe_data[i]*15)>>4)+64;
-	if(Failsafe_data[i]==FAILSAFE_CHANNEL_NOPULSES)
-		chan_val=FAILSAFE_CHANNEL_NOPULSES;
-	else if(Failsafe_data[i]==FAILSAFE_CHANNEL_HOLD)
-		chan_val=FAILSAFE_CHANNEL_HOLD;
-	if(i>7) chan_val|=2048;   // upper channels offset
-	return chan_val;
-}
-#endif
-
-#define FRX_FAILSAFE_TIME 1032
-static void __attribute__((unused)) frskyX_data_frame()
+static void __attribute__((unused)) FrSkyX_build_packet()
 {
 	//0x1D 0xB3 0xFD 0x02 0x56 0x07 0x15 0x00 0x00 0x00 0x04 0x40 0x00 0x04 0x40 0x00 0x04 0x40 0x00 0x04 0x40 0x08 0x00 0x00 0x00 0x00 0x00 0x00 0x96 0x12
-	//
-	static uint8_t chan_offset=0;
-	uint16_t chan_0 ;
-	uint16_t chan_1 ; 
-	//
     // data frames sent every 9ms; failsafe every 9 seconds
-	#ifdef FAILSAFE_ENABLE
-		static uint16_t failsafe_count=0;
-		static uint8_t FS_flag=0,failsafe_chan=0;
-		if (FS_flag == 0  &&  failsafe_count > FRX_FAILSAFE_TIME  &&  chan_offset == 0  &&  IS_FAILSAFE_VALUES_on)
-		{
-			FS_flag = 0x10;
-			failsafe_chan = 0;
-		} else if (FS_flag & 0x10 && failsafe_chan < (sub_protocol & 0x01 ? 8-1:16-1))
-		{
-			FS_flag = 0x10 | ((FS_flag + 2) & 0x0F);	//10, 12, 14, 16, 18, 1A, 1C, 1E - failsafe packet
-			failsafe_chan ++;
-		} else if (FS_flag & 0x10)
-		{
-			FS_flag = 0;
-			failsafe_count = 0;
-		}
-		failsafe_count++;
-	#endif
-	
-	packet[0] = (sub_protocol & 0x02 ) ? 0x20 : 0x1D ;	// LBT or FCC
-	packet[1] = rx_tx_addr[3];
-	packet[2] = rx_tx_addr[2];
-	packet[3] = 0x02;
-	//  
-	packet[4] = (FrX_chanskip<<6)|hopping_frequency_no; 
-	packet[5] = FrX_chanskip>>2;
-	packet[6] = RX_num;
-	//packet[7] = FLAGS 00 - standard packet
-	//10, 12, 14, 16, 18, 1A, 1C, 1E - failsafe packet
-	//20 - range check packet
-	#ifdef FAILSAFE_ENABLE
-		packet[7] = FS_flag;
-	#else
-		packet[7] = 0;
-	#endif
-	packet[8] = 0;		
 	//
-	uint8_t startChan = chan_offset;	for(uint8_t i = 0; i <12 ; i+=3)
-	{//12 bytes of channel data
-		#ifdef FAILSAFE_ENABLE
-			if( (FS_flag & 0x10) && ((failsafe_chan & 0x07) == (startChan & 0x07)) )
-				chan_0 = frskyX_scaleForPXX_FS(failsafe_chan);
-			else
-		#endif
-				chan_0 = frskyX_scaleForPXX(startChan);
-		startChan++;
-		//
-		#ifdef FAILSAFE_ENABLE
-			if( (FS_flag & 0x10) && ((failsafe_chan & 0x07) == (startChan & 0x07)) )
-				chan_1 = frskyX_scaleForPXX_FS(failsafe_chan);
-			else
-		#endif
-				chan_1 = frskyX_scaleForPXX(startChan);
-		startChan++;
-		//
-		packet[9+i] = lowByte(chan_0);	//3 bytes*4
-		packet[9+i+1]=(((chan_0>>8) & 0x0F)|(chan_1 << 4));
-		packet[9+i+2]=chan_1>>4;
-	}
-	packet[21] = (FrX_receive_seq << 4) | FrX_send_seq ;//8 at start
-	
-	if(sub_protocol & 0x01 )			// in X8 mode send only 8ch every 9ms
-		chan_offset = 0 ;
-	else
-		chan_offset^=0x08;
-	
-	uint8_t limit = (sub_protocol & 2 ) ? 31 : 28 ;
-	for (uint8_t i=22;i<limit;i++)
-		packet[i]=0;
-	#if defined SPORT_POLLING
-		uint8_t idxs=0;
-		if(ok_to_send)
-			for (uint8_t i=23;i<limit;i++)
-			{//
-				if(sport_index==sport_idx)
-				{//no new data
-					ok_to_send=false;
-					break;
-				}
-				packet[i]=SportData[sport_index];	
-				sport_index= (sport_index+1)& (MAX_SPORT_BUFFER-1);
-				idxs++;
-			}
-		packet[22]= idxs;
-		#ifdef DEBUG_SERIAL
-			for(uint8_t i=0;i<idxs;i++)
-			{
-				Serial.print(packet[23+i],HEX);
-				Serial.print(" ");	
-			}		
-			Serial.println(" ");
-		#endif
-	#endif // SPORT_POLLING
+	uint8_t packet_size = 0x1D;
+	if(protocol==PROTO_FRSKYX && (FrSkyFormat & 2 ))
+		packet_size=0x20;				// FrSkyX V1 LBT
+	//Header
+	packet[0] = packet_size;			// Number of bytes in the packet (after this one)
+	packet[1] = rx_tx_addr[3];			// ID
+	packet[2] = rx_tx_addr[2];			// ID
+	packet[3] = rx_tx_addr[1];			// Unknown but constant ID?
+	//  
+	packet[4] = (FrSkyX_chanskip<<6)|hopping_frequency_no; 
+	packet[5] = FrSkyX_chanskip>>2;
+	packet[6] = RX_num;
 
-	uint16_t lcrc = frskyX_crc_x(&packet[3], limit-3);
-	packet[limit++]=lcrc>>8;//high byte
-	packet[limit]=lcrc;//low byte
+	//Channels
+	FrSkyX_channels(7);					// Set packet[7]=failsafe, packet[8]=0?? and packet[9..20]=channels data
+	
+	//Sequence and send SPort
+	FrSkyX_seq_sport(21,packet_size-2);	//21=RX|TXseq, 22=bytes count, 23..packet_size-2=data
+
+	//CRC
+	uint16_t lcrc = FrSkyX_crc(&packet[3], packet_size-4);
+	packet[packet_size-1] = lcrc >> 8;
+	packet[packet_size] = lcrc;
+
+	/*//Debug
+	debug("Norm:");
+	for(uint8_t i=0;i<=packet_size;i++)
+		debug(" %02X",packet[i]);
+	debugln("");*/
 }
 
 uint16_t ReadFrSkyX()
@@ -217,11 +121,11 @@ uint16_t ReadFrSkyX()
 	switch(state)
 	{	
 		default: 
-			frskyX_set_start(47);		
+			FrSkyX_set_start(47);		
 			CC2500_SetPower();
 			CC2500_Strobe(CC2500_SFRX);
 			//		
-			frskyX_build_bind_packet();
+			FrSkyX_build_bind_packet();
 			CC2500_Strobe(CC2500_SIDLE);
 			CC2500_WriteData(packet, packet[0]+1);
 			if(IS_BIND_DONE)
@@ -230,110 +134,157 @@ uint16_t ReadFrSkyX()
 				state++;
 			return 9000;
 		case FRSKY_BIND_DONE:
-			frskyX_initialize_data(0);
+			FrSkyX_initialize_data(0);
 			hopping_frequency_no=0;
 			BIND_DONE;
-			state++;			
-			break;		
+			state++;														//FRSKY_DATA1
+			break;
+
 		case FRSKY_DATA1:
+			CC2500_Strobe(CC2500_SIDLE);
 			if ( prev_option != option )
 			{
-				CC2500_WriteReg(CC2500_0C_FSCTRL0,option);	// Frequency offset hack 
+				CC2500_WriteReg(CC2500_0C_FSCTRL0,option);					//Frequency offset hack 
 				prev_option = option ;
 			}
-			CC2500_SetTxRxMode(TX_EN);
-			frskyX_set_start(hopping_frequency_no);
-			CC2500_SetPower();		
-			CC2500_Strobe(CC2500_SFRX);
-			hopping_frequency_no = (hopping_frequency_no+FrX_chanskip)%47;
-			CC2500_Strobe(CC2500_SIDLE);		
-			CC2500_WriteData(packet, packet[0]+1);
-			//
-//			frskyX_data_frame();
-			state++;
-			return 5200;
+			FrSkyX_set_start(hopping_frequency_no);
+			FrSkyX_build_packet();
+			if(FrSkyFormat & 2)
+			{// LBT
+				CC2500_Strobe(CC2500_SRX);									//Acquire RSSI
+				state++;
+				return 400;		// LBT
+			}
 		case FRSKY_DATA2:
-			CC2500_SetTxRxMode(RX_EN);
+			if(FrSkyFormat & 2)
+			{
+				uint16_t rssi=0;
+				for(uint8_t i=0;i<4;i++)
+					rssi += CC2500_ReadReg(CC2500_34_RSSI | CC2500_READ_BURST);	// 0.5 db/count, RSSI value read from the RSSI status register is a 2's complement number
+				rssi>>=2;
+				#if 0
+					uint8_t rssi_level=convert_channel_8b(CH16)>>1;			//CH16 0..127
+					if ( rssi > rssi_level && rssi < 128)					//test rssi level dynamically
+				#else
+					if ( rssi > 14 && rssi < 128)							//if RSSI above -65dBm (12=-70) => ETSI requirement
+				#endif
+				{
+					LBT_POWER_on;											//Reduce to low power before transmitting
+					debugln("Busy %d %d",hopping_frequency_no,rssi);
+				}
+			}
 			CC2500_Strobe(CC2500_SIDLE);
-			state++;
-			return 200;
-		case FRSKY_DATA3:		
+			CC2500_Strobe(CC2500_SFTX);										//Flush the TXFIFO
+			CC2500_SetTxRxMode(TX_EN);
+			CC2500_SetPower();
+			hopping_frequency_no = (hopping_frequency_no+FrSkyX_chanskip)%47;
+			CC2500_WriteData(packet, packet[0]+1);
+			state=FRSKY_DATA3;
+			if(FrSkyFormat & 2)
+				return 4000;	// LBT
+			else
+				return 5200;	// FCC
+		case FRSKY_DATA3:
+			CC2500_Strobe(CC2500_SIDLE);
+			CC2500_Strobe(CC2500_SFRX);										//Flush the RXFIFO
+			CC2500_SetTxRxMode(RX_EN);
 			CC2500_Strobe(CC2500_SRX);
 			state++;
-			return 3100;
-		case FRSKY_DATA4:
-			len = CC2500_ReadReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;	
-			if (len && (len<=(0x0E + 3)))				//Telemetry frame is 17
-			{
-				packet_count=0;
-				CC2500_ReadData(pkt, len);
-				#if defined TELEMETRY
-					frsky_check_telemetry(pkt,len);	//check if valid telemetry packets
-					//parse telemetry packets here
-					//The same telemetry function used by FrSky(D8).
-				#endif
-			} 
+			if(FrSkyFormat & 2)
+				return 4200;	// LBT
 			else
-			{
-				packet_count++;
-				// restart sequence on missed packet - might need count or timeout instead of one missed
-				if(packet_count>100)
-				{//~1sec
-//					seq_last_sent = 0;
-//					seq_last_rcvd = 8;
-					FrX_send_seq = 0x08 ;
-//					FrX_receive_seq = 0 ;
-					packet_count=0;
-					#if defined TELEMETRY
-						telemetry_lost=1;
-					#endif
+				return 3400;	// FCC
+		case FRSKY_DATA4:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(9000);
+			#endif
+			#if defined TELEMETRY
+				len = CC2500_ReadReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;	
+				if (len && len <= 17)										//Telemetry frame is 17 bytes
+				{
+					//debug("Telem:");
+					CC2500_ReadData(packet_in, len);						//Read what has been received so far
+					if(len<17)
+					{//not all bytes were received
+						uint8_t last_len=CC2500_ReadReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
+						if(last_len==17)									//All bytes received
+						{
+							CC2500_ReadData(packet_in+len, last_len-len);	//Finish to read
+							len=17;
+						}
+					}
+					if(len==17 && (protocol==PROTO_FRSKYX || (protocol==PROTO_FRSKYX2 && (packet_in[len-1] & 0x80))) )
+					{//Telemetry received with valid crc for FRSKYX2
+						//Debug
+						//for(uint8_t i=0;i<len;i++)
+						//	debug(" %02X",packet_in[i]);
+						if(frsky_process_telemetry(packet_in,len))			//Check and process telemetry packet
+						{//good packet received
+							pps_counter++;
+							if(TX_LQI==0)
+								TX_LQI++;									//Recover telemetry right away
+						}
+					}
+					//debugln("");
 				}
-				CC2500_Strobe(CC2500_SFRX);			//flush the RXFIFO
-			}
-			frskyX_data_frame();
-			if ( FrX_send_seq != 0x08 )
-			{
-				FrX_send_seq = ( FrX_send_seq + 1 ) & 0x03 ;
-			}
+				if (millis() - pps_timer >= 900)
+				{//1 packet every 9ms
+					pps_timer = millis();
+					debugln("%d pps", pps_counter);
+					TX_LQI = pps_counter;									//Max=100%
+					pps_counter = 0;
+				}
+				if(TX_LQI==0)
+					FrSkyX_telem_init();									//Reset telemetry
+				else
+					telemetry_link=1;										//Send telemetry out anyway
+			#endif
 			state = FRSKY_DATA1;
-			return 500;
-	}		
+			return 400;	// FCC & LBT
+	}
 	return 1;		
 }
 
 uint16_t initFrSkyX()
 {
 	set_rx_tx_addr(MProtocol_id_master);
-	Frsky_init_hop();
+	FrSkyFormat = sub_protocol;
+	
+	if (sub_protocol==XCLONE_16||sub_protocol==XCLONE_8)
+		Frsky_init_clone();
+	else if(protocol==PROTO_FRSKYX)
+	{
+		Frsky_init_hop();
+		rx_tx_addr[1]=0x02;		// ID related, hw version?
+	}
+	else
+	{
+		#ifdef FRSKYX2_FORCE_ID
+			rx_tx_addr[3]=0x0E;
+			rx_tx_addr[2]=0x1C;
+			FrSkyX_chanskip=18;
+		#endif
+		rx_tx_addr[1]=0x02;		// ID related, hw version?
+		FrSkyX2_init_hop();
+	}
+	
 	packet_count=0;
-	while(!FrX_chanskip)
-		FrX_chanskip=random(0xfefefefe)%47;
+	while(!FrSkyX_chanskip)
+		FrSkyX_chanskip=random(0xfefefefe)%47;
+
+	FrSkyX_init();
 
-	//for test***************
-	//rx_tx_addr[3]=0xB3;
-	//rx_tx_addr[2]=0xFD;
-	//************************
-	frskyX_init();
-#if defined  SPORT_POLLING
-#ifdef INVERT_SERIAL
-	start_timer4() ;
-#endif
-#endif
-	//
 	if(IS_BIND_IN_PROGRESS)
 	{	   
 		state = FRSKY_BIND;
-		frskyX_initialize_data(1);
+		FrSkyX_initialize_data(1);
 	}
 	else
 	{
 		state = FRSKY_DATA1;
-		frskyX_initialize_data(0);
+		FrSkyX_initialize_data(0);
 	}
-//	seq_last_sent = 0;
-//	seq_last_rcvd = 8;
-	FrX_send_seq = 0x08 ;
-	FrX_receive_seq = 0 ;
+	FrSkyX_telem_init();
 	return 10000;
-}	
-#endif
+}
+#endif

Multiprotocol/FrSky_Rx_cc2500.ino

@@ -0,0 +1,594 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(FRSKY_RX_CC2500_INO)
+
+#include "iface_cc2500.h" 
+
+ #define FRSKY_RX_D16FCC_LENGTH	0x1D+1
+ #define FRSKY_RX_D16LBT_LENGTH	0x20+1
+ #define FRSKY_RX_D16v2_LENGTH	0x1D+1
+ #define FRSKY_RX_D8_LENGTH		0x11+1
+ #define FRSKY_RX_FORMATS		5
+
+enum
+{
+	FRSKY_RX_D8			=0,
+	FRSKY_RX_D16FCC		=1,
+	FRSKY_RX_D16LBT		=2,
+	FRSKY_RX_D16v2FCC	=3,
+	FRSKY_RX_D16v2LBT	=4,
+};
+
+enum {
+	FRSKY_RX_TUNE_START,
+	FRSKY_RX_TUNE_LOW,
+	FRSKY_RX_TUNE_HIGH,
+	FRSKY_RX_BIND,
+	FRSKY_RX_DATA,
+};
+
+const PROGMEM uint8_t frsky_rx_common_reg[][2] = {
+	{CC2500_02_IOCFG0, 0x01},
+	{CC2500_18_MCSM0, 0x18},
+	{CC2500_07_PKTCTRL1, 0x05},
+	{CC2500_3E_PATABLE, 0xFF},
+	{CC2500_0C_FSCTRL0, 0},
+	{CC2500_0D_FREQ2, 0x5C},
+	{CC2500_13_MDMCFG1, 0x23},
+	{CC2500_14_MDMCFG0, 0x7A},
+	{CC2500_19_FOCCFG, 0x16},
+	{CC2500_1A_BSCFG, 0x6C},
+	{CC2500_1B_AGCCTRL2, 0x03},
+	{CC2500_1C_AGCCTRL1, 0x40},
+	{CC2500_1D_AGCCTRL0, 0x91},
+	{CC2500_21_FREND1, 0x56},
+	{CC2500_22_FREND0, 0x10},
+	{CC2500_23_FSCAL3, 0xA9},
+	{CC2500_24_FSCAL2, 0x0A},
+	{CC2500_25_FSCAL1, 0x00},
+	{CC2500_26_FSCAL0, 0x11},
+	{CC2500_29_FSTEST, 0x59},
+	{CC2500_2C_TEST2, 0x88},
+	{CC2500_2D_TEST1, 0x31},
+	{CC2500_2E_TEST0, 0x0B},
+	{CC2500_03_FIFOTHR, 0x07},
+	{CC2500_09_ADDR, 0x03},
+};
+
+const PROGMEM uint8_t frsky_rx_d16fcc_reg[][2] = {
+	{CC2500_17_MCSM1, 0x0C},
+	{CC2500_0E_FREQ1, 0x76},
+	{CC2500_0F_FREQ0, 0x27},
+	{CC2500_06_PKTLEN, 0x1E},
+	{CC2500_08_PKTCTRL0, 0x01},
+	{CC2500_0B_FSCTRL1, 0x0A},
+	{CC2500_10_MDMCFG4, 0x7B},
+	{CC2500_11_MDMCFG3, 0x61},
+	{CC2500_12_MDMCFG2, 0x13},
+	{CC2500_15_DEVIATN, 0x51},
+};
+
+const PROGMEM uint8_t frsky_rx_d16lbt_reg[][2] = {
+	{CC2500_17_MCSM1, 0x0E},
+	{CC2500_0E_FREQ1, 0x80},
+	{CC2500_0F_FREQ0, 0x00},
+	{CC2500_06_PKTLEN, 0x23},
+	{CC2500_08_PKTCTRL0, 0x01},
+	{CC2500_0B_FSCTRL1, 0x08},
+	{CC2500_10_MDMCFG4, 0x7B},
+	{CC2500_11_MDMCFG3, 0xF8},
+	{CC2500_12_MDMCFG2, 0x03},
+	{CC2500_15_DEVIATN, 0x53},
+};
+
+const PROGMEM uint8_t frsky_rx_d8_reg[][2] = {
+	{CC2500_17_MCSM1,    0x0C},
+	{CC2500_0E_FREQ1,    0x76},
+	{CC2500_0F_FREQ0,    0x27},
+	{CC2500_06_PKTLEN,   0x19},
+	{CC2500_08_PKTCTRL0, 0x05},
+	{CC2500_0B_FSCTRL1,  0x08},
+	{CC2500_10_MDMCFG4,  0xAA},
+	{CC2500_11_MDMCFG3,  0x39},
+	{CC2500_12_MDMCFG2,  0x11},
+	{CC2500_15_DEVIATN,  0x42},
+};
+
+static uint8_t frsky_rx_chanskip;
+static int8_t  frsky_rx_finetune;
+static uint8_t frsky_rx_format;
+
+static void __attribute__((unused)) frsky_rx_strobe_rx()
+{
+	 CC2500_Strobe(CC2500_SIDLE);
+	 CC2500_Strobe(CC2500_SFRX);
+	 CC2500_Strobe(CC2500_SRX);
+}
+
+static void __attribute__((unused)) frsky_rx_initialise_cc2500() {
+	const uint8_t frsky_rx_length[] = { FRSKY_RX_D8_LENGTH, FRSKY_RX_D16FCC_LENGTH, FRSKY_RX_D16LBT_LENGTH, FRSKY_RX_D16v2_LENGTH, FRSKY_RX_D16v2_LENGTH };
+	packet_length = frsky_rx_length[frsky_rx_format];
+	CC2500_Reset();
+	CC2500_Strobe(CC2500_SIDLE);
+	for (uint8_t i = 0; i < sizeof(frsky_rx_common_reg) / 2; i++)
+		CC2500_WriteReg(pgm_read_byte_near(&frsky_rx_common_reg[i][0]), pgm_read_byte_near(&frsky_rx_common_reg[i][1]));
+
+	switch (frsky_rx_format)
+	{
+		case FRSKY_RX_D16v2FCC:
+		case FRSKY_RX_D16FCC:
+			for (uint8_t i = 0; i < sizeof(frsky_rx_d16fcc_reg) / 2; i++)
+				CC2500_WriteReg(pgm_read_byte_near(&frsky_rx_d16fcc_reg[i][0]), pgm_read_byte_near(&frsky_rx_d16fcc_reg[i][1]));
+			if(frsky_rx_format==FRSKY_RX_D16v2FCC)
+			{
+				CC2500_WriteReg(CC2500_08_PKTCTRL0, 0x05);	// Enable CRC
+				CC2500_WriteReg(CC2500_17_MCSM1, 0x0E);		// Go/Stay in RX mode
+				CC2500_WriteReg(CC2500_11_MDMCFG3, 0x84);	// bitrate 70K->77K
+			}
+			break;
+		case FRSKY_RX_D16v2LBT:
+		case FRSKY_RX_D16LBT:
+			for (uint8_t i = 0; i < sizeof(frsky_rx_d16lbt_reg) / 2; i++)
+				CC2500_WriteReg(pgm_read_byte_near(&frsky_rx_d16lbt_reg[i][0]), pgm_read_byte_near(&frsky_rx_d16lbt_reg[i][1]));
+			if(frsky_rx_format==FRSKY_RX_D16v2LBT)
+				CC2500_WriteReg(CC2500_08_PKTCTRL0, 0x05);	// Enable CRC
+			break;
+		case FRSKY_RX_D8:
+			for (uint8_t i = 0; i < sizeof(frsky_rx_d8_reg) / 2; i++)
+				CC2500_WriteReg(pgm_read_byte_near(&frsky_rx_d8_reg[i][0]), pgm_read_byte_near(&frsky_rx_d8_reg[i][1]));
+			CC2500_WriteReg(CC2500_23_FSCAL3, 0x89);
+			break;
+	}
+	CC2500_WriteReg(CC2500_0A_CHANNR, 0);  // bind channel
+	rx_disable_lna = IS_POWER_FLAG_on;
+	CC2500_SetTxRxMode(rx_disable_lna ? TXRX_OFF : RX_EN); // lna disable / enable
+	frsky_rx_strobe_rx();
+	delayMicroseconds(1000); // wait for RX to activate
+}
+
+static void __attribute__((unused)) frsky_rx_set_channel(uint8_t channel)
+{
+	CC2500_WriteReg(CC2500_0A_CHANNR, hopping_frequency[channel]);
+	if(frsky_rx_format == FRSKY_RX_D8)
+		CC2500_WriteReg(CC2500_23_FSCAL3, 0x89);
+	CC2500_WriteReg(CC2500_25_FSCAL1, calData[channel]);
+	frsky_rx_strobe_rx();
+}
+
+static void __attribute__((unused)) frsky_rx_calibrate()
+{
+	frsky_rx_strobe_rx();
+	for (unsigned c = 0; c < 47; c++)
+	{
+		CC2500_Strobe(CC2500_SIDLE);
+		CC2500_WriteReg(CC2500_0A_CHANNR, hopping_frequency[c]);
+		CC2500_Strobe(CC2500_SCAL);
+		delayMicroseconds(900);
+		calData[c] = CC2500_ReadReg(CC2500_25_FSCAL1);
+	}
+}
+
+static uint8_t __attribute__((unused)) frskyx_rx_check_crc_id(bool bind,bool init)
+{
+	/*debugln("RX");
+	for(uint8_t i=0; i<packet_length;i++)
+		debug(" %02X",packet[i]);
+	debugln("");*/
+	
+	if(bind && packet[0]!=packet_length-1 && packet[1] !=0x03 && packet[2] != 0x01)
+		return false;
+	uint8_t offset=bind?3:1;
+	
+	// Check D8 checksum
+	if (frsky_rx_format == FRSKY_RX_D8)
+	{
+		if((packet[packet_length+1] & 0x80) != 0x80)	// Check CRC_OK flag in status byte 2
+			return false; 								// Bad CRC
+		if(init)
+		{//Save TXID
+			rx_tx_addr[3] = packet[3];
+			rx_tx_addr[2] = packet[4];
+			rx_tx_addr[1] = packet[17];
+		}
+		else
+			if(rx_tx_addr[3] != packet[offset] || rx_tx_addr[2] != packet[offset+1] || rx_tx_addr[1] != packet[bind?17:5])
+				return false;							// Bad address
+		return true;									// Full match
+	}
+
+	// Check D16v2 checksum
+	if (frsky_rx_format == FRSKY_RX_D16v2LBT || frsky_rx_format == FRSKY_RX_D16v2FCC)
+		if((packet[packet_length+1] & 0x80) != 0x80)	// Check CRC_OK flag in status byte 2
+			return false;
+	//debugln("HW Checksum ok");
+
+	// Check D16 checksum
+	uint16_t lcrc = FrSkyX_crc(&packet[3], packet_length - 5);		// Compute crc
+	uint16_t rcrc = (packet[packet_length-2] << 8) | (packet[packet_length-1] & 0xff);	// Received crc
+	if(lcrc != rcrc)
+		return false; 									// Bad CRC
+	//debugln("Checksum ok");
+
+	if (bind && (frsky_rx_format == FRSKY_RX_D16v2LBT || frsky_rx_format == FRSKY_RX_D16v2FCC))
+		for(uint8_t i=3; i<packet_length-2; i++)		//unXOR bind packet
+			packet[i] ^= 0xA7;
+	
+	uint8_t offset2=0;
+	if (bind && (frsky_rx_format == FRSKY_RX_D16LBT || frsky_rx_format == FRSKY_RX_D16FCC))
+		offset2=6;
+	if(init)
+	{//Save TXID
+		rx_tx_addr[3] = packet[3];
+		rx_tx_addr[2] = packet[4];
+		rx_tx_addr[1] = packet[5+offset2];
+		rx_tx_addr[0] = packet[6+offset2];				// RXnum
+	}
+	else
+		if(rx_tx_addr[3] != packet[offset] || rx_tx_addr[2] != packet[offset+1] || rx_tx_addr[1] != packet[offset+2+offset2])
+			return false;								// Bad address
+	//debugln("Address ok");
+	
+	if(!bind && rx_tx_addr[0] != packet[6])
+		return false;									// Bad RX num
+	
+	//debugln("Match");
+	return true;										// Full match
+}
+
+static void __attribute__((unused)) frsky_rx_build_telemetry_packet()
+{
+	uint16_t raw_channel[8];
+	uint32_t bits = 0;
+	uint8_t bitsavailable = 0;
+	uint8_t idx = 0;
+	uint8_t i;
+
+	if (frsky_rx_format == FRSKY_RX_D8)
+	{// decode D8 channels
+		raw_channel[0] = ((packet[10] & 0x0F) << 8 | packet[6]);
+		raw_channel[1] = ((packet[10] & 0xF0) << 4 | packet[7]);
+		raw_channel[2] = ((packet[11] & 0x0F) << 8 | packet[8]);
+		raw_channel[3] = ((packet[11] & 0xF0) << 4 | packet[9]);
+		raw_channel[4] = ((packet[16] & 0x0F) << 8 | packet[12]);
+		raw_channel[5] = ((packet[16] & 0xF0) << 4 | packet[13]);
+		raw_channel[6] = ((packet[17] & 0x0F) << 8 | packet[14]);
+		raw_channel[7] = ((packet[17] & 0xF0) << 4 | packet[15]);
+		for (i = 0; i < 8; i++) {
+			if (raw_channel[i] < 1290)
+				raw_channel[i] = 1290;
+			rx_rc_chan[i] = min(((raw_channel[i] - 1290) << 4) / 15, 2047);
+		}
+	}
+	else
+	{// decode D16 channels
+		raw_channel[0] = ((packet[10] << 8) & 0xF00) | packet[9];
+		raw_channel[1] = ((packet[11] << 4) & 0xFF0) | (packet[10] >> 4);
+		raw_channel[2] = ((packet[13] << 8) & 0xF00) | packet[12];
+		raw_channel[3] = ((packet[14] << 4) & 0xFF0) | (packet[13] >> 4);
+		raw_channel[4] = ((packet[16] << 8) & 0xF00) | packet[15];
+		raw_channel[5] = ((packet[17] << 4) & 0xFF0) | (packet[16] >> 4);
+		raw_channel[6] = ((packet[19] << 8) & 0xF00) | packet[18];
+		raw_channel[7] = ((packet[20] << 4) & 0xFF0) | (packet[19] >> 4);	
+		for (i = 0; i < 8; i++) {
+			// ignore failsafe channels
+			if(packet[7] != 0x10+(i<<1)) {
+				uint8_t shifted = (raw_channel[i] & 0x800)>0;
+				uint16_t channel_value = raw_channel[i] & 0x7FF;
+				if (channel_value < 64)
+					rx_rc_chan[shifted ? i + 8 : i] = 0;
+				else
+					rx_rc_chan[shifted ? i + 8 : i] = min(((channel_value - 64) << 4) / 15, 2047);
+			}
+		}
+	}
+
+	// buid telemetry packet
+	packet_in[idx++] = RX_LQI;
+	packet_in[idx++] = RX_RSSI;
+	packet_in[idx++] = 0;  // start channel
+	packet_in[idx++] = frsky_rx_format == FRSKY_RX_D8 ? 8 : 16; // number of channels in packet
+
+	// pack channels
+	for (i = 0; i < packet_in[3]; i++) {
+		bits |= ((uint32_t)rx_rc_chan[i]) << bitsavailable;
+		bitsavailable += 11;
+		while (bitsavailable >= 8) {
+			packet_in[idx++] = bits & 0xff;
+			bits >>= 8;
+			bitsavailable -= 8;
+		}
+	}
+}
+
+static void __attribute__((unused)) frsky_rx_data()
+{
+	uint16_t temp = FRSKY_RX_EEPROM_OFFSET;
+	frsky_rx_format = eeprom_read_byte((EE_ADDR)temp++) % FRSKY_RX_FORMATS;
+	rx_tx_addr[3] = eeprom_read_byte((EE_ADDR)temp++);
+	rx_tx_addr[2] = eeprom_read_byte((EE_ADDR)temp++);
+	rx_tx_addr[1] = eeprom_read_byte((EE_ADDR)temp++);
+	rx_tx_addr[0] = RX_num;
+	frsky_rx_finetune = eeprom_read_byte((EE_ADDR)temp++);
+	debug("format=%d, ", frsky_rx_format);
+	debug("addr[3]=%02X, ", rx_tx_addr[3]);
+	debug("addr[2]=%02X, ", rx_tx_addr[2]);
+	debug("addr[1]=%02X, ", rx_tx_addr[1]);
+	debug("rx_num=%02X, ",  rx_tx_addr[0]);
+	debugln("tune=%d", (int8_t)frsky_rx_finetune);
+	if(frsky_rx_format != FRSKY_RX_D16v2LBT && frsky_rx_format != FRSKY_RX_D16v2FCC)
+	{//D8 & D16v1
+		for (uint8_t ch = 0; ch < 47; ch++)
+			hopping_frequency[ch] = eeprom_read_byte((EE_ADDR)temp++);
+	}
+	else
+	{
+		FrSkyFormat=frsky_rx_format == FRSKY_RX_D16v2FCC?0:2;
+		FrSkyX2_init_hop();
+	}
+	debug("ch:");
+	for (uint8_t ch = 0; ch < 47; ch++)
+		debug(" %02X", hopping_frequency[ch]);
+	debugln("");
+
+	frsky_rx_initialise_cc2500();
+	frsky_rx_calibrate();
+	CC2500_WriteReg(CC2500_18_MCSM0, 0x08); // FS_AUTOCAL = manual
+	CC2500_WriteReg(CC2500_09_ADDR, rx_tx_addr[3]); // set address
+	CC2500_WriteReg(CC2500_07_PKTCTRL1, 0x05); // check address
+	if (option == 0)
+		CC2500_WriteReg(CC2500_0C_FSCTRL0, frsky_rx_finetune);
+	else
+		CC2500_WriteReg(CC2500_0C_FSCTRL0, option);
+	frsky_rx_set_channel(hopping_frequency_no);
+	phase = FRSKY_RX_DATA;
+}
+
+uint16_t initFrSky_Rx()
+{
+	frsky_rx_chanskip = 1;
+	hopping_frequency_no = 0;
+	rx_data_started = false;
+	frsky_rx_finetune = 0;
+	telemetry_link = 0;
+	packet_count = 0;
+	if (IS_BIND_IN_PROGRESS)
+	{
+		frsky_rx_format = FRSKY_RX_D8;
+		frsky_rx_initialise_cc2500();
+		phase = FRSKY_RX_TUNE_START;
+		debugln("FRSKY_RX_TUNE_START");
+	}
+	else
+		frsky_rx_data();
+	return 1000;
+}
+
+uint16_t FrSky_Rx_callback()
+{
+	static int8_t read_retry = 0;
+	static int8_t tune_low, tune_high;
+	uint8_t len, ch;
+
+	if(IS_BIND_DONE && phase != FRSKY_RX_DATA) return initFrSky_Rx();	// Abort bind
+
+	if ((prev_option != option) && (phase >= FRSKY_RX_DATA))
+	{
+		if (option == 0)
+			CC2500_WriteReg(CC2500_0C_FSCTRL0, frsky_rx_finetune);
+		else
+			CC2500_WriteReg(CC2500_0C_FSCTRL0, option);
+		prev_option = option;
+	}
+
+	if (rx_disable_lna != IS_POWER_FLAG_on)
+	{
+		rx_disable_lna = IS_POWER_FLAG_on;
+		CC2500_SetTxRxMode(rx_disable_lna ? TXRX_OFF : RX_EN);
+	}
+
+	len = CC2500_ReadReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
+	switch(phase)
+	{
+		case FRSKY_RX_TUNE_START:
+			if (len == packet_length + 2) //+2=RSSI+LQI+CRC
+			{
+				CC2500_ReadData(packet, len);
+				if(frskyx_rx_check_crc_id(true,true))
+				{
+					frsky_rx_finetune = -127;
+					CC2500_WriteReg(CC2500_0C_FSCTRL0, frsky_rx_finetune);
+					phase = FRSKY_RX_TUNE_LOW;
+					debugln("FRSKY_RX_TUNE_LOW");
+					frsky_rx_strobe_rx();
+					state = 0;
+					return 1000;
+				}
+			}
+			frsky_rx_format = (frsky_rx_format + 1) % FRSKY_RX_FORMATS; // switch to next format (D8, D16FCC, D16LBT, D16v2FCC, D16v2LBT)
+			frsky_rx_initialise_cc2500();
+			frsky_rx_finetune += 10;
+			CC2500_WriteReg(CC2500_0C_FSCTRL0, frsky_rx_finetune);
+			frsky_rx_strobe_rx();
+			return 18000;
+
+		case FRSKY_RX_TUNE_LOW:
+			if (len == packet_length + 2) //+2=RSSI+LQI+CRC
+			{
+				CC2500_ReadData(packet, len);
+				if(frskyx_rx_check_crc_id(true,false)) {
+					tune_low = frsky_rx_finetune;
+					frsky_rx_finetune = 127;
+					CC2500_WriteReg(CC2500_0C_FSCTRL0, frsky_rx_finetune);
+					phase = FRSKY_RX_TUNE_HIGH;
+					debugln("FRSKY_RX_TUNE_HIGH");
+					frsky_rx_strobe_rx();
+					return 1000;
+				}
+			}
+			frsky_rx_finetune += 1;
+			CC2500_WriteReg(CC2500_0C_FSCTRL0, frsky_rx_finetune);
+			frsky_rx_strobe_rx();
+			return 18000;
+
+		case FRSKY_RX_TUNE_HIGH:
+			if (len == packet_length + 2) //+2=RSSI+LQI+CRC
+			{
+				CC2500_ReadData(packet, len);
+				if(frskyx_rx_check_crc_id(true,false)) {
+					tune_high = frsky_rx_finetune;
+					frsky_rx_finetune = (tune_low + tune_high) / 2;
+					CC2500_WriteReg(CC2500_0C_FSCTRL0, (int8_t)frsky_rx_finetune);
+					if(tune_low < tune_high)
+					{
+						phase = FRSKY_RX_BIND;
+						debugln("FRSKY_RX_TUNE_HIGH");
+					}
+					else
+					{
+						phase = FRSKY_RX_TUNE_START;
+						debugln("FRSKY_RX_TUNE_START");
+					}
+					frsky_rx_strobe_rx();
+					return 1000;
+				}
+			}
+			frsky_rx_finetune -= 1;
+			CC2500_WriteReg(CC2500_0C_FSCTRL0, frsky_rx_finetune);
+			frsky_rx_strobe_rx();
+			return 18000;
+
+		case FRSKY_RX_BIND:
+			if (len == packet_length + 2) //+2=RSSI+LQI+CRC
+			{
+				CC2500_ReadData(packet, len);
+				if(frskyx_rx_check_crc_id(true,false)) {
+					if(frsky_rx_format != FRSKY_RX_D16v2LBT && frsky_rx_format != FRSKY_RX_D16v2FCC)
+					{// D8 & D16v1
+						if(packet[5] <= 0x2D)
+						{
+							for (ch = 0; ch < 5; ch++)
+								hopping_frequency[packet[5]+ch] = packet[6+ch];
+							state |= 1 << (packet[5] / 5);
+						}
+					}
+					else
+						state = 0x3FF; //No hop table for D16v2
+					if (state == 0x3FF)
+					{
+						debugln("Bind complete");
+						BIND_DONE;
+						// store format, finetune setting, txid, channel list
+						uint16_t temp = FRSKY_RX_EEPROM_OFFSET;
+						if(sub_protocol==FRSKY_CLONE)
+						{
+							if(frsky_rx_format==FRSKY_RX_D8)
+								temp=FRSKYD_CLONE_EEPROM_OFFSET;
+							else if(frsky_rx_format == FRSKY_RX_D16FCC || frsky_rx_format == FRSKY_RX_D16LBT)
+								temp=FRSKYX_CLONE_EEPROM_OFFSET;
+							else
+								temp=FRSKYX2_CLONE_EEPROM_OFFSET;
+						}
+						eeprom_write_byte((EE_ADDR)temp++, frsky_rx_format);
+						eeprom_write_byte((EE_ADDR)temp++, rx_tx_addr[3]);
+						eeprom_write_byte((EE_ADDR)temp++, rx_tx_addr[2]);
+						eeprom_write_byte((EE_ADDR)temp++, rx_tx_addr[1]);
+						if(sub_protocol==FRSKY_RX)
+							eeprom_write_byte((EE_ADDR)temp++, frsky_rx_finetune);
+						if(frsky_rx_format != FRSKY_RX_D16v2FCC && frsky_rx_format != FRSKY_RX_D16v2LBT)
+							for (ch = 0; ch < 47; ch++)
+								eeprom_write_byte((EE_ADDR)temp++, hopping_frequency[ch]);
+						frsky_rx_data();
+						debugln("FRSKY_RX_DATA");
+					}
+				}
+				frsky_rx_strobe_rx();
+			}
+			return 1000;
+
+		case FRSKY_RX_DATA:
+			if (len == packet_length + 2) //+2=RSSI+LQI+CRC
+			{
+				CC2500_ReadData(packet, len);
+				if(frskyx_rx_check_crc_id(false,false))
+				{
+					RX_RSSI = packet[len-2];
+					if(RX_RSSI >= 128)
+						RX_RSSI -= 128;
+					else
+						RX_RSSI += 128;
+					bool chanskip_valid=true;
+					// hop to next channel
+					if (frsky_rx_format != FRSKY_RX_D8)
+					{//D16v1 & D16v2
+						if(rx_data_started)
+						{
+							if(frsky_rx_chanskip != (((packet[4] & 0xC0) >> 6) | ((packet[5] & 0x3F) << 2)))
+							{
+								chanskip_valid=false;	// chanskip value has changed which surely indicates a bad frame
+								packet_count++;
+								if(packet_count>5)		// the TX must have changed chanskip...
+									frsky_rx_chanskip = ((packet[4] & 0xC0) >> 6) | ((packet[5] & 0x3F) << 2);	// chanskip init
+							}
+							else
+								packet_count=0;
+						}
+						else
+							frsky_rx_chanskip = ((packet[4] & 0xC0) >> 6) | ((packet[5] & 0x3F) << 2);	// chanskip init
+					}
+					hopping_frequency_no = (hopping_frequency_no + frsky_rx_chanskip) % 47;
+					frsky_rx_set_channel(hopping_frequency_no);
+					if(chanskip_valid)
+					{
+						if (telemetry_link == 0)
+						{ // send channels to TX
+							frsky_rx_build_telemetry_packet();
+							telemetry_link = 1;
+						}
+						pps_counter++;
+					}
+					rx_data_started = true;
+					read_retry = 0;
+				}
+			}
+			
+			// packets per second
+			if (millis() - pps_timer >= 1000) {
+				pps_timer = millis();
+				debugln("%d pps", pps_counter);
+				RX_LQI = pps_counter;
+				if(pps_counter==0)	// no packets for 1 sec or more...
+				{// restart the search
+					rx_data_started=false;
+					packet_count=0;
+				}
+				pps_counter = 0;
+			}
+
+			// skip channel if no packet received in time
+			if (read_retry++ >= 9) {
+				hopping_frequency_no = (hopping_frequency_no + frsky_rx_chanskip) % 47;
+				frsky_rx_set_channel(hopping_frequency_no);
+				if(rx_data_started)
+					read_retry = 0;
+				else
+					read_retry = -50; // retry longer until first packet is catched
+			}
+			break;
+	}
+	return 1000;
+}
+
+#endif

Multiprotocol/Futaba_cc2500.ino

@@ -14,7 +14,7 @@
  */
 // Last sync with main deviation/sfhss_cc2500.c dated 2016-03-23
 
-#if defined(SFHSS_CC2500_INO)
+#if defined(FUTABA_CC2500_INO)
 
 #include "iface_cc2500.h"
 
@@ -173,8 +173,8 @@ static void __attribute__((unused)) SFHSS_build_data_packet()
 				else
 				{ //Use channel value
 					ch[i]=(ch[i]>>1)+2560;
-					if(CH_AETR[ch_offset+i]==THROTTLE && ch[i]<3072)		// Throttle
-						ch[i]+=1024;
+					//if(IS_DISABLE_CH_MAP_off && ch_offset+i==CH3 && ch[i]<3072)		// Throttle
+					//	ch[i]+=1024;
 				}
 			}
 		}
@@ -235,6 +235,9 @@ uint16_t ReadSFHSS()
 #define SFHSS_PACKET_PERIOD	6800
 #define SFHSS_DATA2_TIMING	1625	// Adjust this value between 1600 and 1650 if your RX(s) are not operating properly
 		case SFHSS_DATA1:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(6800);
+			#endif
 			SFHSS_build_data_packet();
 			SFHSS_send_packet();
 			phase = SFHSS_DATA2;

Multiprotocol/GD00X_nrf24l01.ino

@@ -16,7 +16,7 @@ Multiprotocol is distributed in the hope that it will be useful,
 
 #if defined(GD00X_NRF24L01_INO)
 
-#include "iface_xn297l.h"
+#include "iface_nrf250k.h"
 
 //#define FORCE_GD00X_ORIGINAL_ID
 
@@ -208,6 +208,9 @@ uint16_t GD00X_callback()
 		if(--bind_counter==0)
 			BIND_DONE;
 	GD00X_send_packet();
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(packet_period);
+	#endif
 	return packet_period;
 }
 

Multiprotocol/GW008_nrf24l01.ino

@@ -139,6 +139,9 @@ uint16_t GW008_callback()
 			return 5000;
 			break;
 		case GW008_DATA:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(GW008_PACKET_PERIOD);
+			#endif
 			GW008_send_packet(0);
 			break;
 	}

Multiprotocol/H8_3D_nrf24l01.ino

@@ -177,7 +177,12 @@ static void __attribute__((unused)) H8_3D_init()
 uint16_t H8_3D_callback()
 {
 	if(IS_BIND_DONE)
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(packet_period);
+		#endif
 		H8_3D_send_packet(0);
+	}
 	else
 	{
 		if (bind_counter == 0)

Multiprotocol/HOTT_cc2500.ino

@@ -0,0 +1,528 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(HOTT_CC2500_INO)
+
+#include "iface_cc2500.h"
+
+//#define HOTT_FORCE_ID		// Force ID of original dump
+
+#define HOTT_TX_PACKET_LEN	50
+#define HOTT_RX_PACKET_LEN	22
+#define HOTT_PACKET_PERIOD	10000
+#define HOTT_NUM_RF_CHANNELS 75
+#define HOTT_COARSE	0
+
+enum {
+    HOTT_START = 0x00,
+    HOTT_CAL   = 0x01,
+    HOTT_DATA1 = 0x02,
+    HOTT_DATA2 = 0x03,
+    HOTT_RX1   = 0x04,
+    HOTT_RX2   = 0x05,
+};
+
+#ifdef HOTT_FW_TELEMETRY
+	#define HOTT_SENSOR_TYPE 6
+	#define HOTT_SENSOR_SEARCH_PERIOD 2000
+	uint8_t HOTT_sensor_cur=0;
+	uint8_t HOTT_sensor_pages=0;
+	uint8_t HOTT_sensor_valid=false;
+	uint8_t HOTT_sensor_ok[HOTT_SENSOR_TYPE];
+	uint8_t HOTT_sensor_seq=0;
+#endif
+
+#define HOTT_FREQ0_VAL 0x6E
+
+// Some important initialization parameters, all others are either default,
+// or not important in the context of transmitter
+// FIFOTHR  00
+// SYNC1    D3
+// SYNC0    91
+// PKTLEN   32 - Packet length, 50 bytes
+// PKTCTRL1 04 - APPEND_STATUS on=RSSI+LQI, all other are receive parameters - irrelevant
+// PKTCTRL0 44 - whitening, use FIFO, use CRC, fixed packet length
+// ADDR     00
+// CHANNR   10
+// FSCTRL1  09 - IF 
+// FSCTRL0  00 - zero freq offset
+// FREQ2    5C - synthesizer frequencyfor 26MHz crystal
+// FREQ1    6C
+// FREQ0    B9
+// MDMCFG4  2D - 
+// MDMCFG3  3B - 
+// MDMCFG2  73 - disable DC blocking, MSK, no Manchester code, 32 bits sync word
+// MDMCFG1  A3 - FEC enable, 4 preamble bytes, CHANSPC_E - 03
+// MDMCFG0  AA - CHANSPC_M - AA
+// DEVIATN  47 - 
+// MCSM2    07 - 
+// MCSM1    00 - always use CCA, go to IDLE when done
+// MCSM0    08 - disable autocalibration, PO_TIMEOUT - 64, no pin radio control, no forcing XTAL to stay in SLEEP
+// FOCCFG   1D
+const PROGMEM uint8_t HOTT_init_values[] = {
+  /* 00 */ 0x2F, 0x2E, 0x2F, 0x00, 0xD3, 0x91, 0x32, 0x04,
+  /* 08 */ 0x44, 0x00, 0x00, 0x09, 0x00, 0x5C, 0x6C, HOTT_FREQ0_VAL + HOTT_COARSE,
+  /* 10 */ 0x2D, 0x3B, 0x73, 0xA3, 0xAA, 0x47, 0x07, 0x00,
+  /* 18 */ 0x08, 0x1D, 0x1C, 0xC7, 0x09, 0xF0, 0x87, 0x6B,
+  /* 20 */ 0xF0, 0xB6, 0x10, 0xEA, 0x0A, 0x00, 0x11
+};
+
+static void __attribute__((unused)) HOTT_rf_init()
+{
+	CC2500_Strobe(CC2500_SIDLE);
+
+	for (uint8_t i = 0; i < 39; ++i)
+		CC2500_WriteReg(i, pgm_read_byte_near(&HOTT_init_values[i]));
+
+	prev_option = option;
+	CC2500_WriteReg(CC2500_0C_FSCTRL0, option);
+	
+	CC2500_SetTxRxMode(TX_EN);
+	CC2500_SetPower();
+}
+
+static void __attribute__((unused)) HOTT_tune_chan()
+{
+	CC2500_Strobe(CC2500_SIDLE);
+	CC2500_WriteReg(CC2500_0A_CHANNR, (rf_ch_num+1)*3);
+	CC2500_Strobe(CC2500_SCAL);
+}
+
+static void __attribute__((unused)) HOTT_tune_chan_fast()
+{
+	CC2500_Strobe(CC2500_SIDLE);
+	CC2500_WriteReg(CC2500_0A_CHANNR, (rf_ch_num+1)*3);
+	CC2500_WriteReg(CC2500_25_FSCAL1, calData[rf_ch_num]);
+}
+
+static void __attribute__((unused)) HOTT_tune_freq()
+{
+	if ( prev_option != option )
+	{
+		CC2500_WriteReg(CC2500_0C_FSCTRL0, option);
+		CC2500_WriteReg(CC2500_0F_FREQ0, HOTT_FREQ0_VAL + HOTT_COARSE);
+		prev_option = option ;
+		phase = HOTT_START;								// Restart the tune process if option is changed to get good tuned values
+	}
+}
+
+const uint8_t PROGMEM HOTT_hop[][HOTT_NUM_RF_CHANNELS]=
+	{	{ 48, 37, 16, 62, 9, 50, 42, 22, 68, 0, 55, 35, 21, 74, 1, 56, 31, 20, 70, 11, 45, 32, 24, 71, 8, 54, 38, 26, 61, 13, 53, 30, 15, 65, 7, 52, 34, 28, 60, 3, 47, 39, 18, 69, 2, 49, 44, 23, 72, 5, 51, 43, 19, 64, 12, 46, 33, 17, 67, 6, 58, 36, 29, 73, 14, 57, 41, 25, 63, 4, 59, 40, 27, 66, 10 },
+		{ 50, 23, 5, 34, 67, 53, 22, 12, 39, 62, 51, 21, 10, 33, 63, 59, 16, 1, 43, 66, 49, 19, 8, 30, 71, 47, 24, 2, 35, 68, 45, 25, 14, 41, 74, 55, 18, 4, 32, 61, 54, 17, 11, 31, 72, 52, 28, 6, 38, 65, 46, 15, 9, 40, 60, 48, 26, 3, 37, 70, 58, 29, 0, 36, 64, 56, 20, 7, 42, 69, 57, 27, 13, 44, 73 },
+		{ 73, 51, 39, 18, 9, 64, 56, 34, 16, 12, 66, 58, 36, 25, 11, 61, 47, 40, 15, 8, 71, 50, 43, 20, 6, 62, 54, 42, 19, 3, 63, 46, 44, 29, 14, 72, 49, 33, 22, 5, 69, 57, 30, 21, 10, 70, 45, 35, 26, 7, 65, 59, 31, 28, 1, 67, 48, 32, 24, 0, 60, 55, 41, 17, 2, 74, 52, 38, 27, 4, 68, 53, 37, 23, 13 },
+		{ 52, 60, 40, 21, 14, 50, 72, 41, 23, 13, 59, 61, 39, 16, 6, 58, 66, 33, 17, 5, 55, 64, 43, 20, 12, 54, 74, 35, 29, 3, 46, 63, 37, 22, 10, 48, 65, 31, 27, 9, 49, 73, 38, 24, 11, 56, 70, 32, 15, 1, 51, 71, 44, 18, 8, 45, 67, 36, 25, 7, 57, 62, 34, 28, 2, 53, 69, 42, 19, 4, 47, 68, 30, 26, 0 },
+		{ 50, 16, 34, 6, 71, 51, 24, 40, 7, 68, 57, 27, 33, 14, 70, 55, 26, 30, 5, 74, 47, 28, 44, 11, 67, 49, 15, 32, 9, 61, 52, 22, 37, 13, 66, 59, 18, 42, 3, 62, 46, 29, 31, 12, 60, 48, 19, 38, 1, 72, 58, 17, 36, 4, 64, 53, 21, 39, 0, 63, 56, 20, 41, 2, 65, 45, 25, 35, 10, 69, 54, 23, 43, 8, 73 },
+		{ 55, 38, 12, 62, 23, 52, 44, 3, 66, 18, 54, 36, 10, 74, 16, 56, 42, 9, 70, 17, 58, 33, 5, 69, 20, 50, 40, 1, 63, 24, 53, 37, 13, 65, 15, 48, 34, 4, 61, 22, 57, 31, 6, 64, 26, 46, 35, 11, 72, 21, 47, 30, 7, 68, 29, 45, 32, 8, 60, 19, 49, 43, 2, 67, 27, 51, 39, 0, 71, 28, 59, 41, 14, 73, 25 },
+		{ 70, 32, 18, 10, 58, 69, 38, 22, 2, 54, 67, 36, 19, 12, 57, 62, 34, 20, 14, 52, 63, 41, 15, 3, 51, 73, 42, 28, 6, 48, 60, 43, 29, 5, 45, 64, 31, 17, 4, 56, 65, 35, 26, 13, 53, 61, 37, 23, 1, 49, 68, 40, 16, 9, 47, 71, 39, 25, 7, 50, 66, 33, 24, 8, 59, 72, 44, 27, 11, 46, 74, 30, 21, 0, 55 },
+		{ 6, 45, 71, 27, 44, 10, 46, 74, 22, 32, 0, 55, 69, 21, 33, 4, 50, 66, 18, 38, 7, 57, 62, 19, 36, 1, 48, 70, 20, 40, 8, 47, 68, 15, 43, 2, 58, 61, 26, 42, 3, 56, 72, 23, 34, 14, 54, 67, 16, 37, 5, 59, 64, 24, 30, 12, 52, 65, 25, 39, 13, 49, 73, 17, 31, 9, 53, 60, 28, 35, 11, 51, 63, 29, 41 },
+		{ 31, 65, 50, 20, 13, 37, 66, 45, 23, 5, 32, 69, 54, 19, 7, 39, 74, 52, 27, 1, 42, 64, 53, 22, 4, 43, 70, 58, 16, 3, 40, 71, 57, 17, 0, 35, 63, 56, 18, 9, 44, 72, 51, 21, 6, 33, 67, 46, 25, 11, 30, 73, 55, 15, 8, 36, 62, 48, 24, 10, 41, 60, 49, 29, 14, 34, 61, 47, 26, 2, 38, 68, 59, 28, 12 },
+		{ 67, 22, 49, 36, 13, 64, 28, 57, 37, 6, 65, 29, 46, 39, 3, 70, 26, 45, 35, 1, 62, 24, 58, 34, 10, 68, 19, 53, 33, 4, 66, 21, 52, 31, 7, 74, 18, 47, 32, 5, 61, 16, 51, 38, 8, 72, 23, 55, 30, 12, 73, 17, 59, 44, 0, 60, 15, 50, 43, 14, 63, 27, 48, 42, 11, 71, 20, 54, 41, 9, 69, 25, 56, 40, 2 },
+		{ 19, 38, 14, 66, 57, 18, 44, 7, 74, 48, 23, 30, 6, 71, 58, 26, 32, 5, 61, 46, 20, 34, 0, 68, 45, 24, 36, 1, 70, 50, 27, 33, 10, 63, 52, 16, 42, 9, 65, 51, 15, 41, 11, 64, 53, 22, 37, 3, 60, 56, 28, 35, 4, 67, 49, 17, 39, 13, 69, 54, 25, 43, 2, 73, 55, 21, 31, 8, 62, 47, 29, 40, 12, 72, 59 },
+		{ 4, 52, 64, 28, 44, 14, 46, 74, 16, 32, 11, 50, 68, 27, 36, 0, 47, 70, 26, 34, 13, 57, 61, 18, 38, 6, 56, 62, 19, 40, 5, 58, 67, 17, 31, 12, 54, 63, 22, 33, 3, 53, 72, 21, 41, 10, 48, 66, 15, 35, 7, 45, 60, 20, 37, 9, 51, 69, 25, 42, 2, 59, 71, 24, 39, 1, 55, 65, 23, 30, 8, 49, 73, 29, 43 },
+		{ 44, 66, 19, 1, 56, 35, 62, 20, 4, 54, 39, 70, 24, 5, 55, 31, 74, 26, 12, 58, 32, 60, 17, 10, 45, 37, 63, 22, 3, 50, 33, 64, 16, 7, 51, 34, 61, 21, 8, 48, 38, 68, 29, 0, 46, 36, 72, 28, 14, 49, 42, 69, 25, 6, 57, 43, 65, 18, 2, 52, 30, 71, 23, 13, 47, 41, 67, 15, 9, 53, 40, 73, 27, 11, 59 },
+		{ 12, 16, 36, 46, 69, 6, 20, 44, 58, 62, 11, 19, 34, 48, 71, 1, 18, 42, 50, 74, 3, 25, 31, 47, 65, 0, 24, 33, 45, 72, 2, 23, 35, 56, 64, 10, 22, 38, 49, 63, 7, 26, 37, 51, 70, 14, 21, 30, 53, 67, 5, 15, 40, 52, 66, 9, 17, 39, 55, 60, 13, 27, 41, 54, 73, 4, 28, 32, 57, 61, 8, 29, 43, 59, 68 },
+		{ 63, 42, 18, 2, 57, 71, 34, 22, 10, 48, 67, 36, 25, 4, 46, 60, 31, 28, 6, 47, 74, 37, 15, 0, 55, 65, 32, 24, 12, 56, 66, 40, 27, 14, 52, 62, 38, 19, 3, 50, 73, 33, 29, 11, 53, 61, 35, 16, 7, 58, 72, 41, 26, 5, 59, 69, 30, 20, 9, 51, 68, 44, 23, 1, 49, 70, 39, 17, 8, 54, 64, 43, 21, 13, 45 },
+		{ 52, 1, 71, 17, 36, 47, 7, 64, 26, 32, 53, 5, 60, 20, 42, 57, 2, 66, 18, 34, 56, 4, 63, 24, 35, 46, 13, 72, 22, 30, 48, 0, 67, 21, 39, 50, 3, 74, 16, 31, 59, 14, 61, 23, 37, 45, 6, 65, 19, 44, 51, 11, 62, 27, 41, 55, 9, 68, 15, 38, 58, 8, 70, 29, 40, 54, 10, 69, 28, 33, 49, 12, 73, 25, 43 }
+		};
+const uint16_t PROGMEM HOTT_hop_val[] = { 0xC06B, 0xC34A, 0xDB24, 0x8E09, 0x272E, 0x217F, 0x155B, 0xEDE8, 0x1D31, 0x0986, 0x56F7, 0x6454, 0xC42D, 0x01D2, 0xC253, 0x1180 };
+
+static void __attribute__((unused)) HOTT_init()
+{
+	packet[0] = pgm_read_word_near( &HOTT_hop_val[num_ch] );
+	packet[1] = pgm_read_word_near( &HOTT_hop_val[num_ch] )>>8;
+
+	for(uint8_t i=0; i<HOTT_NUM_RF_CHANNELS; i++)
+		hopping_frequency[i]=pgm_read_byte_near( &HOTT_hop[num_ch][i] );
+	#ifdef HOTT_FORCE_ID
+		memcpy(rx_tx_addr,"\x7C\x94\x00\x0D\x50",5);	//TX1
+		memcpy(rx_tx_addr,"\xEA\x4D\x00\x01\x50",5);	//TX2
+	#endif
+	memset(&packet[30],0xFF,9);
+	packet[39]=0x07;									// unknown and constant
+	if(IS_BIND_IN_PROGRESS)
+	{
+		memset(&packet[40],0xFA,5);
+		memcpy(&packet[45],rx_tx_addr,5);
+	}
+	else
+	{
+		memcpy(&packet[40],rx_tx_addr,5);
+		uint8_t addr=HOTT_EEPROM_OFFSET+RX_num*5;
+		debug("RXID: ");
+		for(uint8_t i=0;i<5;i++)
+		{
+			packet[45+i]=eeprom_read_byte((EE_ADDR)(addr+i));
+			debug(" %02X",packet[45+i]);
+		}
+		debugln("");
+	}
+}
+
+static void __attribute__((unused)) HOTT_prep_data_packet()
+{
+	
+	packet[2] = hopping_frequency_no;
+
+	packet[3] = 0x00;									// used for failsafe but may also be used for additional channels
+	#ifdef FAILSAFE_ENABLE
+		static uint8_t failsafe_count=0;
+		if(IS_FAILSAFE_VALUES_on && IS_BIND_DONE)
+		{
+			failsafe_count++;
+			if(failsafe_count>=3)
+			{
+				FAILSAFE_VALUES_off;
+				failsafe_count=0;
+			}
+		}
+		else
+			failsafe_count=0;
+	#endif
+
+	// Channels value are PPM*2, -100%=1100µs, +100%=1900µs, order TAER
+	uint16_t val;
+	for(uint8_t i=4;i<28;i+=2)
+	{
+		val=Channel_data[(i-4)>>1];
+		val=(((val<<2)+val)>>2)+860*2;					// value range 860<->2140 *2 <-> -125%<->+125%
+		#ifdef FAILSAFE_ENABLE
+			if(failsafe_count==1)
+			{ // first failsafe packet
+				packet[3]=0x40;
+				uint16_t fs=Failsafe_data[(i-4)>>1];
+				if( fs == FAILSAFE_CHANNEL_HOLD || fs == FAILSAFE_CHANNEL_NOPULSES)
+					val|=0x8000;						// channel hold flag
+				else
+				{
+					val=(((fs<<2)+fs)>>2)+860*2;		// value range 860<->2140 *2 <-> -125%<->+125%
+					val|=0x4000;						// channel specific position flag
+				}
+			}
+			else if(failsafe_count==2)
+			{ // second failsafe packet=timing?
+				packet[3]=0x50;
+				if(i==4)
+					val=2;
+				else
+					val=0;
+			}
+		#endif
+		packet[i] = val;
+		packet[i+1] = val>>8;
+	}
+	#ifdef HOTT_FW_TELEMETRY
+		if(IS_BIND_DONE)
+		{
+			static uint8_t prev_SerialRX_val=0;
+			if(HoTT_SerialRX)
+			{//Text mode
+				uint8_t sensor=HoTT_SerialRX_val&0xF0;
+				if((sensor&0x80) && sensor!=0xF0 && (HoTT_SerialRX_val&0x0F) >= 0x07)
+				{//Valid Text query
+					if(sensor==0x80) HoTT_SerialRX_val&=0x0F;	// RX only
+					if(prev_SerialRX_val!=HoTT_SerialRX_val)
+					{
+						prev_SerialRX_val=HoTT_SerialRX_val;
+						packet[28] = HoTT_SerialRX_val;			// send the button being pressed only once
+					}
+					else
+						packet[28] = HoTT_SerialRX_val | 0x0F;	// no button pressed
+					packet[29] = 0x01;							// 0x01->Text config menu
+				}
+			}
+			else
+			{
+				packet[28] = 0x89+HOTT_sensor_cur;				// 0x89/8A/8B/8C/8D/8E during normal packets
+				if(sub_protocol == HOTT_SYNC)
+					packet[29] = ((HOTT_sensor_seq+1)<<3) | 2;	// Telemetry packet sequence
+				else
+					packet[29] = 0x02;
+				//debugln("28=%02X,29=%02X",packet[28],packet[29]);
+			}
+		}
+		else
+	#endif
+		{
+			packet[28] = 0x80;									// no sensor
+			packet[29] = 0x02;									// unknown 0x02 when bind starts then when RX replies cycle in sequence 0x1A/22/2A/0A/12, 0x02 during normal packets, 0x01->text config menu, 0x0A->no more RX telemetry
+		}
+
+	CC2500_WriteReg(CC2500_06_PKTLEN, HOTT_TX_PACKET_LEN);
+	CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, packet, HOTT_TX_PACKET_LEN);
+	#if 0
+		debug("RF:%02X P:",rf_ch_num);
+		for(uint8_t i=0;i<HOTT_TX_PACKET_LEN;i++)
+			debug(" %02X",packet[i]);
+		debugln("");
+	#endif
+	hopping_frequency_no++;
+	hopping_frequency_no %= HOTT_NUM_RF_CHANNELS;
+	rf_ch_num=hopping_frequency[hopping_frequency_no];
+}
+
+uint16_t ReadHOTT()
+{
+	switch(phase)
+	{
+		case HOTT_START:
+			rf_ch_num = 0;
+			HOTT_tune_chan();
+			phase = HOTT_CAL;
+			return 2000;
+		case HOTT_CAL:
+			calData[rf_ch_num]=CC2500_ReadReg(CC2500_25_FSCAL1);
+			if (++rf_ch_num < HOTT_NUM_RF_CHANNELS)
+				HOTT_tune_chan();
+			else
+			{
+				hopping_frequency_no = 0;
+				rf_ch_num=hopping_frequency[hopping_frequency_no];
+				counter = 0;
+				CC2500_SetTxRxMode(RX_EN);
+				phase = HOTT_DATA1;
+			}
+			return 2000;
+
+		/* Work cycle: 10ms */
+		case HOTT_DATA1:
+			//Set RF freq, setup LBT and prep packet
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(HOTT_PACKET_PERIOD);
+			#endif
+			//Clear all
+			CC2500_Strobe(CC2500_SIDLE);
+			CC2500_Strobe(CC2500_SNOP);
+			CC2500_Strobe(CC2500_SFTX);
+			CC2500_Strobe(CC2500_SFRX);
+			CC2500_WriteReg(CC2500_04_SYNC1, 0xD3);
+			CC2500_WriteReg(CC2500_05_SYNC0, 0x91);
+			//Set RF freq
+			HOTT_tune_freq();
+			HOTT_tune_chan_fast();
+			//Setup LBT
+			CC2500_WriteReg(CC2500_1B_AGCCTRL2, 0xFF);
+			CC2500_WriteReg(CC2500_1C_AGCCTRL1, 0x0C);
+			CC2500_Strobe(CC2500_SRX);
+			//Prep packet
+			HOTT_prep_data_packet();
+			//Listen
+			CC2500_WriteReg(CC2500_17_MCSM1, 0x10);		//??
+			CC2500_WriteReg(CC2500_18_MCSM0, 0x18);		//??
+			CC2500_Strobe(CC2500_SRX);					//??
+			phase++;		//HOTT_DATA2
+			return 1095;
+		case HOTT_DATA2:
+			//LBT
+			if((CC2500_ReadReg(CC2500_38_PKTSTATUS | CC2500_READ_BURST)&0x10)==0)
+			{ //Channel is busy
+				LBT_POWER_on;										// Reduce to low power before transmitting
+				debugln("Busy %d",rf_ch_num);
+			}
+			CC2500_WriteReg(CC2500_17_MCSM1, 0x00);		//??
+			CC2500_WriteReg(CC2500_18_MCSM0, 0x08);		//??
+			CC2500_SetPower();
+			//Send packet
+			CC2500_SetTxRxMode(TX_EN);
+			CC2500_Strobe(CC2500_STX);
+			phase++;		//HOTT_RX1
+			return 3880;
+		case HOTT_RX1:
+			//Clear all
+			CC2500_Strobe(CC2500_SIDLE);
+			CC2500_Strobe(CC2500_SFTX);
+			CC2500_Strobe(CC2500_SFRX);
+			//RX
+			if(packet[29] & 0xF8)
+			{// binary telemetry
+				CC2500_WriteReg(CC2500_04_SYNC1, 0x2C);
+				CC2500_WriteReg(CC2500_05_SYNC0, 0x6E);
+			}
+			CC2500_SetTxRxMode(RX_EN);
+			CC2500_WriteReg(CC2500_1B_AGCCTRL2, 0xC7);
+			CC2500_WriteReg(CC2500_1C_AGCCTRL1, 0x09);
+			CC2500_WriteReg(CC2500_06_PKTLEN, HOTT_RX_PACKET_LEN);
+			CC2500_Strobe(CC2500_SRX);
+			phase++;		//HOTT_RX2
+			return 4025;
+		case HOTT_RX2:
+			//Telemetry
+			len = CC2500_ReadReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
+			if (len==HOTT_RX_PACKET_LEN+2)
+			{
+				CC2500_ReadData(packet_in, len);
+				if((packet_in[HOTT_RX_PACKET_LEN+1]&0x80) && memcmp(rx_tx_addr,packet_in,5)==0)
+				{ // CRC OK and TX ID matches
+					if(IS_BIND_IN_PROGRESS)
+					{
+						//GR-16:  D4 20 F2 E6 F6 31 BD 01 00 90 00 FF 03 00 9E 1B 00 00 00 00 00 00
+						//GR-12L: D4 20 F2 E6 F6 6E EE 01 00 B1 00 FF 03 00 0E 08 10 00 02 00 00 00
+						//Vector: D4 20 F2 E6 F6 00 00 3A 01 A1 00 00 1A 24 35 1A 00 24 00 00 00 1A
+						//        -----TXID----- -----RXID----- ---------------Unknown-------------
+						debug("B:");
+						for(uint8_t i=0;i<HOTT_RX_PACKET_LEN;i++)
+							debug(" %02X", packet_in[i]);
+						debugln("");
+						uint8_t addr=HOTT_EEPROM_OFFSET+RX_num*5;
+						for(uint8_t i=0; i<5; i++)
+							eeprom_write_byte((EE_ADDR)(addr+i),packet_in[5+i]);
+						BIND_DONE;
+						HOTT_init();
+					}
+					#ifdef HOTT_FW_TELEMETRY
+						else
+						{	//Telemetry
+							// [0..4] = TXID
+							// [5..9] = RXID
+							// [10] = 0x40 bind, 0x00 normal, 0x80 config menu
+							// [11] = telmetry pages. For sensors 0x00 to 0x04, for config mennu 0x00 to 0x12.
+							// Normal telem page 0 = 0x55, 0x32, 0x38, 0x55, 0x64, 0x32, 0xD0, 0x07, 0x00, 0x55
+							//   Page 0 [12] = [21] = [15]
+							//   Page 0 [13] = RX_Voltage Cur*10 in V
+							//   Page 0 [14] = Temperature-20 in °C
+							//   Page 0 [15] = RX_RSSI CC2500 formated (a<128:a/2-71dBm, a>=128:(a-256)/2-71dBm)
+							//   Page 0 [16] = RX_LQI in %
+							//   Page 0 [17] = RX_Voltage Min*10 in V
+							//   Page 0 [18,19] = [19]<<8+[18]=max lost packet time in ms, max value seems 2s=0x7D0
+							//   Page 0 [20] = 0x00 ??
+							//
+							// Config menu consists of the different telem pages put all together
+							//   Page X [12] = seems like all the telem pages with the same value are going together to make the full config menu text. Seen so far 'a', 'b', 'c', 'd' 
+							//   Page X [13..21] = 9 ascii chars to be displayed, char is highlighted when ascii|0x80
+							//   Screen display is 21 characters large which means that once the first 21 chars are filled go to the begining of the next line
+							//   Menu commands are sent through TX packets:
+							//     packet[28]= 0xXF=>no key press, 0xXD=>down, 0xXB=>up, 0xX9=>enter, 0xXE=>right, 0xX7=>left with X=0 or D
+							//     packet[29]= 0xX1/0xX9 with X=0 or X counting 0,1,1,2,2,..,9,9
+							// Reduce telemetry to 14 bytes
+							packet_in[0]= packet_in[HOTT_RX_PACKET_LEN];
+							packet_in[1]= TX_LQI;
+							bool send_telem=true;
+							if(packet[29]==1)
+							{ //Text mode
+								HOTT_sensor_pages = 0;
+								HOTT_sensor_valid = false;
+								packet_in[10] = 0x80;									// Marking telem Text mode
+								packet_in[12] = 0;
+								for(uint8_t i=0; i<HOTT_SENSOR_TYPE;i++)
+									packet_in[12] |= HOTT_sensor_ok[i]<<i;				// Send detected sensors
+							}
+							else
+							{ //Binary sensor
+								HOTT_sensor_seq++;										// Increment RX sequence counter
+								HOTT_sensor_seq %= 5;									// 5 pages in binary mode per sensor
+								if(state==0 && HOTT_sensor_ok[0]==false && HOTT_sensor_ok[1]==false && HOTT_sensor_ok[2]==false && HOTT_sensor_ok[3]==false && HOTT_sensor_ok[4]==false && HOTT_sensor_ok[5]==false)
+									HOTT_sensor_seq=0;									// No sensors always ask page 0
+								if(state)
+									state--;
+								if( packet_in[11]==1 )									// Page 1
+								{
+									if( packet_in[12] == (HOTT_sensor_cur+9)<<4 )
+									{ //Requested sensor is sending: 0x90/A0/B0/C0/D0/E0
+										HOTT_sensor_pages = 0;							// Sensor first page received
+										HOTT_sensor_valid = true;						// Data from the expected sensor is being received
+										HOTT_sensor_ok[(packet_in[12]>>4)-9]=true;					
+									}
+									else
+									{
+										HOTT_sensor_valid = false;
+										HOTT_sensor_pages = 0x1E;						// Switch to next sensor
+									}
+								}
+								if(packet_in[11])
+								{ //Page != 0
+									if(HOTT_sensor_valid)								// Valid
+									{
+										packet_in[10] = HOTT_sensor_cur+9;				// Mark telem with sensor ID
+										HOTT_sensor_pages |= 1<<packet_in[11];			// Page received
+									}
+									else
+										send_telem=false;								// Do not send
+								}
+								else
+									packet_in[10]=0;									// Mark telem with sensor 0=RX
+							}
+							debug("T%d=",send_telem);
+							for(uint8_t i=10;i < HOTT_RX_PACKET_LEN; i++)
+							{
+								packet_in[i-8]=packet_in[i];
+								debug(" %02X",packet_in[i]);
+							}
+							debugln("");
+							if(send_telem)
+								telemetry_link=2;
+							if((HOTT_sensor_pages&0x1E) == 0x1E)						// All 4 pages received from the sensor
+							{ //Next sensor
+								uint8_t loop=0;
+								do
+								{
+									HOTT_sensor_cur++;									// Switch to next sensor
+									HOTT_sensor_cur %= HOTT_SENSOR_TYPE;
+									loop++;
+								}
+								while(HOTT_sensor_ok[HOTT_sensor_cur]==false && loop<HOTT_SENSOR_TYPE+1 && state==0);
+								HOTT_sensor_valid=false;
+								HOTT_sensor_pages=0;
+								HOTT_sensor_seq=0;
+								debugln("Sensor:%02X",HOTT_sensor_cur+9);
+							}										
+						}
+						pps_counter++;
+					#endif
+				}
+			}
+			#ifdef HOTT_FW_TELEMETRY
+				packet_count++;
+				if(packet_count>=100)
+				{
+					TX_LQI=pps_counter;
+					if(pps_counter==0)
+					{ // lost connection with RX, power cycle? research sensors again.
+						HOTT_sensor_cur=3;
+						HOTT_sensor_seq=0;
+						HOTT_sensor_valid=false;
+						for(uint8_t i=0; i<HOTT_SENSOR_TYPE;i++)
+							HOTT_sensor_ok[i]=false;	// no sensors detected
+						state=HOTT_SENSOR_SEARCH_PERIOD;
+					}
+					pps_counter=packet_count=0;
+				}
+			#endif
+			phase=HOTT_DATA1;
+			return 1000;
+	}
+	return 0;
+}
+
+uint16_t initHOTT()
+{
+	num_ch=random(0xfefefefe)%16;
+	HOTT_init();
+	HOTT_rf_init();
+	#ifdef HOTT_FW_TELEMETRY
+		HoTT_SerialRX_val=0;
+		HoTT_SerialRX=false;
+		HOTT_sensor_cur=3;
+		HOTT_sensor_pages=0;
+		HOTT_sensor_valid=false;
+		HOTT_sensor_seq=0;
+		for(uint8_t i=0; i<HOTT_SENSOR_TYPE;i++)
+			HOTT_sensor_ok[i]=false;	// no sensors detected
+		packet_count=0;
+		state=HOTT_SENSOR_SEARCH_PERIOD;
+	#endif
+	phase = HOTT_START;
+	return 10000;
+}
+
+#endif

Multiprotocol/Height_a7105.ino

@@ -14,16 +14,16 @@
  */
 // Compatible with FZ-410 TX
 
-#if defined(FLYZONE_A7105_INO)
+#if defined(HEIGHT_A7105_INO)
 
 #include "iface_a7105.h"
 
-//#define FLYZONE_FORCEID
+//#define HEIGHT_FORCEID
 
-#define FLYZONE_BIND_COUNT	220		// 5 sec
-#define FLYZONE_BIND_CH		0x18	// TX, RX for bind end is 0x17
+#define HEIGHT_BIND_COUNT	220		// 5 sec
+#define HEIGHT_BIND_CH		0x18	// TX, RX for bind end is 0x17
 
-static void __attribute__((unused)) flyzone_build_packet()
+static void __attribute__((unused)) HEIGHT_build_packet()
 {
     packet[0] = 0xA5;
     packet[1] = rx_tx_addr[2];
@@ -32,12 +32,18 @@ static void __attribute__((unused)) flyzone_build_packet()
 	packet[4] = convert_channel_8b(ELEVATOR);	//00..80..FF
 	packet[5] = convert_channel_8b(THROTTLE);	//00..FF
 	packet[6] = convert_channel_8b(RUDDER);		//00..80..FF
-    packet[7] = 0xFF;
+    packet[7] = convert_channel_8b(CH5);		//00..80..FF
+    if(sub_protocol == HEIGHT_8CH)
+	{
+		packet[8] = convert_channel_8b(CH6);	//00..80..FF
+		packet[9] = convert_channel_8b(CH7);	//00..80..FF
+		packet[10] = convert_channel_8b(CH8);	//00..80..FF
+	}
 }
 
-uint16_t ReadFlyzone()
+uint16_t ReadHeight()
 {
-	#ifndef FORCE_FLYZONE_TUNING
+	#ifndef FORCE_HEIGHT_TUNING
 		A7105_AdjustLOBaseFreq(1);
 	#endif
 	if(IS_BIND_IN_PROGRESS)
@@ -45,7 +51,7 @@ uint16_t ReadFlyzone()
 		packet[0] = 0x1B;
 		packet[1] = rx_tx_addr[2];
 		packet[2] = rx_tx_addr[3];
-		A7105_WriteData(3, FLYZONE_BIND_CH);
+		A7105_WriteData(3, HEIGHT_BIND_CH);
 		if (bind_counter--==0)
 			BIND_DONE;
 		return 22700;
@@ -55,8 +61,11 @@ uint16_t ReadFlyzone()
 		if(phase>19)
 		{
 			phase=0;
-			flyzone_build_packet();
-			A7105_WriteData(8, hopping_frequency[0]);
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(20*1500);
+			#endif
+			HEIGHT_build_packet();
+			A7105_WriteData(sub_protocol?11:8, hopping_frequency[0]);
 			A7105_SetPower();
 		}
 		else
@@ -69,14 +78,14 @@ uint16_t ReadFlyzone()
 	return 1500;
 }
 
-uint16_t initFlyzone()
+uint16_t initHeight()
 {
 	A7105_Init();
 
 	hopping_frequency[0]=((random(0xfefefefe) & 0x0F)+2)<<2;
 	hopping_frequency[1]=hopping_frequency[0]+0x50;
 	
-	#ifdef FLYZONE_FORCEID
+	#ifdef HEIGHT_FORCEID
 		rx_tx_addr[2]=0x35;
 		rx_tx_addr[3]=0xD0;
 		hopping_frequency[0]=0x18;
@@ -84,7 +93,7 @@ uint16_t initFlyzone()
 	#endif
 	
 	phase=255;
-	bind_counter = FLYZONE_BIND_COUNT;
+	bind_counter = HEIGHT_BIND_COUNT;
 	return 2400;
 }
 #endif

Multiprotocol/Hisky_nrf24l01.ino

@@ -123,8 +123,8 @@ static void __attribute__((unused)) build_ch_data()
 	for (i = 0; i< 8; i++) {
 		j=CH_AETR[i];
 		temp=convert_channel_16b_limit(j,0,1000);            			
-		if (j == THROTTLE) // It is clear that hisky's throttle stick is made reversely, so I adjust it here on purpose
-			temp = 1000 -temp;
+		if (j == CH3) // It is clear that hisky's throttle stick is made reversely, so I adjust it here on purpose
+			temp = 1000 - temp;
 		if (j == CH7)
 			temp = temp < 400 ? 0 : 3; // Gyro mode, 0 - 6 axis, 3 - 3 axis 
 		packet[i] = (uint8_t)(temp&0xFF);
@@ -151,6 +151,9 @@ uint16_t hisky_cb()
 				phase=6;
 				break;
 			case 7:	// build packet
+				#ifdef MULTI_SYNC
+					telemetry_set_input_sync(5000);
+				#endif
 				#ifdef FAILSAFE_ENABLE
 					if(IS_FAILSAFE_VALUES_on && hopping_frequency_no==0)
 					{ //  send failsafe every 100ms
@@ -159,6 +162,7 @@ uint16_t hisky_cb()
 						convert_failsafe_HK310(CH5,    &packet[4],&packet[5]);
 						packet[7]=0xAA;
 						packet[8]=0x5A;
+						FAILSAFE_VALUES_off;
 					}
 					else
 				#endif
@@ -216,6 +220,9 @@ uint16_t hisky_cb()
 			break;
 		case 7:
 			//Build normal packet
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(9000);
+			#endif
 			build_ch_data();
 			break;
 		case 8:

Multiprotocol/Hitec_cc2500.ino

@@ -146,6 +146,11 @@ static void __attribute__((unused)) HITEC_build_packet()
 				break;
 			case 0x7B:
 				packet[5]=hopping_frequency[13]>>1;	// if not there the Optima link is jerky...
+				packet[14]=0x2A;
+				packet[15]=0x46; // unknown but if 0x45 then 17=0x46, if 0x46 then 17=0x46 or 0x47, if 0x47 then 0x45 or 0x46
+				packet[16]=0x2A;
+				packet[17]=0x47;
+				packet[18]=0x2A;
 				break;
 		}
 		if(sub_protocol==MINIMA)
@@ -259,6 +264,9 @@ uint16_t ReadHITEC()
 		case HITEC_PREP:
 			if ( prev_option == option )
 			{	// No user frequency change
+				#ifdef MULTI_SYNC
+					telemetry_set_input_sync(HITEC_PACKET_PERIOD);
+				#endif
 				HITEC_change_chan_fast();
 				hopping_frequency_no++;
 				if(hopping_frequency_no>=rf_ch_num)
@@ -285,32 +293,32 @@ uint16_t ReadHITEC()
 			return HITEC_RX1_TIMING;
 		case HITEC_RX2:
 			uint8_t len=CC2500_ReadReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;
-			if(len && len<MAX_PKT)
+			if(len && len<TELEMETRY_BUFFER_SIZE)
 			{ // Something has been received
-				CC2500_ReadData(pkt, len);
-				if( (pkt[len-1] & 0x80) && pkt[0]==len-3 && pkt[1]==rx_tx_addr[1] && pkt[2]==rx_tx_addr[2] && pkt[3]==rx_tx_addr[3])
+				CC2500_ReadData(packet_in, len);
+				if( (packet_in[len-1] & 0x80) && packet_in[0]==len-3 && packet_in[1]==rx_tx_addr[1] && packet_in[2]==rx_tx_addr[2] && packet_in[3]==rx_tx_addr[3])
 				{ //valid crc && length ok && tx_id ok
 					debug("RX:l=%d",len);
 					for(uint8_t i=0;i<len;i++)
-						debug(",%02X",pkt[i]);
+						debug(",%02X",packet_in[i]);
 					if(IS_BIND_IN_PROGRESS)
 					{
 						if(len==13)	// Bind packets have a length of 13
 						{ // bind packet: 0A,00,E5,F2,7X,05,06,07,08,09,00
 							debug(",bind");
 							boolean check=true;
-							for(uint8_t i=5;i<=10;i++)
-								if(pkt[i]!=i%10) check=false;
-							if((pkt[4]&0xF0)==0x70 && check)
+							for(uint8_t i=5;i<10;i++)
+								if(packet_in[i]!=i) check=false;
+							if((packet_in[4]&0xF0)==0x70 && check)
 							{
-								bind_phase=pkt[4]+1;
+								bind_phase=packet_in[4]+1;
 								if(bind_phase==0x7B)
 									bind_counter=164;	// in dumps the RX stops to reply at 0x7B so wait a little and exit
 							}
 						}
 					}
 					else
-						if( len==15 && pkt[4]==0 && pkt[12]==0 )
+						if( len==15 && packet_in[4]==0 && packet_in[12]==0 )
 						{	// Valid telemetry packets
 							// no station:
 							//		0C,1C,A1,2B,00,00,00,00,00,00,00,8D,00,64,8E	-> 00 8D=>RX battery voltage 0x008D/28=5.03V
@@ -323,40 +331,40 @@ uint16_t ReadHITEC()
 							//		0C,1C,A1,2B,00,16,00,00,00,00,00,16,00,2C,8E
 							//		0C,1C,A1,2B,00,17,00,00,00,42,44,17,00,48,8D	-> 42=>temperature3 0x42-0x28=26°C,44=>temperature4 0x44-0x28=28°C
 							//		0C,1C,A1,2B,00,18,00,00,00,00,00,18,00,50,92
-							debug(",telem,%02x",pkt[14]&0x7F);
+							debug(",telem,%02x",packet_in[14]&0x7F);
 							#if defined(HITEC_FW_TELEMETRY) || defined(HITEC_HUB_TELEMETRY)
-								TX_RSSI = pkt[13];
+								TX_RSSI = packet_in[13];
 								if(TX_RSSI >=128)
 									TX_RSSI -= 128;
 								else
 									TX_RSSI += 128;
-								TX_LQI = pkt[14]&0x7F;
+								TX_LQI = packet_in[14]&0x7F;
 							#endif
 							#if defined(HITEC_FW_TELEMETRY)
 								if(sub_protocol==OPT_FW)
 								{
 									// 8 bytes telemetry packets => see at the end of this file how to fully decode it
-									pkt[0]=TX_RSSI;				// TX RSSI
-									pkt[1]=TX_LQI;				// TX LQI
-									uint8_t offset=pkt[5]==0?1:0;
+									packet_in[0]=TX_RSSI;				// TX RSSI
+									packet_in[1]=TX_LQI;				// TX LQI
+									uint8_t offset=packet_in[5]==0?1:0;
 									for(uint8_t i=5;i < 11; i++)
-										pkt[i-3]=pkt[i+offset];	// frame number followed by 5 bytes of data
+										packet_in[i-3]=packet_in[i+offset];	// frame number followed by 5 bytes of data
 									telemetry_link=2;			// telemetry forward available
 								}
 							#endif
 							#if defined(HITEC_HUB_TELEMETRY)
 								if(sub_protocol==OPT_HUB)
 								{
-									switch(pkt[5])		// telemetry frame number
+									switch(packet_in[5])		// telemetry frame number
 									{
 										case 0x00:
-											v_lipo1 = (pkt[10])<<5 | (pkt[11])>>3;	// calculation in float is volt=(pkt[10]<<8+pkt[11])/28
+											v_lipo1 = (packet_in[10])<<5 | (packet_in[11])>>3;	// calculation in float is volt=(packet_in[10]<<8+packet_in[11])/28
 											break;
 										case 0x11:
-											v_lipo1 = (pkt[9])<<5 | (pkt[10])>>3;	// calculation in float is volt=(pkt[9]<<8+pkt[10])/28
+											v_lipo1 = (packet_in[9])<<5 | (packet_in[10])>>3;	// calculation in float is volt=(packet_in[9]<<8+packet_in[10])/28
 											break;
 										case 0x18:
-											v_lipo2 =  (pkt[6])<<5 | (pkt[7])>>3;	// calculation in float is volt=(pkt[6]<<8+pkt[7])/10
+											v_lipo2 =  (packet_in[6])<<5 | (packet_in[7])>>3;	// calculation in float is volt=(packet_in[6]<<8+packet_in[7])/10
 											break;
 									}
 									telemetry_link=1;			// telemetry hub available
@@ -391,10 +399,6 @@ uint16_t initHITEC()
 		rx_tx_addr[3]=0x6A;
 		memcpy((void *)hopping_frequency,(void *)"\x00\x3A\x4A\x32\x0C\x58\x2A\x10\x26\x20\x08\x60\x68\x70\x78\x80\x88\x56\x5E\x66\x6E",HITEC_NUM_FREQUENCE);
 	#endif
-	#if defined(HITEC_HUB_TELEMETRY)
-		if(sub_protocol==OPT_HUB)
-			init_frskyd_link_telemetry();
-	#endif
 	phase = HITEC_START;
 	return 10000;
 }
@@ -456,10 +460,10 @@ data byte 2 -> Count			GPS satellites
 data byte 3 -> Temp3			Temperature3=Temp2-40°C
 data byte 4 -> Temp4			Temperature4=Temp3-40°C
 - frame 0x18
+data byte 0 -> Volt_L			Volt=(Volt_H*256+Volt_L)/10 V
 data byte 1 -> Volt_H
-data byte 2 -> Volt_L			Volt=(Volt_H*256+Volt_L)/10 V
-data byte 3 -> AMP_L
-data byte 4 -> AMP_H			Amp=(AMP1_*256+AMP_L -180)/14 in signed A
+data byte 2 -> AMP_L
+data byte 3 -> AMP_H			Amp=(AMP1_*256+AMP_L -180)/14 in signed A
 - frame 0x19					Servo sensor
 data byte 0 -> AMP_Servo1		Amp=AMP_Servo1/10 in A
 data byte 1 -> AMP_Servo2		Amp=AMP_Servo2/10 in A
@@ -474,5 +478,6 @@ data byte 1 -> Alti1L			Altitude unfiltered
 data byte 2 -> Alti2H
 data byte 3 -> Alti2L			Altitude filtered
 - frame 0x1C					Unknown
+- frame 0x22					Unknown
 */
 #endif

Multiprotocol/Hontai_nrf24l01.ino

@@ -242,9 +242,14 @@ uint16_t HONTAI_callback()
 		}
 	}
 	else
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(packet_period);
+		#endif
 		HONTAI_send_packet(0);
+	}
 
-	return sub_protocol == FQ777_951 ? FQ777_951_PACKET_PERIOD : HONTAI_PACKET_PERIOD;
+	return packet_period;
 }
 
 uint16_t initHONTAI()
@@ -253,6 +258,7 @@ uint16_t initHONTAI()
 	bind_counter = HONTAI_BIND_COUNT;
 	HONTAI_initialize_txid();
 	HONTAI_init();
+	packet_period = sub_protocol == FQ777_951 ? FQ777_951_PACKET_PERIOD : HONTAI_PACKET_PERIOD;
 	return HONTAI_INITIAL_WAIT;
 }
 #endif

Multiprotocol/Hubsan_a7105.ino

@@ -376,6 +376,9 @@ uint16_t ReadHubsan()
 		case DATA_4:
 		case DATA_5:
 			if( txState == 0) { // send packet
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(10000);
+			#endif
 #ifdef HUBSAN_HUB_TELEMETRY
 				rfMode = A7105_TX;
 #endif
@@ -464,9 +467,6 @@ uint16_t initHubsan()
 	}
 	packet_count=0;
 	bind_phase=0;
-	#ifdef HUBSAN_HUB_TELEMETRY
-		init_frskyd_link_telemetry();
-	#endif
 	return 10000;
 }
 

Multiprotocol/J6Pro_cyrf6936.ino

@@ -201,7 +201,10 @@ uint16_t ReadJ6Pro()
             cyrf_datainit();
             phase = J6PRO_CHAN_1;
         case J6PRO_CHAN_1:
-            //Keep transmit power updated
+			#ifdef MULTI_SYNC
+                telemetry_set_input_sync(24550);
+			#endif
+			//Keep transmit power updated
             CYRF_SetPower(0x28);
             j6pro_build_data_packet();
             //return 3400;

Multiprotocol/JJRC345_nrf24l01.ino

@@ -0,0 +1,195 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+// compatible with JJRC345
+
+#if defined(JJRC345_NRF24L01_INO)
+
+#include "iface_nrf24l01.h"
+
+//#define JJRC345_FORCE_ID
+
+#define JJRC345_PACKET_PERIOD		7450 // Timeout for callback in uSec
+#define JJRC345_INITIAL_WAIT		500
+#define JJRC345_PACKET_SIZE			16
+#define JJRC345_RF_BIND_CHANNEL		5
+#define SKYTMBLR_RF_BIND_CHANNEL	40
+#define JJRC345_BIND_COUNT			500
+#define JJRC345_NUM_CHANNELS		4
+
+
+enum JJRC345_FLAGS {
+    // flags going to packet[8]
+	JJRC345_FLAG_HEADLESS	= 0x40,
+	JJRC345_FLAG_RTH		= 0x80,
+    // flags going to packet[9]
+	SKYTMBLR_FLAG_UNK1	    = 0x40,
+	SKYTMBLR_FLAG_UNK2	    = 0x80,
+    // flags going to packet[10]
+	SKYTMBLR_FLAG_LED	    = 0x40,
+	SKYTMBLR_FLAG_UNK3	    = 0x80,
+};
+
+static uint8_t __attribute__((unused)) JJRC345_convert_channel(uint8_t num)
+{
+	uint8_t val=convert_channel_8b(num);
+	// 7E..60..41..01, 80 center, 81..C1..E0..FE
+	if(val<0x80)
+	{
+		val=0x80-val;	// 80..01
+		if(val>0x7E)
+			val=0x7E;	// 7E..01
+	}
+	else if(val>0xFE)
+		val=0xFE;			// 81..FE
+	return val;
+}
+
+static void __attribute__((unused)) JJRC345_send_packet()
+{
+	packet[0] = 0x00;
+	packet[2] = 0x00;
+	if (IS_BIND_IN_PROGRESS)
+	{ //00 05 00 0A 46 4A 41 47 00 00 40 46 A5 4A F1 18
+		packet[1]  = (sub_protocol == JJRC345 ? JJRC345_RF_BIND_CHANNEL:SKYTMBLR_RF_BIND_CHANNEL);
+		packet[4]  = hopping_frequency[0];
+		packet[5]  = hopping_frequency[1];
+		packet[6]  = hopping_frequency[2];
+		packet[7]  = hopping_frequency[3];
+		packet[12] = 0xa5;
+	}
+	else
+	{ //00 41 00 0A 00 80 80 80 00 00 40 46 00 49 F1 18
+		NRF24L01_WriteReg(NRF24L01_05_RF_CH, hopping_frequency[hopping_frequency_no]);
+		hopping_frequency_no++;
+		hopping_frequency_no %= JJRC345_NUM_CHANNELS;
+		packet[1]  = hopping_frequency[hopping_frequency_no];	// next packet will be sent on this channel
+
+		packet[4]  = convert_channel_8b(THROTTLE);				// throttle: 00..FF
+		packet[5]  = JJRC345_convert_channel(RUDDER);			// rudder: 70..60..41..01, 80 center, 81..C1..E0..F0
+		packet[6]  = JJRC345_convert_channel(ELEVATOR);			// elevator: 70..60..41..01, 80 center, 81..C1..E0..F0
+		packet[7]  = JJRC345_convert_channel(AILERON);			// aileron: 70..60..41..01, 80 center, 81..C1..E0..F0
+
+		if(CH5_SW)	//Flip
+		{
+			if(packet[6]>0xF0)
+				packet[6]=0xFF;
+			else if(packet[6]<0x80 && packet[6]>0x70)
+				packet[6]=0x7F;
+			if(packet[7]>0xF0)
+				packet[7]=0xFF;
+			else if(packet[7]<0x80 && packet[7]>0x70)
+				packet[7]=0x7F;
+		}
+		
+		packet[12] = 0x02;										// Rate: 00-01-02
+	}
+
+	packet[3] = 0x00;											// Checksum upper bits
+
+	packet[8] = 0x00											// Rudder trim, 00 when not used, 01..1F when trimmed left, 20..3F
+				| GET_FLAG(CH6_SW ,JJRC345_FLAG_HEADLESS)		// 0x40 HeadLess
+				| GET_FLAG(CH7_SW ,JJRC345_FLAG_RTH);			// 0x80 RTH
+	packet[9] = 0x00												// Elevator trim, 00 when not used, 20..25 when trimmed up, 0..1F when trimmed down
+				| GET_FLAG(CH9_SW ,SKYTMBLR_FLAG_UNK1)			// 0x40 Unknown
+				| GET_FLAG(CH10_SW,SKYTMBLR_FLAG_UNK2);			// 0x80 Unknown
+	packet[10] = 0x00											// Aileron  trim, 00 when not used, 00..1F when trimmed left, 21..3F when trimmed right
+				| GET_FLAG(!CH8_SW,SKYTMBLR_FLAG_LED)			// 0x40 LED
+				| GET_FLAG(CH11_SW,SKYTMBLR_FLAG_UNK3);			// 0x80 Unknown
+
+	packet[11] = hopping_frequency[0];							// First hopping frequency
+
+	// Checksum
+	uint16_t sum=2;
+	for (uint8_t i = 0; i < 13; i++)
+		sum += packet[i];
+	packet[13]=sum;
+	packet[3]=((sum>>8)<<2)+2;
+	
+	// TX ID
+	packet[14] = rx_tx_addr[2];
+	packet[15] = rx_tx_addr[3];
+
+	// Power on, TX mode
+	XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP));
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
+	NRF24L01_FlushTx();
+	XN297_WritePayload(packet, JJRC345_PACKET_SIZE);
+
+	NRF24L01_SetPower();	// Set tx_power
+}
+
+static void __attribute__((unused)) JJRC345_init()
+{
+    NRF24L01_Initialize();
+    NRF24L01_SetTxRxMode(TX_EN);
+    XN297_SetTXAddr((uint8_t*)"\xcc\xcc\xcc\xcc\xcc", 5);
+    NRF24L01_WriteReg(NRF24L01_05_RF_CH, sub_protocol == JJRC345 ? JJRC345_RF_BIND_CHANNEL:SKYTMBLR_RF_BIND_CHANNEL);	// Bind channel
+    NRF24L01_FlushTx();
+    NRF24L01_FlushRx();
+    NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);					// Clear data ready, data sent, and retransmit
+    NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);						// No Auto Acknowldgement on all data pipes
+    NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x01);					// Enable data pipe 0 only
+    NRF24L01_SetBitrate(NRF24L01_BR_1M);							// 1 Mbps
+    NRF24L01_SetPower();
+}
+
+uint16_t JJRC345_callback()
+{
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(JJRC345_PACKET_PERIOD);
+	#endif
+	if(IS_BIND_IN_PROGRESS)
+	{
+		if (bind_counter)
+			bind_counter--;
+		else
+			BIND_DONE;
+	}
+	JJRC345_send_packet();
+	return	JJRC345_PACKET_PERIOD;
+}
+
+static void __attribute__((unused)) JJRC345_initialize_txid()
+{
+	calc_fh_channels(JJRC345_NUM_CHANNELS);
+	
+	#ifdef JJRC345_FORCE_ID
+		//TX 1
+		rx_tx_addr[2]=0x1B;
+		rx_tx_addr[3]=0x12;
+        hopping_frequency[0] = 0x3f;
+        hopping_frequency[1] = 0x49;
+        hopping_frequency[2] = 0x47;
+        hopping_frequency[3] = 0x47;
+		//TX 2
+		rx_tx_addr[2]=0xF1;
+		rx_tx_addr[3]=0x18;
+        hopping_frequency[0] = 0x46;
+        hopping_frequency[1] = 0x4A;
+        hopping_frequency[2] = 0x41;
+        hopping_frequency[3] = 0x47;
+	#endif
+}
+
+uint16_t initJJRC345(void)
+{
+	BIND_IN_PROGRESS;	// autobind protocol
+    bind_counter = JJRC345_BIND_COUNT;
+	JJRC345_initialize_txid();
+	JJRC345_init();
+	return	JJRC345_INITIAL_WAIT;
+}
+
+#endif

Multiprotocol/KF606_nrf24l01.ino

@@ -16,7 +16,7 @@ Multiprotocol is distributed in the hope that it will be useful,
 
 #if defined(KF606_NRF24L01_INO)
 
-#include "iface_xn297l.h"
+#include "iface_nrf250k.h"
 
 //#define FORCE_KF606_ORIGINAL_ID
 
@@ -86,6 +86,9 @@ static void __attribute__((unused)) KF606_init()
 
 uint16_t KF606_callback()
 {
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(KF606_PACKET_PERIOD);
+	#endif
 	if(IS_BIND_IN_PROGRESS)
 		if(--bind_counter==0)
 		{

Multiprotocol/KN_nrf24l01.ino

@@ -279,12 +279,14 @@ uint16_t initKN()
 		packet_period = KN_WL_SENDING_PACKET_PERIOD;
 		bind_counter  = KN_WL_BIND_COUNT;
 		packet_count  = KN_WL_PACKET_SEND_COUNT;
+		seed = KN_WL_PACKET_SEND_COUNT * KN_WL_SENDING_PACKET_PERIOD;
 	}
 	else
 	{
 		packet_period = KN_FX_SENDING_PACKET_PERIOD;
 		bind_counter  = KN_FX_BIND_COUNT;
 		packet_count  = KN_FX_PACKET_SEND_COUNT;
+		seed = KN_FX_PACKET_SEND_COUNT * KN_FX_SENDING_PACKET_PERIOD;
 	}
 	kn_init();
 	phase = IS_BIND_IN_PROGRESS ? KN_PHASE_PRE_BIND : KN_PHASE_PRE_SEND;
@@ -318,6 +320,9 @@ uint16_t kn_callback()
 		case KN_PHASE_SENDING:
 			if(packet_sent >= packet_count)
 			{
+				#ifdef MULTI_SYNC
+					telemetry_set_input_sync(seed);
+				#endif
 				packet_sent = 0;
 				hopping_frequency_no++;
 				if(hopping_frequency_no >= KN_RF_CH_COUNT) hopping_frequency_no = 0;

Multiprotocol/Kyosho_a7105.ino

@@ -0,0 +1,202 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(KYOSHO_A7105_INO)
+
+#include "iface_a7105.h"
+
+//#define KYOSHO_FORCE_ID_FHSS
+//#define KYOSHO_FORCE_ID_HYPE
+
+//Kyosho constants & variables
+#define KYOSHO_BIND_COUNT 2500
+
+static void __attribute__((unused)) kyosho_send_packet()
+{
+	//ID
+	packet[1] = rx_tx_addr[0];
+	packet[2] = rx_tx_addr[1];
+	packet[3] = rx_tx_addr[2];
+	packet[4] = rx_tx_addr[3];
+	//unknown may be RX ID on some other remotes
+	memset(packet+5,0xFF,4);
+	
+	if(IS_BIND_IN_PROGRESS)
+	{
+		packet[ 0]  = 0xBC;						// bind indicator
+		packet[ 9] &= 0x01;
+		packet[ 9] ^= 0x01;						// high/ low part of the RF table
+		packet[10]  = 0x00;
+		//RF table
+		for(uint8_t i=0; i<16;i++)
+			packet[i+11]=hopping_frequency[i+(packet[9]<<4)];
+		//unknwon
+		packet[27]  = 0x05;
+		packet[28]  = 0x00;
+		memset(packet+29,0xFF,8);
+		//frequency hop during bind
+		if(packet[9])
+			rf_ch_num=0x8C;
+		else
+			rf_ch_num=0x0D;
+	}
+	else
+	{
+		packet[ 0]  = 0x58;						// normal packet
+		//14 channels: steering, throttle, ...
+		for(uint8_t i = 0; i < 14; i++)
+		{
+			uint16_t temp=convert_channel_ppm(i);
+			packet[9 + i*2]=temp&0xFF;			// low byte of servo timing(1000-2000us)
+			packet[10 + i*2]=(temp>>8)&0xFF;	// high byte of servo timing(1000-2000us)
+		}
+		rf_ch_num=hopping_frequency[hopping_frequency_no];
+		hopping_frequency_no++;
+		packet[34] |= (hopping_frequency_no&0x0F)<<4;
+		packet[36] |= (hopping_frequency_no&0xF0);		// last byte is ending with F on the dumps so let's see
+		hopping_frequency_no &= 0x1F;
+	}
+	#if 0
+		debug("ch=%02X P=",rf_ch_num);
+		for(uint8_t i=0; i<37; i++)
+			debug("%02X ", packet[i]);
+		debugln("");
+	#endif
+	A7105_WriteData(37, rf_ch_num);
+}
+
+static void __attribute__((unused)) kyosho_hype_send_packet()
+{
+	if(IS_BIND_IN_PROGRESS)
+	{
+		if(packet_sent==0)
+		{//build the packet and send it
+			packet[0] = rx_tx_addr[1];
+			packet[1] = rx_tx_addr[3];
+			//RF table
+			for(uint8_t i=0; i<15;i++)
+				packet[i+2]=hopping_frequency[i];
+			A7105_WriteData(17, 0x01);
+			packet_sent++;
+			packet_period=1421;
+			#if 0
+				debug("ch=01 P=");
+				for(uint8_t i=0; i<17; i++)
+					debug("%02X ", packet[i]);
+				debugln("");
+			#endif
+		}
+		else
+			A7105_Strobe(A7105_TX);	//only send
+	}
+	else
+	{
+		//original TX is only refreshing the packet every 20ms and keep repeating the same packet in between (STROBE_TX) 
+		//build packet=6 channels with order AETR
+		for(uint8_t i=0;i<6;i++)
+			packet[i] = convert_channel_8b(CH_AETR[i]);
+		//set RF channel
+		rf_ch_num=hopping_frequency[hopping_frequency_no];
+		hopping_frequency_no++;
+		if(hopping_frequency_no>14)
+			hopping_frequency_no = 0;
+		//send it
+		A7105_WriteData(6, rf_ch_num);
+		packet_period=931;	//packet period fluctuates a lot on the original TX from one packet to the other but stable if looking over a period of 40ms
+		#if 0
+			debug("ch=%02X P=",rf_ch_num);
+			for(uint8_t i=0; i<6; i++)
+				debug("%02X ", packet[i]);
+			debugln("");
+		#endif
+	}
+}
+
+uint16_t ReadKyosho()
+{
+	#ifndef FORCE_KYOSHO_TUNING
+		A7105_AdjustLOBaseFreq(1);
+	#endif
+	if(IS_BIND_IN_PROGRESS)
+	{
+		bind_counter--;
+		if (bind_counter==0)
+		{
+			BIND_DONE;
+			if(sub_protocol==KYOSHO_HYPE)
+			{
+				A7105_WriteID(MProtocol_id);
+				A7105_WriteReg(A7105_03_FIFOI,0x05);
+			}
+		}
+	}
+	else
+	{
+		if(hopping_frequency_no==0)
+			A7105_SetPower();
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(packet_period);
+		#endif
+	}
+	if(sub_protocol==KYOSHO_FHSS)
+		kyosho_send_packet();
+	else//HYPE
+		kyosho_hype_send_packet();
+	return packet_period;
+}
+
+uint16_t initKyosho()
+{
+	A7105_Init();
+
+	// compute channels from ID
+	calc_fh_channels(sub_protocol==KYOSHO_FHSS?32:15);
+	hopping_frequency_no=0;
+
+	#ifdef KYOSHO_FORCE_ID_FHSS
+		if(sub_protocol==KYOSHO_FHSS)
+		{
+			memcpy(rx_tx_addr,"\x3A\x39\x37\x00",4);
+			memcpy(hopping_frequency,"\x29\x4C\x67\x92\x31\x1C\x77\x18\x23\x6E\x81\x5C\x8F\x5A\x51\x94\x7A\x12\x45\x6C\x7F\x1E\x0D\x88\x63\x8C\x4F\x37\x26\x61\x2C\x8A",32);
+		}
+	#endif
+	if(sub_protocol==KYOSHO_HYPE)
+	{
+		MProtocol_id &= 0x00FF00FF;
+		rx_tx_addr[0] = 0xAF - (rx_tx_addr[1]&0x0F);
+		rx_tx_addr[2] = 0xFF -  rx_tx_addr[3];
+		MProtocol_id |= (rx_tx_addr[0]<<24) + (rx_tx_addr[2]<<8);
+		#ifdef KYOSHO_FORCE_ID_HYPE
+			MProtocol_id=0xAF90738C;
+			set_rx_tx_addr(MProtocol_id);
+			memcpy(hopping_frequency,"\x27\x1B\x63\x75\x03\x39\x57\x69\x87\x0F\x7B\x3F\x33\x51\x6F",15);
+		#endif
+		if(IS_BIND_IN_PROGRESS)
+			A7105_WriteID(0xAF00FF00);
+		else
+		{
+			A7105_WriteID(MProtocol_id);
+			A7105_WriteReg(A7105_03_FIFOI,0x05);
+		}
+	}
+
+	if(IS_BIND_IN_PROGRESS)
+		bind_counter = KYOSHO_BIND_COUNT;
+
+	packet_sent=0;
+	packet_period=3852;		//FHSS
+	return 2000;
+}
+#endif

Multiprotocol/MJXQ_nrf24l01.ino

@@ -18,7 +18,7 @@
 #if defined(MJXQ_NRF24L01_INO)
 
 #include "iface_nrf24l01.h"
-#include "iface_xn297l.h"
+#include "iface_nrf250k.h"
 
 #define MJXQ_BIND_COUNT		150
 #define MJXQ_PACKET_PERIOD	4000  // Timeout for callback in uSec
@@ -327,7 +327,12 @@ static void __attribute__((unused)) MJXQ_initialize_txid()
 uint16_t MJXQ_callback()
 {
 	if(IS_BIND_DONE)
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(MJXQ_PACKET_PERIOD);
+		#endif
 		MJXQ_send_packet(0);
+	}
 	else
 	{
 		if (bind_counter == 0)

Multiprotocol/MT99xx_nrf24l01.ino

@@ -222,7 +222,12 @@ static void __attribute__((unused)) MT99XX_initialize_txid()
 uint16_t MT99XX_callback()
 {
 	if(IS_BIND_DONE)
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(packet_period);
+		#endif
 		MT99XX_send_packet();
+	}
 	else
 	{
 		if (bind_counter == 0)

Multiprotocol/Multi.txt

@@ -1,9 +1,9 @@
 1,Flysky,Flysky,V9x9,V6x6,V912,CX20
 2,Hubsan,H107,H301,H501
-3,FrskyD
+3,FrskyD,D8,Cloned
 4,Hisky,Hisky,HK310
-5,V2x2,V2x2,JXD506
-6,DSM,DSM2-22,DSM2-11,DSMX-22,DSMX-11,AUTO
+5,V2x2,V2x2,JXD506,MR101
+6,DSM,DSM2_1F,DSM2_2F,DSMX_1F,DSMX_2F,AUTO
 7,Devo,8CH,10CH,12CH,6CH,7CH
 8,YD717,YD717,SKYWLKR,SYMAX4,XINXUN,NIHUI
 9,KN,WLTOYS,FEILUN
@@ -11,28 +11,28 @@
 11,SLT,SLT_V1,SLT_V2,Q100,Q200,MR100
 12,CX10,GREEN,BLUE,DM007,---,J3015_1,J3015_2,MK33041
 13,CG023,CG023,YD829
-14,Bayang,Bayang,H8S3D,X16_AH,IRDRONE,DHD_D4
-15,FrskyX,CH_16,CH_8,EU_16,EU_8
-16,ESky
+14,Bayang,Bayang,H8S3D,X16_AH,IRDRONE,DHD_D4,QX100
+15,FrskyX,CH_16,CH_8,EU_16,EU_8,Cloned,Clon_8
+16,ESky,Std,ET4
 17,MT99xx,MT,H7,YZ,LS,FY805
 18,MJXq,WLH08,X600,X800,H26D,E010,H26WH,PHOENIX
 19,Shenqi
 20,FY326,FY326,FY319
-21,SFHSS
+21,Futaba,SFHSS
 22,J6PRO
 23,FQ777
 24,ASSAN
 25,FrskyV
 26,HONTAI,HONTAI,JJRCX1,X5C1,FQ777_951
 27,OpnLrs
-28,AFHDS2A,PWM_IBUS,PPM_IBUS,PWM_SBUS,PPM_SBUS
+28,AFHDS2A,PWM_IBUS,PPM_IBUS,PWM_SBUS,PPM_SBUS,PWM_IB16,PPM_IB16
 29,Q2X2,Q222,Q242,Q282
 30,WK2x01,WK2801,WK2401,W6_5_1,W6_6_1,W6_HEL,W6_HEL_I
 31,Q303,Q303,CX35,CX10D,CX10WD
 32,GW008
 33,DM002
 34,CABELL,CAB_V3,C_TELEM,-,-,-,-,F_SAFE,UNBIND
-35,ESKY150
+35,ESKY150,4CH,7CH
 36,H8_3D,H8_3D,H20H,H20Mini,H30Mini
 37,CORONA,COR_V1,COR_V2,FD_V3
 38,CFlie
@@ -43,14 +43,35 @@
 43,Traxxas,RX6519
 44,NCC1701
 45,E01X,E012,E015,E016H
-46,V911S
-47,GD00X,GD_V1,GD_V2
-48,V761
+46,V911S,V911S,E119
+47,GD00x,GD_V1,GD_V2
+48,V761,3CH,4CH
 49,KF606
 50,Redpine,Fast,Slow
 51,Potensic,A20
 52,ZSX,280
-53,Flyzone,FZ-410
+53,Height,5ch,8ch
 54,Scanner
-55,FrskyX_RX,FCC,EU_LBT
-63,XN_DUMP,250K,1M,2M
+55,Frsky_RX,RX,CloneTX
+56,AFHDS2A_RX
+57,HoTT,Sync,No_Sync
+58,FX816,P38
+59,Bayang_RX
+60,Pelikan,Pro,Lite
+61,Tiger
+62,XK,X450,X420
+63,XN_DUMP,250K,1M,2M,AUTO
+64,FrskyX2,CH_16,CH_8,EU_16,EU_8,Cloned
+65,FrSkyR9,915MHz,868MHz,915_8ch,868_8ch,FCC,--,FCC_8ch,--_8ch
+66,PROPEL,74-Z
+67,LR12,LR12,LR12_6ch
+68,Skyartec
+69,ESKYv2,150V2
+70,DSM_RX
+71,JJRC345,JJRC345,SkyTmblr
+72,Q90C
+73,Kyosho,FHSS,Hype
+74,RadioLink,Surface,Air
+75,---
+76,Realacc,R11
+77,OMP

Multiprotocol/Multi_Names.ino

@@ -0,0 +1,404 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(MULTI_NAMES)
+
+const char STR_FLYSKY[]		="FlySky";
+const char STR_HUBSAN[]		="Hubsan";
+const char STR_FRSKYD[]		="FrSky D";
+const char STR_HISKY[]		="Hisky";
+const char STR_V2X2[]		="V2x2";
+const char STR_DSM[]		="DSM";
+const char STR_DSM_RX[]		="DSM_RX";
+const char STR_DEVO[]		="Devo";
+const char STR_YD717[]		="YD717";
+const char STR_KN[]			="KN";
+const char STR_SYMAX[]		="SymaX";
+const char STR_SLT[]		="SLT";
+const char STR_CX10[]		="CX10";
+const char STR_CG023[]		="CG023";
+const char STR_BAYANG[]		="Bayang";
+const char STR_FRSKYL[]		="FrSky L";
+const char STR_FRSKYX[]		="FrSky X";
+const char STR_FRSKYX2[]	="FrSkyX2";
+const char STR_ESKY[]		="ESky";
+const char STR_MT99XX[]		="MT99XX";
+const char STR_MJXQ[]		="MJXq";
+const char STR_SHENQI[]		="Shenqi";
+const char STR_FY326[]		="FY326";
+const char STR_FUTABA[]		="Futaba";
+const char STR_J6PRO[]		="J6 Pro";
+const char STR_JJRC345[]	="JJRC345";
+const char STR_FQ777[]		="FQ777";
+const char STR_ASSAN[]		="Assan";
+const char STR_FRSKYV[]		="FrSky V";
+const char STR_HONTAI[]		="Hontai";
+const char STR_AFHDS2A[]	="FlSky2A";
+const char STR_Q2X2[]		="Q2x2";
+const char STR_WK2x01[]		="Walkera";
+const char STR_Q303[]		="Q303";
+const char STR_Q90C[]		="Q90C";
+const char STR_GW008[]		="GW008";
+const char STR_DM002[]		="DM002";
+const char STR_CABELL[]		="Cabell";
+const char STR_ESKY150[]	="Esky150";
+const char STR_ESKY150V2[]	="EskyV2";
+const char STR_H8_3D[]		="H8 3D";
+const char STR_CORONA[]		="Corona";
+const char STR_CFLIE[]		="CFlie";
+const char STR_HITEC[]		="Hitec";
+const char STR_WFLY[]		="WFly";
+const char STR_BUGS[]		="Bugs";
+const char STR_BUGSMINI[]	="BugMini";
+const char STR_TRAXXAS[]	="Traxxas";
+const char STR_NCC1701[]	="NCC1701";
+const char STR_E01X[]		="E01X";
+const char STR_V911S[]		="V911S";
+const char STR_GD00X[]		="GD00x";
+const char STR_V761[]		="V761";
+const char STR_KF606[]		="KF606";
+const char STR_REDPINE[]	="Redpine";
+const char STR_POTENSIC[]	="Potensi";
+const char STR_ZSX[]		="ZSX";
+const char STR_HEIGHT[]		="Height";
+const char STR_SCANNER[]	="Scanner";
+const char STR_FRSKY_RX[]	="FrSkyRX";
+const char STR_AFHDS2A_RX[]	="FS2A_RX";
+const char STR_HOTT[]		="HoTT";
+const char STR_FX816[]		="FX816";
+const char STR_BAYANG_RX[]	="BayanRX";
+const char STR_PELIKAN[]	="Pelikan";
+const char STR_TIGER[]		="Tiger";
+const char STR_XK[]			="XK";
+const char STR_XN297DUMP[]	="XN297DP";
+const char STR_FRSKYR9[]	="FrSkyR9";
+const char STR_PROPEL[]		="Propel";
+const char STR_SKYARTEC[]	="Skyartc";
+const char STR_KYOSHO[]		="Kyosho";
+const char STR_RLINK[]		="RadLink";
+const char STR_REALACC[]	="Realacc";
+const char STR_OMP[]		="OMP";
+const char STR_TEST[]		="Test";
+const char STR_NANORF[]		="NanoRF";
+
+const char STR_SUBTYPE_FLYSKY[] =     "\x04""Std\0""V9x9""V6x6""V912""CX20";
+const char STR_SUBTYPE_HUBSAN[] =     "\x04""H107""H301""H501";
+const char STR_SUBTYPE_FRSKYD[] =     "\x06""D8\0   ""Cloned";
+const char STR_SUBTYPE_FRSKYX[] =     "\x07""D16\0   ""D16 8ch""LBT(EU)""LBT 8ch""Cloned\0""Clo 8ch";
+const char STR_SUBTYPE_HISKY[] =      "\x05""Std\0 ""HK310";
+const char STR_SUBTYPE_V2X2[] =       "\x06""Std\0  ""JXD506""MR101\0";
+const char STR_SUBTYPE_DSM[] =        "\x04""2 1F""2 2F""X 1F""X 2F""Auto";
+const char STR_SUBTYPE_DEVO[] =       "\x04""8ch\0""10ch""12ch""6ch\0""7ch\0";
+const char STR_SUBTYPE_YD717[] =      "\x07""Std\0   ""SkyWlkr""Syma X4""XINXUN\0""NIHUI\0 ";
+const char STR_SUBTYPE_KN[] =         "\x06""WLtoys""FeiLun";
+const char STR_SUBTYPE_SYMAX[] =      "\x03""Std""X5C";
+const char STR_SUBTYPE_SLT[] =        "\x06""V1_6ch""V2_8ch""Q100\0 ""Q200\0 ""MR100\0";
+const char STR_SUBTYPE_CX10[] =       "\x07""Green\0 ""Blue\0  ""DM007\0 ""-\0     ""JC3015a""JC3015b""MK33041";
+const char STR_SUBTYPE_CG023[] =      "\x05""Std\0 ""YD829";
+const char STR_SUBTYPE_BAYANG[] =     "\x07""Std\0   ""H8S3D\0 ""X16 AH\0""IRDrone""DHD D4\0""QX100\0 ";
+const char STR_SUBTYPE_MT99[] =       "\x06""MT99\0 ""H7\0   ""YZ\0   ""LS\0   ""FY805";
+const char STR_SUBTYPE_MJXQ[] =       "\x07""WLH08\0 ""X600\0  ""X800\0  ""H26D\0  ""E010\0  ""H26WH\0 ""Phoenix";
+const char STR_SUBTYPE_FY326[] =      "\x05""Std\0 ""FY319";
+const char STR_SUBTYPE_HONTAI[] =     "\x07""Std\0   ""JJRC X1""X5C1\0  ""FQ_951";
+const char STR_SUBTYPE_AFHDS2A[] =    "\x08""PWM,IBUS""PPM,IBUS""PWM,SBUS""PPM,SBUS""PWM,IB16""PPM,IB16""PWM,SB16""PPM,SB16";
+const char STR_SUBTYPE_Q2X2[] =       "\x04""Q222""Q242""Q282";
+const char STR_SUBTYPE_WK2x01[] =     "\x06""WK2801""WK2401""W6_5_1""W6_6_1""W6_HeL""W6_HeI";
+const char STR_SUBTYPE_Q303[] =       "\x06""Std\0  ""CX35\0 ""CX10D\0""CX10WD";
+const char STR_SUBTYPE_CABELL[] =     "\x07""V3\0    ""V3 Telm""-\0     ""-\0     ""-\0     ""-\0     ""F-Safe\0""Unbind\0";
+const char STR_SUBTYPE_H83D[] =       "\x07""Std\0   ""H20H\0  ""H20Mini""H30Mini";
+const char STR_SUBTYPE_CORONA[] =     "\x05""V1\0  ""V2\0  ""FD V3";
+const char STR_SUBTYPE_HITEC[] =      "\x07""Optima\0""Opt Hub""Minima\0";
+const char STR_SUBTYPE_BUGS_MINI[] =  "\x06""Std\0  ""Bugs3H";
+const char STR_SUBTYPE_TRAXXAS[] =    "\x04""6519";
+const char STR_SUBTYPE_E01X[] =       "\x05""E012\0""E015\0""E016H";
+const char STR_SUBTYPE_GD00X[] =      "\x05""GD_V1""GD_V2";
+const char STR_SUBTYPE_REDPINE[] =    "\x04""Fast""Slow";
+const char STR_SUBTYPE_POTENSIC[] =   "\x03""A20";
+const char STR_SUBTYPE_ZSX[] =        "\x07""280JJRC";
+const char STR_SUBTYPE_HEIGHT[] =    "\x03""5ch""8ch";
+const char STR_SUBTYPE_FX816[] =      "\x03""P38";
+const char STR_SUBTYPE_XN297DUMP[] =  "\x07""250Kbps""1Mbps\0 ""2Mbps\0 ""Auto\0  ""NRF\0   ";
+const char STR_SUBTYPE_ESKY150[] =    "\x03""4ch""7ch";
+const char STR_SUBTYPE_ESKY150V2[] =  "\x05""150V2";
+const char STR_SUBTYPE_V911S[] =      "\x05""V911S""E119\0";
+const char STR_SUBTYPE_XK[] =         "\x04""X450""X420";
+const char STR_SUBTYPE_FRSKYR9[] =    "\x07""915MHz\0""868MHz\0""915 8ch""868 8ch""FCC\0   ""--\0    ""FCC 8ch""-- 8ch\0";
+const char STR_SUBTYPE_ESKY[] =       "\x03""Std""ET4";
+const char STR_SUBTYPE_PROPEL[] =     "\x04""74-Z";
+const char STR_SUBTYPE_FRSKY_RX[] =   "\x07""RX\0    ""CloneTX";
+const char STR_SUBTYPE_FRSKYL[] =     "\x08""LR12\0   ""LR12 6ch";
+const char STR_SUBTYPE_WFLY[] =       "\x06""WFR0xS";
+const char STR_SUBTYPE_HOTT[] =       "\x07""Sync\0  ""No_Sync";
+const char STR_SUBTYPE_PELIKAN[] =    "\x04""Pro\0""Lite";
+const char STR_SUBTYPE_V761[] =       "\x03""3ch""4ch";
+const char STR_SUBTYPE_RLINK[] =      "\x07""Surface""Air\0   ";
+const char STR_SUBTYPE_REALACC[] =    "\x03""R11";
+const char STR_SUBTYPE_KYOSHO[] =     "\x04""FHSS""Hype";
+const char STR_SUBTYPE_FUTABA[] =      "\x05""SFHSS";
+const char STR_SUBTYPE_JJRC345[] =    "\x08""JJRC345\0""SkyTmblr";
+
+enum
+{
+	OPTION_NONE,
+	OPTION_OPTION,
+	OPTION_RFTUNE,
+	OPTION_VIDFREQ,
+	OPTION_FIXEDID,
+	OPTION_TELEM,
+	OPTION_SRVFREQ,
+	OPTION_MAXTHR,
+	OPTION_RFCHAN,
+	OPTION_RFPOWER,
+};
+
+#define NO_SUBTYPE		nullptr
+
+const mm_protocol_definition multi_protocols[] = {
+// Protocol number, Protocol String, Number of sub_protocols, Sub_protocol strings, Option type
+	#if defined(ASSAN_NRF24L01_INO)
+		{PROTO_ASSAN,      STR_ASSAN,     0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(BAYANG_NRF24L01_INO)
+		{PROTO_BAYANG,     STR_BAYANG,    6, STR_SUBTYPE_BAYANG,    OPTION_TELEM   },
+	#endif
+	#if defined(BAYANG_RX_NRF24L01_INO)
+		{PROTO_BAYANG_RX,  STR_BAYANG_RX, 0, NO_SUBTYPE,            OPTION_NONE    },	
+	#endif
+	#if defined(BUGS_A7105_INO)
+		{PROTO_BUGS,       STR_BUGS,      0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(BUGSMINI_NRF24L01_INO)
+		{PROTO_BUGSMINI,   STR_BUGSMINI,  2, STR_SUBTYPE_BUGS_MINI, OPTION_NONE    },
+	#endif
+	#if defined(CABELL_NRF24L01_INO)
+		{PROTO_CABELL,     STR_CABELL,    8, STR_SUBTYPE_CABELL,    OPTION_OPTION  },
+	#endif
+	#if defined(CFLIE_NRF24L01_INO)
+		{PROTO_CFLIE,      STR_CFLIE,     0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(CG023_NRF24L01_INO)
+		{PROTO_CG023,      STR_CG023,     2, STR_SUBTYPE_CG023,     OPTION_NONE    },
+	#endif
+	#if defined(CORONA_CC2500_INO)
+		{PROTO_CORONA,     STR_CORONA,    3, STR_SUBTYPE_CORONA,    OPTION_RFTUNE  },
+	#endif
+	#if defined(CX10_NRF24L01_INO)
+		{PROTO_CX10,       STR_CX10,      7, STR_SUBTYPE_CX10,      OPTION_NONE    },
+	#endif
+	#if defined(DEVO_CYRF6936_INO)
+		{PROTO_DEVO,       STR_DEVO,      5, STR_SUBTYPE_DEVO,      OPTION_FIXEDID },
+	#endif
+	#if defined(DM002_NRF24L01_INO)
+		{PROTO_DM002,      STR_DM002,     0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(DSM_CYRF6936_INO)
+		{PROTO_DSM,        STR_DSM,       5, STR_SUBTYPE_DSM,       OPTION_MAXTHR  },
+	#endif
+	#if defined(DSM_RX_CYRF6936_INO)
+		{PROTO_DSM_RX,     STR_DSM_RX,    0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(E01X_NRF24L01_INO)
+		{PROTO_E01X,       STR_E01X,      3, STR_SUBTYPE_E01X,      OPTION_OPTION  },
+	#endif
+	#if defined(ESKY_NRF24L01_INO)
+		{PROTO_ESKY,       STR_ESKY,      2, STR_SUBTYPE_ESKY,      OPTION_NONE    },
+	#endif
+	#if defined(ESKY150_NRF24L01_INO)
+		{PROTO_ESKY150,    STR_ESKY150,   2, STR_SUBTYPE_ESKY150,   OPTION_NONE    },
+	#endif
+	#if defined(ESKY150V2_CC2500_INO)
+		{PROTO_ESKY150V2,  STR_ESKY150V2, 1, STR_SUBTYPE_ESKY150V2, OPTION_RFTUNE  },
+	#endif
+	#if defined(FLYSKY_A7105_INO)
+		{PROTO_FLYSKY,     STR_FLYSKY,    5, STR_SUBTYPE_FLYSKY,    OPTION_NONE    },
+	#endif
+	#if defined(AFHDS2A_A7105_INO)
+		{PROTO_AFHDS2A,    STR_AFHDS2A,   8, STR_SUBTYPE_AFHDS2A,   OPTION_SRVFREQ },
+	#endif
+	#if defined(AFHDS2A_RX_A7105_INO)
+		{PROTO_AFHDS2A_RX, STR_AFHDS2A_RX,0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(FQ777_NRF24L01_INO)
+		{PROTO_FQ777,      STR_FQ777,     0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+//OpenTX 2.3.x issue: DO NOT CHANGE ORDER below
+	#if defined(FRSKY_RX_CC2500_INO)
+		{PROTO_FRSKY_RX,   STR_FRSKY_RX,  2, STR_SUBTYPE_FRSKY_RX,  OPTION_RFTUNE  },
+	#endif
+	#if defined(FRSKYD_CC2500_INO)
+		{PROTO_FRSKYD,     STR_FRSKYD,    2, STR_SUBTYPE_FRSKYD,    OPTION_RFTUNE  },
+	#endif
+	#if defined(FRSKYV_CC2500_INO)
+		{PROTO_FRSKYV,      STR_FRSKYV,   0, NO_SUBTYPE,            OPTION_RFTUNE  },
+	#endif
+	#if defined(FRSKYX_CC2500_INO)
+		{PROTO_FRSKYX,     STR_FRSKYX,    6, STR_SUBTYPE_FRSKYX,    OPTION_RFTUNE  },
+		{PROTO_FRSKYX2,    STR_FRSKYX2,   6, STR_SUBTYPE_FRSKYX,    OPTION_RFTUNE  },
+	#endif
+//OpenTX 2.3.x issue: DO NOT CHANGE ORDER above
+	#if defined(FRSKYL_CC2500_INO)
+		{PROTO_FRSKYL,     STR_FRSKYL,    2, STR_SUBTYPE_FRSKYL,    OPTION_RFTUNE  },
+	#endif
+	#if defined(FRSKYR9_SX1276_INO)
+		{PROTO_FRSKY_R9,   STR_FRSKYR9,   8, STR_SUBTYPE_FRSKYR9,   OPTION_NONE    },
+	#endif
+	#if defined(FUTABA_CC2500_INO)
+		{PROTO_FUTABA,      STR_FUTABA,     1, STR_SUBTYPE_FUTABA,     OPTION_RFTUNE  },
+	#endif
+	#if defined(FX816_NRF24L01_INO)
+		{PROTO_FX816,      STR_FX816,     1, STR_SUBTYPE_FX816,     OPTION_NONE    },
+	#endif
+	#if defined(FY326_NRF24L01_INO)
+		{PROTO_FY326,      STR_FY326,     2, STR_SUBTYPE_FY326,     OPTION_NONE    },
+	#endif
+	#if defined(GD00X_NRF24L01_INO)
+		{PROTO_GD00X,      STR_GD00X,     2, STR_SUBTYPE_GD00X,     OPTION_RFTUNE  },
+	#endif
+	#if defined(GW008_NRF24L01_INO)
+		{PROTO_GW008,      STR_GW008,     0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(H8_3D_NRF24L01_INO)
+		{PROTO_H8_3D,      STR_H8_3D,     4, STR_SUBTYPE_H83D,      OPTION_NONE    },
+	#endif
+	#if defined(HEIGHT_A7105_INO)
+		{PROTO_HEIGHT,     STR_HEIGHT,    2, STR_SUBTYPE_HEIGHT,    OPTION_NONE    },
+	#endif
+	#if defined(HISKY_NRF24L01_INO)
+		{PROTO_HISKY,      STR_HISKY,     2, STR_SUBTYPE_HISKY,     OPTION_NONE    },
+	#endif
+	#if defined(HITEC_CC2500_INO)
+		{PROTO_HITEC,      STR_HITEC,     3, STR_SUBTYPE_HITEC,     OPTION_RFTUNE  },
+	#endif
+	#if defined(HONTAI_NRF24L01_INO)
+		{PROTO_HONTAI,     STR_HONTAI,    4, STR_SUBTYPE_HONTAI,    OPTION_NONE    },
+	#endif
+	#if defined(HOTT_CC2500_INO)
+		{PROTO_HOTT,       STR_HOTT,      2, STR_SUBTYPE_HOTT,      OPTION_RFTUNE  },
+	#endif
+	#if defined(HUBSAN_A7105_INO)
+		{PROTO_HUBSAN,     STR_HUBSAN,    3, STR_SUBTYPE_HUBSAN,    OPTION_VIDFREQ },
+	#endif
+	#if defined(J6PRO_CYRF6936_INO)
+		{PROTO_J6PRO,      STR_J6PRO,     0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(JJRC345_NRF24L01_INO)
+		{PROTO_JJRC345,    STR_JJRC345,   2, STR_SUBTYPE_JJRC345,   OPTION_NONE    },
+	#endif
+	#if defined(KF606_NRF24L01_INO)
+		{PROTO_KF606,      STR_KF606,     0, NO_SUBTYPE,            OPTION_RFTUNE  },
+	#endif
+	#if defined(KN_NRF24L01_INO)
+		{PROTO_KN,         STR_KN,        2, STR_SUBTYPE_KN,        OPTION_NONE    },
+	#endif
+	#if defined(KYOSHO_A7105_INO)
+		{PROTO_KYOSHO,     STR_KYOSHO,    2, STR_SUBTYPE_KYOSHO,    OPTION_NONE    },
+	#endif
+	#if defined(MJXQ_NRF24L01_INO)
+		{PROTO_MJXQ,       STR_MJXQ,      7, STR_SUBTYPE_MJXQ,      OPTION_RFTUNE  },
+	#endif
+	#if defined(MT99XX_NRF24L01_INO)
+		{PROTO_MT99XX,     STR_MT99XX,    5, STR_SUBTYPE_MT99,      OPTION_NONE    },
+	#endif
+	#if defined(NCC1701_NRF24L01_INO)
+		{PROTO_NCC1701,    STR_NCC1701,   0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(OMP_CC2500_INO)
+		{PROTO_OMP,        STR_OMP,       0, NO_SUBTYPE,            OPTION_RFTUNE  },
+	#endif
+	#if defined(PELIKAN_A7105_INO)
+		{PROTO_PELIKAN,    STR_PELIKAN  , 2, STR_SUBTYPE_PELIKAN,   OPTION_NONE    },	
+	#endif
+	#if defined(POTENSIC_NRF24L01_INO)
+		{PROTO_POTENSIC,   STR_POTENSIC,  1, STR_SUBTYPE_POTENSIC,  OPTION_NONE    },
+	#endif
+	#if defined(PROPEL_NRF24L01_INO)
+		{PROTO_PROPEL,     STR_PROPEL,    1, STR_SUBTYPE_PROPEL,    OPTION_NONE    },
+	#endif
+	#if defined(CX10_NRF24L01_INO)
+		{PROTO_Q2X2,       STR_Q2X2,      3, STR_SUBTYPE_Q2X2,      OPTION_NONE    },
+	#endif
+	#if defined(Q303_NRF24L01_INO)
+		{PROTO_Q303,       STR_Q303,      4, STR_SUBTYPE_Q303,      OPTION_NONE    },
+	#endif
+	#if defined(Q90C_NRF24L01_INO)
+		{PROTO_Q90C,       STR_Q90C,      0, NO_SUBTYPE,            OPTION_RFTUNE  },
+	#endif
+	#if defined(RLINK_CC2500_INO)
+		{PROTO_RLINK,      STR_RLINK,     2, STR_SUBTYPE_RLINK,     OPTION_RFTUNE  },
+	#endif
+	#if defined(REALACC_NRF24L01_INO)
+		{PROTO_REALACC,    STR_REALACC,   1, STR_SUBTYPE_REALACC,   OPTION_NONE    },
+	#endif
+	#if defined(REDPINE_CC2500_INO)
+		{PROTO_REDPINE,    STR_REDPINE,   2, STR_SUBTYPE_REDPINE,   OPTION_RFTUNE  },
+	#endif
+	#if defined(SCANNER_CC2500_INO)
+	//	{PROTO_SCANNER,    STR_SCANNER,   0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(SHENQI_NRF24L01_INO)
+		{PROTO_SHENQI,     STR_SHENQI,    0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+	#if defined(SKYARTEC_CC2500_INO)
+		{PROTO_SKYARTEC,   STR_SKYARTEC,  0, NO_SUBTYPE,            OPTION_RFTUNE  },
+	#endif
+	#if defined(SLT_NRF24L01_INO)
+		{PROTO_SLT,        STR_SLT,       5, STR_SUBTYPE_SLT,       OPTION_RFTUNE  },
+	#endif
+	#if defined(SYMAX_NRF24L01_INO)
+		{PROTO_SYMAX,      STR_SYMAX,     2, STR_SUBTYPE_SYMAX,     OPTION_NONE    },
+	#endif
+	#if defined(TIGER_NRF24L01_INO)
+		{PROTO_TIGER,      STR_TIGER    , 0, NO_SUBTYPE,            OPTION_NONE    },	
+	#endif
+	#if defined(TRAXXAS_CYRF6936_INO)
+		{PROTO_TRAXXAS,    STR_TRAXXAS,   1, STR_SUBTYPE_TRAXXAS,   OPTION_NONE    },
+	#endif
+	#if defined(V2X2_NRF24L01_INO)
+		{PROTO_V2X2,       STR_V2X2,      3, STR_SUBTYPE_V2X2,      OPTION_NONE    },
+	#endif
+	#if defined(V761_NRF24L01_INO)
+		{PROTO_V761,       STR_V761,      2, STR_SUBTYPE_V761,      OPTION_NONE    },
+	#endif
+	#if defined(V911S_NRF24L01_INO)
+		{PROTO_V911S,      STR_V911S,     2, STR_SUBTYPE_V911S,     OPTION_RFTUNE  },
+	#endif
+	#if defined(WK2x01_CYRF6936_INO)
+		{PROTO_WK2x01,     STR_WK2x01,    6, STR_SUBTYPE_WK2x01,    OPTION_NONE    },
+	#endif
+	#if defined(WFLY_CYRF6936_INO)
+		{PROTO_WFLY,       STR_WFLY,      1, STR_SUBTYPE_WFLY,      OPTION_NONE    },
+	#endif
+	#if defined(XK_NRF24L01_INO)
+		{PROTO_XK,         STR_XK       , 2, STR_SUBTYPE_XK,        OPTION_RFTUNE  },	
+	#endif
+	#if defined(XN297DUMP_NRF24L01_INO)
+		{PROTO_XN297DUMP,  STR_XN297DUMP, 5, STR_SUBTYPE_XN297DUMP, OPTION_RFCHAN  },
+	#endif
+	#if defined(YD717_NRF24L01_INO)
+		{PROTO_YD717,      STR_YD717,     5, STR_SUBTYPE_YD717,     OPTION_NONE    },
+	#endif
+	#if defined(ZSX_NRF24L01_INO)
+		{PROTO_ZSX,        STR_ZSX,       1, STR_SUBTYPE_ZSX,       OPTION_NONE    },
+	#endif
+	#if defined(TEST_CC2500_INO)
+		{PROTO_TEST,       STR_TEST,      0, NO_SUBTYPE,            OPTION_RFTUNE  },
+	#endif
+	#if defined(NANORF_NRF24L01_INO)
+		{PROTO_NANORF,     STR_NANORF,    0, NO_SUBTYPE,            OPTION_NONE    },
+	#endif
+		{0x00,             nullptr,       0, nullptr,               0 }
+};
+
+#endif

Multiprotocol/Multiprotocol.h

@@ -17,9 +17,9 @@
 // Version
 //******************
 #define VERSION_MAJOR		1
-#define VERSION_MINOR		2
+#define VERSION_MINOR		3
 #define VERSION_REVISION	1
-#define VERSION_PATCH_LEVEL	81
+#define VERSION_PATCH_LEVEL	77
 
 //******************
 // Protocols
@@ -47,7 +47,7 @@ enum PROTOCOLS
 	PROTO_MJXQ		= 18,	// =>NRF24L01
 	PROTO_SHENQI	= 19,	// =>NRF24L01
 	PROTO_FY326		= 20,	// =>NRF24L01
-	PROTO_SFHSS		= 21,	// =>CC2500
+	PROTO_FUTABA		= 21,	// =>CC2500
 	PROTO_J6PRO		= 22,	// =>CYRF6936
 	PROTO_FQ777		= 23,	// =>NRF24L01
 	PROTO_ASSAN		= 24,	// =>NRF24L01
@@ -79,10 +79,33 @@ enum PROTOCOLS
 	PROTO_REDPINE	= 50,	// =>CC2500
 	PROTO_POTENSIC	= 51,	// =>NRF24L01
 	PROTO_ZSX		= 52,	// =>NRF24L01
-	PROTO_FLYZONE	= 53,	// =>A7105
+	PROTO_HEIGHT	= 53,	// =>A7105
 	PROTO_SCANNER	= 54,	// =>CC2500
-	PROTO_FRSKYX_RX	= 55,	// =>CC2500
+	PROTO_FRSKY_RX	= 55,	// =>CC2500
+	PROTO_AFHDS2A_RX= 56,	// =>A7105
+	PROTO_HOTT		= 57,	// =>CC2500
+	PROTO_FX816		= 58,	// =>NRF24L01
+	PROTO_BAYANG_RX	= 59,	// =>NRF24L01
+	PROTO_PELIKAN	= 60,	// =>A7105
+	PROTO_TIGER		= 61,	// =>NRF24L01
+	PROTO_XK		= 62,	// =>NRF24L01
 	PROTO_XN297DUMP	= 63,	// =>NRF24L01
+	PROTO_FRSKYX2	= 64,	// =>CC2500
+	PROTO_FRSKY_R9	= 65,	// =>SX1276
+	PROTO_PROPEL	= 66,	// =>NRF24L01
+	PROTO_FRSKYL	= 67,	// =>CC2500
+	PROTO_SKYARTEC	= 68,	// =>CC2500
+	PROTO_ESKY150V2	= 69,	// =>CC2500+NRF24L01
+	PROTO_DSM_RX	= 70,	// =>CYRF6936
+	PROTO_JJRC345	= 71,	// =>NRF24L01
+	PROTO_Q90C		= 72,	// =>NRF24L01 or CC2500
+	PROTO_KYOSHO	= 73,	// =>A7105
+	PROTO_RLINK		= 74,	// =>CC2500
+	PROTO_REALACC	= 76,	// =>NRF24L01
+	PROTO_OMP		= 77,	// =>CC2500 & NRF24L01
+
+	PROTO_NANORF	= 126,	// =>NRF24L01
+	PROTO_TEST		= 127,	// =>CC2500
 };
 
 enum Flysky
@@ -93,7 +116,7 @@ enum Flysky
 	V912	= 3,
 	CX20	= 4,
 };
-enum Flyzone
+enum Height
 {
 	FZ410	= 0,
 };
@@ -109,6 +132,8 @@ enum AFHDS2A
 	PPM_IBUS = 1,
 	PWM_SBUS = 2,
 	PPM_SBUS = 3,
+	PWM_IB16 = 4,
+	PPM_IB16 = 5,
 };
 enum Hisky
 {
@@ -179,6 +204,7 @@ enum BAYANG
     X16_AH  = 2,
 	IRDRONE = 3,
 	DHD_D4	= 4,
+	QX100   = 5,
 };
 enum MT99XX
 {
@@ -198,12 +224,19 @@ enum MJXQ
 	H26WH	= 5,
 	PHOENIX = 6,
 };
+enum FRSKYD
+{
+	FRSKYD	= 0,
+	DCLONE	= 1,
+};
 enum FRSKYX
 {
-	CH_16	= 0,
-	CH_8	= 1,
-	EU_16	= 2,
-	EU_8	= 3,
+	CH_16		= 0,
+	CH_8		= 1,
+	EU_16		= 2,
+	EU_8		= 3,
+	XCLONE_16	= 4,
+	XCLONE_8	= 5,
 };
 enum HONTAI
 {
@@ -216,6 +249,7 @@ enum V2X2
 {
 	V2X2	= 0,
 	JXD506	= 1,
+	V2X2_MR101 = 2,
 };
 enum FY326
 {
@@ -289,10 +323,91 @@ enum TRAXXAS
 {
 	RX6519	= 0,
 };
-enum FRSKYX_RX
+enum ESKY150
 {
-	FRSKYX_FCC	= 0,
-	FRSKYX_LBT
+	ESKY150_4CH	= 0,
+	ESKY150_7CH	= 1,
+};
+enum V911S
+{
+	V911S_STD	= 0,
+	V911S_E119	= 1,
+};
+enum XK
+{
+	X450	= 0,
+	X420	= 1,
+};
+enum XN297DUMP
+{
+	XN297DUMP_250K	= 0,
+	XN297DUMP_1M	= 1,
+	XN297DUMP_2M	= 2,
+	XN297DUMP_AUTO	= 3,
+};
+enum FRSKY_R9
+{
+	R9_915		= 0,
+	R9_868		= 1,
+	R9_915_8CH	= 2,
+	R9_868_8CH	= 3,
+	R9_FCC		= 4,
+	R9_EU		= 5,
+	R9_FCC_8CH	= 6,
+	R9_EU_8CH	= 7,
+};
+enum ESKY
+{
+	ESKY_STD	= 0,
+	ESKY_ET4	= 1,
+};
+
+enum FRSKY_RX
+{
+	FRSKY_RX	= 0,
+	FRSKY_CLONE	= 1,
+};
+
+enum FRSKYL
+{
+	LR12		= 0,
+	LR12_6CH	= 1,
+};
+
+enum HOTT
+{
+	HOTT_SYNC	= 0,
+	HOTT_NO_SYNC= 1,
+};
+
+enum PELIKAN
+{
+	PELIKAN_PRO	= 0,
+	PELIKAN_LITE= 1,
+};
+
+enum V761
+{
+	V761_3CH	= 0,
+	V761_4CH	= 1,
+};
+
+enum HEIGHT
+{
+	HEIGHT_5CH	= 0,
+	HEIGHT_8CH	= 1,
+};
+
+enum KYOSHO
+{
+	KYOSHO_FHSS	= 0,
+	KYOSHO_HYPE	= 1,
+};
+
+enum JJRC345
+{
+	JJRC345		= 0,
+	SKYTMBLR	= 1,
 };
 
 #define NONE 		0
@@ -303,16 +418,16 @@ enum FRSKYX_RX
 
 struct PPM_Parameters
 {
-	uint8_t protocol : 6;
-	uint8_t sub_proto : 3;
-	uint8_t rx_num : 4;
-	uint8_t power : 1;
-	uint8_t autobind : 1;
-	uint8_t option;
+	uint8_t protocol;
+	uint8_t sub_proto	: 3;
+	uint8_t rx_num		: 6;
+	uint8_t power		: 1;
+	uint8_t autobind	: 1;
+	int8_t option;
+	uint32_t chan_order;
 };
 
 // Telemetry
-
 enum MultiPacketTypes
 {
 	MULTI_TELEMETRY_STATUS			= 1,
@@ -321,18 +436,25 @@ enum MultiPacketTypes
 	MULTI_TELEMETRY_DSM				= 4,
 	MULTI_TELEMETRY_DSMBIND			= 5,
 	MULTI_TELEMETRY_AFHDS2A			= 6,
-	MULTI_TELEMETRY_CONFIG			= 7,
+	MULTI_TELEMETRY_REUSE_1			= 7,
 	MULTI_TELEMETRY_SYNC			= 8,
-	MULTI_TELEMETRY_SPORT_POLLING	= 9,
+	MULTI_TELEMETRY_REUSE_2			= 9,
 	MULTI_TELEMETRY_HITEC			= 10,
 	MULTI_TELEMETRY_SCANNER			= 11,
 	MULTI_TELEMETRY_AFHDS2A_AC		= 12,
 	MULTI_TELEMETRY_RX_CHANNELS		= 13,
+	MULTI_TELEMETRY_HOTT			= 14,
 };
 
 // Macros
 #define NOP() __asm__ __volatile__("nop")
 
+//***************
+//***  Tests  ***
+//***************
+#define IS_FAILSAFE_PROTOCOL	( (protocol==PROTO_HISKY && sub_protocol==HK310) || protocol==PROTO_AFHDS2A || protocol==PROTO_DEVO || protocol==PROTO_FUTABA || protocol==PROTO_WK2x01 || protocol== PROTO_HOTT || protocol==PROTO_FRSKYX || protocol==PROTO_FRSKYX2 || protocol==PROTO_FRSKY_R9)
+#define IS_CHMAP_PROTOCOL		( (protocol==PROTO_HISKY && sub_protocol==HK310) || protocol==PROTO_AFHDS2A || protocol==PROTO_DEVO || protocol==PROTO_FUTABA || protocol==PROTO_WK2x01 || protocol== PROTO_DSM || protocol==PROTO_SLT || protocol==PROTO_FLYSKY || (protocol==PROTO_KYOSHO && sub_protocol==KYOSHO_HYPE) || protocol==PROTO_ESKY || protocol==PROTO_J6PRO || protocol==PROTO_PELIKAN  || protocol==PROTO_SKYARTEC || protocol==PROTO_ESKY150V2 || protocol==PROTO_DSM_RX)
+
 //***************
 //***  Flags  ***
 //***************
@@ -388,6 +510,7 @@ enum MultiPacketTypes
 #define TX_RX_PAUSE_on		protocol_flags2 |= _BV(4)
 #define IS_TX_RX_PAUSE_on	( ( protocol_flags2 & _BV(4) ) !=0 )
 #define IS_TX_PAUSE_on		( ( protocol_flags2 & (_BV(4)|_BV(3)) ) !=0 )
+#define IS_TX_PAUSE_off		( ( protocol_flags2 & (_BV(4)|_BV(3)) ) ==0 )
 //Signal OK
 #define INPUT_SIGNAL_off	protocol_flags2 &= ~_BV(5)
 #define INPUT_SIGNAL_on		protocol_flags2 |= _BV(5)
@@ -403,6 +526,29 @@ enum MultiPacketTypes
 #define WAIT_BIND_on		protocol_flags2 |= _BV(7)
 #define IS_WAIT_BIND_on		( ( protocol_flags2 & _BV(7) ) !=0 )
 #define IS_WAIT_BIND_off	( ( protocol_flags2 & _BV(7) ) ==0 )
+//Incoming telemetry data buffer
+#define DATA_BUFFER_LOW_off		protocol_flags3 &= ~_BV(0)
+#define DATA_BUFFER_LOW_on		protocol_flags3 |= _BV(0)
+#define IS_DATA_BUFFER_LOW_on	( ( protocol_flags3 & _BV(0) ) !=0 )
+#define IS_DATA_BUFFER_LOW_off	( ( protocol_flags3 & _BV(0) ) ==0 )
+#define SEND_MULTI_STATUS_off		protocol_flags3 &= ~_BV(1)
+#define SEND_MULTI_STATUS_on		protocol_flags3 |= _BV(1)
+#define IS_SEND_MULTI_STATUS_on		( ( protocol_flags3 & _BV(1) ) !=0 )
+#define IS_SEND_MULTI_STATUS_off	( ( protocol_flags3 & _BV(1) ) ==0 )
+#define DISABLE_CH_MAP_off		protocol_flags3 &= ~_BV(2)
+#define DISABLE_CH_MAP_on		protocol_flags3 |= _BV(2)
+#define IS_DISABLE_CH_MAP_on	( ( protocol_flags3 & _BV(2) ) !=0 )
+#define IS_DISABLE_CH_MAP_off	( ( protocol_flags3 & _BV(2) ) ==0 )
+#define DISABLE_TELEM_off		protocol_flags3 &= ~_BV(3)
+#define DISABLE_TELEM_on		protocol_flags3 |= _BV(3)
+#define IS_DISABLE_TELEM_on		( ( protocol_flags3 & _BV(3) ) !=0 )
+#define IS_DISABLE_TELEM_off	( ( protocol_flags3 & _BV(3) ) ==0 )
+//LBT power
+#define LBT_POWER_off		protocol_flags3 &= ~_BV(7)
+#define LBT_POWER_on		protocol_flags3 |= _BV(7)
+#define IS_LBT_POWER_on		( ( protocol_flags3 & _BV(7) ) !=0 )
+#define IS_LBT_POWER_off	( ( protocol_flags3 & _BV(7) ) ==0 )
+
 
 // Failsafe
 #define FAILSAFE_CHANNEL_HOLD		2047
@@ -470,17 +616,17 @@ enum {
 };
 
 // A7105 power
-//	Power amp is ~+16dBm so:
+// The numbers do not take into account any outside amplifier
 enum A7105_POWER
 {
-	A7105_POWER_0 = 0x00<<3 | 0x00,	// TXPOWER_100uW  = -23dBm == PAC=0 TBG=0
-	A7105_POWER_1 = 0x00<<3 | 0x01,	// TXPOWER_300uW  = -20dBm == PAC=0 TBG=1
-	A7105_POWER_2 = 0x00<<3 | 0x02,	// TXPOWER_1mW    = -16dBm == PAC=0 TBG=2
-	A7105_POWER_3 = 0x00<<3 | 0x04,	// TXPOWER_3mW    = -11dBm == PAC=0 TBG=4
-	A7105_POWER_4 = 0x01<<3 | 0x05,	// TXPOWER_10mW   =  -6dBm == PAC=1 TBG=5
-	A7105_POWER_5 = 0x02<<3 | 0x07,	// TXPOWER_30mW   =   0dBm == PAC=2 TBG=7
-	A7105_POWER_6 = 0x03<<3 | 0x07,	// TXPOWER_100mW  =   1dBm == PAC=3 TBG=7
-	A7105_POWER_7 = 0x03<<3 | 0x07	// TXPOWER_150mW  =   1dBm == PAC=3 TBG=7
+	A7105_POWER_0 = 0x00<<3 | 0x00,	// -23dBm == PAC=0 TBG=0
+	A7105_POWER_1 = 0x00<<3 | 0x01,	// -20dBm == PAC=0 TBG=1
+	A7105_POWER_2 = 0x00<<3 | 0x02,	// -16dBm == PAC=0 TBG=2
+	A7105_POWER_3 = 0x00<<3 | 0x04,	// -11dBm == PAC=0 TBG=4
+	A7105_POWER_4 = 0x01<<3 | 0x05,	//  -6dBm == PAC=1 TBG=5
+	A7105_POWER_5 = 0x02<<3 | 0x07,	//   0dBm == PAC=2 TBG=7
+	A7105_POWER_6 = 0x03<<3 | 0x07,	//  +1dBm == PAC=3 TBG=7
+	A7105_POWER_7 = 0x03<<3 | 0x07	//  +1dBm == PAC=3 TBG=7
 };
 #define A7105_HIGH_POWER	A7105_POWER_7
 #define	A7105_LOW_POWER		A7105_POWER_3
@@ -488,14 +634,13 @@ enum A7105_POWER
 #define	A7105_BIND_POWER	A7105_POWER_0
 
 // NRF Power
-// Power setting is 0..3 for nRF24L01
-// Claimed power amp for nRF24L01 from eBay is 20dBm. 
+// The numbers do not take into account any outside amplifier
 enum NRF_POWER
-{						//      Raw            w 20dBm PA
-	NRF_POWER_0 = 0x00,	// 0 : -18dBm  (16uW)   2dBm (1.6mW)
-	NRF_POWER_1 = 0x01,	// 1 : -12dBm  (60uW)   8dBm   (6mW)
-	NRF_POWER_2 = 0x02,	// 2 :  -6dBm (250uW)  14dBm  (25mW)
-	NRF_POWER_3 = 0x03	// 3 :   0dBm   (1mW)  20dBm (100mW)
+{
+	NRF_POWER_0 = 0x00,	// -18dBm
+	NRF_POWER_1 = 0x01,	// -12dBm
+	NRF_POWER_2 = 0x02,	//  -6dBm
+	NRF_POWER_3 = 0x03	//   0dBm
 };
 #define NRF_HIGH_POWER		NRF_POWER_3
 #define	NRF_LOW_POWER		NRF_POWER_1
@@ -526,11 +671,13 @@ enum CC2500_POWER
 	CC2500_POWER_17 = 0xFF	//  +1dbm
 };
 #define CC2500_HIGH_POWER	CC2500_POWER_17
+#define CC2500_LBT_POWER	CC2500_POWER_14
 #define CC2500_LOW_POWER	CC2500_POWER_13
 #define CC2500_RANGE_POWER	CC2500_POWER_1
 #define CC2500_BIND_POWER	CC2500_POWER_1
 
 // CYRF power
+// The numbers do not take into account any outside amplifier
 enum CYRF_POWER
 {
 	CYRF_POWER_0 = 0x00,	// -35dbm
@@ -574,81 +721,119 @@ enum {
 #define AFHDS2A_EEPROM_OFFSET	50		// RX ID, 4 bytes per model id, end is 50+64=114
 #define BUGS_EEPROM_OFFSET		114		// RX ID, 2 bytes per model id, end is 114+32=146
 #define BUGSMINI_EEPROM_OFFSET	146		// RX ID, 2 bytes per model id, end is 146+32=178
-#define FRSKYX_RX_EEPROM_OFFSET	178		// (3) TX ID + (47) channels + (1) freq_tune, 51 bytes per model, end is 178+51=229
-//#define CONFIG_EEPROM_OFFSET 	210		// Current configuration of the multimodule
+#define FRSKY_RX_EEPROM_OFFSET	178		// (1) format + (3) TX ID + (1) freq_tune + (47) channels, 52 bytes, end is 178+52=230
+#define AFHDS2A_RX_EEPROM_OFFSET 230	// (4) TX ID + (16) channels, 20 bytes, end is 230+20=250
+#define AFHDS2A_EEPROM_OFFSET2	250		// RX ID, 4 bytes per model id, end is 250+192=442
+#define HOTT_EEPROM_OFFSET		442		// RX ID, 5 bytes per model id, end is 320+442=762
+#define BAYANG_RX_EEPROM_OFFSET	762		// (5) TX ID + (4) channels, 9 bytes, end is 771 
+#define FRSKYD_CLONE_EEPROM_OFFSET	771	// (1) format + (3) TX ID + (47) channels, 51 bytes, end is 822
+#define FRSKYX_CLONE_EEPROM_OFFSET	822	// (1) format + (3) TX ID + (47) channels, 51 bytes, end is 873
+#define FRSKYX2_CLONE_EEPROM_OFFSET	873	// (1) format + (3) TX ID, 4 bytes, end is 877
+#define DSM_RX_EEPROM_OFFSET	877		// (4) TX ID + format, 5 bytes, end is 882
+//#define CONFIG_EEPROM_OFFSET 	882		// Current configuration of the multimodule
+
+/* STM32 Flash Size */
+#ifndef DISABLE_FLASH_SIZE_CHECK
+	#ifdef MCU_STM32F103C8
+		#define MCU_EXPECTED_FLASH_SIZE 64	// STM32F103C8 has 64KB of flash space
+	#else
+		#define MCU_EXPECTED_FLASH_SIZE 128	// STM32F103CB has 128KB of flash space
+	#endif
+#endif
 
 //****************************************
 //*** MULTI protocol serial definition ***
 //****************************************
 /*
-**************************
+***************************
 16 channels serial protocol
-**************************
+***************************
 Serial: 100000 Baud 8e2      _ xxxx xxxx p --
-  Total of 26 bytes
-  Stream[0]   = 0x55	sub_protocol values are 0..31	Stream contains channels
-  Stream[0]   = 0x54	sub_protocol values are 32..63	Stream contains channels
-  Stream[0]   = 0x57	sub_protocol values are 0..31	Stream contains failsafe
-  Stream[0]   = 0x56	sub_protocol values are 32..63	Stream contains failsafe
-   header
+  Total of 26 bytes for protocol V1, variable length 27..36 for protocol V2
+  Stream[0]   = header
+				0x55	sub_protocol values are 0..31	Stream contains channels
+				0x54	sub_protocol values are 32..63	Stream contains channels
+				0x57	sub_protocol values are 0..31	Stream contains failsafe
+				0x56	sub_protocol values are 32..63	Stream contains failsafe
   Stream[1]   = sub_protocol|BindBit|RangeCheckBit|AutoBindBit;
-   sub_protocol is 0..31 (bits 0..4), value should be added with 32 if Stream[0] = 0x54
-   =>	Reserved	0
-					Flysky		1
-					Hubsan		2
-					FrskyD		3
-					Hisky		4
-					V2x2		5
-					DSM			6
-					Devo		7
-					YD717		8
-					KN			9
-					SymaX		10
-					SLT			11
-					CX10		12
-					CG023		13
-					Bayang		14
-					FrskyX		15
-					ESky		16
-					MT99XX		17
-					MJXQ		18
-					SHENQI		19
-					FY326		20
-					SFHSS		21
-					J6PRO		22
-					FQ777		23
-					ASSAN		24
-					FrskyV		25
-					HONTAI		26
-					OpenLRS		27
-					AFHDS2A		28
-					Q2X2		29
-					WK2x01		30
-					Q303		31
-					GW008		32
-					DM002		33
-					CABELL		34
-					ESKY150		35
-					H8_3D		36
-					CORONA		37
-					CFlie		38
-					Hitec		39
-					WFLY		40
-					BUGS		41
-					BUGSMINI	42
-					TRAXXAS		43
-					NCC1701		44
-					E01X		45
-					V911S		46
-					GD00X		47
-					V761		48
-					KF606		49
-					REDPINE		50
-					POTENSIC	51
-					ZSX			52
-					FLYZONE		53
-					SCANNER		54
-					FRSKYX_RX	55
+   sub_protocol is 0..31 (bits 0..4), value should be added with 32 if Stream[0] = 0x54 | 0x56
+				Reserved	0
+				Flysky		1
+				Hubsan		2
+				FrskyD		3
+				Hisky		4
+				V2x2		5
+				DSM			6
+				Devo		7
+				YD717		8
+				KN			9
+				SymaX		10
+				SLT			11
+				CX10		12
+				CG023		13
+				Bayang		14
+				FrskyX		15
+				ESky		16
+				MT99XX		17
+				MJXQ		18
+				SHENQI		19
+				FY326		20
+				Futaba		21
+				J6PRO		22
+				FQ777		23
+				ASSAN		24
+				FrskyV		25
+				HONTAI		26
+				OpenLRS		27
+				AFHDS2A		28
+				Q2X2		29
+				WK2x01		30
+				Q303		31
+				GW008		32
+				DM002		33
+				CABELL		34
+				ESKY150		35
+				H8_3D		36
+				CORONA		37
+				CFlie		38
+				Hitec		39
+				WFLY		40
+				BUGS		41
+				BUGSMINI	42
+				TRAXXAS		43
+				NCC1701		44
+				E01X		45
+				V911S		46
+				GD00X		47
+				V761		48
+				KF606		49
+				REDPINE		50
+				POTENSIC	51
+				ZSX			52
+				HEIGHT		53
+				SCANNER		54
+				FRSKY_RX	55
+				AFHDS2A_RX	56
+				HOTT		57
+				FX816		58
+				BAYANG_RX	59
+				PELIKAN		60
+				TIGER		61
+				XK			62
+				XN297DUMP	63
+				FRSKYX2		64
+				FRSKY_R9	65
+				PROPEL		66
+				FRSKYL		67
+				SKYARTEC	68
+				ESKY150V2	69
+				DSM_RX		70
+				JJRC345		71
+				Q90C		72
+				KYOSHO		73
+				RLINK		74
+				REALACC		76
+				OMP			77
    BindBit=>		0x80	1=Bind/0=No
    AutoBindBit=>	0x40	1=Yes /0=No
    RangeCheck=>		0x20	1=Yes /0=No
@@ -721,11 +906,21 @@ Serial: 100000 Baud 8e2      _ xxxx xxxx p --
 			E010		4
 			H26WH		5
 			PHOENIX		6
+		sub_protocol==FRSKYD
+			FRSKYD		0
+			DCLONE		1
 		sub_protocol==FRSKYX
 			CH_16		0
 			CH_8		1
 			EU_16		2
 			EU_8		3
+			XCLONE		4
+		sub_protocol==FRSKYX2
+			CH_16		0
+			CH_8		1
+			EU_16		2
+			EU_8		3
+			XCLONE		4
 		sub_protocol==HONTAI
 			HONTAI	0
 			JJRCX1	1
@@ -736,9 +931,12 @@ Serial: 100000 Baud 8e2      _ xxxx xxxx p --
 			PPM_IBUS	1
 			PWM_SBUS	2
 			PPM_SBUS	3
+			PWM_IB16	4
+			PPM_IB16	5
 		sub_protocol==V2X2
 			V2X2		0
 			JXD506		1
+			V2X2_MR101 2
 		sub_protocol==FY326
 			FY326		0
 			FY319		1
@@ -790,9 +988,48 @@ Serial: 100000 Baud 8e2      _ xxxx xxxx p --
 			RED_SLOW	1
 		sub_protocol==TRAXXAS
 			RX6519		0
-		sub_protocol==FRSKYX_RX
-			FCC			0
-			LBT			1
+		sub_protocol==ESKY150
+			ESKY150_4CH	0
+			ESKY150_7CH	1
+		sub_protocol==V911S
+			V911S_STD	0
+			V911S_E119	1
+		sub_protocol==XK
+			X450		0
+			X420		1
+		sub_protocol==FRSKY_R9
+			R9_915		0
+			R9_868		1
+			R9_915_8CH	2
+			R9_868_8CH	3
+			R9_FCC		4
+			R9_EU		5
+			R9_FCC_8CH	6
+			R9_EU_8CH	7
+		sub_protocol==ESKY
+			ESKY_STD	0
+			ESKY_ET4	1
+		sub_protocol==FRSKY_RX
+			FRSKY_RX	0
+			FRSKY_CLONE	1
+		sub_protocol==FRSKYL
+			LR12		0
+			LR12_6CH	1
+		sub_protocol==HOTT
+			HOTT_SYNC		0
+			HOTT_NO_SYNC	1
+		sub_protocol==PELIKAN
+			PELIKAN_PRO		0
+			PELIKAN_LITE	1
+		sub_protocol==V761
+			V761_3CH	0
+			V761_4CH	1
+		sub_protocol==HEIGHT
+			HEIGHT_5CH	0
+			HEIGHT_8CH	1
+		sub_protocol==JJRC345
+			JJRC345		0
+			SKYTMBLR	1
 
    Power value => 0x80	0=High/1=Low
   Stream[3]   = option_protocol;
@@ -807,6 +1044,19 @@ Serial: 100000 Baud 8e2      _ xxxx xxxx p --
    Values are concatenated to fit in 22 bytes like in SBUS protocol.
    Failsafe values have exactly the same range/values than normal channels except the extremes where
       0=no pulse, 2047=hold. If failsafe is not set or RX then failsafe packets should not be sent.
+  Stream[26]   = sub_protocol bits 6 & 7|RxNum bits 4 & 5|Telemetry_Invert 3|Future_Use 2|Disable_Telemetry 1|Disable_CH_Mapping 0
+   sub_protocol is 0..255 (bits 0..5 + bits 6..7)
+   RxNum value is 0..63 (bits 0..3 + bits 4..5)
+   Telemetry_Invert		=> 0x08	0=normal, 1=invert
+   Future_Use			=> 0x04	0=      , 1=
+   Disable_Telemetry	=> 0x02	0=enable, 1=disable
+   Disable_CH_Mapping	=> 0x01	0=enable, 1=disable
+  Stream[27.. 35] = between 0 and 9 bytes for additional protocol data
+    Protocol specific use:
+      FrSkyX and FrSkyX2: Stream[27] during bind Telem on=0x00,off=0x01 | CH1-8=0x00,CH9-16=0x02
+      FrSkyX and FrSkyX2: Stream[27..34] during normal operation unstuffed SPort data to be sent
+	  HoTT: Stream[27] 1 byte for telemetry type
+	  DSM: Stream[27..33] Forward Programming
 */
 /*
   Multimodule Status
@@ -826,7 +1076,9 @@ Serial: 100000 Baud 8e2      _ xxxx xxxx p --
    0x04 = Protocol is valid
    0x08 = Module is in binding mode
    0x10 = Module waits a bind event to load the protocol
-   0x20 = Failsafe supported by currently running protocol
+   0x20 = Current protocol supports failsafe
+   0x40 = Current protocol supports disable channel mapping
+   0x80 = Data buffer is almost full
    [3] major
    [4] minor
    [5] revision
@@ -860,18 +1112,38 @@ Serial: 100000 Baud 8e2      _ xxxx xxxx p --
    [4] Flags
    0x01 = Input signal detected
    0x02 = Serial mode enabled
-   0x04 = protocol is valid
-   0x08 = module is in binding mode
-   0x10 = module waits a bind event to load the protocol
+   0x04 = Protocol is valid
+   0x08 = Module is in binding mode
+   0x10 = Module waits a bind event to load the protocol
+   0x20 = Current protocol supports failsafe
+   0x40 = Current protocol supports disable channel mapping
+   0x80 = Data buffer is almost full
    [5] major
    [6] minor
    [7] revision
-   [8] patchlevel,
-   version of multi code, should be displayed as major.minor.revision.patchlevel
-
+   [8] patchlevel
+     version of multi code, should be displayed as major.minor.revision.patchlevel
+   [9] channel order: CH4|CH3|CH2|CH1 with CHx value A=0,E=1,T=2,R=3
+   [10] Next valid protocol number, can be used to skip invalid protocols
+   [11] Prev valid protocol number, can be used to skip invalid protocols
+   [12..18] Protocol name [7], not null terminated if prototcol len == 7
+   [19>>4] Option text to be displayed: 
+			OPTION_NONE		0
+			OPTION_OPTION	1
+			OPTION_RFTUNE	2
+			OPTION_VIDFREQ	3
+			OPTION_FIXEDID	4
+			OPTION_TELEM	5
+			OPTION_SRVFREQ	6
+			OPTION_MAXTHR	7
+			OPTION_RFCHAN	8
+			OPTION_RFPOWER	9
+   [19&0x0F] Number of sub protocols
+   [20..27] Sub protocol name [8], not null terminated if sub prototcol len == 8
+   If the current protocol is invalid [12..27] are all 0x00.
+   
    more information can be added by specifing a longer length of the type, the TX will just ignore these bytes
 
-
   Type 0x02 Frksy S.port telemetry
   Type 0x03 Frsky Hub telemetry
 
@@ -892,6 +1164,19 @@ Serial: 100000 Baud 8e2      _ xxxx xxxx p --
    data[0] = RSSI value
    data[1-28] telemetry data
 
+  Type 0x08 Input synchronisation
+    Informs the TX about desired rate and current delay
+    length: 4
+    data[0-1]     Desired refresh rate in ??s
+    data[2-3]     Time (??s) between last serial servo input received and servo input needed (lateness), TX should adjust its
+                  sending time to minimise this value.
+	data[4]		  Interval of this message in ms
+	data[5]		  Input delay target in 10??s
+   Note that there are protocols (AFHDS2A) that have a refresh rate that is smaller than the maximum achievable
+   refresh rate via the serial protocol, in this case, the TX should double the rate and also subract this
+   refresh rate from the input lag if the input lag is more than the desired refresh rate.
+   The remote should try to get to zero of  (inputdelay+target*10).
+
   Type 0x0A Hitec telemetry data
    length: 8
    data[0] = TX RSSI value
@@ -918,4 +1203,12 @@ Serial: 100000 Baud 8e2      _ xxxx xxxx p --
    data[3] = number of channels to follow
    data[4-]= packed channels data, 11 bit per channel
 
+  Type 0x0E HoTT telemetry
+   length: 14
+   data[0] = TX_RSSI
+   data[1] = TX_LQI
+   data[2] = type
+   data[3] = page
+   data[4-13] = data
+
 */

Multiprotocol/NCC1701_nrf24l01.ino

@@ -197,6 +197,9 @@ uint16_t NCC_callback()
 			phase = NCC_BIND_TX2;
 			return NCC_PACKET_INTERVAL - NCC_WRITE_WAIT;
 		case NCC_TX3:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(NCC_PACKET_INTERVAL);
+			#endif
 			if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
 			{ // RX fifo data ready
 				NRF24L01_ReadPayload(packet, NCC_RX_PACKET_LEN);
@@ -268,9 +271,6 @@ uint16_t initNCC(void)
 	hopping_frequency_no=4;		// start with bind
 	NCC_init();
 	phase=NCC_BIND_TX1;
-	#ifdef NCC1701_HUB_TELEMETRY
-		init_frskyd_link_telemetry();
-	#endif
 	return 10000;
 }
 

Multiprotocol/NRF24l01_SPI.ino

@@ -172,6 +172,10 @@ void NRF24L01_SetPower()
 	if(prev_power != power)
 	{
 		rf_setup = (rf_setup & 0xF9) | (power << 1);
+		if(power==3)
+			rf_setup |=0x01;	// Si24r01 full power, unused bit for NRF
+		else
+			rf_setup &=0xFE;
 		NRF24L01_WriteReg(NRF24L01_06_RF_SETUP, rf_setup);
 		prev_power=power;
 	}
@@ -505,7 +509,7 @@ boolean XN297_ReadPayload(uint8_t* msg, uint8_t len)
 	//process address
 	for (uint8_t i = 0; i < xn297_addr_len; ++i)
 	{
-		uint8_t b_in=xn297_tx_addr[xn297_addr_len-i-1];
+		uint8_t b_in=xn297_rx_addr[xn297_addr_len-i-1];
 		if(xn297_scramble_enabled)
 			b_in ^=  xn297_scramble[i];
 		crc = crc16_update(crc, b_in, 8);
@@ -525,10 +529,13 @@ boolean XN297_ReadPayload(uint8_t* msg, uint8_t len)
 }
 
 uint8_t XN297_ReadEnhancedPayload(uint8_t* msg, uint8_t len)
-{
+{ //!!! Don't forget do a +2 and if using CRC add +4 on any of the used NRF24L01_11_RX_PW_Px !!!
 	uint8_t buffer[32];
 	uint8_t pcf_size; // pcf payload size
-	NRF24L01_ReadPayload(buffer, len+2); // pcf + payload
+	if (xn297_crc)
+		NRF24L01_ReadPayload(buffer, len+4);	// Read pcf + payload + CRC 
+	else
+		NRF24L01_ReadPayload(buffer, len+2);	// Read pcf + payload
 	pcf_size = buffer[0];
 	if(xn297_scramble_enabled)
 		pcf_size ^= xn297_scramble[xn297_addr_len];
@@ -540,7 +547,35 @@ uint8_t XN297_ReadEnhancedPayload(uint8_t* msg, uint8_t len)
 			msg[i] ^= bit_reverse((xn297_scramble[xn297_addr_len+i+1] << 2) | 
 									(xn297_scramble[xn297_addr_len+i+2] >> 6));
 	}
-	return pcf_size;
+
+	if (!xn297_crc)
+		return pcf_size;	// No CRC so OK by default...
+
+	// Calculate CRC
+	uint16_t crc = 0xb5d2;
+	//process address
+	for (uint8_t i = 0; i < xn297_addr_len; ++i)
+	{
+		uint8_t b_in=xn297_rx_addr[xn297_addr_len-i-1];
+		if(xn297_scramble_enabled)
+			b_in ^=  xn297_scramble[i];
+		crc = crc16_update(crc, b_in, 8);
+	}
+	//process payload
+	for (uint8_t i = 0; i < len+1; ++i)
+		crc = crc16_update(crc, buffer[i], 8);
+	crc = crc16_update(crc, buffer[len+1] & 0xc0, 2);
+	//xorout
+	if (xn297_scramble_enabled)
+		crc ^= pgm_read_word(&xn297_crc_xorout_scrambled_enhanced[xn297_addr_len-3+len]);
+#ifdef XN297DUMP_NRF24L01_INO
+	else
+		crc ^= pgm_read_word(&xn297_crc_xorout_enhanced[xn297_addr_len - 3 + len]);
+#endif
+	uint16_t crcxored=(buffer[len+1]<<10)|(buffer[len+2]<<2)|(buffer[len+3]>>6) ;
+	if( crc == crcxored)
+		return pcf_size;	// CRC  OK
+	return 0;				// CRC NOK
 }
  
  // End of XN297 emulation

Multiprotocol/NRF250K_EMU.ino

@@ -0,0 +1,464 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+#ifdef NRF24L01_INSTALLED
+#include "iface_nrf250k.h"
+
+static void __attribute__((unused)) XN297L_Init()
+{
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+	{//NRF
+		debugln("Using NRF");
+		PE1_on;							//NRF24L01 antenna RF3 by default
+		PE2_off;						//NRF24L01 antenna RF3 by default
+		NRF24L01_Initialize();
+		NRF24L01_SetTxRxMode(TX_EN);
+		NRF24L01_FlushTx();
+		NRF24L01_FlushRx();
+		NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);	// Clear data ready, data sent, and retransmit
+		NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);		// No Auto Acknowldgement on all data pipes
+		NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x01);	// Enable data pipe 0 only
+		NRF24L01_SetBitrate(NRF24L01_BR_250K);			// 250Kbps
+		NRF24L01_SetPower();
+		return;
+	}
+	//CC2500
+	#ifdef CC2500_INSTALLED
+		debugln("Using CC2500");
+		PE1_off; // antenna RF2
+		PE2_on;
+		CC2500_Reset();
+		CC2500_Strobe(CC2500_SIDLE);
+
+		// Address Config = No address check
+		// Base Frequency = 2400
+		// CRC Autoflush = false
+		// CRC Enable = false
+		// Channel Spacing = 333.251953
+		// Data Format = Normal mode
+		// Data Rate = 249.939
+		// Deviation = 126.953125
+		// Device Address = 0
+		// Manchester Enable = false
+		// Modulated = true
+		// Modulation Format = GFSK
+		// Packet Length Mode = Variable packet length mode. Packet length configured by the first byte after sync word
+		// RX Filter BW = 203.125000
+		// Sync Word Qualifier Mode = No preamble/sync
+		// TX Power = 0
+		// Whitening = false
+		// Fast Frequency Hopping - no PLL auto calibration
+
+		CC2500_WriteReg(CC2500_08_PKTCTRL0,	0x01);   // Packet Automation Control
+		CC2500_WriteReg(CC2500_0B_FSCTRL1,	0x0A);   // Frequency Synthesizer Control
+		CC2500_WriteReg(CC2500_0C_FSCTRL0, option);  // Frequency offset hack 
+		CC2500_WriteReg(CC2500_0D_FREQ2,	0x5C);   // Frequency Control Word, High Byte
+		CC2500_WriteReg(CC2500_0E_FREQ1,	0x4E);   // Frequency Control Word, Middle Byte
+		CC2500_WriteReg(CC2500_0F_FREQ0,	0xC3);   // Frequency Control Word, Low Byte
+		CC2500_WriteReg(CC2500_10_MDMCFG4,	0x8D);   // Modem Configuration
+		CC2500_WriteReg(CC2500_11_MDMCFG3,	0x3B);   // Modem Configuration
+		CC2500_WriteReg(CC2500_12_MDMCFG2,	0x10);   // Modem Configuration
+		CC2500_WriteReg(CC2500_13_MDMCFG1,	0x23);   // Modem Configuration
+		CC2500_WriteReg(CC2500_14_MDMCFG0,	0xA4);   // Modem Configuration
+		CC2500_WriteReg(CC2500_15_DEVIATN,	0x62);   // Modem Deviation Setting
+		CC2500_WriteReg(CC2500_18_MCSM0,	0x08);   // Main Radio Control State Machine Configuration
+		CC2500_WriteReg(CC2500_19_FOCCFG,	0x1D);   // Frequency Offset Compensation Configuration
+		CC2500_WriteReg(CC2500_1A_BSCFG,	0x1C);   // Bit Synchronization Configuration
+		CC2500_WriteReg(CC2500_1B_AGCCTRL2, 0xC7);   // AGC Control
+		CC2500_WriteReg(CC2500_1C_AGCCTRL1, 0x00);   // AGC Control
+		CC2500_WriteReg(CC2500_1D_AGCCTRL0, 0xB0);   // AGC Control
+		CC2500_WriteReg(CC2500_21_FREND1,	0xB6);   // Front End RX Configuration
+		CC2500_WriteReg(CC2500_23_FSCAL3,	0xEA);   // Frequency Synthesizer Calibration
+		CC2500_WriteReg(CC2500_25_FSCAL1,	0x00);   // Frequency Synthesizer Calibration
+		CC2500_WriteReg(CC2500_26_FSCAL0,	0x11);   // Frequency Synthesizer Calibration
+
+		CC2500_SetTxRxMode(TX_EN);
+		CC2500_SetPower();
+		xn297_scramble_enabled=XN297_SCRAMBLED;	//enabled by default
+	#endif
+}
+
+static void __attribute__((unused)) XN297L_SetTXAddr(const uint8_t* addr, uint8_t len)
+{
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+	{//NRF
+		XN297_SetTXAddr(addr,len);
+		return;
+	}
+	//CC2500
+	#ifdef CC2500_INSTALLED
+		if (len > 5) len = 5;
+		if (len < 3) len = 3;
+		xn297_addr_len = len;
+		memcpy(xn297_tx_addr, addr, len);
+	#endif
+}
+
+static void __attribute__((unused)) XN297L_WritePayload(uint8_t* msg, uint8_t len)
+{
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+	{//NRF
+		XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP));
+		NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
+		NRF24L01_FlushTx();
+		XN297_WritePayload(msg, len);
+		return;
+	}
+	//CC2500
+	#ifdef CC2500_INSTALLED
+		uint8_t buf[32];
+		uint8_t last = 0;
+		uint8_t i;
+		static const uint16_t initial = 0xb5d2;
+
+		// address
+		for (i = 0; i < xn297_addr_len; ++i)
+		{
+			buf[last] = xn297_tx_addr[xn297_addr_len - i - 1];
+			if(xn297_scramble_enabled)
+				buf[last] ^=  xn297_scramble[i];
+			last++;
+		}
+
+		// payload
+		for (i = 0; i < len; ++i) {
+			// bit-reverse bytes in packet
+			buf[last] = bit_reverse(msg[i]);
+			if(xn297_scramble_enabled)
+				buf[last] ^= xn297_scramble[xn297_addr_len+i];
+			last++;
+		}
+
+		// crc
+		uint16_t crc = initial;
+		for (uint8_t i = 0; i < last; ++i)
+			crc = crc16_update(crc, buf[i], 8);
+		if(xn297_scramble_enabled)
+			crc ^= pgm_read_word(&xn297_crc_xorout_scrambled[xn297_addr_len - 3 + len]);
+		else
+			crc ^= pgm_read_word(&xn297_crc_xorout[xn297_addr_len - 3 + len]);
+		buf[last++] = crc >> 8;
+		buf[last++] = crc & 0xff;
+
+		// stop TX/RX
+		CC2500_Strobe(CC2500_SIDLE);
+		// flush tx FIFO
+		CC2500_Strobe(CC2500_SFTX);
+		// packet length
+		CC2500_WriteReg(CC2500_3F_TXFIFO, last + 3);
+		// xn297L preamble
+		CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, (uint8_t*)"\x71\x0f\x55", 3);
+		// xn297 packet
+		CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, buf, last);
+		// transmit
+		CC2500_Strobe(CC2500_STX);
+	#endif
+}
+
+static void __attribute__((unused)) XN297L_WriteEnhancedPayload(uint8_t* msg, uint8_t len, uint8_t noack)
+{
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+	{//NRF
+		XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP));
+		NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
+		NRF24L01_FlushTx();
+		XN297_WriteEnhancedPayload(msg, len, noack);
+		return;
+	}
+	//CC2500
+	#ifdef CC2500_INSTALLED
+		uint8_t buf[32];
+		uint8_t scramble_index=0;
+		uint8_t last = 0;
+		static uint8_t pid=0;
+
+		// address
+		for (uint8_t i = 0; i < xn297_addr_len; ++i)
+		{
+			buf[last] = xn297_tx_addr[xn297_addr_len-i-1];
+			if(xn297_scramble_enabled)
+				buf[last] ^= xn297_scramble[scramble_index++];
+			last++;
+		}
+
+		// pcf
+		buf[last] = (len << 1) | (pid>>1);
+		if(xn297_scramble_enabled)
+			buf[last] ^= xn297_scramble[scramble_index++];
+		last++;
+		buf[last] = (pid << 7) | (noack << 6);
+
+		// payload
+		buf[last]|= bit_reverse(msg[0]) >> 2; // first 6 bit of payload
+		if(xn297_scramble_enabled)
+			buf[last] ^= xn297_scramble[scramble_index++];
+
+		for (uint8_t i = 0; i < len-1; ++i)
+		{
+			last++;
+			buf[last] = (bit_reverse(msg[i]) << 6) | (bit_reverse(msg[i+1]) >> 2);
+			if(xn297_scramble_enabled)
+				buf[last] ^= xn297_scramble[scramble_index++];
+		}
+
+		last++;
+		buf[last] = bit_reverse(msg[len-1]) << 6; // last 2 bit of payload
+		if(xn297_scramble_enabled)
+			buf[last] ^= xn297_scramble[scramble_index++] & 0xc0;
+
+		// crc
+		//if (xn297_crc)
+		{
+			uint16_t crc = 0xb5d2;
+			for (uint8_t i = 0; i < last; ++i)
+				crc = crc16_update(crc, buf[i], 8);
+			crc = crc16_update(crc, buf[last] & 0xc0, 2);
+			if (xn297_scramble_enabled)
+				crc ^= pgm_read_word(&xn297_crc_xorout_scrambled_enhanced[xn297_addr_len-3+len]);
+			//else
+			//	crc ^= pgm_read_word(&xn297_crc_xorout_enhanced[xn297_addr_len - 3 + len]);
+
+			buf[last++] |= (crc >> 8) >> 2;
+			buf[last++] = ((crc >> 8) << 6) | ((crc & 0xff) >> 2);
+			buf[last++] = (crc & 0xff) << 6;
+		}
+
+		pid++;
+		pid &= 3;
+
+		// stop TX/RX
+		CC2500_Strobe(CC2500_SIDLE);
+		// flush tx FIFO
+		CC2500_Strobe(CC2500_SFTX);
+		// packet length
+		CC2500_WriteReg(CC2500_3F_TXFIFO, last + 3);
+		// xn297L preamble
+		CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, (uint8_t*)"\x71\x0F\x55", 3);
+		// xn297 packet
+		CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, buf, last);
+		// transmit
+		CC2500_Strobe(CC2500_STX);
+	#endif
+}
+
+static void __attribute__((unused)) XN297L_HoppingCalib(uint8_t num_freq)
+{	//calibrate hopping frequencies
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+		return;		//NRF
+	#ifdef CC2500_INSTALLED
+		for (uint8_t i = 0; i < num_freq; i++)
+		{
+			CC2500_Strobe(CC2500_SIDLE);
+			CC2500_WriteReg(CC2500_0A_CHANNR, hopping_frequency[i]*3);
+			CC2500_Strobe(CC2500_SCAL);
+			delayMicroseconds(900);
+			calData[i]=CC2500_ReadReg(CC2500_25_FSCAL1);
+		}
+	#endif
+}
+
+static void __attribute__((unused)) XN297L_Hopping(uint8_t index)
+{
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+	{//NRF
+		NRF24L01_WriteReg(NRF24L01_05_RF_CH, hopping_frequency[index]);
+		return;
+	}
+	#ifdef CC2500_INSTALLED
+		// spacing is 333.25 kHz, must multiply xn297 channel by 3
+		CC2500_WriteReg(CC2500_0A_CHANNR, hopping_frequency[index] * 3);
+		// set PLL calibration
+		CC2500_WriteReg(CC2500_25_FSCAL1, calData[index]);
+	#endif
+}
+
+static void __attribute__((unused)) XN297L_RFChannel(uint8_t number)
+{	//change channel
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+	{//NRF
+		NRF24L01_WriteReg(NRF24L01_05_RF_CH, number);
+		return;
+	}
+	#ifdef CC2500_INSTALLED
+		CC2500_Strobe(CC2500_SIDLE);
+		CC2500_WriteReg(CC2500_0A_CHANNR, number*3);
+		CC2500_Strobe(CC2500_SCAL);
+		delayMicroseconds(900);
+	#endif
+}
+
+static void __attribute__((unused)) XN297L_SetPower()
+{
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+	{//NRF
+		NRF24L01_SetPower();
+		return;
+	}
+	#ifdef CC2500_INSTALLED
+		CC2500_SetPower();
+	#endif
+}
+
+static void __attribute__((unused)) XN297L_SetFreqOffset()
+{	// Frequency offset
+	#ifdef CC2500_INSTALLED
+	if(option==0 && prev_option==0)
+	#endif
+		return;		//NRF
+	#ifdef CC2500_INSTALLED
+		if (prev_option != option)
+		{
+			if(prev_option==0 || option==0)
+				CHANGE_PROTOCOL_FLAG_on;
+			prev_option = option;
+			CC2500_WriteReg(CC2500_0C_FSCTRL0, option);
+		}
+	#endif
+}
+
+static void __attribute__((unused)) NRF250K_SetTXAddr(uint8_t* addr, uint8_t len)
+{
+	if (len > 5) len = 5;
+	if (len < 3) len = 3;
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+	{//NRF
+		NRF24L01_WriteReg(NRF24L01_03_SETUP_AW, len-2);
+		NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR, addr, len);
+		return;
+	}
+	//CC2500
+	#ifdef CC2500_INSTALLED
+		xn297_addr_len = len;
+		memcpy(xn297_tx_addr, addr, len);
+	#endif
+}
+
+static void __attribute__((unused)) NRF250K_WritePayload(uint8_t* msg, uint8_t len)
+{
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+	{//NRF
+		NRF24L01_FlushTx();
+		NRF24L01_WriteReg(NRF24L01_07_STATUS, _BV(NRF24L01_07_TX_DS) | _BV(NRF24L01_07_RX_DR) | _BV(NRF24L01_07_MAX_RT));
+		NRF24L01_WritePayload(msg, len);
+		return;
+	}
+	//CC2500
+	#ifdef CC2500_INSTALLED
+		#if defined(ESKY150V2_CC2500_INO)
+			uint8_t buf[158];
+		#else
+			uint8_t buf[35];
+		#endif
+		uint8_t last = 0;
+		uint8_t i;
+
+		//nrf preamble
+		if(xn297_tx_addr[xn297_addr_len - 1] & 0x80)
+			buf[0]=0xAA;
+		else
+			buf[0]=0x55;
+		last++;
+		// address
+		for (i = 0; i < xn297_addr_len; ++i)
+			buf[last++] = xn297_tx_addr[xn297_addr_len - i - 1];
+		// payload
+		for (i = 0; i < len; ++i)
+			buf[last++] = msg[i];
+
+		// crc
+		uint16_t crc = 0xffff;
+		for (uint8_t i = 1; i < last; ++i)
+			crc = crc16_update(crc, buf[i], 8);
+		buf[last++] = crc >> 8;
+		buf[last++] = crc & 0xff;
+		buf[last++] = 0;
+
+		//for(uint8_t i=0;i<last;i++)
+		//	debug("%02X ",buf[i]);
+		//debugln("");
+		// stop TX/RX
+		CC2500_Strobe(CC2500_SIDLE);
+		// flush tx FIFO
+		CC2500_Strobe(CC2500_SFTX);
+		// packet length
+		CC2500_WriteReg(CC2500_3F_TXFIFO, last);
+		// transmit nrf packet
+		uint8_t *buff=buf;
+		uint8_t status;
+		if(last>63)
+		{
+			CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, buff, 63);
+			CC2500_Strobe(CC2500_STX);
+			last-=63;
+			buff+=63;
+			while(last)
+			{//Loop until all the data is sent
+				do
+				{// Wait for the FIFO to become available
+					status=CC2500_ReadReg(CC2500_3A_TXBYTES | CC2500_READ_BURST);
+				}
+				while((status&0x7F)>31 && (status&0x80)==0);
+				if(last>31)
+				{//Send 31 bytes
+					CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, buff, 31);
+					last-=31;
+					buff+=31;
+				}
+				else
+				{//Send last bytes
+					CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, buff, last);
+					last=0;
+				}
+			}
+		}
+		else
+		{//Send packet
+			CC2500_WriteRegisterMulti(CC2500_3F_TXFIFO, buff, last);
+			CC2500_Strobe(CC2500_STX);
+		}
+	#endif
+}
+
+static boolean __attribute__((unused)) NRF250K_IsPacketSent()
+{
+	#ifdef CC2500_INSTALLED
+	if(option==0)
+	#endif
+	{	//NRF
+		return NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_TX_DS);
+	}
+	return true;	// don't know on the CC2500 how to detect if the packet has been transmitted...
+}
+
+#endif

Multiprotocol/NanoRF_nrf24l01.ino

@@ -0,0 +1,73 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(NANORF_NRF24L01_INO)
+
+#include "iface_nrf24l01.h"
+
+#define NANORF_PACKET_PERIOD		40000
+#define NANORF_INITIAL_WAIT			500
+#define NANORF_RF_CHANNEL			40
+#define NANORF_PAYLOADSIZE			7
+
+static void __attribute__((unused)) NANORF_send_packet()
+{
+	packet[0] = convert_channel_8b(AILERON);
+	packet[1] = convert_channel_8b(ELEVATOR);
+	packet[2] = convert_channel_8b(THROTTLE);
+	packet[3] = convert_channel_8b(RUDDER);
+	packet[4] = convert_channel_8b(CH5);
+	packet[5] = convert_channel_8b(CH6);
+	packet[6] = 0;
+	for (uint8_t i=0; i < NANORF_PAYLOADSIZE-1; i++)
+		packet[6] += packet[i];
+	packet[6] += 0x55;
+
+	// clear packet status bits and TX FIFO
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
+	NRF24L01_FlushTx();
+	NRF24L01_WritePayload(packet, NANORF_PAYLOADSIZE);
+
+}
+
+static void __attribute__((unused)) NANORF_init()
+{
+	NRF24L01_Initialize();
+	NRF24L01_SetTxRxMode(TX_EN);
+	NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR , (uint8_t *)"Nano1",5);
+	NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);      // No Auto Acknoledgement
+	NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x01);  // Enable all data pipes (even though not used?)
+	NRF24L01_WriteReg(NRF24L01_03_SETUP_AW, 0x03);   // 5-byte RX/TX address
+	NRF24L01_WriteReg(NRF24L01_04_SETUP_RETR, 0x00); // 4mS retransmit t/o, 15 tries (retries w/o AA?)
+	NRF24L01_WriteReg(NRF24L01_05_RF_CH, NANORF_RF_CHANNEL);
+	NRF24L01_SetBitrate(NRF24L01_BR_1M);
+	NRF24L01_SetPower();	// Set tx_power
+	NRF24L01_WriteReg(NRF24L01_00_CONFIG, _BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP));  // 
+}
+
+uint16_t NANORF_callback()
+{
+	NANORF_send_packet();
+	return NANORF_PACKET_PERIOD;
+}
+
+uint16_t initNANORF()
+{	
+	BIND_DONE;
+	NANORF_init();
+	return	NANORF_INITIAL_WAIT;
+}
+
+#endif

Multiprotocol/OMP_cc2500.ino

@@ -0,0 +1,298 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(OMP_CC2500_INO)
+
+#include "iface_nrf250k.h"
+
+//#define FORCE_OMP_ORIGINAL_ID
+//#define OMP_TELEM_DEBUG
+
+#define OMP_INITIAL_WAIT	500
+#define OMP_PACKET_PERIOD	5000
+#define OMP_RF_BIND_CHANNEL	35
+#define OMP_RF_NUM_CHANNELS	8
+#define OMP_PAYLOAD_SIZE	16
+#define OMP_BIND_COUNT		600	//3sec
+
+static void __attribute__((unused)) OMP_send_packet()
+{
+#ifdef OMP_HUB_TELEMETRY
+	if(option==0) option=1;								// Select the CC2500 by default
+	PE1_off; PE2_on; 									// CC2500 antenna RF2
+#endif
+
+	if(IS_BIND_IN_PROGRESS)
+	{
+		memcpy(packet,"BND",3);
+		memcpy(&packet[3],rx_tx_addr,5);
+		memcpy(&packet[8],hopping_frequency,8);
+	}
+	else
+	{
+		memset(packet,0x00,OMP_PAYLOAD_SIZE);
+
+#ifdef OMP_HUB_TELEMETRY
+		//RX telem request every 7*5=35ms
+		packet_sent++;
+		packet_sent %= OMP_RF_NUM_CHANNELS-1;			// Change telem RX channels every time
+		if(packet_sent==0)
+		{
+			packet[0] |= 0x40;							// |0x40 to request RX telemetry
+			NRF24L01_WriteReg(NRF24L01_05_RF_CH, hopping_frequency[hopping_frequency_no]);
+		}
+#endif
+		
+		//hopping frequency
+		packet[0 ] |= hopping_frequency_no;
+		XN297L_Hopping(hopping_frequency_no);
+		hopping_frequency_no++;
+		hopping_frequency_no &= OMP_RF_NUM_CHANNELS-1;	// 8 RF channels
+
+		//flags
+		packet[1 ] = 0x08								//unknown
+				   | GET_FLAG(CH5_SW, 0x20);			// HOLD
+
+		packet[2 ] = 0x40;								//unknown
+		
+		if(Channel_data[CH6] > CHANNEL_MAX_COMMAND)
+			packet[2 ] |= 0x20;							// IDLE2
+		else if(Channel_data[CH6] > CHANNEL_MIN_COMMAND)
+			packet[1 ] |= 0x40;							// IDLE1
+
+		if(Channel_data[CH7] > CHANNEL_MAX_COMMAND)
+			packet[2 ] |= 0x08;							// 3D
+		else if(Channel_data[CH7] > CHANNEL_MIN_COMMAND)
+			packet[2 ] |= 0x04;							// ATTITUDE
+
+		//trims??
+		//packet[3..6]
+
+		//channels TAER packed 11bits
+		uint16_t channel=convert_channel_16b_limit(THROTTLE,0,2047);
+		packet[7 ]  = channel;
+		packet[8 ]  = channel>>8;
+		channel=convert_channel_16b_limit(AILERON,2047,0);
+		packet[8 ] |= channel<<3;
+		packet[9 ]  = channel>>5;
+		channel=convert_channel_16b_limit(ELEVATOR,0,2047);
+		packet[9] |= channel<<6;
+		packet[10]  = channel>>2;
+		packet[11]  = channel>>10;
+		channel=convert_channel_16b_limit(RUDDER,2047,0);
+		packet[11] |= channel<<1;
+		packet[12]  = channel>>7;
+
+		//unknown
+		//packet[13..15]
+		packet[15] = 0x04;
+	}
+
+	XN297L_SetPower();									// Set tx_power
+	XN297L_SetFreqOffset();								// Set frequency offset
+	XN297L_WriteEnhancedPayload(packet, OMP_PAYLOAD_SIZE, packet_sent!=0);
+}
+
+static void __attribute__((unused)) OMP_init()
+{
+	//Config CC2500
+#ifdef OMP_HUB_TELEMETRY
+	if(option==0)
+		option=1;								// Select the CC2500
+#endif
+	XN297L_Init();
+	XN297L_SetTXAddr((uint8_t*)"FLPBD", 5);
+	XN297L_HoppingCalib(OMP_RF_NUM_CHANNELS);	// Calibrate all channels
+	XN297L_RFChannel(OMP_RF_BIND_CHANNEL);		// Set bind channel
+
+#ifdef OMP_HUB_TELEMETRY
+	//Config NRF
+	option=0;									// Select the NRF
+	XN297L_Init();
+	XN297_Configure(_BV(NRF24L01_00_EN_CRC));
+	XN297_SetRXAddr(rx_tx_addr, 5);				// Set the RX address
+	NRF24L01_SetTxRxMode(TXRX_OFF);				// Turn it off for now
+	NRF24L01_WriteReg(NRF24L01_11_RX_PW_P0, OMP_PAYLOAD_SIZE + 4); // packet length +4 bytes of PCF+CRC
+#endif
+}
+
+static void __attribute__((unused)) OMP_initialize_txid()
+{
+	calc_fh_channels(OMP_RF_NUM_CHANNELS);
+	#ifdef FORCE_OMP_ORIGINAL_ID
+		rx_tx_addr[0]=0x4E;
+		rx_tx_addr[1]=0x72;
+		rx_tx_addr[2]=0x8E;
+		rx_tx_addr[3]=0x70;
+		rx_tx_addr[4]=0x62;
+		for(uint8_t i=0; i<OMP_RF_NUM_CHANNELS;i++)
+			hopping_frequency[i]=(i+3)*5;
+	#endif
+}
+
+static void __attribute__((unused)) OMP_Send_Telemetry(uint8_t v)
+{
+	v_lipo1=v;
+	telemetry_counter++;	//LQI
+	telemetry_link=1;
+	if(telemetry_lost)
+	{
+		telemetry_lost = 0;
+		packet_count = 100;
+		telemetry_counter = 100;
+	}
+}
+
+enum {
+	OMP_BIND		= 0x00,
+	OMP_PREPDATA	= 0x01,
+	OMP_DATA		= 0x02,
+	OMP_RX			= 0x03,
+};
+
+#define OMP_WRITE_TIME 850
+
+uint16_t OMP_callback()
+{
+	switch(phase)
+	{
+		case OMP_BIND:
+			if(--bind_counter==0)
+				phase++;						// OMP_PREPDATA
+			OMP_send_packet();
+			return OMP_PACKET_PERIOD;
+		case OMP_PREPDATA:
+			BIND_DONE;
+			XN297L_SetTXAddr(rx_tx_addr, 5);
+			phase++;							// OMP_DATA
+		case OMP_DATA:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(OMP_PACKET_PERIOD);
+			#endif
+			OMP_send_packet();
+			#ifdef OMP_HUB_TELEMETRY
+				if(packet_sent == 0)
+				{
+					phase++;						// OMP_RX
+					return OMP_WRITE_TIME;
+				}
+				else if(packet_sent == 1)
+				{
+					if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
+					{ // a packet has been received
+						if(XN297_ReadEnhancedPayload(packet_in, OMP_PAYLOAD_SIZE) == OMP_PAYLOAD_SIZE)
+						{ // packet with good CRC and length
+							#ifdef OMP_TELEM_DEBUG
+								debug("OK :");
+								for(uint8_t i=0;i<OMP_PAYLOAD_SIZE;i++)
+									debug(" %02X",packet_in[i]);
+							#endif
+							// packet_in = 01 00 98 2C 03 19 19 F0 49 02 00 00 00 00 00 00
+							// all bytes are fixed and unknown except 2 and 3 which represent the battery voltage: packet_in[3]*256+packet_in[2]=lipo voltage*100 in V
+							uint16_t v=((packet_in[3]<<8)+packet_in[2]-400)/50;
+							if(v>255) v=255;
+							v_lipo2=v;
+							OMP_Send_Telemetry(v);
+						}
+						else
+						{ // As soon as the motor spins the telem packets are becoming really bad and the CRC throws most of them in error as it should but...
+							#ifdef OMP_TELEM_DEBUG
+								debug("NOK:");
+								for(uint8_t i=0;i<OMP_PAYLOAD_SIZE;i++)
+										debug(" %02X",packet_in[i]);
+							#endif
+							if(packet_in[0]==0x01 && packet_in[1]==0x00)
+							{// the start of the packet looks ok...
+								uint16_t v=((packet_in[3]<<8)+packet_in[2]-400)/50;
+								if(v<260 && v>180)
+								{ //voltage is less than 13V and more than 9V (3V/element)
+									if(v>255) v=255;
+									uint16_t v1=v-v_lipo2;
+									if(v1&0x8000) v1=-v1;
+									if(v1<20) // the batt voltage is within 1V from a good reading...
+									{
+										OMP_Send_Telemetry(v);	// ok to send
+										#ifdef OMP_TELEM_DEBUG
+											debug(" OK");
+										#endif
+									}
+								}
+							}
+							else
+								telemetry_counter++;	//LQI
+						}
+						#ifdef OMP_TELEM_DEBUG
+							debugln("");
+						#endif
+					}
+					NRF24L01_SetTxRxMode(TXRX_OFF);
+					packet_count++;
+					if(packet_count>=100)
+					{//LQI calculation
+						packet_count=0;
+						TX_LQI=telemetry_counter;
+						RX_RSSI=telemetry_counter;
+						if(telemetry_counter==0)
+							telemetry_lost = 1;
+						telemetry_counter = 0;
+					}
+				}
+			#endif
+			return OMP_PACKET_PERIOD;
+	#ifdef OMP_HUB_TELEMETRY
+		case OMP_RX:
+			NRF24L01_WriteReg(NRF24L01_07_STATUS, (1 << NRF24L01_07_RX_DR)    //reset the flag(s)
+												| (1 << NRF24L01_07_TX_DS)
+												| (1 << NRF24L01_07_MAX_RT));
+			NRF24L01_FlushRx();
+			NRF24L01_WriteReg(NRF24L01_00_CONFIG, (1 << NRF24L01_00_PWR_UP) | (1 << NRF24L01_00_PRIM_RX) );	// Start RX
+			{
+				uint16_t start=(uint16_t)micros();
+				while ((uint16_t)((uint16_t)micros()-(uint16_t)start) < 500)
+				{
+					if(CC2500_ReadReg(CC2500_35_MARCSTATE | CC2500_READ_BURST) != 0x13)
+						break;
+				}
+			}
+			NRF_CE_on;
+			PE1_on;PE2_off;						// NRF24L01 antenna RF3
+			phase = OMP_DATA;
+			return OMP_PACKET_PERIOD-OMP_WRITE_TIME;
+	#endif
+	}
+	return OMP_PACKET_PERIOD;
+}
+
+uint16_t initOMP()
+{
+	OMP_initialize_txid();
+	OMP_init();
+	hopping_frequency_no = 0;
+	packet_sent = 0;
+	#ifdef OMP_HUB_TELEMETRY
+		packet_count = 0;
+		telemetry_lost = 1;
+	#endif
+	if(IS_BIND_IN_PROGRESS)
+	{
+		bind_counter = OMP_BIND_COUNT;
+		phase = OMP_BIND;
+	}
+	else
+		phase = OMP_PREPDATA;
+	return OMP_INITIAL_WAIT;
+}
+
+#endif

Multiprotocol/POTENSIC_nrf24l01.ino

@@ -109,6 +109,9 @@ uint16_t POTENSIC_callback()
 			BIND_DONE;
 			XN297_SetTXAddr(rx_tx_addr,5);
 		}
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(POTENSIC_PACKET_PERIOD);
+	#endif
 	POTENSIC_send_packet();
 	return POTENSIC_PACKET_PERIOD;
 }

Multiprotocol/Pelikan_a7105.ino

@@ -0,0 +1,293 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+// Compatible with CADET PRO V4 TX
+
+#if defined(PELIKAN_A7105_INO)
+
+#include "iface_a7105.h"
+
+//#define PELIKAN_FORCE_ID
+//#define PELIKAN_LITE_FORCE_ID
+#define PELIKAN_LITE_FORCE_HOP
+
+#define PELIKAN_BIND_COUNT		400
+#define PELIKAN_BIND_RF			0x3C
+#define PELIKAN_NUM_RF_CHAN 	0x1D
+#define PELIKAN_PACKET_PERIOD	7980
+#define PELIKAN_LITE_PACKET_PERIOD 18000
+
+static void __attribute__((unused)) pelikan_build_packet()
+{
+	static boolean upper=false;
+	packet[0] = 0x15;
+    if(IS_BIND_IN_PROGRESS)
+	{
+		packet[1] = 0x04;			//version??
+		packet[2] = rx_tx_addr[0];
+		packet[3] = rx_tx_addr[1];
+		packet[4] = rx_tx_addr[2];
+		packet[5] = rx_tx_addr[3];
+		if(sub_protocol==PELIKAN_PRO)
+			packet[6] = 0x05;		//sub version??
+		else //PELIKAN_LITE
+			packet[6] = 0x03;		//sub version??
+		packet[7] = 0x00;			//??
+		packet[8] = 0x55;			//??
+		packet_length = 10;
+	}
+	else
+	{
+		//ID
+		packet[1]  = rx_tx_addr[0];
+		packet[7]  = rx_tx_addr[1];
+		packet[12] = rx_tx_addr[2];
+		packet[13] = rx_tx_addr[3];
+		//Channels
+		uint8_t offset=upper?4:0;
+		uint16_t channel=convert_channel_16b_nolimit(CH_AETR[offset++], 153, 871);
+		uint8_t top=(channel>>2) & 0xC0;
+		packet[2]  = channel;
+		channel=convert_channel_16b_nolimit(CH_AETR[offset++], 153, 871);
+		top|=(channel>>4) & 0x30;
+		packet[3]  = channel;
+		channel=convert_channel_16b_nolimit(CH_AETR[offset++], 153, 871);
+		top|=(channel>>6) & 0x0C;
+		packet[4]  = channel;
+		channel=convert_channel_16b_nolimit(CH_AETR[offset], 153, 871);
+		top|=(channel>>8) & 0x03;
+		packet[5]  = channel;
+		packet[6]  = top;
+		//Check
+		crc8=0x15;
+		for(uint8_t i=1;i<8;i++)
+			crc8+=packet[i];
+		packet[8]=crc8;
+		//Low/Up channel flag
+		packet[9]=upper?0xAA:0x00;
+		upper=!upper;
+		//Hopping counters
+		if(sub_protocol==PELIKAN_LITE || ++packet_count>4)
+		{
+			packet_count=0;
+			if(++hopping_frequency_no>=PELIKAN_NUM_RF_CHAN)
+				hopping_frequency_no=0;
+		}
+		packet[10]=hopping_frequency_no;
+		packet[11]=packet_count;
+
+		packet_length = 15;
+	}
+
+	//Check
+	crc8=0x15;
+	for(uint8_t i=1; i<packet_length-1 ;i++)
+		crc8+=packet[i];
+	packet[packet_length-1]=crc8;
+
+	//Send
+	#ifdef DEBUG_SERIAL
+		if(packet[9]==0x00)
+		{
+			debug("C: %02X P(%d):",IS_BIND_IN_PROGRESS?PELIKAN_BIND_RF:hopping_frequency[hopping_frequency_no],packet_length);
+			for(uint8_t i=0;i<packet_length;i++)
+				debug(" %02X",packet[i]);
+			debugln("");
+		}
+	#endif
+	A7105_WriteData(packet_length, IS_BIND_IN_PROGRESS?PELIKAN_BIND_RF:hopping_frequency[hopping_frequency_no]);
+	A7105_SetPower();
+}
+
+uint16_t ReadPelikan()
+{
+	if(phase==0)
+	{
+		#ifndef FORCE_PELIKAN_TUNING
+			A7105_AdjustLOBaseFreq(1);
+		#endif
+		if(IS_BIND_IN_PROGRESS)
+		{
+			bind_counter--;
+			if (bind_counter==0)
+			{
+				BIND_DONE;
+				A7105_Strobe(A7105_STANDBY);
+				if(sub_protocol==PELIKAN_PRO)
+					A7105_WriteReg(A7105_03_FIFOI,0x28);
+				else//PELIKAN_LITE
+					A7105_WriteID(MProtocol_id);
+			}
+		}
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(sub_protocol==PELIKAN_PRO?PELIKAN_PACKET_PERIOD:PELIKAN_LITE_PACKET_PERIOD);
+		#endif
+		pelikan_build_packet();
+		if(sub_protocol==PELIKAN_PRO || IS_BIND_IN_PROGRESS)
+			return PELIKAN_PACKET_PERIOD;
+		//PELIKAN_LITE
+		phase++;
+		return 942;
+	}
+	//PELIKAN_LITE
+	A7105_Strobe(A7105_TX);
+	phase++;
+	if(phase==1)
+		return 942;
+	phase=0;
+	return PELIKAN_LITE_PACKET_PERIOD-942-942;
+}
+
+static uint8_t pelikan_firstCh(uint8_t u, uint8_t l)
+{
+	int16_t i;
+	i = u * 10 + l - 23;
+	do
+	{
+		if (i > 24)
+			i -= 24;
+		if (i <= 0)
+			return 10;
+		else if ((i > 0) && (i < 13))
+			return 10 + 12 + (i * 4);
+		else if ((i > 12) && (i < 24))
+			return 10 - 2 + ((i - 12) * 4);
+	}
+	while (i > 24);
+	return 0;
+}
+
+static uint8_t pelikan_adjust_value(uint8_t value, uint8_t addition, uint8_t limit)
+{
+	uint8_t i;
+	do
+	{
+		i = 0;
+		if (value > limit) {
+			value -= 62;
+			i++;
+		}
+		if (value == 24) {
+			value += addition;
+			i++;
+		}
+		if (value == 48) {
+			value += addition;
+			i++;
+		}
+	}
+	while (i > 0);
+
+	return value;
+}
+
+static uint8_t pelikan_add(uint8_t pfrq,uint8_t a, uint8_t limit)
+{
+	uint8_t nfrq;
+	nfrq = pfrq + a;
+
+	nfrq = pelikan_adjust_value(nfrq, a, limit);
+	
+	return nfrq;
+}
+
+static void __attribute__((unused)) pelikan_init_hop()
+{
+	#define PELIKAN_HOP_LIMIT 70
+	rx_tx_addr[0] = 0;
+	rx_tx_addr[1]+= RX_num;
+	uint8_t high = (rx_tx_addr[1]>>4) % 3;	// 0..2
+	uint8_t low = rx_tx_addr[1] & 0x0F;
+	if(high==2)
+		low %= 0x04;	// 0..3
+	else if(high)
+		low %= 0x0E;	// 0..D
+	else
+		low %= 0x0F;	// 0..E
+	rx_tx_addr[1] = (high<<4) + low;
+	uint8_t addition = (20 * high)+ (2 * low) + 8;
+
+	uint8_t first_channel = pelikan_firstCh(high, low);
+	first_channel = pelikan_adjust_value(first_channel, addition, PELIKAN_HOP_LIMIT);
+	hopping_frequency[0] = first_channel;
+	debug("%02X", first_channel);
+	for (uint8_t i = 1; i < PELIKAN_NUM_RF_CHAN; i++)
+	{
+		hopping_frequency[i] = pelikan_add(hopping_frequency[i-1], addition, PELIKAN_HOP_LIMIT);
+		debug(" %02X", hopping_frequency[i]);
+	}
+	debugln("");
+}
+
+#ifdef PELIKAN_FORCE_ID
+const uint8_t PROGMEM pelikan_hopp[][PELIKAN_NUM_RF_CHAN] = {
+	{ 0x5A,0x46,0x32,0x6E,0x6C,0x58,0x44,0x42,0x40,0x6A,0x56,0x54,0x52,0x3E,0x68,0x66,0x64,0x50,0x3C,0x3A,0x38,0x62,0x4E,0x4C,0x5E,0x4A,0x36,0x5C,0x34 }
+};
+#endif
+
+#ifdef PELIKAN_LITE_FORCE_HOP
+const uint8_t PROGMEM pelikan_lite_hopp[][PELIKAN_NUM_RF_CHAN] = {
+	{ 0x46,0x2A,0x3E,0x5A,0x5C,0x24,0x4E,0x32,0x54,0x26,0x2C,0x34,0x56,0x1E,0x3A,0x3C,0x50,0x4A,0x2E,0x42,0x20,0x52,0x28,0x22,0x44,0x58,0x36,0x38,0x4C }
+};
+#endif
+
+uint16_t initPelikan()
+{
+	A7105_Init();
+	if(IS_BIND_IN_PROGRESS || sub_protocol==PELIKAN_LITE)
+		A7105_WriteReg(A7105_03_FIFOI,0x10);
+
+	pelikan_init_hop();
+
+	//ID from dump
+	#if defined(PELIKAN_FORCE_ID)
+		if(sub_protocol==PELIKAN_PRO)
+		{
+			rx_tx_addr[0]=0x0D;		// hopping freq
+			rx_tx_addr[1]=0xF4;		// hopping freq
+			rx_tx_addr[2]=0x50;		// ID
+			rx_tx_addr[3]=0x18;		// ID
+			// Fill frequency table
+			for(uint8_t i=0;i<PELIKAN_NUM_RF_CHAN;i++)
+				hopping_frequency[i]=pgm_read_byte_near(&pelikan_hopp[0][i]);
+		}
+	#endif
+	#if defined(PELIKAN_LITE_FORCE_ID) || defined(PELIKAN_LITE_FORCE_HOP)
+		if(sub_protocol==PELIKAN_LITE)
+		{
+			#if defined(PELIKAN_LITE_FORCE_ID)
+				// ID
+				rx_tx_addr[2]=0x60;
+				rx_tx_addr[3]=0x18;
+			#endif
+			#if defined(PELIKAN_LITE_FORCE_HOP)
+				// Hop frequency table
+				rx_tx_addr[0]=0x04;		// hopping freq
+				rx_tx_addr[1]=0x63;		// hopping freq
+				for(uint8_t i=0;i<PELIKAN_NUM_RF_CHAN;i++)
+					hopping_frequency[i]=pgm_read_byte_near(&pelikan_lite_hopp[0][i]);
+			#endif
+		}
+	#endif
+
+	MProtocol_id=((uint32_t)rx_tx_addr[0]<<24)|((uint32_t)rx_tx_addr[1]<<16)|((uint32_t)rx_tx_addr[2]<<8)|(rx_tx_addr[3]);
+	if(sub_protocol==PELIKAN_LITE && IS_BIND_DONE)
+		A7105_WriteID(MProtocol_id);
+
+	hopping_frequency_no=PELIKAN_NUM_RF_CHAN;
+	packet_count=5;
+	phase=0;
+	return 2400;
+}
+#endif

Multiprotocol/Pins.h

@@ -223,6 +223,8 @@
 	#define	S3_pin			PA6
 	#define	S4_pin			PA7
 	//
+	#define	RND_pin			PB0
+	//
 	#define	PE1_pin			PB4								//PE1
 	#define	PE2_pin			PB5								//PE2
 	//CS pins
@@ -313,6 +315,20 @@
 		#define DEBUG_PIN_toggle
 	#endif
 
+	#ifdef MULTI_5IN1_INTERNAL
+		#undef	RND_pin
+		#define	SX1276_RST_pin	PA2		//LED2 on other modules
+		#define	SX1276_TXEN_pin	PB0		//Random gen on other modules
+		#define	SX1276_DIO0_pin	PC13	//Unused on other modules
+		
+		#define	SX1276_RST_on	digitalWrite(SX1276_RST_pin,HIGH)
+		#define	SX1276_RST_off	digitalWrite(SX1276_RST_pin,LOW)
+		#define	SX1276_TXEN_on	digitalWrite(SX1276_TXEN_pin,HIGH)
+		#define	SX1276_RXEN_on	digitalWrite(SX1276_TXEN_pin,LOW)
+		#define	IS_DIO0_on		( digitalRead(SX1276_DIO0_pin)==HIGH )
+		#define	IS_DIO0_off		( digitalRead(SX1276_DIO0_pin)==LOW )
+	#endif
+	
 	#define	cli() 			noInterrupts()
 	#define	sei() 			interrupts()
 	#define	delayMilliseconds(x) delay(x)

Multiprotocol/Propel_nrf24l01.ino

@@ -0,0 +1,331 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+// Compatible with PROPEL 74-Z Speeder Bike.
+
+#if defined(PROPEL_NRF24L01_INO)
+
+#include "iface_nrf24l01.h"
+
+//#define PROPEL_FORCE_ID
+
+#define PROPEL_INITIAL_WAIT		500
+#define PROPEL_PACKET_PERIOD	10000
+#define PROPEL_BIND_RF_CHANNEL	0x23
+#define PROPEL_PAYLOAD_SIZE		16
+#define PROPEL_SEARCH_PERIOD	50	//*10ms
+#define PROPEL_BIND_PERIOD		1500
+#define PROPEL_PACKET_SIZE		14
+#define PROPEL_RF_NUM_CHANNELS	4
+#define PROPEL_ADDRESS_LENGTH	5
+#define PROPEL_DEFAULT_PERIOD	20
+
+enum {
+	PROPEL_BIND1 = 0,
+	PROPEL_BIND2,
+	PROPEL_BIND3,
+	PROPEL_DATA1,
+};
+
+static uint16_t __attribute__((unused)) PROPEL_checksum()
+{
+	typedef union {
+		struct {
+			uint8_t h:1;
+			uint8_t g:1;
+			uint8_t f:1;
+			uint8_t e:1;
+			uint8_t d:1;
+			uint8_t c:1;
+			uint8_t b:1;
+			uint8_t a:1;
+		} bits;
+		uint8_t byte:8;
+	} byte_bits_t;
+
+    uint8_t sum = packet[0];
+    for (uint8_t i = 1; i < PROPEL_PACKET_SIZE - 2; i++)
+        sum += packet[i];
+
+    byte_bits_t in  = { .byte = sum };
+    byte_bits_t out = { .byte = sum };
+	out.byte ^= 0x0a;
+    out.bits.d = !(in.bits.d ^ in.bits.h);
+    out.bits.c = (!in.bits.c && !in.bits.d &&  in.bits.g)
+              ||  (in.bits.c && !in.bits.d && !in.bits.g)
+              || (!in.bits.c &&  in.bits.g && !in.bits.h)
+              ||  (in.bits.c && !in.bits.g && !in.bits.h)
+              ||  (in.bits.c &&  in.bits.d &&  in.bits.g &&  in.bits.h)
+              || (!in.bits.c &&  in.bits.d && !in.bits.g &&  in.bits.h);
+    out.bits.b = (!in.bits.b && !in.bits.c && !in.bits.d)
+              ||  (in.bits.b &&  in.bits.c &&  in.bits.g)
+              || (!in.bits.b && !in.bits.c && !in.bits.g)
+              || (!in.bits.b && !in.bits.d && !in.bits.g)
+              || (!in.bits.b && !in.bits.c && !in.bits.h)
+              || (!in.bits.b && !in.bits.g && !in.bits.h)
+              ||  (in.bits.b &&  in.bits.c &&  in.bits.d &&  in.bits.h)
+              ||  (in.bits.b &&  in.bits.d &&  in.bits.g &&  in.bits.h);
+    out.bits.a =  (in.bits.a && !in.bits.b)
+              ||  (in.bits.a && !in.bits.c && !in.bits.d)
+              ||  (in.bits.a && !in.bits.c && !in.bits.g)
+              ||  (in.bits.a && !in.bits.d && !in.bits.g)
+              ||  (in.bits.a && !in.bits.c && !in.bits.h)
+              ||  (in.bits.a && !in.bits.g && !in.bits.h)
+              || (!in.bits.a &&  in.bits.b &&  in.bits.c &&  in.bits.g)
+              || (!in.bits.a &&  in.bits.b &&  in.bits.c &&  in.bits.d &&  in.bits.h)
+              || (!in.bits.a &&  in.bits.b &&  in.bits.d &&  in.bits.g &&  in.bits.h);
+
+    return (sum << 8) | (out.byte & 0xff);
+}
+
+static void __attribute__((unused)) PROPEL_bind_packet(bool valid_rx_id)
+{
+	memset(packet, 0, PROPEL_PACKET_SIZE);
+
+	packet[0] = 0xD0;
+	memcpy(&packet[1], rx_tx_addr, 4);  // only 4 bytes sent of 5-byte address
+	if (valid_rx_id) memcpy(&packet[5], rx_id, 4);
+	packet[9] = rf_ch_num;				// hopping table to be used when switching to normal mode
+	packet[11] = 0x05;					// unknown, 0x01 on TX2??
+
+	uint16_t check = PROPEL_checksum();
+	packet[12] = check >> 8;
+	packet[13] = check & 0xff;
+
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, (_BV(NRF24L01_07_RX_DR) | _BV(NRF24L01_07_TX_DS) | _BV(NRF24L01_07_MAX_RT)));
+	NRF24L01_FlushTx();
+	NRF24L01_FlushRx();
+	NRF24L01_WritePayload(packet, PROPEL_PACKET_SIZE);
+}
+
+static void __attribute__((unused)) PROPEL_data_packet()
+{
+	memset(packet, 0, PROPEL_PACKET_SIZE);
+
+	packet[0] = 0xC0;
+	packet[1] = convert_channel_16b_limit(THROTTLE, 0x2f, 0xcf);
+	packet[2] = convert_channel_16b_limit(RUDDER  , 0xcf, 0x2f);
+	packet[3] = convert_channel_16b_limit(ELEVATOR, 0x2f, 0xcf);
+	packet[4] = convert_channel_16b_limit(AILERON , 0xcf, 0x2f);
+	packet[5] = 0x40;							//might be trims but unsused
+	packet[6] = 0x40;							//might be trims but unsused
+	packet[7] = 0x40;							//might be trims but unsused
+	packet[8] = 0x40;							//might be trims but unsused
+	if (bind_phase)
+	{//need to send a couple of default packets after bind
+		bind_phase--;
+		packet[10] = 0x80;	// LEDs
+	}
+	else
+	{
+		packet[9] = 0x02    					// Always fast speed, slow=0x00, medium=0x01, fast=0x02, 0x03=flight training mode
+					| GET_FLAG( CH14_SW, 0x03)	// Flight training mode
+					| GET_FLAG( CH10_SW, 0x04)	// Calibrate
+					| GET_FLAG( CH12_SW, 0x08)	// Take off
+					| GET_FLAG( CH8_SW,  0x10)	// Fire
+					| GET_FLAG( CH11_SW, 0x20)	// Altitude hold=0x20
+					| GET_FLAG( CH6_SW,  0x40)	// Roll CW
+					| GET_FLAG( CH7_SW,  0x80);	// Roll CCW
+		packet[10] =  GET_FLAG( CH13_SW, 0x20)	// Land
+					| GET_FLAG( CH9_SW,  0x40)	// Weapon system activted=0x40
+					| GET_FLAG(!CH5_SW,  0x80);	// LEDs
+	}
+	packet[11] = 5;								// unknown, 0x01 on TX2??
+
+	uint16_t check = PROPEL_checksum();
+	packet[12] = check >> 8;
+	packet[13] = check & 0xff;
+
+	NRF24L01_WriteReg(NRF24L01_05_RF_CH, hopping_frequency[hopping_frequency_no++]);
+	hopping_frequency_no &= 0x03;
+	NRF24L01_SetPower();
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, (_BV(NRF24L01_07_RX_DR) | _BV(NRF24L01_07_TX_DS) | _BV(NRF24L01_07_MAX_RT)));
+	NRF24L01_FlushTx();
+	NRF24L01_WritePayload(packet, PROPEL_PACKET_SIZE);
+}
+
+static void __attribute__((unused)) PROPEL_init()
+{
+	NRF24L01_Initialize();
+	NRF24L01_WriteReg(NRF24L01_00_CONFIG, 0x7f);
+	NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x3f);       // AA on all pipes
+	NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x3f);   // Enable all pipes
+	NRF24L01_WriteReg(NRF24L01_03_SETUP_AW, 0x03);    // 5-byte address
+	NRF24L01_WriteReg(NRF24L01_04_SETUP_RETR, 0x36);  // retransmit 1ms, 6 times
+	NRF24L01_SetBitrate(NRF24L01_BR_1M);              // 1Mbps
+	NRF24L01_SetPower();
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x07);      // ?? match protocol capture
+	NRF24L01_WriteRegisterMulti(NRF24L01_0A_RX_ADDR_P0, (uint8_t *)"\x99\x77\x55\x33\x11", PROPEL_ADDRESS_LENGTH);	//Bind address
+	NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR,    (uint8_t *)"\x99\x77\x55\x33\x11", PROPEL_ADDRESS_LENGTH);	//Bind address
+	NRF24L01_WriteReg(NRF24L01_05_RF_CH, PROPEL_BIND_RF_CHANNEL);
+	NRF24L01_Activate(0x73);                          // Activate feature register
+	NRF24L01_WriteReg(NRF24L01_1C_DYNPD, 0x3f);       // Enable dynamic payload length
+	NRF24L01_WriteReg(NRF24L01_1D_FEATURE, 0x07);     // Enable all features
+	// Beken 2425 register bank 1 initialized here in stock tx capture
+	// Hopefully won't matter for nRF compatibility
+	NRF24L01_FlushTx();
+    NRF24L01_SetTxRxMode(TX_EN);
+}
+
+const uint8_t PROGMEM PROPEL_hopping []= { 0x47,0x36,0x27,0x44,0x33,0x0D,0x3C,0x2E,0x1B,0x39,0x2A,0x18 };
+static void __attribute__((unused)) PROPEL_initialize_txid()
+{
+	//address last byte
+	rx_tx_addr[4]=0x11;
+	
+	//random hopping channel table
+	rf_ch_num=random(0xfefefefe)&0x03;
+	for(uint8_t i=0; i<3; i++)
+		hopping_frequency[i]=pgm_read_byte_near( &PROPEL_hopping[i + 3*rf_ch_num] );
+	hopping_frequency[3]=0x23;
+
+#ifdef PROPEL_FORCE_ID
+	if(RX_num&1)
+		memcpy(rx_tx_addr, (uint8_t *)"\x73\xd3\x31\x30\x11", PROPEL_ADDRESS_LENGTH);	//TX1: 73 d3 31 30 11
+	else
+		memcpy(rx_tx_addr, (uint8_t *)"\x94\xc5\x31\x30\x11", PROPEL_ADDRESS_LENGTH);	//TX2: 94 c5 31 30 11
+	rf_ch_num = 0x03; //TX1
+	memcpy(hopping_frequency,(uint8_t *)"\x39\x2A\x18\x23",PROPEL_RF_NUM_CHANNELS);		//TX1: 57,42,24,35
+	rf_ch_num = 0x00; //TX2
+	memcpy(hopping_frequency,(uint8_t *)"\x47\x36\x27\x23",PROPEL_RF_NUM_CHANNELS); 	//TX2: 71,54,39,35
+	rf_ch_num = 0x01; // Manual search
+	memcpy(hopping_frequency,(uint8_t *)"\x44\x33\x0D\x23",PROPEL_RF_NUM_CHANNELS); 	//Manual: 68,51,13,35
+	rf_ch_num = 0x02; // Manual search
+	memcpy(hopping_frequency,(uint8_t *)"\x3C\x2E\x1B\x23",PROPEL_RF_NUM_CHANNELS); 	//Manual: 60,46,27,35
+#endif
+}
+
+uint16_t PROPEL_callback()
+{
+	uint8_t status;
+
+	switch (phase)
+	{
+		case PROPEL_BIND1:
+			PROPEL_bind_packet(false);		//rx_id unknown
+			phase++;						//BIND2
+			return PROPEL_BIND_PERIOD;
+
+		case PROPEL_BIND2:
+			status=NRF24L01_ReadReg(NRF24L01_07_STATUS);
+			if (status & _BV(NRF24L01_07_MAX_RT))
+			{// Max retry (6) reached
+				phase = PROPEL_BIND1;
+				return PROPEL_BIND_PERIOD;
+			}
+			if (!(_BV(NRF24L01_07_RX_DR) & status))
+				return PROPEL_BIND_PERIOD;		// nothing received
+			// received frame, got rx_id, save it
+			NRF24L01_ReadPayload(packet_in, PROPEL_PACKET_SIZE);
+			memcpy(rx_id, &packet_in[1], 4);
+			PROPEL_bind_packet(true);		//send bind packet with rx_id
+			phase++;						//BIND3
+			break;
+
+		case PROPEL_BIND3:
+			if (_BV(NRF24L01_07_RX_DR) & NRF24L01_ReadReg(NRF24L01_07_STATUS))
+			{
+				NRF24L01_ReadPayload(packet_in, PROPEL_PACKET_SIZE);
+				if (packet_in[0] == 0xa3 && memcmp(&packet_in[1],rx_id,4)==0)
+				{//confirmation from the model
+					phase++;				//PROPEL_DATA1
+					bind_phase=PROPEL_DEFAULT_PERIOD;
+					packet_count=0;
+					BIND_DONE;
+					break;
+				}
+			}
+			NRF24L01_WriteRegisterMulti(NRF24L01_0A_RX_ADDR_P0, rx_tx_addr, PROPEL_ADDRESS_LENGTH);
+			NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR, rx_tx_addr, PROPEL_ADDRESS_LENGTH);
+			PROPEL_bind_packet(true);		//send bind packet with rx_id
+			break;
+
+		case PROPEL_DATA1:
+			#ifdef PROPEL_HUB_TELEMETRY
+				if (_BV(NRF24L01_07_RX_DR) & NRF24L01_ReadReg(NRF24L01_07_STATUS))
+				{// data received from the model
+					NRF24L01_ReadPayload(packet_in, PROPEL_PACKET_SIZE);
+					if (packet_in[0] == 0xa3 && memcmp(&packet_in[1],rx_id,3)==0)
+					{
+						telemetry_counter++;	//LQI
+						v_lipo1=packet[5];		//number of life left?
+						v_lipo2=packet[4];		//bit mask: 0x80=flying, 0x08=taking off, 0x04=landing, 0x00=landed/crashed
+						if(telemetry_lost==0)
+							telemetry_link=1;
+					}
+				}
+				packet_count++;
+				if(packet_count>=100)
+				{//LQI calculation
+					packet_count=0;
+					TX_LQI=telemetry_counter;
+					RX_RSSI=telemetry_counter;
+					telemetry_counter = 0;
+					telemetry_lost=0;
+				}
+			#endif
+			PROPEL_data_packet();
+			break;
+	}
+	return PROPEL_PACKET_PERIOD;
+}
+
+uint16_t initPROPEL()
+{
+	BIND_IN_PROGRESS;	// autobind protocol
+	PROPEL_initialize_txid();
+	PROPEL_init();
+	hopping_frequency_no = 0;
+	phase=PROPEL_BIND1;
+	return PROPEL_INITIAL_WAIT;
+}
+
+#endif
+// equations for checksum check byte from truth table
+// (1)  z =  a && !b
+//       ||  a && !c && !d
+//       ||  a && !c && !g
+//       ||  a && !d && !g
+//       ||  a && !c && !h
+//       ||  a && !g && !h
+//       || !a &&  b &&  c &&  g
+//       || !a &&  b &&  c &&  d &&  h
+//       || !a &&  b &&  d &&  g &&  h;
+//
+// (2)  y = !b && !c && !d
+//       ||  b &&  c &&  g
+//       || !b && !c && !g
+//       || !b && !d && !g
+//       || !b && !c && !h
+//       || !b && !g && !h
+//       ||  b &&  c &&  d &&  h
+//       ||  b &&  d &&  g &&  h;
+//
+// (3)  x = !c && !d &&  g
+//       ||  c && !d && !g
+//       || !c &&  g && !h
+//       ||  c && !g && !h
+//       ||  c &&  d &&  g &&  h
+//       || !c &&  d && !g &&  h;
+//
+// (4)  w =  d &&  h
+//       || !d && !h;
+//
+// (5)  v = !e;
+//
+// (6)  u =  f;
+//
+// (7)  t = !g;
+//
+// (8)  s =  h;

Multiprotocol/Q303_nrf24l01.ino

@@ -354,7 +354,12 @@ static void __attribute__((unused)) Q303_initialize_txid()
 uint16_t Q303_callback()
 {
 	if(IS_BIND_DONE)
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(packet_period);
+		#endif
 		Q303_send_packet(0);
+	}
 	else
 	{
 		if (bind_counter == 0)

Multiprotocol/Q90C_nrf24l01.ino

@@ -0,0 +1,176 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+// Compatible with Q90C quad.
+
+#if defined(Q90C_NRF24L01_INO)
+
+#include "iface_nrf250k.h"
+
+//#define FORCE_Q90C_ORIGINAL_ID
+
+#define Q90C_BIND_COUNT			250
+#define Q90C_PACKET_PERIOD		7336 // 6200 on saimat's TX...
+#define Q90C_INITIAL_WAIT		500
+#define Q90C_PACKET_SIZE		12
+#define Q90C_RF_BIND_CHANNEL	0x33
+#define Q90C_RF_NUM_CHANNELS	3
+#define Q90C_ADDRESS_LENGTH		5
+
+bool Q90C_VTX;
+
+int16_t Q90C_channel(uint8_t num, int16_t in_min,int16_t in_max, int16_t out_min,int16_t out_max)
+{
+	int32_t val=Channel_data[num];
+	if(val<in_min) val=in_min;
+	else if(val>in_max) val=in_max;
+	val=(val-in_min)*(out_max-out_min)/(in_max-in_min)+out_min;
+	return (uint16_t)val;
+}
+
+static void __attribute__((unused)) Q90C_send_packet()
+{
+	if(IS_BIND_IN_PROGRESS)
+	{
+		memcpy(packet, rx_tx_addr, 4);
+		memcpy(&packet[4], hopping_frequency, 3);
+		//packet[7]  = 0x1e;	// 2e on Saimat 1???
+		packet[10] = 0x4B;
+		packet[11] = 0x4E;
+	}
+	else
+	{
+		XN297L_Hopping(hopping_frequency_no++);				// RF Freq
+		hopping_frequency_no %= Q90C_RF_NUM_CHANNELS;
+		packet[0]= convert_channel_8b(THROTTLE);			// 0..255
+		// A,E,R have weird scaling, 0x00-0xff range (unsigned) but center isn't 7f or 80
+		// rudder ff-7a-00
+		if (Channel_data[RUDDER] <= CHANNEL_MID)
+			packet[1] = Q90C_channel(RUDDER,   CHANNEL_MIN_100, CHANNEL_MID, 0xff, 0x7a );
+		else
+			packet[1] = Q90C_channel(RUDDER,   CHANNEL_MID, CHANNEL_MAX_100, 0x7a, 0x00 );
+		// elevator 00-88-ff
+		if (Channel_data[ELEVATOR] <= CHANNEL_MID)
+			packet[2] = Q90C_channel(ELEVATOR, CHANNEL_MIN_100, CHANNEL_MID, 0x00, 0x88);
+		else
+			packet[2] = Q90C_channel(ELEVATOR, CHANNEL_MID, CHANNEL_MAX_100, 0x88, 0xff);
+		// aileron ff-88-00
+		if (Channel_data[AILERON] <= CHANNEL_MID)
+			packet[3] = Q90C_channel(AILERON,  CHANNEL_MIN_100, CHANNEL_MID, 0xff, 0x88);
+		else
+			packet[3] = Q90C_channel(AILERON,  CHANNEL_MID, CHANNEL_MAX_100, 0x88, 0x00);
+		// required to "arm" (low throttle + aileron to the right)
+		if (packet[0] < 5 && packet[3] < 25) {
+			packet[1] = 0x7a;
+			packet[2] = 0x88;
+		}
+		packet[4] = 0x1e;									// T trim 00-1e-3c
+		packet[5] = 0x1e;									// R trim 3c-1e-00
+		packet[6] = 0x1e;									// E trim 00-1e-3c
+		//packet[7] = 0x1e;									// A trim 00-1e-3c
+		packet[8] |= 0x02;									// Rudder rate 0=min,1,2=max
+		if(state!=Channel_data[CH5])
+		{
+			state=Channel_data[CH5];
+			if(state<CHANNEL_MIN_COMMAND)
+				packet[8] ^= 0x04;							// Angle
+			else if(state>CHANNEL_MAX_COMMAND)
+				packet[8] ^= 0x10;							// Acro
+			else
+				packet[8] ^= 0x08;							// Horizon
+		}
+		if(!Q90C_VTX && CH6_SW)
+			packet[8] ^= 0x20;								// VTX+
+		Q90C_VTX=CH6_SW;
+
+		debugln("8=%02X",packet[8]);
+		packet[10] = packet_count++;
+	}
+	packet[7]  = 0x1e;	// bind 1e or 2e, normal: A trim 00-1e-3c
+
+	// checksum
+	if(IS_BIND_DONE)
+	{
+	    uint8_t sum=0;
+		for (uint8_t i = 0; i < Q90C_PACKET_SIZE - 1; i++)
+			sum += packet[i];
+		packet[11] = sum ^ crc8;
+	}
+
+	XN297L_SetFreqOffset();									// Set frequency offset
+	XN297L_SetPower();										// Set tx_power
+	XN297L_WriteEnhancedPayload(packet, Q90C_PACKET_SIZE, 0);
+}
+
+static void __attribute__((unused)) Q90C_initialize_txid()
+{
+	calc_fh_channels(Q90C_RF_NUM_CHANNELS);
+	rx_tx_addr[4]=0x4B;
+	#ifdef FORCE_Q90C_ORIGINAL_ID
+		//24 03 01 82 18 26 37 1E 00 00 4B 4E
+		memcpy(rx_tx_addr, (uint8_t*)"\x24\x03\x01\x82\x4B", Q90C_ADDRESS_LENGTH);	//Goebish
+		memcpy(hopping_frequency, (uint8_t*)"\x18\x26\x37", Q90C_RF_NUM_CHANNELS);
+		//4C 0A 02 01 17 24 36 2E 00 00 4B 4E 
+		memcpy(rx_tx_addr, (uint8_t*)"\x4C\x0A\x02\x01\x4B", Q90C_ADDRESS_LENGTH);	//Saimat 1
+		memcpy(hopping_frequency, (uint8_t*)"\x17\x24\x36", Q90C_RF_NUM_CHANNELS);
+		//34 13 02 01 18 26 37 1E 00 00 4B 4E 
+		memcpy(rx_tx_addr, (uint8_t*)"\x34\x13\x02\x01\x4B", Q90C_ADDRESS_LENGTH);	//Saimat 2
+		memcpy(hopping_frequency, (uint8_t*)"\x18\x26\x37", Q90C_RF_NUM_CHANNELS);
+	#endif
+	crc8=rx_tx_addr[0]^rx_tx_addr[1]^rx_tx_addr[2]^rx_tx_addr[3];
+}
+
+static void __attribute__((unused)) Q90C_init()
+{
+	XN297L_Init();
+	if(IS_BIND_IN_PROGRESS)
+		XN297L_SetTXAddr((uint8_t*)"\x4F\x43\x54\x81\x81", Q90C_ADDRESS_LENGTH);
+	else
+		XN297L_SetTXAddr(rx_tx_addr, Q90C_ADDRESS_LENGTH);
+	XN297L_HoppingCalib(Q90C_RF_NUM_CHANNELS);				// Calibrate all channels
+	XN297L_RFChannel(Q90C_RF_BIND_CHANNEL);					// Set bind channel
+}
+
+uint16_t Q90C_callback()
+{
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(Q90C_PACKET_PERIOD);
+	#endif
+	if(IS_BIND_IN_PROGRESS)
+		if(--bind_counter==0)
+		{
+			BIND_DONE;
+			XN297L_SetTXAddr(rx_tx_addr, Q90C_ADDRESS_LENGTH);
+		}
+	Q90C_send_packet();
+	return Q90C_PACKET_PERIOD;
+}
+
+uint16_t initQ90C()
+{
+	Q90C_initialize_txid();
+	Q90C_init();
+	hopping_frequency_no = 0;
+	packet_count = 0;
+	bind_counter=Q90C_BIND_COUNT;
+
+	//features
+	state=Channel_data[CH5];
+	Q90C_VTX=CH6_SW;
+	packet[8]  = 0x00;
+	packet[9]  = 0x00;
+	return Q90C_INITIAL_WAIT;
+}
+
+#endif

Multiprotocol/REALACC_nrf24l01.ino

@@ -0,0 +1,157 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+// Compatible with Realacc R11
+
+#if defined(REALACC_NRF24L01_INO)
+
+#include "iface_nrf24l01.h"
+
+#define FORCE_REALACC_ORIGINAL_ID
+
+#define REALACC_INITIAL_WAIT		500
+#define REALACC_PACKET_PERIOD		2268
+#define REALACC_BIND_RF_CHANNEL		80
+#define REALACC_BIND_PAYLOAD_SIZE	10
+#define REALACC_PAYLOAD_SIZE		13
+#define REALACC_BIND_COUNT			50
+#define REALACC_RF_NUM_CHANNELS		5
+
+static void __attribute__((unused)) REALACC_send_packet()
+{
+	packet[ 0]= 0xDC;
+	packet[ 1]= convert_channel_8b(AILERON);	// 00..80..FF
+	packet[ 2]= convert_channel_8b(ELEVATOR);	// 00..80..FF
+	packet[ 3]= convert_channel_8b(THROTTLE);	// 00..FF
+	packet[ 4]= convert_channel_8b(RUDDER);		// 00..80..FF
+	packet[ 5]= 0x20; 							// Trim
+	packet[ 6]= 0x20; 							// Trim
+	packet[ 7]= 0x20; 							// Trim
+	packet[ 8]= 0x20; 							// Trim
+	packet[ 9]= num_ch;							// Change at each power up
+	packet[10]= 0x04 							// Flag1
+		| 0x02									//   Rate1=0, Rate2=1, Rate3=2
+		| GET_FLAG(CH8_SW, 0x20);				//   Headless
+	packet[11]= 0x00 							// Flag2
+		| GET_FLAG(CH7_SW, 0x01)				//   Calib
+		| GET_FLAG(CH9_SW, 0x20)				//   Return
+		| GET_FLAG(CH10_SW,0x80);				//   Unknown
+	packet[12]= 0x00 							// Flag3
+		| GET_FLAG(CH5_SW, 0x01)				//   Flip
+		| GET_FLAG(CH6_SW, 0x80);				//   Light
+
+	NRF24L01_WriteReg(NRF24L01_05_RF_CH, hopping_frequency_no);
+	hopping_frequency_no++;
+	hopping_frequency_no %= REALACC_RF_NUM_CHANNELS;
+	XN297_WriteEnhancedPayload(packet, REALACC_PAYLOAD_SIZE,0);
+}
+
+static void __attribute__((unused)) REALACC_send_bind_packet()
+{
+	packet[0] = 0xB1;
+	memcpy(&packet[1],rx_tx_addr,4);
+	memcpy(&packet[5],hopping_frequency,5);
+
+	XN297_WriteEnhancedPayload(packet, REALACC_BIND_PAYLOAD_SIZE,1);
+}
+
+static void __attribute__((unused)) REALACC_initialize_txid()
+{
+	calc_fh_channels(REALACC_RF_NUM_CHANNELS);
+	num_ch=random(0xfefefefe);		// 00..FF
+
+	#ifdef FORCE_REALACC_ORIGINAL_ID
+		//Dump
+		rx_tx_addr[0]=0x99;
+		rx_tx_addr[1]=0x06;
+		rx_tx_addr[2]=0x00;
+		rx_tx_addr[3]=0x00;
+		hopping_frequency[0]=0x55;
+		hopping_frequency[1]=0x59;
+		hopping_frequency[2]=0x5A;
+		hopping_frequency[3]=0x5A;
+		hopping_frequency[4]=0x62;
+		num_ch=0xC5;				// Value in dumps: C5 A2 77 F0 84 58
+	#endif
+}
+
+static void __attribute__((unused)) REALACC_init()
+{
+	NRF24L01_Initialize();
+	NRF24L01_SetTxRxMode(TX_EN);
+	NRF24L01_FlushTx();
+	NRF24L01_FlushRx();
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);	// Clear data ready, data sent, and retransmit
+	NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);		// No Auto Acknowldgement on all data pipes
+	NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x01);	// Enable data pipe 0 only
+	NRF24L01_SetBitrate(NRF24L01_BR_1M);			// 1Mbps
+	NRF24L01_SetPower();
+	XN297_SetTXAddr((uint8_t*)"MAIN", 4);
+	NRF24L01_WriteReg(NRF24L01_05_RF_CH, REALACC_BIND_RF_CHANNEL);	// Set bind channel
+}
+
+uint16_t REALACC_callback()
+{
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(REALACC_PACKET_PERIOD);
+	#endif
+	XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP));
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
+	NRF24L01_FlushTx();
+	NRF24L01_SetPower();
+	if(IS_BIND_IN_PROGRESS)
+	{
+		REALACC_send_bind_packet();
+		if(--bind_counter==0)
+		{
+			BIND_DONE;
+			XN297_SetTXAddr(rx_tx_addr, 4);
+		}
+	}
+	else
+		REALACC_send_packet();
+	return REALACC_PACKET_PERIOD;
+}
+
+uint16_t initREALACC()
+{
+	BIND_IN_PROGRESS;	// autobind protocol
+	REALACC_initialize_txid();
+	REALACC_init();
+	bind_counter=REALACC_BIND_COUNT;
+	hopping_frequency_no=0;
+	return REALACC_INITIAL_WAIT;
+}
+
+#endif
+
+// XN297 speed 1Mb, scrambled, enhanced
+// Bind
+//   Address = 4D 41 49 4E = 'MAIN'
+//   Channel = 80 (most likely from dump)
+//   P(10) = B1 99 06 00 00 55 59 5A 5A 62
+//     B1 indicates bind packet
+//     99 06 00 00 = ID = address of normal packets
+//     55 59 5A 5A 62 = 85, 89, 90, 90, 98 = RF channels to be used (kind of match previous dumps)// Normal
+// Normal
+//   Address = 99 06 00 00
+//   Channels = 84, 89, 90, 90, 98 (guess from bind)
+//   P(13)= DC 80 80 32 80 20 20 20 20 58 04 00 00
+//   DC = normal packet
+//   80 80 32 80 : AETR 00..80..FF
+//   20 20 20 20 : Trims
+//   58 : changing every time the TX restart
+//   04 : |0x20=headless, |0x01=rate2, |0x02=rate3
+//   00 : |0x01=calib, |0x20=return, |0x80=unknown
+//   00 : |0x80=light, |0x01=flip

Multiprotocol/RadioLink_cc2500.ino

@@ -0,0 +1,307 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+// Radiolink surface protocol. TXs: RC4GS,RC6GS. Compatible RXs:R7FG(Std),R6FG,R6F,R8EF,R8FM,R8F,R4FGM 
+
+#if defined(RLINK_CC2500_INO)
+
+#include "iface_cc2500.h"
+
+//#define RLINK_FORCE_ID
+
+#define RLINK_TX_PACKET_LEN	33
+#define RLINK_RX_PACKET_LEN	15
+#define RLINK_TX_ID_LEN		4
+#define RLINK_HOP			16
+
+enum {
+	RLINK_DATA	= 0x00,
+	RLINK_RX1	= 0x01,
+	RLINK_RX2	= 0x02,
+};
+
+uint32_t RLINK_rand1;
+uint32_t RLINK_rand2;
+
+static uint32_t __attribute__((unused)) RLINK_prng_next(uint32_t r)
+{
+	return 0xA5E2A705 * r + 0x754DB79B;
+}
+
+static void __attribute__((unused)) RLINK_init_random(uint32_t id)
+{
+	uint32_t result = id;
+
+	RLINK_rand2 = result;
+	for (uint8_t i=0; i<31; i++)
+		result = RLINK_prng_next(result);
+	RLINK_rand1 = result;
+}
+
+static uint8_t __attribute__((unused)) RLINK_next_random_swap()
+{
+	uint8_t result = (RLINK_rand2 >> 16) + RLINK_rand2 + (RLINK_rand1 >> 16) + RLINK_rand1;
+
+	RLINK_rand2 = RLINK_prng_next(RLINK_rand2);
+	RLINK_rand1 = RLINK_prng_next(RLINK_rand1);
+
+	return result & 0x0F;
+}
+
+static uint32_t __attribute__((unused)) RLINK_compute_start_id(uint32_t id)
+{
+	return id * 0xF65EF9F9u + 0x2EDDF6CAu;
+}
+
+static void __attribute__((unused)) RLINK_shuffle_freqs(uint32_t seed)
+{
+	RLINK_init_random(seed);
+
+	for(uint8_t i=0; i<RLINK_HOP; i++)
+	{
+		uint8_t r   = RLINK_next_random_swap();
+		uint8_t tmp = hopping_frequency[r];
+		hopping_frequency[r] = hopping_frequency[i];
+		hopping_frequency[i] = tmp;
+	}
+}
+
+static void __attribute__((unused)) RLINK_hop()
+{
+	uint8_t inc=3*(rx_tx_addr[0]&3);
+	
+	// init hop table
+	for(uint8_t i=0; i<RLINK_HOP; i++)
+		hopping_frequency[i] = (12*i) + inc;
+
+	// shuffle
+	RLINK_shuffle_freqs(RLINK_compute_start_id(rx_tx_addr[0] + (rx_tx_addr[1] << 8)));
+	RLINK_shuffle_freqs(RLINK_compute_start_id(rx_tx_addr[2] + (rx_tx_addr[3] << 8)));
+
+	// replace one of the channel randomely
+	rf_ch_num=random(0xfefefefe)%0x11;		// 0x00..0x10
+	if(inc==9) inc=6;						// frequency exception
+	hopping_frequency[rf_ch_num]=12*16+inc;
+}
+
+static void __attribute__((unused)) RLINK_init()
+{
+	#ifdef RLINK_FORCE_ID
+		//surface RC6GS
+		memcpy(rx_tx_addr,"\x3A\x99\x22\x3A",RLINK_TX_ID_LEN);
+		//air T8FB
+		//memcpy(rx_tx_addr,"\xFC\x11\x0D\x20",RLINK_TX_ID_LEN);
+	#endif
+	// channels order depend on ID
+	RLINK_hop();
+
+ 	#if 0
+		debug("ID:");
+		for(uint8_t i=0;i<RLINK_TX_ID_LEN;i++)
+			debug(" 0x%02X",rx_tx_addr[i]);
+		debugln("");
+		debug("Hop(%d):", rf_ch_num);
+		for(uint8_t i=0;i<RLINK_HOP;i++)
+			debug(" 0x%02X",hopping_frequency[i]);
+		debugln("");
+	#endif
+ }
+
+const PROGMEM uint8_t RLINK_init_values[] = {
+  /* 00 */ 0x5B, 0x06, 0x5C, 0x07, 0xAB, 0xCD, 0x40, 0x04,
+  /* 08 */ 0x45, 0x00, 0x00, 0x06, 0x00, 0x5C, 0x62, 0x76,
+  /* 10 */ 0x7A, 0x7F, 0x13, 0x23, 0xF8, 0x44, 0x07, 0x30,
+  /* 18 */ 0x18, 0x16, 0x6C, 0x43, 0x40, 0x91, 0x87, 0x6B,
+  /* 20 */ 0xF8, 0x56, 0x10, 0xA9, 0x0A, 0x00, 0x11
+};
+
+static void __attribute__((unused)) RLINK_rf_init()
+{
+	CC2500_Strobe(CC2500_SIDLE);
+
+	for (uint8_t i = 0; i < 39; ++i)
+		CC2500_WriteReg(i, pgm_read_byte_near(&RLINK_init_values[i]));
+
+	prev_option = option;
+	CC2500_WriteReg(CC2500_0C_FSCTRL0, option);
+	
+	CC2500_SetTxRxMode(TX_EN);
+}
+
+static void __attribute__((unused)) RLINK_tune_freq()
+{
+	if ( prev_option != option )
+	{
+		CC2500_WriteReg(CC2500_0C_FSCTRL0, option);
+		prev_option = option ;
+	}
+}
+
+static void __attribute__((unused)) RLINK_send_packet()
+{
+	static uint32_t pseudo=0;
+	uint32_t bits = 0;
+	uint8_t bitsavailable = 0;
+	uint8_t idx = 6;
+
+	CC2500_Strobe(CC2500_SIDLE);
+
+	// packet length
+	packet[0] = RLINK_TX_PACKET_LEN;
+	// header
+	if(sub_protocol)
+		packet[1] = 0x21;					//air 0x21 on dump but it looks to support telemetry at least RSSI
+	else
+	{//surface
+		packet[1] = 0x01;
+		//radiolink additionnal ID which is working only on a small set of RXs
+		//if(RX_num) packet[1] |= ((RX_num+2)<<4)+4;	// RX number limited to 10 values, 0 is a wildcard
+	}
+	if(packet_count>3)
+		packet[1] |= 0x02;					// 0x02 telemetry request flag
+	
+	// ID
+	memcpy(&packet[2],rx_tx_addr,RLINK_TX_ID_LEN);
+
+	// pack 16 channels on 11 bits values between 170 and 1876, 1023 middle. The last 8 channels are failsafe values associated to the first 8 values.
+	for (uint8_t i = 0; i < 16; i++)
+	{
+		uint32_t val = convert_channel_16b_nolimit(i,170,1876);		// allow extended limits
+		if (val & 0x8000)
+			val = 0;
+		else if (val > 2047)
+			val=2047;
+
+		bits |= val << bitsavailable;
+		bitsavailable += 11;
+		while (bitsavailable >= 8) {
+			packet[idx++] = bits & 0xff;
+			bits >>= 8;
+			bitsavailable -= 8;
+		}
+	}
+	
+	// hop
+	pseudo=((pseudo * 0xAA) + 0x03) % 0x7673;	// calc next pseudo random value
+	CC2500_WriteReg(CC2500_0A_CHANNR, hopping_frequency[pseudo & 0x0F]);
+	packet[28]= pseudo;
+	packet[29]= pseudo >> 8;
+	packet[30]= 0x00;						// unknown
+	packet[31]= 0x00;						// unknown
+	packet[32]= rf_ch_num;					// index of value changed in the RF table
+	
+	// check
+	uint8_t sum=0;
+	for(uint8_t i=1;i<33;i++)
+		sum+=packet[i];
+	packet[33]=sum;
+
+	// send packet
+	CC2500_WriteData(packet, RLINK_TX_PACKET_LEN+1);
+	
+	// packets type
+	packet_count++;
+	if(packet_count>5) packet_count=0;
+
+	//debugln("C= 0x%02X",hopping_frequency[pseudo & 0x0F]);
+	//debug("P=");
+	//for(uint8_t i=1;i<RLINK_TX_PACKET_LEN+1;i++)
+	//	debug(" 0x%02X",packet[i]);
+	//debugln("");
+}
+
+#define RLINK_TIMING_PROTO	20000-100		// -100 for compatibility with R8EF
+#define RLINK_TIMING_RFSEND	10500
+#define RLINK_TIMING_CHECK	2000
+uint16_t RLINK_callback()
+{
+	switch(phase)
+	{
+		case RLINK_DATA:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(RLINK_TIMING_PROTO);
+			#endif
+			CC2500_SetPower();
+			RLINK_tune_freq();
+			RLINK_send_packet();
+#if not defined RLINK_HUB_TELEMETRY
+			return RLINK_TIMING_PROTO;
+#else
+			if(!(packet[1]&0x02))
+				return RLINK_TIMING_PROTO;					//Normal packet
+															//Telemetry packet
+			phase++;										// RX1
+			return RLINK_TIMING_RFSEND;
+		case RLINK_RX1:
+			CC2500_Strobe(CC2500_SIDLE);
+			CC2500_Strobe(CC2500_SFRX);
+			CC2500_SetTxRxMode(RX_EN);
+			CC2500_Strobe(CC2500_SRX);
+			phase++;										// RX2
+			return RLINK_TIMING_PROTO-RLINK_TIMING_RFSEND-RLINK_TIMING_CHECK;
+		case RLINK_RX2:
+			len = CC2500_ReadReg(CC2500_3B_RXBYTES | CC2500_READ_BURST) & 0x7F;	
+			if (len == RLINK_RX_PACKET_LEN + 1 + 2)			//Telemetry frame is 15 bytes + 1 byte for length + 2 bytes for RSSI&LQI&CRC
+			{
+				//debug("Telem:");
+				CC2500_ReadData(packet_in, len);
+				if(packet_in[0]==RLINK_RX_PACKET_LEN && (packet_in[len-1] & 0x80) && memcmp(&packet[2],rx_tx_addr,RLINK_TX_ID_LEN)==0 && packet_in[6]==packet[1])
+				{//Correct telemetry received: length, CRC, ID and type
+					//Debug
+					//for(uint8_t i=0;i<len;i++)
+					//	debug(" %02X",packet_in[i]);
+					TX_RSSI = packet_in[len-2];
+					if(TX_RSSI >=128)
+						TX_RSSI -= 128;
+					else
+						TX_RSSI += 128;
+					RX_RSSI=packet_in[7];					//Should be packet_in[7]-256 but since it's an uint8_t...
+					v_lipo1=packet_in[8]<<1;				//RX Batt
+					v_lipo2=packet_in[9];					//Batt
+					telemetry_link=1;						//Send telemetry out
+					pps_counter++;
+					packet_count=0;
+				}
+				//debugln("");
+			}
+			if (millis() - pps_timer >= 2000)
+			{//1 telemetry packet every 100ms
+				pps_timer = millis();
+				if(pps_counter<20)
+					pps_counter*=5;
+				else
+					pps_counter=100;
+				debugln("%d pps", pps_counter);
+				TX_LQI = pps_counter;						//0..100%
+				pps_counter = 0;
+			}
+			CC2500_SetTxRxMode(TX_EN);
+			phase=RLINK_DATA;								// DATA
+			return RLINK_TIMING_CHECK;
+#endif
+	}
+	return 0;
+}
+
+uint16_t initRLINK()
+{
+	BIND_DONE;	// Not a TX bind protocol
+	RLINK_init();
+	RLINK_rf_init();
+	packet_count = 0;
+	phase = RLINK_DATA;
+	return 10000;
+}
+
+#endif

Multiprotocol/Redpine_cc2500.ino

@@ -17,10 +17,10 @@
 
 #include "iface_cc2500.h"
 
-#define REDPINE_LOOPTIME_FAST 25	//2.5ms
-#define REDPINE_LOOPTIME_SLOW 6  	//6ms
+#define REDPINE_LOOPTIME_FAST 20	//2.0ms
+#define REDPINE_LOOPTIME_SLOW 20  	//20ms
 
-#define REDPINE_BIND 1000
+#define REDPINE_BIND 2000
 #define REDPINE_PACKET_SIZE 11
 #define REDPINE_FEC false  // from cc2500 datasheet: The convolutional coder is a rate 1/2 code with a constraint length of m=4
 #define REDPINE_NUM_HOPS 50
@@ -105,10 +105,9 @@ static uint16_t ReadREDPINE()
 	}
 	if(IS_BIND_IN_PROGRESS)
 	{
-		if(bind_counter == REDPINE_BIND)
-			REDPINE_init(0);
-		if(bind_counter == REDPINE_BIND/2)
-			REDPINE_init(1);
+        if (state == REDPINE_BIND) {
+    		REDPINE_init(0);
+        }
 		REDPINE_set_channel(49);
         CC2500_SetTxRxMode(TX_EN);
 		CC2500_SetPower();
@@ -121,10 +120,13 @@ static uint16_t ReadREDPINE()
 			BIND_DONE;
 			REDPINE_init(sub_protocol);
 		}
-		return 9000;
+		return 4000;
 	}
 	else
 	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(packet_period);
+		#endif
 		CC2500_SetTxRxMode(TX_EN);
 		REDPINE_set_channel(hopping_frequency_no);
 		CC2500_SetPower();
@@ -133,10 +135,7 @@ static uint16_t ReadREDPINE()
 		CC2500_Strobe(CC2500_SIDLE);
 		hopping_frequency_no = (hopping_frequency_no + 1) % 49;
 		CC2500_WriteData(packet, REDPINE_PACKET_SIZE);
-		if (sub_protocol==0)
-			return REDPINE_LOOPTIME_FAST*100;
-		else
-			return REDPINE_LOOPTIME_SLOW*1000;
+		return packet_period;
 	}
 	return 1;
 }
@@ -149,23 +148,19 @@ static const uint8_t REDPINE_init_data[][3] = {
     {CC2500_07_PKTCTRL1,  0x04, 0x04},
     {CC2500_08_PKTCTRL0,  0x05, 0x05},
     {CC2500_09_ADDR,      0x00, 0x00},
-    {CC2500_0B_FSCTRL1,   0x0A, 0x0A},
+    {CC2500_0B_FSCTRL1,   0x0A, 0x06},
     {CC2500_0C_FSCTRL0,   0x00, 0x00},
-    {CC2500_0D_FREQ2,     0x5D, 0x5c},
-    {CC2500_0E_FREQ1,     0x93, 0x76},
-    {CC2500_0F_FREQ0,     0xB1, 0x27},
-    {CC2500_10_MDMCFG4,   0x2D, 0x7B},
-    {CC2500_11_MDMCFG3,   0x3B, 0x61},
-    {CC2500_12_MDMCFG2,   0x73, 0x13},
-    #ifdef REDPINE_FEC    
-        {CC2500_13_MDMCFG1,   0xA3, 0xA3},
-    #else
-        {CC2500_13_MDMCFG1,   0x23, 0x23},
-    #endif
-    {CC2500_14_MDMCFG0,   0x56, 0x7a},  // Chan space
-    {CC2500_15_DEVIATN,   0x00, 0x51},
+    {CC2500_0D_FREQ2,     0x5D, 0x5D},
+    {CC2500_0E_FREQ1,     0x93, 0x93},
+    {CC2500_0F_FREQ0,     0xB1, 0xB1},
+    {CC2500_10_MDMCFG4,   0x2D, 0x78},
+    {CC2500_11_MDMCFG3,   0x3B, 0x93},
+    {CC2500_12_MDMCFG2,   0x73, 0x03},
+    {CC2500_13_MDMCFG1,   0x23, 0x22},
+    {CC2500_14_MDMCFG0,   0x56, 0xF8},  // Chan space
+    {CC2500_15_DEVIATN,   0x00, 0x44},
     {CC2500_17_MCSM1,     0x0c, 0x0c},
-    {CC2500_18_MCSM0,     0x08, 0x08}, //??? 0x18, 0x18},
+    {CC2500_18_MCSM0,     0x18, 0x18},
     {CC2500_19_FOCCFG,    0x1D, 0x16},
     {CC2500_1A_BSCFG,     0x1C, 0x6c},
     {CC2500_1B_AGCCTRL2,  0xC7, 0x43},
@@ -181,7 +176,7 @@ static const uint8_t REDPINE_init_data[][3] = {
     {CC2500_2C_TEST2,     0x88, 0x88},
     {CC2500_2D_TEST1,     0x31, 0x31},
     {CC2500_2E_TEST0,     0x0B, 0x0B},
-    {CC2500_3E_PATABLE,   0xff, 0xff}
+	{CC2500_3E_PATABLE,   0xff, 0xff}
 };
 
 static void REDPINE_init(uint8_t format)
@@ -190,8 +185,9 @@ static void REDPINE_init(uint8_t format)
 
 	CC2500_WriteReg(CC2500_06_PKTLEN, REDPINE_PACKET_SIZE);
 
-	for (uint8_t i=0; i < ((sizeof REDPINE_init_data) / (sizeof REDPINE_init_data[0])); i++)
+	for (uint8_t i=0; i < ((sizeof(REDPINE_init_data)) / (sizeof(REDPINE_init_data[0]))); i++) {
 		CC2500_WriteReg(REDPINE_init_data[i][0], REDPINE_init_data[i][format+1]);
+	}
 
 	prev_option = option;
 	CC2500_WriteReg(CC2500_0C_FSCTRL0, option);
@@ -215,7 +211,6 @@ static uint16_t initREDPINE()
 	uint32_t idx = 0;
 	uint32_t rnd = MProtocol_id;
 	#define REDPINE_MAX_RF_CHANNEL 255
-	hopping_frequency[idx++] = 1;
 	while (idx < REDPINE_NUM_HOPS-1)
 	{
 		uint32_t i;
@@ -226,8 +221,9 @@ static uint16_t initREDPINE()
 		for (i = 0; i < idx; i++)
 		{
 			uint8_t ch = hopping_frequency[i];
-			if ((ch <= next_ch + 1) && (ch >= next_ch - 1) && (ch > 1))
-				break;
+            if ((ch <= next_ch + 1) && (ch >= next_ch - 1) && (ch >= 1)) {
+                break;
+            }
 		}
 		if (i != idx)
 			continue;
@@ -235,6 +231,11 @@ static uint16_t initREDPINE()
 	}
 	hopping_frequency[49] = 0;  // Last channel is the bind channel at hop 0
 
+	if (sub_protocol==0)
+		packet_period = REDPINE_LOOPTIME_FAST*100;
+	else
+		packet_period = REDPINE_LOOPTIME_SLOW*1000;
+
 	bind_counter=REDPINE_BIND;
 	REDPINE_init(sub_protocol);
 	CC2500_SetTxRxMode(TX_EN);  // enable PA

Multiprotocol/SHENQI_nrf24l01.ino

@@ -63,6 +63,10 @@ void SHENQI_send_packet()
 	}
 	else
 	{
+		#ifdef MULTI_SYNC
+			if(packet_count==1)
+				telemetry_set_input_sync(3000+2508+6*1750);
+		#endif
 		LT8900_SetAddress(rx_tx_addr,4);
 		packet[1]=255-convert_channel_8b(RUDDER);
 		packet[2]=255-convert_channel_16b_limit(THROTTLE,0x60,0xA0);
@@ -91,7 +95,9 @@ void SHENQI_send_packet()
 uint16_t SHENQI_callback()
 {
 	if(IS_BIND_DONE)
+	{
 		SHENQI_send_packet();
+	}
 	else
 	{
 		if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))

Multiprotocol/SLT_nrf24l01.ino

@@ -16,7 +16,7 @@
 
 #if defined(SLT_NRF24L01_INO)
 
-#include "iface_nrf24l01.h"
+#include "iface_nrf250k.h"
 
 //#define SLT_Q200_FORCE_ID
 
@@ -25,6 +25,7 @@
 #define SLT_PAYLOADSIZE_V2 11
 #define SLT_NFREQCHANNELS 15
 #define SLT_TXID_SIZE 4
+#define SLT_BIND_CHANNEL 0x50
 
 enum{
 	// flags going to packet[6] (Q200)
@@ -48,30 +49,13 @@ enum {
 	SLT_DATA2,
 	SLT_DATA3,
 	SLT_BIND1,
-	SLT_BIND2
+	SLT_BIND2,
 };
 
 static void __attribute__((unused)) SLT_init()
 {
-	NRF24L01_Initialize();
-	NRF24L01_WriteReg(NRF24L01_00_CONFIG, _BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO)); // 2-bytes CRC, radio off
-	NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);			// No Auto Acknoledgement
-	NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x01);		// Enable data pipe 0
-	NRF24L01_WriteReg(NRF24L01_03_SETUP_AW, 0x02);		// 4-byte RX/TX address
-	NRF24L01_WriteReg(NRF24L01_04_SETUP_RETR, 0x00);	// Disable auto retransmit
-	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);		// Clear data ready, data sent, and retransmit
-	NRF24L01_WriteReg(NRF24L01_11_RX_PW_P0, 4);			// bytes of data payload for pipe 1
-	NRF24L01_SetBitrate(NRF24L01_BR_250K);          	// 256kbps
-	NRF24L01_SetPower();
-	if(sub_protocol==SLT_V1)
-		NRF24L01_WriteRegisterMulti(NRF24L01_0A_RX_ADDR_P0, (uint8_t*)"\xC3\xC3\xAA\x55", SLT_TXID_SIZE);
-	else // V2
-		NRF24L01_WriteRegisterMulti(NRF24L01_0A_RX_ADDR_P0, (uint8_t*)"\x7E\xB8\x63\xA9", SLT_TXID_SIZE);
-	NRF24L01_FlushRx();
-	NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR, rx_tx_addr, SLT_TXID_SIZE);
-	NRF24L01_FlushTx();
-	// Turn radio power on
-	NRF24L01_SetTxRxMode(TX_EN);
+	NRF250K_Init();
+	NRF250K_SetTXAddr(rx_tx_addr, SLT_TXID_SIZE);
 }
 
 static void __attribute__((unused)) SLT_set_freq(void)
@@ -109,21 +93,25 @@ static void __attribute__((unused)) SLT_set_freq(void)
 				}
 		}
 	}
+	
+	//Bind channel
+	hopping_frequency[SLT_NFREQCHANNELS]=SLT_BIND_CHANNEL;
+	
+	//Calib all channels
+	NRF250K_HoppingCalib(SLT_NFREQCHANNELS+1);
 }
 
 static void __attribute__((unused)) SLT_wait_radio()
 {
 	if (packet_sent)
-		while (!(NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_TX_DS)));
+		while (!NRF250K_IsPacketSent());
 	packet_sent = 0;
 }
 
 static void __attribute__((unused)) SLT_send_packet(uint8_t len)
 {
 	SLT_wait_radio();
-	NRF24L01_FlushTx();
-	NRF24L01_WriteReg(NRF24L01_07_STATUS, _BV(NRF24L01_07_TX_DS) | _BV(NRF24L01_07_RX_DR) | _BV(NRF24L01_07_MAX_RT));
-	NRF24L01_WritePayload(packet, len);
+	NRF250K_WritePayload(packet, len);
 	packet_sent = 1;
 }
 
@@ -132,7 +120,8 @@ static void __attribute__((unused)) SLT_build_packet()
 	static uint8_t calib_counter=0;
 	
 	// Set radio channel - once per packet batch
-	NRF24L01_WriteReg(NRF24L01_05_RF_CH, hopping_frequency[hopping_frequency_no]);
+	NRF250K_SetFreqOffset();	// Set frequency offset
+	NRF250K_Hopping(hopping_frequency_no);
 	if (++hopping_frequency_no >= SLT_NFREQCHANNELS)
 		hopping_frequency_no = 0;
 
@@ -141,7 +130,7 @@ static void __attribute__((unused)) SLT_build_packet()
 	for (uint8_t i = 0; i < 4; ++i)
 	{
 		uint16_t v = convert_channel_10b(CH_AETR[i]);
-		if(sub_protocol>SLT_V2 && (CH_AETR[i]==THROTTLE || CH_AETR[i]==ELEVATOR) )
+		if(sub_protocol>SLT_V2 && (i==CH2 || i==CH3) )
 			v=1023-v;	// reverse throttle and elevator channels for Q100/Q200/MR100 protocols
 		packet[i] = v;
 		e = (e >> 2) | (uint8_t) ((v >> 2) & 0xC0);
@@ -183,23 +172,16 @@ static void __attribute__((unused)) SLT_build_packet()
 static void __attribute__((unused)) SLT_send_bind_packet()
 {
 	SLT_wait_radio();
-	BIND_IN_PROGRESS;				//Limit TX power to bind level
-	NRF24L01_SetPower();
+	NRF250K_Hopping(SLT_NFREQCHANNELS);	//Bind channel
+	BIND_IN_PROGRESS;					//Limit TX power to bind level
+	NRF250K_SetPower();
 	BIND_DONE;
-	NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR, (uint8_t *)"\x7E\xB8\x63\xA9", SLT_TXID_SIZE);
-
-	NRF24L01_WriteReg(NRF24L01_05_RF_CH, 0x50);
+	NRF250K_SetTXAddr((uint8_t *)"\x7E\xB8\x63\xA9", SLT_TXID_SIZE);
 	memcpy((void*)packet,(void*)rx_tx_addr,SLT_TXID_SIZE);
 	if(phase==SLT_BIND2)
 		SLT_send_packet(SLT_TXID_SIZE);
 	else // SLT_BIND1
 		SLT_send_packet(SLT_PAYLOADSIZE_V2);
-
-	SLT_wait_radio();				//Wait until the packet's sent before changing TX address!
-
-	NRF24L01_SetPower();			//Change power back to normal level
-	if(phase==SLT_BIND2) // after V1 bind and V2 second bind packet
-		NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR, rx_tx_addr, SLT_TXID_SIZE);
 }
 
 #define SLT_TIMING_BUILD		1000
@@ -213,7 +195,12 @@ uint16_t SLT_callback()
 	switch (phase)
 	{
 		case SLT_BUILD:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(sub_protocol==SLT_V1?20000:13730);
+			#endif
 			SLT_build_packet();
+			NRF250K_SetPower();					//Change power level
+			NRF250K_SetTXAddr(rx_tx_addr, SLT_TXID_SIZE);
 			phase++;
 			return SLT_TIMING_BUILD;
 		case SLT_DATA1:
@@ -250,7 +237,6 @@ uint16_t SLT_callback()
 			}
 			else
 			{// Continue to send normal packets
-				NRF24L01_SetPower();	// Set tx_power
 				phase = SLT_BUILD;
 				if(sub_protocol==SLT_V1)
 					return 20000-SLT_TIMING_BUILD;
@@ -286,8 +272,8 @@ uint16_t initSLT()
 		/*	rx_tx_addr[0]=0x01;rx_tx_addr[1]=0x02;rx_tx_addr[2]=0x0B;rx_tx_addr[3]=0x57;*/
 		#endif
 	}
-	SLT_set_freq();
 	SLT_init();
+	SLT_set_freq();
 	phase = SLT_BUILD;
 	return 50000;
 }

Multiprotocol/SX1276_SPI.ino

@@ -0,0 +1,246 @@
+#ifdef SX1276_INSTALLED
+#include "iface_sx1276.h"
+
+bool SX1276_Mode_LoRa=false;
+
+void SX1276_WriteReg(uint8_t address, uint8_t data)
+{
+	SPI_CSN_off;
+	SPI_Write(address | 0x80); // MSB 1 = write
+	NOP();
+	SPI_Write(data);
+	SPI_CSN_on;
+}
+
+uint8_t SX1276_ReadReg(uint8_t address)
+{ 
+	SPI_CSN_off;
+	SPI_Write(address & 0x7F);
+	uint8_t result = SPI_Read();
+	SPI_CSN_on;
+	return result;
+}
+
+void SX1276_WriteRegisterMulti(uint8_t address, const uint8_t* data, uint8_t length)
+{
+	SPI_CSN_off;
+	SPI_Write(address | 0x80); // MSB 1 = write
+
+	for(uint8_t i = 0; i < length; i++)
+		SPI_Write(data[i]);
+
+	SPI_CSN_on;
+}
+
+void SX1276_ReadRegisterMulti(uint8_t address, uint8_t* data, uint8_t length)
+{ 
+	SPI_CSN_off;
+	SPI_Write(address & 0x7F);
+
+	for(uint8_t i = 0; i < length; i++)
+		data[i]=SPI_Read();
+
+	SPI_CSN_on;
+}
+
+uint8_t SX1276_Reset()
+{
+	//TODO when pin is not wired
+	#ifdef SX1276_RST_pin
+		SX1276_RST_off;
+		delayMicroseconds(200);
+		SX1276_RST_on;
+	#endif
+    return 0;
+}
+
+bool SX1276_DetectChip() //to be called after reset, verfies the chip has been detected
+{
+	#define SX1276_Detect_MaxAttempts 5
+	uint8_t i = 0;
+	bool chipFound = false;
+	while ((i < SX1276_Detect_MaxAttempts) && !chipFound)
+	{
+		uint8_t ChipVersion = SX1276_ReadReg(SX1276_42_VERSION);
+		if (ChipVersion == 0x12)
+		{
+			debugln("SX1276 reg version=%d", ChipVersion);
+			chipFound = true;
+		}
+		else
+		{
+			debug("SX1276 not found! attempts: %d", i);
+			debug(" of ");
+			debugln("%d SX1276 reg version=%d", SX1276_Detect_MaxAttempts, ChipVersion);
+			i++;
+		}
+	}
+	if (!chipFound)
+	{
+		debugln("SX1276 not detected!!!");
+		return false;
+	}
+	else
+	{
+		debugln("Found SX1276 Device!");
+		return true;
+	}
+}
+
+void SX1276_SetTxRxMode(uint8_t mode)
+{
+	#ifdef SX1276_TXEN_pin
+		if(mode == TX_EN)
+			SX1276_TXEN_on;
+		else
+			SX1276_RXEN_on;
+	#endif
+}
+
+void SX1276_SetFrequency(uint32_t frequency)
+{
+	uint32_t f = frequency / 61;
+	uint8_t data[3];
+	data[0] = f >> 16;
+	data[1] = f >> 8;
+	data[2] = f;
+	
+	SX1276_WriteRegisterMulti(SX1276_06_FRFMSB, data, 3);
+}
+
+void SX1276_SetMode(bool lora, bool low_freq_mode, uint8_t mode)
+{
+	uint8_t data = 0x00;
+
+	SX1276_Mode_LoRa=lora;
+
+	if(lora)
+	{
+		data = data | (1 << 7);
+		data = data & ~(1 << 6);
+	}
+	else
+	{
+		data = data & ~(1 << 7);
+		data = data | (1 << 6);
+	}
+
+	if(low_freq_mode)
+		data = data | (1 << 3);
+	
+	data = data | mode;
+
+	SX1276_WriteReg(SX1276_01_OPMODE, data);
+}
+
+void SX1276_SetDetectOptimize(bool auto_if, uint8_t detect_optimize)
+{
+	uint8_t data = SX1276_ReadReg(SX1276_31_DETECTOPTIMIZE);
+	data = (data & 0b01111000) | detect_optimize;
+	data = data | (auto_if << 7);
+
+	SX1276_WriteReg(SX1276_31_DETECTOPTIMIZE, data);
+}
+
+void SX1276_ConfigModem1(uint8_t bandwidth, uint8_t coding_rate, bool implicit_header_mode)
+{
+	uint8_t data = 0x00;
+	data = data | (bandwidth << 4);
+	data = data | (coding_rate << 1);
+	data = data | implicit_header_mode;
+
+	SX1276_WriteReg(SX1276_1D_MODEMCONFIG1, data);
+
+	if (bandwidth == SX1276_MODEM_CONFIG1_BW_500KHZ) //datasheet errata reconmendation http://caxapa.ru/thumbs/972894/SX1276_77_8_ErrataNote_1.1_STD.pdf
+	{
+		SX1276_WriteReg(SX1276_36_LORA_REGHIGHBWOPTIMIZE1, 0x02);
+		SX1276_WriteReg(SX1276_3A_LORA_REGHIGHBWOPTIMIZE2, 0x64);
+	}
+	else
+		SX1276_WriteReg(SX1276_36_LORA_REGHIGHBWOPTIMIZE1, 0x03);
+}
+
+void SX1276_ConfigModem2(uint8_t spreading_factor, bool tx_continuous_mode, bool rx_payload_crc_on)
+{
+	uint8_t data = SX1276_ReadReg(SX1276_1E_MODEMCONFIG2);
+	data = data & 0b11; // preserve the last 2 bits
+	data = data | (spreading_factor << 4);
+	data = data | (tx_continuous_mode << 3);
+	data = data | (rx_payload_crc_on << 2);
+
+	SX1276_WriteReg(SX1276_1E_MODEMCONFIG2, data);
+}
+
+void SX1276_ConfigModem3(bool low_data_rate_optimize, bool agc_auto_on)
+{
+	uint8_t data = SX1276_ReadReg(SX1276_26_MODEMCONFIG3);
+	data = data & 0b11; // preserve the last 2 bits
+	data = data | (low_data_rate_optimize << 3);
+	data = data | (agc_auto_on << 2);
+	
+	SX1276_WriteReg(SX1276_26_MODEMCONFIG3, data);
+}
+
+void SX1276_SetPreambleLength(uint16_t length)
+{
+	uint8_t data[2];
+	data[0] = (length >> 8) & 0xFF; // high byte
+	data[1] = length & 0xFF; // low byte
+	
+	SX1276_WriteRegisterMulti(SX1276_20_PREAMBLEMSB, data, 2);
+}
+
+void SX1276_SetDetectionThreshold(uint8_t threshold)
+{
+	SX1276_WriteReg(SX1276_37_DETECTIONTHRESHOLD, threshold);
+}
+
+void SX1276_SetLna(uint8_t gain, bool high_freq_lna_boost)
+{
+	uint8_t data = SX1276_ReadReg(SX1276_0C_LNA);
+	data = data & 0b100; // preserve the third bit
+	data = data | (gain << 5);
+	
+	if(high_freq_lna_boost)
+		data = data | 0b11;
+	
+	SX1276_WriteReg(SX1276_0C_LNA, data);
+}
+
+void SX1276_SetHopPeriod(uint8_t freq_hop_period)
+{
+	SX1276_WriteReg(SX1276_24_HOPPERIOD, freq_hop_period);
+}
+
+void SX1276_SetPaDac(bool on)
+{
+	uint8_t data = SX1276_ReadReg(SX1276_4D_PADAC);
+	data = data & 0b11111000; // preserve the upper 5 bits
+
+	if(on)
+		data = data | 0x07;
+	else
+		data = data | 0x04;
+	
+	SX1276_WriteReg(SX1276_4D_PADAC, data);
+}
+
+void SX1276_SetPaConfig(bool pa_boost_pin, uint8_t max_power, uint8_t output_power)
+{
+	uint8_t data = 0x00;
+	data = data | (pa_boost_pin << 7);
+	data = data | (max_power << 4);
+	data = data | output_power;
+
+	SX1276_WriteReg(SX1276_09_PACONFIG, data);
+}
+
+void SX1276_WritePayloadToFifo(uint8_t* payload, uint8_t length)
+{
+	SX1276_WriteReg(SX1276_22_PAYLOAD_LENGTH, length);
+	SX1276_WriteReg(SX1276_0E_FIFOTXBASEADDR, 0x00);
+	SX1276_WriteReg(SX1276_0D_FIFOADDRPTR, 0x00);
+	SX1276_WriteRegisterMulti(SX1276_00_FIFO, payload, length);
+}
+
+#endif

Multiprotocol/Scanner_cc2500.ino

@@ -18,13 +18,11 @@
 #include "iface_cc2500.h"
 
 #define SCAN_MAX_RADIOCHANNEL	249 // 2483 MHz
-#define SCAN_CHANNEL_LOCK_TIME	210 // with precalibration, channel requires only 90 usec for synthesizer to settle
+#define SCAN_CHANNEL_LOCK_TIME	90 // with precalibration, channel requires only 90 usec for synthesizer to settle
 #define SCAN_AVERAGE_INTVL		20
-#define SCAN_MAX_COUNT			5
+#define SCAN_MAX_COUNT			10
 #define SCAN_CHANS_PER_PACKET	5
 
-static uint8_t scan_tlm_index;
-
 enum ScanStates {
 	SCAN_CHANNEL_CHANGE = 0,
 	SCAN_GET_RSSI = 1,
@@ -90,56 +88,53 @@ static int __attribute__((unused)) Scanner_scan_rssi()
 		rssi_rel = rssi - 128;  // relative power levels 0-127 (equals -137 to -72 dBm)
 	}
 	else {
-		rssi_rel = rssi + 128;  // relativ power levels 128-255 (equals -73 to -10 dBm)
+		rssi_rel = rssi + 128;  // relative power levels 128-255 (equals -73 to -10 dBm)
 	}
 	return rssi_rel;
 }
 
 uint16_t Scanner_callback()
 {
-	static uint8_t max_count, max_rssi;
-	uint8_t rssi;
-	switch (phase)
-	{
-		case SCAN_CHANNEL_CHANGE:
-			if(telemetry_link == 0) {
-				max_count = 0;
-				max_rssi = 0;
-				rf_ch_num++;
-				if (rf_ch_num >= (SCAN_MAX_RADIOCHANNEL + 1))
-					rf_ch_num = 0;
-				if (scan_tlm_index++ == 0)
-					pkt[0] = rf_ch_num;  // start channel for telemetry packet
-				Scanner_scan_next();
-				phase = SCAN_GET_RSSI;
-			}
-			return SCAN_CHANNEL_LOCK_TIME;
-		case SCAN_GET_RSSI:
-			rssi = Scanner_scan_rssi();
-			if(rssi >= max_rssi) {
-				max_rssi = rssi;
-				pkt[scan_tlm_index] = rssi;
-			}
-			max_count++;
-			if(max_count > SCAN_MAX_COUNT) {
-				phase = SCAN_CHANNEL_CHANGE;
-				if (scan_tlm_index == SCAN_CHANS_PER_PACKET)
-				{
-					// send data to TX
-					telemetry_link = 1;
-					scan_tlm_index = 0;
-				}
+	uint8_t rssi,max_rssi;
+	
+	//!!!Blocking mode protocol!!!
+	TX_MAIN_PAUSE_off;
+	tx_resume();
+	while(1)
+	{ //Start
+		packet_in[0] = rf_ch_num;						// start channel for telemetry packet
+		for(uint8_t i=0;i<SCAN_CHANS_PER_PACKET;i++)
+		{
+			Scanner_scan_next();						// set channel
+			delayMicroseconds(SCAN_CHANNEL_LOCK_TIME);	// wait for freq to adjust
+			max_rssi = 0;
+			for(uint8_t j=0;j<SCAN_MAX_COUNT;j++)
+			{
+				rssi = Scanner_scan_rssi();
+				if(rssi >= max_rssi) max_rssi = rssi;
+				delayMicroseconds(SCAN_AVERAGE_INTVL);	// wait before next read
 			}
+			packet_in[i+1] = max_rssi;
+			//next channel
+			rf_ch_num++;
+			if (rf_ch_num >= (SCAN_MAX_RADIOCHANNEL + 1))
+				rf_ch_num = 0;
+		}
+		telemetry_link = 1;
+		do
+		{
+			if(Update_All())
+				return 1000;							// protocol has changed, give back the control to main
+		}
+		while(telemetry_link == 1);
 	}
-	return SCAN_AVERAGE_INTVL;
+	return 0;
 }
 
 uint16_t initScanner(void)
 {
-	rf_ch_num = SCAN_MAX_RADIOCHANNEL;
-	scan_tlm_index = 0;
+	rf_ch_num = 0;
 	telemetry_link = 0;
-	phase = SCAN_CHANNEL_CHANGE;
 	Scanner_cc2500_init();
 	CC2500_Strobe(CC2500_SRX);
 	Scanner_calibrate();

Multiprotocol/Skyartec_cc2500.ino

@@ -0,0 +1,179 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+ Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(SKYARTEC_CC2500_INO)
+
+#include "iface_cc2500.h"
+
+//#define SKYARTEC_FORCE_ID
+
+#define SKYARTEC_COARSE				0x00
+#define SKYARTEC_TX_ADDR			rx_tx_addr[1]
+#define SKYARTEC_TX_CHANNEL			rx_tx_addr[0]
+
+enum {
+    SKYARTEC_PKT1 = 0,
+    SKYARTEC_SLEEP1, 
+    SKYARTEC_PKT2,
+    SKYARTEC_SLEEP2, 
+    SKYARTEC_PKT3,
+    SKYARTEC_SLEEP3, 
+    SKYARTEC_PKT4,
+    SKYARTEC_SLEEP4, 
+    SKYARTEC_PKT5,
+    SKYARTEC_SLEEP5, 
+    SKYARTEC_PKT6,
+    SKYARTEC_LAST,
+};
+
+const PROGMEM uint8_t SKYARTEC_init_values[] = {
+  /* 04 */ 0x13, 0x18, 0xFF, 0x05,
+  /* 08 */ 0x05, 0x43, 0xCD, 0x09, 0x00, 0x5D, 0x93, 0xB1 + SKYARTEC_COARSE,
+  /* 10 */ 0x2D, 0x20, 0x73, 0x22, 0xF8, 0x50, 0x07, 0x30,
+  /* 18 */ 0x18, 0x1D, 0x1C, 0xC7, 0x00, 0xB2, 0x87, 0x6B,
+  /* 20 */ 0xF8, 0xB6, 0x10, 0xEA, 0x0A, 0x00, 0x11, 0x41,
+  /* 28 */ 0x00, 0x59, 0x7F, 0x3F, 0x88, 0x31, 0x0B
+};
+
+static void __attribute__((unused)) SKYARTEC_rf_init()
+{
+	CC2500_Strobe(CC2500_SIDLE);
+
+	for (uint8_t i = 4; i <= 0x2E; ++i)
+		CC2500_WriteReg(i, pgm_read_byte_near(&SKYARTEC_init_values[i-4]));
+	
+	prev_option = option;
+	CC2500_WriteReg(CC2500_0C_FSCTRL0, option);
+
+	CC2500_SetTxRxMode(TX_EN);
+	CC2500_SetPower();
+	CC2500_Strobe(CC2500_SFTX);
+	CC2500_Strobe(CC2500_SFRX);
+	CC2500_Strobe(CC2500_SXOFF);
+	CC2500_Strobe(CC2500_SIDLE);
+}
+
+static void __attribute__((unused)) SKYARTEC_send_data_packet()
+{
+	//13 c5 01 0259 0168 0000 0259 030c 021a 0489 f3 7e 0a
+	//header
+	packet[0] = 0x13;				//Length
+	packet[1] = SKYARTEC_TX_ADDR;	//Tx Addr?
+	packet[2] = 0x01;				//???
+	//channels
+	for(uint8_t i = 0; i < 7; i++)
+	{
+		uint16_t value = convert_channel_16b_limit(CH_AETR[i],0x000,0x500);
+		packet[3+2*i] = value >> 8;
+		packet[4+2*i] = value & 0xff;
+	}
+	//checks
+    uint8_t xor1 = 0;
+    for(uint8_t i = 3; i <= 14; i++)
+        xor1 ^= packet[i];
+    packet[18] = xor1;
+    xor1 ^= packet[15];
+    xor1 ^= packet[16];
+    packet[17] = xor1;
+    packet[19] = packet[3] + packet[5] + packet[7] + packet[9] + packet[11] + packet[13];
+
+	CC2500_WriteReg(CC2500_04_SYNC1,	rx_tx_addr[3]);
+	CC2500_WriteReg(CC2500_05_SYNC0,	rx_tx_addr[2]);
+	CC2500_WriteReg(CC2500_09_ADDR,		SKYARTEC_TX_ADDR);
+	CC2500_WriteReg(CC2500_0A_CHANNR,	SKYARTEC_TX_CHANNEL);
+	CC2500_WriteData(packet, 20);
+}
+
+static void __attribute__((unused)) SKYARTEC_send_bind_packet()
+{
+	//0b 7d 01 01 b2 c5 4a 2f 00 00 c5 d6
+	packet[0] = 0x0b;       //Length
+	packet[1] = 0x7d;
+	packet[2] = 0x01;
+	packet[3] = 0x01;
+	packet[4] = rx_tx_addr[0];
+	packet[5] = rx_tx_addr[1];
+	packet[6] = rx_tx_addr[2];
+	packet[7] = rx_tx_addr[3];
+	packet[8] = 0x00;
+	packet[9] = 0x00;
+	packet[10] = SKYARTEC_TX_ADDR;
+	uint8_t xor1 = 0;
+	for(uint8_t i = 3; i < 11; i++)
+		xor1 ^= packet[i];
+	packet[11] = xor1;
+	CC2500_WriteReg(CC2500_04_SYNC1,	0x7d);
+	CC2500_WriteReg(CC2500_05_SYNC0,	0x7d);
+	CC2500_WriteReg(CC2500_09_ADDR,		0x7d);
+	CC2500_WriteReg(CC2500_0A_CHANNR,	0x7d);
+	CC2500_WriteData(packet, 12);
+}
+
+uint16_t ReadSKYARTEC()
+{
+	if (phase & 0x01)
+	{
+		CC2500_Strobe(CC2500_SIDLE);
+		if (phase == SKYARTEC_LAST)
+		{
+			CC2500_SetPower();
+			// Tune frequency if it has been changed
+			if ( prev_option != option )
+			{
+				CC2500_WriteReg(CC2500_0C_FSCTRL0, option);
+				prev_option = option ;
+			}
+			phase = SKYARTEC_PKT1;
+		}
+		else
+			phase++;
+		return 3000;
+	}
+	if (phase == SKYARTEC_PKT1 && bind_counter)
+	{
+		SKYARTEC_send_bind_packet();
+		bind_counter--;
+		if(bind_counter == 0)
+			BIND_DONE;
+	}
+	else
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(6000);
+		#endif
+		SKYARTEC_send_data_packet();
+	}
+	phase++;
+	return 3000;
+}
+
+uint16_t initSKYARTEC()
+{
+    SKYARTEC_rf_init();
+
+	#ifdef SKYARTEC_FORCE_ID
+		memset(rx_tx_addr,0x00,4);
+	#endif
+	if(rx_tx_addr[0]==0) rx_tx_addr[0]=0xB2;
+	if(rx_tx_addr[1]==0) rx_tx_addr[1]=0xC5;
+	if(rx_tx_addr[2]==0) rx_tx_addr[2]=0x4A;
+	if(rx_tx_addr[3]==0) rx_tx_addr[3]=0x2F;
+
+	bind_counter = 250;
+	phase = SKYARTEC_PKT1;
+	return 10000;
+}
+
+#endif

Multiprotocol/Symax_nrf24l01.ino

@@ -359,6 +359,9 @@ uint16_t symax_callback()
 			}
 			break;
 		case SYMAX_DATA:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(SYMAX_PACKET_PERIOD);
+			#endif
 			SYMAX_send_packet(0);
 			break;
 	}

Multiprotocol/TEST_cc2500.ino

@@ -0,0 +1,63 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+#if defined(TEST_CC2500_INO)
+
+#include "iface_nrf250k.h"
+
+#define TEST_INITIAL_WAIT    500
+#define TEST_PACKET_PERIOD   10000
+#define TEST_PAYLOAD_SIZE    10
+#define TEST_RF_NUM_CHANNELS 3
+
+uint16_t TEST_callback()
+{
+	option=1;
+	if(phase)
+		XN297L_WritePayload(packet, TEST_PAYLOAD_SIZE);
+	else
+	{
+		if(Channel_data[CH5]<CHANNEL_MIN_COMMAND)
+			hopping_frequency_no=0;
+		else if(Channel_data[CH5]>CHANNEL_MAX_COMMAND)
+			hopping_frequency_no=2;
+		else
+			hopping_frequency_no=1;
+		XN297L_Hopping(hopping_frequency_no);
+		CC2500_WriteReg(CC2500_3E_PATABLE,convert_channel_8b(CH6));
+		debugln("CH:%d, PWR:%d",hopping_frequency_no,convert_channel_8b(CH6));
+	}
+	phase ^= 1;
+	return TEST_PACKET_PERIOD>>1;
+}
+
+uint16_t initTEST()
+{
+	option=1;
+
+	hopping_frequency[0]=0;
+	hopping_frequency[1]=40;
+	hopping_frequency[2]=80;
+	XN297L_Init();
+	XN297L_HoppingCalib(TEST_RF_NUM_CHANNELS);	// Calibrate all channels
+	XN297L_SetTXAddr((uint8_t*)"RADIO", 5);
+	hopping_frequency_no = 0;
+	phase=0;
+	for(uint8_t i=0; i<TEST_PAYLOAD_SIZE; i++)
+		packet[i]= i;
+	return TEST_INITIAL_WAIT;
+}
+
+#endif

Multiprotocol/TRAXXAS_cyrf6936.ino

@@ -162,6 +162,9 @@ uint16_t ReadTRAXXAS()
 			TRAXXAS_cyrf_data_config();
 			phase++;
 		case TRAXXAS_DATA:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(13940);
+			#endif
 			TRAXXAS_send_data_packet();
 			break;
 	}

Multiprotocol/Tiger_nrf24l01.ino

@@ -0,0 +1,182 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+// Compatible with Tiger Drone 1400782.
+
+#if defined(TIGER_NRF24L01_INO)
+
+#include "iface_nrf24l01.h"
+
+#define TIGER_FORCE_ID
+
+#define TIGER_INITIAL_WAIT    500
+#define TIGER_PACKET_PERIOD   3940
+#define TIGER_RF_NUM_CHANNELS 4
+#define TIGER_BIND_RF_NUM_CHANNELS 8
+#define TIGER_PAYLOAD_SIZE    16
+#define TIGER_BIND_COUNT	  761		//3sec
+
+
+static uint8_t __attribute__((unused)) TIGER_convert_channel(uint8_t num)
+{
+	uint8_t val=convert_channel_8b(num);
+	// 7F..01=left, 00=center, 80..FF=right
+	if(val==0x80)
+		val=0;				// 0
+	else
+		if(val>0x80)
+			val--;			// 80..FE
+		else
+		{
+			val=0x80-val;	// 80..01
+			if(val==0x80)
+				val--;		// 7F..01
+		}
+	return val;
+}
+
+static void __attribute__((unused)) TIGER_send_packet()
+{
+	if(IS_BIND_DONE)
+	{
+		//Channels
+		packet[0]=convert_channel_8b(THROTTLE);		// 00..FF
+		packet[1]=TIGER_convert_channel(RUDDER);	// 7F..01=left, 00=center, 80..FF=right
+		packet[2]=TIGER_convert_channel(ELEVATOR);	// 7F..01=down, 00=center, 80..FF=up
+		packet[3]=TIGER_convert_channel(AILERON);	// 7F..01=left, 00=center, 80..FF=right
+		//Flags
+		packet[14]= GET_FLAG(CH5_SW, 0x04)			//FLIP
+				  | GET_FLAG(CH6_SW, 0x10);			//LIGHT
+	}
+	//Check
+	crc8=0;
+	for(uint8_t i=0;i<TIGER_PAYLOAD_SIZE-1;i++)
+		crc8+=packet[i];
+	packet[TIGER_PAYLOAD_SIZE-1]=crc8;
+
+	//Hopping frequency
+	NRF24L01_WriteReg(NRF24L01_05_RF_CH, hopping_frequency[hopping_frequency_no>>1]);
+	hopping_frequency_no++;
+	if(IS_BIND_IN_PROGRESS)
+	{
+		if(hopping_frequency_no>=2*TIGER_BIND_RF_NUM_CHANNELS)
+			hopping_frequency_no=0;
+	}
+	else
+	{
+		if(hopping_frequency_no>=2*(TIGER_BIND_RF_NUM_CHANNELS+TIGER_RF_NUM_CHANNELS))
+			hopping_frequency_no=2*TIGER_BIND_RF_NUM_CHANNELS;
+	}
+
+	//Clear packet status bits and TX FIFO
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
+	NRF24L01_FlushTx();
+	//Send packet
+	XN297_WritePayload(packet, TIGER_PAYLOAD_SIZE);
+	//Set tx_power
+	NRF24L01_SetPower();
+}
+
+static void __attribute__((unused)) TIGER_init()
+{
+	NRF24L01_Initialize();
+	NRF24L01_SetTxRxMode(TX_EN);
+	XN297_SetTXAddr((uint8_t *)"\x68\x94\xA6\xD5\xC3", 5);
+	NRF24L01_FlushTx();
+	NRF24L01_FlushRx();
+	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);     	// Clear data ready, data sent, and retransmit
+	NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);      	// No Auto Acknowldgement on all data pipes
+	NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x01);  	// Enable data pipe 0 only
+	NRF24L01_SetBitrate(NRF24L01_BR_1M);             	// 1Mbps
+	NRF24L01_WriteReg(NRF24L01_04_SETUP_RETR, 0x00);	// No retransmits
+	NRF24L01_SetPower();
+	NRF24L01_Activate(0x73);							// Activate feature register
+	NRF24L01_WriteReg(NRF24L01_1C_DYNPD, 0x00);			// Disable dynamic payload length on all pipes
+	NRF24L01_WriteReg(NRF24L01_1D_FEATURE, 0x01);
+	NRF24L01_Activate(0x73);
+	// Power on, TX mode, 2byte CRC
+	XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP));
+}
+
+static void __attribute__((unused)) TIGER_initialize_txid()
+{
+#ifdef TIGER_FORCE_ID
+	rx_tx_addr[0]=0x64;
+	rx_tx_addr[1]=0x39;
+	rx_tx_addr[2]=0x12;
+	rx_tx_addr[3]=0x00;
+	rx_tx_addr[4]=0x00;
+	memcpy(hopping_frequency,"\x0E\x39\x1C\x07\x24\x3E\x2B\x47",TIGER_BIND_RF_NUM_CHANNELS);
+	memcpy(&hopping_frequency[TIGER_BIND_RF_NUM_CHANNELS],"\x36\x41\x37\x4E",TIGER_RF_NUM_CHANNELS);
+#endif
+	//prepare bind packet
+	memset(&packet[0], 0x00, 4);
+	memset(&packet[4], 0x40, 10);
+	memcpy(&packet[7], rx_tx_addr, 5);
+	packet[14]=0xC0;
+}
+
+uint16_t TIGER_callback()
+{
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(TIGER_PACKET_PERIOD);
+	#endif
+	if(IS_BIND_IN_PROGRESS)
+		if(--bind_counter==0)
+		{
+			BIND_DONE;
+			XN297_SetTXAddr((uint8_t *)"\x49\xA6\x83\xEB\x4B", 5);
+		}
+	TIGER_send_packet();
+	return TIGER_PACKET_PERIOD;
+}
+
+uint16_t initTIGER()
+{
+	BIND_IN_PROGRESS;	// autobind protocol
+	TIGER_initialize_txid();
+	TIGER_init();
+	hopping_frequency_no = 0;
+	bind_counter=TIGER_BIND_COUNT;
+	return TIGER_INITIAL_WAIT;
+}
+
+#endif
+/*Bind
+- RF setup: 1Mbps, scrambled, CRC
+- TX addr: 0x68 0x94 0xA6 0xD5 0xC3
+- 8 RF channels: 0x0E 0x39 0x1C 0x07 0x24 0x3E 0x2B 0x47
+- 2 packets per RF channel, 3940µs between packets
+- payload 16 bytes: 0x00 0x00 0x00 0x00 0x40 0x40 0x40 0x64 0x39 0x12 0x00 0x00 0x40 0x40 0xC0 0xAF
+- payload[15]=sum of payload[0..14]
+- the only difference with normal packets is the payload[14]=0xC0
+- ??? payload[7..11] TX ID ???
+
+Normal
+- RF setup: 1Mbps
+- TX addr: 0x49 0xA6 0x83 0xEB 0x4B
+- 4 RF channels: 0x36 0x41 0x37 0x4E
+- 2 packets per RF channel, 3940µs between packets
+- payload 16 bytes: 0x00 0x00 0x00 0x00 0x40 0x40 0x40 0x64 0x39 0x12 0x00 0x00 0x40 0x40 0x00 0xEF
+- payload[15]=sum of payload[0..14]
+- throttle is on payload[0] 00..FF
+- rudder is on payload[1] 00=center, 80..FF=right, 01..7F=left
+- elevator is on payload[2] 00=center, 80..FF=up, 01..7F=down
+- aileron is on payload[3] 00=center, 80..FF=right, 01..7F=left
+- trims payload[4..6]
+- ??? payload[7..11] TX ID ???
+- ??? payload[12..13] ???
+- flip is on payload[14] and flag 0x04
+- light is on payload[14] and flag 0x10
+*/

Multiprotocol/V2X2_nrf24l01.ino

@@ -19,7 +19,7 @@
 
 
 #include "iface_nrf24l01.h"
-
+#define V2X2_MR101_FORCE_ID
 
 #define V2X2_BIND_COUNT 1000
 // Timeout for callback in uSec, 4ms=4000us for V202
@@ -51,14 +51,6 @@ enum {
 
 //
 
-enum {
-	V202_INIT2 = 0,
-	V202_INIT2_NO_BIND,//1
-	V202_BIND1,//2
-	V202_BIND2,//3
-	V202_DATA//4
-};
-
 // This is frequency hopping table for V202 protocol
 // The table is the first 4 rows of 32 frequency hopping
 // patterns, all other rows are derived from the first 4.
@@ -87,39 +79,29 @@ static void __attribute__((unused)) v202_init()
 	NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);      // No Auto Acknoledgement
 	NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x3F);  // Enable all data pipes
 	NRF24L01_WriteReg(NRF24L01_03_SETUP_AW, 0x03);   // 5-byte RX/TX address
-	NRF24L01_WriteReg(NRF24L01_04_SETUP_RETR, 0xFF); // 4ms retransmit t/o, 15 tries
-	NRF24L01_WriteReg(NRF24L01_05_RF_CH, 0x08);      // Channel 8
-	NRF24L01_SetBitrate(NRF24L01_BR_1M);                          // 1Mbps
+	// NRF24L01_WriteReg(NRF24L01_04_SETUP_RETR, 0xFF); // 4ms retransmit t/o, 15 tries
+	// NRF24L01_WriteReg(NRF24L01_05_RF_CH, 0x08);      // Channel 8
+	NRF24L01_SetBitrate(sub_protocol==V2X2_MR101?NRF24L01_BR_250K:NRF24L01_BR_1M);
 	NRF24L01_SetPower();
 	
 	NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);     // Clear data ready, data sent, and retransmit
 	//    NRF24L01_WriteReg(NRF24L01_08_OBSERVE_TX, 0x00); // no write bits in this field
 	//    NRF24L01_WriteReg(NRF24L01_00_CD, 0x00);         // same
-	NRF24L01_WriteReg(NRF24L01_0C_RX_ADDR_P2, 0xC3); // LSB byte of pipe 2 receive address
-	NRF24L01_WriteReg(NRF24L01_0D_RX_ADDR_P3, 0xC4);
-	NRF24L01_WriteReg(NRF24L01_0E_RX_ADDR_P4, 0xC5);
-	NRF24L01_WriteReg(NRF24L01_0F_RX_ADDR_P5, 0xC6);
-	NRF24L01_WriteReg(NRF24L01_11_RX_PW_P0, V2X2_PAYLOADSIZE);   // bytes of data payload for pipe 1
-	NRF24L01_WriteReg(NRF24L01_12_RX_PW_P1, V2X2_PAYLOADSIZE);
-	NRF24L01_WriteReg(NRF24L01_13_RX_PW_P2, V2X2_PAYLOADSIZE);
-	NRF24L01_WriteReg(NRF24L01_14_RX_PW_P3, V2X2_PAYLOADSIZE);
-	NRF24L01_WriteReg(NRF24L01_15_RX_PW_P4, V2X2_PAYLOADSIZE);
-	NRF24L01_WriteReg(NRF24L01_16_RX_PW_P5, V2X2_PAYLOADSIZE);
-	NRF24L01_WriteReg(NRF24L01_17_FIFO_STATUS, 0x00); // Just in case, no real bits to write here
+	// NRF24L01_WriteReg(NRF24L01_0C_RX_ADDR_P2, 0xC3); // LSB byte of pipe 2 receive address
+	// NRF24L01_WriteReg(NRF24L01_0D_RX_ADDR_P3, 0xC4);
+	// NRF24L01_WriteReg(NRF24L01_0E_RX_ADDR_P4, 0xC5);
+	// NRF24L01_WriteReg(NRF24L01_0F_RX_ADDR_P5, 0xC6);
+	// NRF24L01_WriteReg(NRF24L01_11_RX_PW_P0, V2X2_PAYLOADSIZE);   // bytes of data payload for pipe 1
+	// NRF24L01_WriteReg(NRF24L01_12_RX_PW_P1, V2X2_PAYLOADSIZE);
+	// NRF24L01_WriteReg(NRF24L01_13_RX_PW_P2, V2X2_PAYLOADSIZE);
+	// NRF24L01_WriteReg(NRF24L01_14_RX_PW_P3, V2X2_PAYLOADSIZE);
+	// NRF24L01_WriteReg(NRF24L01_15_RX_PW_P4, V2X2_PAYLOADSIZE);
+	// NRF24L01_WriteReg(NRF24L01_16_RX_PW_P5, V2X2_PAYLOADSIZE);
+	// NRF24L01_WriteReg(NRF24L01_17_FIFO_STATUS, 0x00); // Just in case, no real bits to write here
 	NRF24L01_WriteRegisterMulti(NRF24L01_0A_RX_ADDR_P0, (uint8_t *)"\x66\x88\x68\x68\x68", 5);
-	NRF24L01_WriteRegisterMulti(NRF24L01_0B_RX_ADDR_P1, (uint8_t *)"\x88\x66\x86\x86\x86", 5);
+	// NRF24L01_WriteRegisterMulti(NRF24L01_0B_RX_ADDR_P1, (uint8_t *)"\x88\x66\x86\x86\x86", 5);
 	NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR, (uint8_t *)"\x66\x88\x68\x68\x68", 5);
-}
-
-static void __attribute__((unused)) V202_init2()
-{
-	NRF24L01_FlushTx();
-	packet_sent = 0;
-	hopping_frequency_no = 0;
-
-	// Turn radio power on
     NRF24L01_SetTxRxMode(TX_EN);
-	//Done by TX_EN??? => NRF24L01_WriteReg(NRF24L01_00_CONFIG, _BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP));
 }
 
 static void __attribute__((unused)) V2X2_set_tx_id(void)
@@ -135,20 +117,27 @@ static void __attribute__((unused)) V2X2_set_tx_id(void)
 		// Strange avoidance of channels divisible by 16
 		hopping_frequency[i] = (val & 0x0f) ? val : val - 3;
 	}
+	#ifdef V2X2_MR101_FORCE_ID
+	if(sub_protocol==V2X2_MR101)
+	{
+		rx_tx_addr[1]=0x83;
+		rx_tx_addr[2]=0x03;
+		rx_tx_addr[3]=0xAE;
+		memcpy(hopping_frequency,"\x05\x12\x08\x0C\x04\x0E\x10",7);
+	}
+	#endif
 }
 
-static void __attribute__((unused)) V2X2_add_pkt_checksum()
+static void __attribute__((unused)) V2X2_send_packet()
 {
-	uint8_t sum = 0;
-	for (uint8_t i = 0; i < 15;  ++i)
-		sum += packet[i];
-	packet[15] = sum;
-}
+	uint8_t rf_ch = hopping_frequency[hopping_frequency_no >> 1];
+	hopping_frequency_no = (hopping_frequency_no + 1) & 0x1F;
+	if(sub_protocol==V2X2_MR101 && hopping_frequency_no>13)
+			hopping_frequency_no=0;
+	NRF24L01_WriteReg(NRF24L01_05_RF_CH, rf_ch);
 
-static void __attribute__((unused)) V2X2_send_packet(uint8_t bind)
-{
 	uint8_t flags2=0;
-	if (bind)
+	if (IS_BIND_IN_PROGRESS)
 	{
 		flags     = V2X2_FLAG_BIND;
 		packet[0] = 0;
@@ -174,31 +163,35 @@ static void __attribute__((unused)) V2X2_send_packet(uint8_t bind)
 		flags=0;
 		// Channel 5
 		if (CH5_SW)	flags = V2X2_FLAG_FLIP;
-		// Channel 6
-		if (CH6_SW)	flags |= V2X2_FLAG_LIGHT;
-		// Channel 7
-		if (CH7_SW)	flags |= V2X2_FLAG_CAMERA;
-		// Channel 8
-		if (CH8_SW)	flags |= V2X2_FLAG_VIDEO;
 
-		//Flags2
-		// Channel 9
-		if (CH9_SW)
-			flags2 = V2X2_FLAG_HEADLESS;
-		if(sub_protocol==JXD506)
-		{
-			// Channel 11
-			if (CH11_SW)
-				flags2 |= V2X2_FLAG_EMERGENCY;
-		}
-		else
-		{
-			// Channel 10
-			if (CH10_SW)
-				flags2 |= V2X2_FLAG_MAG_CAL_X;
-			// Channel 11
-			if (CH11_SW)
-				flags2 |= V2X2_FLAG_MAG_CAL_Y;
+		if(sub_protocol!=V2X2_MR101)
+		{//V2X2 & JXD506
+			// Channel 6
+			if (CH6_SW)	flags |= V2X2_FLAG_LIGHT;
+			// Channel 7
+			if (CH7_SW)	flags |= V2X2_FLAG_CAMERA;
+			// Channel 8
+			if (CH8_SW)	flags |= V2X2_FLAG_VIDEO;
+
+			//Flags2
+			// Channel 9
+			if (CH9_SW)
+				flags2 = V2X2_FLAG_HEADLESS;
+			if(sub_protocol==JXD506)
+			{
+				// Channel 11
+				if (CH11_SW)
+					flags2 |= V2X2_FLAG_EMERGENCY;
+			}
+			else
+			{//V2X2
+				// Channel 10
+				if (CH10_SW)
+					flags2 |= V2X2_FLAG_MAG_CAL_X;
+				// Channel 11
+				if (CH11_SW)
+					flags2 |= V2X2_FLAG_MAG_CAL_Y;
+			}
 		}
 	}
 	// TX id
@@ -223,16 +216,26 @@ static void __attribute__((unused)) V2X2_send_packet(uint8_t bind)
 		packet[12] = 0x40;
 		packet[13] = 0x40;
 	}
+	else if(sub_protocol==V2X2_MR101)
+	{
+		
+		if (CH10_SW) packet[11]  = 0x04;	// Motors start/stop
+		if (CH11_SW) packet[11] |= 0x40;	// Auto Land=-100% Takeoff=+100%
+		if (CH7_SW)	 flags |= 0x02;			// Picture
+		if (CH8_SW)	 flags |= 0x01;			// Video
+		if(IS_BIND_IN_PROGRESS)
+			flags = 0x80;
+		flags |= (hopping_frequency_no & 0x01)<<6;
+	}
 	packet[14] = flags;
-	V2X2_add_pkt_checksum();
+	uint8_t sum = packet[0];
+	for (uint8_t i = 1; i < 15;  ++i)
+		sum += packet[i];
+	packet[15] = sum;
 
-	packet_sent = 0;
-	uint8_t rf_ch = hopping_frequency[hopping_frequency_no >> 1];
-	hopping_frequency_no = (hopping_frequency_no + 1) & 0x1F;
-	NRF24L01_WriteReg(NRF24L01_05_RF_CH, rf_ch);
 	NRF24L01_FlushTx();
 	NRF24L01_WritePayload(packet, V2X2_PAYLOADSIZE);
-	packet_sent = 1;
+	//packet_sent = 1;
 
 	if (! hopping_frequency_no)
 		NRF24L01_SetPower();
@@ -240,32 +243,26 @@ static void __attribute__((unused)) V2X2_send_packet(uint8_t bind)
 
 uint16_t ReadV2x2()
 {
-	switch (phase) {
-		case V202_INIT2:
-			V202_init2();
-			phase = V202_BIND2;
-			return 150;
-			break;
-		case V202_INIT2_NO_BIND:
-			V202_init2();
-			phase = V202_DATA;
-			return 150;
-			break;
-		case V202_BIND2:
-			if (packet_sent && NRF24L01_packet_ack() != PKT_ACKED)
-				return V2X2_PACKET_CHKTIME;
-			V2X2_send_packet(1);
-			if (--bind_counter == 0)
+	//if (packet_sent && NRF24L01_packet_ack() != PKT_ACKED)
+	//	return V2X2_PACKET_CHKTIME;
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(V2X2_PACKET_PERIOD);
+	#endif
+	V2X2_send_packet();
+	if(IS_BIND_IN_PROGRESS)
+	{
+		if (--bind_counter == 0)
+		{
+			BIND_DONE;
+			if(sub_protocol==V2X2_MR101)
 			{
-				phase = V202_DATA;
-				BIND_DONE;
+				#ifdef V2X2_MR101_FORCE_ID
+					NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR, (uint8_t *)"\xC9\x59\xD2\x65\x34", 5);
+					memcpy(hopping_frequency,"\x03\x05\x15\x0D\x06\x14\x0B",7);
+				#endif
 			}
-			break;
-		case V202_DATA:
-			if (packet_sent && NRF24L01_packet_ack() != PKT_ACKED)
-				return V2X2_PACKET_CHKTIME;
-			V2X2_send_packet(0);
-			break;
+			hopping_frequency_no = 0;
+		}
 	}
 	// Packet every 4ms
 	return V2X2_PACKET_PERIOD;
@@ -273,15 +270,13 @@ uint16_t ReadV2x2()
 
 uint16_t initV2x2()
 {	
+	if(sub_protocol==V2X2_MR101)
+		BIND_IN_PROGRESS;
+	//packet_sent = 0;
+	hopping_frequency_no = 0;
+	bind_counter = V2X2_BIND_COUNT;
+
 	v202_init();
-	//
-	if (IS_BIND_IN_PROGRESS)
-	{
-		bind_counter = V2X2_BIND_COUNT;
-		phase = V202_INIT2;
-	}
-	else
-		phase = V202_INIT2_NO_BIND;
 	V2X2_set_tx_id();
 	return 50000;
 }

Multiprotocol/V761_nrf24l01.ino

@@ -17,12 +17,12 @@ Multiprotocol is distributed in the hope that it will be useful,
 
 #include "iface_nrf24l01.h"
 
+//#define V761_FORCE_ID
+
 #define V761_PACKET_PERIOD		7060 // Timeout for callback in uSec
 #define V761_INITIAL_WAIT		500
 #define V761_PACKET_SIZE		8
 #define V761_BIND_COUNT			200
-
-//Fx chan management
 #define V761_BIND_FREQ			0x28
 #define V761_RF_NUM_CHANNELS	3
 
@@ -53,6 +53,8 @@ static void __attribute__((unused)) V761_set_checksum()
 
 static void __attribute__((unused)) V761_send_packet()
 {
+	static bool calib=false, prev_ch6=false;
+	
 	if(phase != V761_DATA)
 	{
 		packet[0] = rx_tx_addr[0];
@@ -66,23 +68,44 @@ static void __attribute__((unused)) V761_send_packet()
 	}
 	else
 	{ 
-		packet[0] = convert_channel_8b(THROTTLE);		// throttle       
-		packet[1] = convert_channel_8b(RUDDER)>>1;		// rudder
-		packet[2] = convert_channel_8b(ELEVATOR)>>1;	// elevator
-		packet[3] = convert_channel_8b(AILERON)>>1;		// aileron
-		packet[5] = (packet_count++ / 3)<<6;
-		packet[4] = (packet[5] == 0x40) ? 0x1a : 0x20;
+		packet[0] = convert_channel_8b(THROTTLE);		// Throttle
+		packet[2] = convert_channel_8b(ELEVATOR)>>1;	// Elevator
 
-		// Channel 5 - Gyro mode is packet 5
-		if(CH5_SW)    // Mode Expert Gyro off
+		if(sub_protocol==V761_3CH)
+		{
+			packet[1] = convert_channel_8b(RUDDER)>>1;	// Rudder
+			packet[3] = convert_channel_8b(AILERON)>>1;	// Aileron
+		}
+		else
+		{
+			packet[1] = convert_channel_8b(AILERON)>>1;	// Aileron
+			packet[3] = convert_channel_8b(RUDDER)>>1;	// Rudder
+		}
+
+		packet[5] = (packet_count++ / 3)<<6;
+		packet[4] = (packet[5] == 0x40) ? 0x1a : 0x20;	// ?
+
+		if(CH5_SW)										// Mode Expert Gyro off
 			flags = 0x0c;
 		else
 			if(Channel_data[CH5] < CHANNEL_MIN_COMMAND)
-				flags = 0x08;     // Beginer mode (Gyro on, yaw and pitch rate limited)
+				flags = 0x08;							// Beginer mode (Gyro on, yaw and pitch rate limited)
 			else
-				flags = 0x0a;     // Mid Mode ( Gyro on no rate limits)        
+				flags = 0x0a;							// Mid Mode ( Gyro on no rate limits)        
+
+		if(!prev_ch6 && CH6_SW)							// -100% -> 100% launch gyro calib
+			calib=!calib;
+		prev_ch6 = CH6_SW;
+		if(calib)
+			flags |= 0x01;								// Gyro calibration
+
 		packet[5] |= flags;
-		packet[6] = 0x80; // unknown 
+
+		packet[6] =  GET_FLAG(CH7_SW, 0x20) 			// Flip
+					|GET_FLAG(CH8_SW, 0x08)				// RTH activation
+					|GET_FLAG(CH9_SW, 0x10);			// RTH on/off
+		if(sub_protocol==V761_3CH)
+			packet[6] |= 0x80;							// unknown, set on original V761-1 dump but not on eachine dumps, keeping for compatibility
 
 		//packet counter
 		if(packet_count >= 12)
@@ -120,22 +143,40 @@ static void __attribute__((unused)) V761_init()
 
 static void __attribute__((unused)) V761_initialize_txid()
 {
-	// TODO: try arbitrary rx_tx_addr & frequencies (except hopping_frequency[0])
-	switch(RX_num%3)
-	{
-		case 1:	//Dump from air on Protonus TX
-			memcpy(rx_tx_addr,(uint8_t *)"\xE8\xE4\x45\x09",4);
-			memcpy(hopping_frequency,(uint8_t *)"\x0D\x21\x44",3);
-			break;
-		case 2:	//Dump from air on mshagg2 TX
-			memcpy(rx_tx_addr,(uint8_t *)"\xAE\xD1\x45\x09",4);
-			memcpy(hopping_frequency,(uint8_t *)"\x13\x1D\x4A",3);
-			break;
-		default: //Dump from SPI
-			memcpy(rx_tx_addr,(uint8_t *)"\x6f\x2c\xb1\x93",4);
-			memcpy(hopping_frequency,(uint8_t *)"\x14\x1e\x4b",3);
-			break;
-	}
+	#ifdef V761_FORCE_ID
+		switch(RX_num%5)
+		{
+			case 1:	//Dump from air on Protonus TX
+				memcpy(rx_tx_addr,(uint8_t *)"\xE8\xE4\x45\x09",4);
+				memcpy(hopping_frequency,(uint8_t *)"\x0D\x21",2);
+				break;
+			case 2:	//Dump from air on mshagg2 TX
+				memcpy(rx_tx_addr,(uint8_t *)"\xAE\xD1\x45\x09",4);
+				memcpy(hopping_frequency,(uint8_t *)"\x13\x1D",2);
+				break;
+			case 3:	//Dump from air on MikeHRC Eachine TX
+				memcpy(rx_tx_addr,(uint8_t *)"\x08\x03\x00\xA0",4);
+				memcpy(hopping_frequency,(uint8_t *)"\x0D\x21",2);
+				break;
+			case 4:	//Dump from air on Crashanium Eachine TX
+				memcpy(rx_tx_addr,(uint8_t *)"\x58\x08\x00\xA0",4);
+				memcpy(hopping_frequency,(uint8_t *)"\x0D\x31",2);
+				break;
+			default: //Dump from SPI
+				memcpy(rx_tx_addr,(uint8_t *)"\x6f\x2c\xb1\x93",4);
+				memcpy(hopping_frequency,(uint8_t *)"\x14\x1e",2);
+				break;
+		}
+	#else
+		//Tested with Eachine RX
+		rx_tx_addr[0]+=RX_num;
+		hopping_frequency[0]=(rx_tx_addr[0]&0x0F)+0x05;
+		hopping_frequency[1]=hopping_frequency[0]+0x05+(RX_num%0x2D);
+	#endif
+
+	hopping_frequency[2]=hopping_frequency[0]+0x37;
+
+	debugln("ID: %02X %02X %02X %02X , HOP: %02X %02X %02X",rx_tx_addr[0],rx_tx_addr[1],rx_tx_addr[2],rx_tx_addr[3],hopping_frequency[0],hopping_frequency[1],hopping_frequency[2]);
 }
 
 uint16_t V761_callback()
@@ -174,6 +215,9 @@ uint16_t V761_callback()
 			}
 			return 15730;
 		case V761_DATA:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(V761_PACKET_PERIOD);
+			#endif
 			V761_send_packet();
 			break;
 	}
@@ -182,10 +226,18 @@ uint16_t V761_callback()
 
 uint16_t initV761(void)
 {
-	BIND_IN_PROGRESS;
-	bind_counter = V761_BIND_COUNT;
 	V761_initialize_txid();
-	phase = V761_BIND1;
+	if(IS_BIND_IN_PROGRESS)
+	{
+		bind_counter = V761_BIND_COUNT;
+		phase = V761_BIND1;
+	}
+	else
+	{
+		XN297_SetTXAddr(rx_tx_addr, 4);
+		phase = V761_DATA;
+	}
+		
 	V761_init();
 	hopping_frequency_no = 0;
 	packet_count = 0;

Multiprotocol/V911S_xn297l.ino

@@ -16,7 +16,7 @@
 
 #if defined(V911S_NRF24L01_INO)
 
-#include "iface_xn297l.h"
+#include "iface_nrf250k.h"
 
 //#define V911S_ORIGINAL_ID
 
@@ -30,6 +30,8 @@
 
 // flags going to packet[1]
 #define	V911S_FLAG_EXPERT	0x04
+#define	E119_FLAG_EXPERT	0x08
+#define	E119_FLAG_CALIB		0x40
 // flags going to packet[2]
 #define	V911S_FLAG_CALIB	0x01
 
@@ -56,10 +58,21 @@ static void __attribute__((unused)) V911S_send_packet(uint8_t bind)
 		}
 		if(rf_ch_num&2)
 			channel=7-channel;
+		XN297L_Hopping(channel);
+		hopping_frequency_no++;
+		hopping_frequency_no&=7;							// 8 RF channels
+
 		packet[ 0]=(rf_ch_num<<3)|channel;
-		packet[ 1]=V911S_FLAG_EXPERT;					// short press on left button
-		packet[ 2]=GET_FLAG(CH5_SW,V911S_FLAG_CALIB);	// long  press on right button
-		memset(packet+3, 0x00, V911S_PACKET_SIZE - 3);
+		memset(packet+1, 0x00, V911S_PACKET_SIZE - 1);
+		if(sub_protocol==V911S_STD)
+		{
+			packet[ 1]=V911S_FLAG_EXPERT;					// short press on left button
+			packet[ 2]=GET_FLAG(CH5_SW,V911S_FLAG_CALIB);	// long  press on right button
+		}
+		else
+			packet[ 1]=E119_FLAG_EXPERT						// short  press on left button
+					  |GET_FLAG(CH5_SW,E119_FLAG_CALIB);	// short  press on right button
+			
 		//packet[3..6]=trims TAER signed
 		uint16_t ch=convert_channel_16b_limit(THROTTLE ,0,0x7FF);
 		packet[ 7] = ch;
@@ -68,22 +81,31 @@ static void __attribute__((unused)) V911S_send_packet(uint8_t bind)
 		packet[ 8]|= ch<<3;
 		packet[ 9] = ch>>5;
 		ch=convert_channel_16b_limit(ELEVATOR,0,0x7FF);
-		packet[10] = ch;
-		packet[11] = ch>>8;
-		ch=convert_channel_16b_limit(RUDDER  ,0x7FF,0);
-		packet[11]|= ch<<3;
-		packet[12] = ch>>5;
+		if(sub_protocol==V911S_STD)
+		{
+			packet[10] = ch;
+			packet[11] = ch>>8;
+			ch=convert_channel_16b_limit(RUDDER  ,0x7FF,0);
+			packet[11]|= ch<<3;
+			packet[12] = ch>>5;
+		}
+		else
+		{
+			ch=0x7FF-ch;
+			packet[ 9]|= ch<<6;
+			packet[10] = ch>>2;
+			packet[11] = ch>>10;
+			ch=convert_channel_16b_limit(RUDDER  ,0x7FF,0);
+			packet[11]|= ch<<1;
+			packet[12] = ch>>7;
+		}
 	}
 	
-	if (!bind)
-	{
-		XN297L_Hopping(channel);
-		hopping_frequency_no++;
-		hopping_frequency_no&=7;	// 8 RF channels
-	}
-
-	XN297L_WritePayload(packet, V911S_PACKET_SIZE);
-
+	if(sub_protocol==V911S_STD)
+		XN297L_WritePayload(packet, V911S_PACKET_SIZE);
+	else
+		XN297L_WriteEnhancedPayload(packet, V911S_PACKET_SIZE, bind?0:1);
+	
 	XN297L_SetPower();				// Set tx_power
 	XN297L_SetFreqOffset();			// Set frequency offset
 }
@@ -91,7 +113,10 @@ static void __attribute__((unused)) V911S_send_packet(uint8_t bind)
 static void __attribute__((unused)) V911S_init()
 {
 	XN297L_Init();
-	XN297L_SetTXAddr((uint8_t *)"KNBND",5);			// Bind address
+	if(sub_protocol==V911S_STD)
+		XN297L_SetTXAddr((uint8_t *)"KNBND",5);		// V911S Bind address
+	else
+		XN297L_SetTXAddr((uint8_t *)"XPBND",5);		// E119 Bind address
 	XN297L_HoppingCalib(V911S_NUM_RF_CHANNELS);		// Calibrate all channels
 	XN297L_RFChannel(V911S_RF_BIND_CHANNEL);		// Set bind channel
 }
@@ -111,7 +136,12 @@ static void __attribute__((unused)) V911S_initialize_txid()
 uint16_t V911S_callback()
 {
 	if(IS_BIND_DONE)
+	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(V911S_PACKET_PERIOD);
+		#endif
 		V911S_send_packet(0);
+	}
 	else
 	{
 		if (bind_counter == 0)
@@ -135,15 +165,30 @@ uint16_t initV911S(void)
 {
 	V911S_initialize_txid();
 	#ifdef V911S_ORIGINAL_ID
-		rx_tx_addr[0]=0xA5;
-		rx_tx_addr[1]=0xFF;
-		rx_tx_addr[2]=0x70;
-		rx_tx_addr[3]=0x8D;
-		rx_tx_addr[4]=0x76;
-		for(uint8_t i=0;i<V911S_NUM_RF_CHANNELS;i++)
-			hopping_frequency[i]=0x10+i*5;
-		hopping_frequency[0]++;
-		rf_ch_num=0;
+		if(sub_protocol==V911S_STD)
+		{//V911S
+			rx_tx_addr[0]=0xA5;
+			rx_tx_addr[1]=0xFF;
+			rx_tx_addr[2]=0x70;
+			rx_tx_addr[3]=0x8D;
+			rx_tx_addr[4]=0x76;
+			for(uint8_t i=0;i<V911S_NUM_RF_CHANNELS;i++)
+				hopping_frequency[i]=0x10+i*5;
+			hopping_frequency[0]++;
+			rf_ch_num=0;
+		}
+		else
+		{
+			//E119
+			rx_tx_addr[0]=0x30;
+			rx_tx_addr[1]=0xFF;
+			rx_tx_addr[2]=0xD1;
+			rx_tx_addr[3]=0x2C;
+			rx_tx_addr[4]=0x2A;
+			for(uint8_t i=0;i<V911S_NUM_RF_CHANNELS;i++)
+				hopping_frequency[i]=0x0E + i*5;
+			rf_ch_num=0;
+		}
 	#endif
 
 	V911S_init();

Multiprotocol/Validate.h

@@ -4,10 +4,10 @@
 #endif
 #if not defined (ORANGE_TX) && not defined (STM32_BOARD)
 	//Atmega328p
-	#if not defined(ARDUINO_AVR_PRO) && not defined(ARDUINO_MULTI_NO_BOOT) && not defined(ARDUINO_MULTI_FLASH_FROM_TX) && not defined(ARDUINO_AVR_MINI) && not defined(ARDUINO_AVR_NANO)
+	#if not defined(ARDUINO_AVR_PRO) && not defined(ARDUINO_MULTI_NO_BOOT) && not defined(ARDUINO_MULTI_FLASH_FROM_TX) && not defined(ARDUINO_AVR_MINI) && not defined(ARDUINO_AVR_NANO) && not defined(ARDUINO_AVR_DUEMILANOVE)
 		#error You must select one of these boards: "Multi 4-in-1", "Arduino Pro or Pro Mini" or "Arduino Mini"
 	#endif
-	#if F_CPU != 16000000L || not defined(__AVR_ATmega328P__)
+	#if F_CPU != 16000000L || not (defined(__AVR_ATmega328P__) || defined(__AVR_ATmega168__))
 		#error You must select the processor type "ATmega328(5V, 16MHz)"
 	#endif
 #endif
@@ -19,9 +19,9 @@
 #endif
 
 // Check for minimum board file definition version for DIY multi-module boards
-#define MIN_AVR_BOARD 109
-#define MIN_ORX_BOARD 109
-#define MIN_STM32_BOARD 116
+#define MIN_AVR_BOARD 110
+#define MIN_ORX_BOARD 110
+#define MIN_STM32_BOARD 117
 //AVR
 #if (defined(ARDUINO_MULTI_NO_BOOT) && ARDUINO_MULTI_NO_BOOT < MIN_AVR_BOARD) || (defined(ARDUINO_MULTI_FLASH_FROM_TX) && ARDUINO_MULTI_FLASH_FROM_TX < MIN_AVR_BOARD)
 	#error You need to update your Multi 4-in-1 board definition.  Open Boards Manager and update to the latest version of the Multi 4-in-1 AVR Boards.
@@ -79,6 +79,11 @@
 		#error "The FrSkyD forced frequency tuning value is outside of the range -127..127."
 	#endif
 #endif
+#ifdef FORCE_FRSKYL_TUNING
+	#if ( FORCE_FRSKYL_TUNING < -127 ) || ( FORCE_FRSKYL_TUNING > 127 )
+		#error "The FrSkyL forced frequency tuning value is outside of the range -127..127."
+	#endif
+#endif
 #ifdef FORCE_FRSKYV_TUNING
 	#if ( FORCE_FRSKYV_TUNING < -127 ) || ( FORCE_FRSKYV_TUNING > 127 )
 		#error "The FrSkyV forced frequency tuning value is outside of the range -127..127."
@@ -94,14 +99,29 @@
 		#error "The HITEC forced frequency tuning value is outside of the range -127..127."
 	#endif
 #endif
+#ifdef FORCE_HOTT_TUNING
+	#if ( FORCE_HOTT_TUNING < -127 ) || ( FORCE_HOTT_TUNING > 127 )
+		#error "The HOTT forced frequency tuning value is outside of the range -127..127."
+	#endif
+#endif
 #ifdef FORCE_REDPINE_TUNING
 	#if ( FORCE_REDPINE_TUNING < -127 ) || ( FORCE_REDPINE_TUNING > 127 )
 		#error "The REDPINE forced frequency tuning value is outside of the range -127..127."
 	#endif
 #endif
-#ifdef FORCE_SFHSS_TUNING
-	#if ( FORCE_SFHSS_TUNING < -127 ) || ( FORCE_SFHSS_TUNING > 127 )
-		#error "The SFHSS forced frequency tuning value is outside of the range -127..127."
+#ifdef FORCE_RADIOLINK_TUNING
+	#if ( FORCE_RADIOLINK_TUNING < -127 ) || ( FORCE_RADIOLINK_TUNING > 127 )
+		#error "The RADIOLINK forced frequency tuning value is outside of the range -127..127."
+	#endif
+#endif
+#ifdef FORCE_FUTABA_TUNING
+	#if ( FORCE_FUTABA_TUNING < -127 ) || ( FORCE_FUTABA_TUNING > 127 )
+		#error "The Futaba forced frequency tuning value is outside of the range -127..127."
+	#endif
+#endif
+#ifdef FORCE_SKYARTEC_TUNING
+	#if ( FORCE_SKYARTEC_TUNING < -127 ) || ( FORCE_SKYARTEC_TUNING > 127 )
+		#error "The SKYARTEC forced frequency tuning value is outside of the range -127..127."
 	#endif
 #endif
 //A7105
@@ -120,9 +140,14 @@
 		#error "The Flysky forced frequency tuning value is outside of the range -300..300."
 	#endif
 #endif
-#ifdef FORCE_FLYZONE_TUNING
-	#if ( FORCE_FLYZONE_TUNING < -300 ) || ( FORCE_FLYZONE_TUNING > 300 )
-		#error "The Flyzone forced frequency tuning value is outside of the range -300..300."
+#ifdef FORCE_HEIGHT_TUNING
+	#if ( FORCE_HEIGHT_TUNING < -300 ) || ( FORCE_HEIGHT_TUNING > 300 )
+		#error "The Height forced frequency tuning value is outside of the range -300..300."
+	#endif
+#endif
+#ifdef FORCE_PELIKAN_TUNING
+	#if ( FORCE_PELIKAN_TUNING < -300 ) || ( FORCE_PELIKAN_TUNING > 300 )
+		#error "The Pelikan forced frequency tuning value is outside of the range -300..300."
 	#endif
 #endif
 #ifdef FORCE_HUBSAN_TUNING
@@ -130,6 +155,11 @@
 		#error "The Hubsan forced frequency tuning value is outside of the range -300..300."
 	#endif
 #endif
+#ifdef FORCE_KYOSHO_TUNING
+	#if ( FORCE_KYOSHO_TUNING < -300 ) || ( FORCE_KYOSHO_TUNING > 300 )
+		#error "The Kyosho forced frequency tuning value is outside of the range -300..300."
+	#endif
+#endif
 
 #ifndef USE_A7105_CH15_TUNING
 	#ifndef FORCE_BUGS_TUNING
@@ -138,8 +168,14 @@
 	#ifndef FORCE_FLYSKY_TUNING
 		#define FORCE_FLYSKY_TUNING 0
 	#endif
-	#ifndef FORCE_FLYZONE_TUNING
-		#define FORCE_FLYZONE_TUNING 0
+	#ifndef FORCE_HEIGHT_TUNING
+		#define FORCE_HEIGHT_TUNING 0
+	#endif
+	#ifndef FORCE_PELIKAN_TUNING
+		#define FORCE_PELIKAN_TUNING 0
+	#endif
+	#ifndef FORCE_KYOSHO_TUNING
+		#define FORCE_KYOSHO_TUNING 0
 	#endif
 	#ifndef FORCE_HUBSAN_TUNING
 		#define FORCE_HUBSAN_TUNING 0
@@ -162,75 +198,119 @@
 	#undef CC25_CSN_pin
 	#undef NRF24L01_INSTALLED	// Disable NRF for OrangeTX module
 	#undef NRF_CSN_pin
+	#undef SX1276_INSTALLED		// Disable SX1276 for OrangeTX module
 	#define TELEMETRY			// Enable telemetry
 	#define INVERT_TELEMETRY	// Enable invert telemetry
 	#define DSM_TELEMETRY		// Enable DSM telemetry
 #endif
 
+//Change/Force RF chip configuration if MULTI_5IN1_INTERNAL
+#ifdef MULTI_5IN1_INTERNAL
+	#if not defined(STM32_BOARD)
+		#error "Error MULTI_5IN1_INTERNAL is only for STM32 boards."
+	#endif
+	#define A7105_INSTALLED
+	#define CYRF6936_INSTALLED
+	#define CC2500_INSTALLED
+	#define NRF24L01_INSTALLED
+	#define SX1276_INSTALLED
+	#undef ENABLE_PPM
+#endif
+
 //Make sure protocols are selected correctly
 #ifndef A7105_INSTALLED
-	#undef FLYSKY_A7105_INO
-	#undef HUBSAN_A7105_INO
 	#undef AFHDS2A_A7105_INO
+	#undef AFHDS2A_RX_A7105_INO
 	#undef BUGS_A7105_INO
-	#undef FLYZONE_A7105_INO
+	#undef FLYSKY_A7105_INO
+	#undef HEIGHT_A7105_INO
+	#undef HUBSAN_A7105_INO
+	#undef KYOSHO_A7105_INO
+	#undef PELIKAN_A7105_INO
 #endif
 #ifndef CYRF6936_INSTALLED
 	#undef	DEVO_CYRF6936_INO
 	#undef	DSM_CYRF6936_INO
+	#undef	DSM_RX_CYRF6936_INO
 	#undef	J6PRO_CYRF6936_INO
+	#undef	TRAXXAS_CYRF6936_INO
 	#undef	WFLY_CYRF6936_INO
 	#undef	WK2x01_CYRF6936_INO
-	#undef	TRAXXAS_CYRF6936_INO
 #endif
 #ifndef CC2500_INSTALLED
+	#undef	CORONA_CC2500_INO
+	#undef	ESKY150V2_CC2500_INO
 	#undef	FRSKYD_CC2500_INO
+	#undef	FRSKYL_CC2500_INO
 	#undef	FRSKYV_CC2500_INO
 	#undef	FRSKYX_CC2500_INO
-	#undef	SFHSS_CC2500_INO
-	#undef	CORONA_CC2500_INO
-	#undef	REDPINE_CC2500_INO
+	#undef	FRSKY_RX_CC2500_INO
 	#undef	HITEC_CC2500_INO
-	#undef	XN297L_CC2500_EMU
+	#undef	HOTT_CC2500_INO
+	#undef	OMP_CC2500_INO
+	#undef	REDPINE_CC2500_INO
+	#undef	RLINK_CC2500_INO
 	#undef	SCANNER_CC2500_INO
-	#undef	FRSKYX_RX_CC2500_INO
+	#undef	FUTABA_CC2500_INO
+	#undef	SKYARTEC_CC2500_INO
 #endif
 #ifndef NRF24L01_INSTALLED
+	#undef	ASSAN_NRF24L01_INO
 	#undef	BAYANG_NRF24L01_INO
+	#undef	BAYANG_RX_NRF24L01_INO
+	#undef	BUGSMINI_NRF24L01_INO
+	#undef	CABELL_NRF24L01_INO
+	#undef	CFLIE_NRF24L01_INO
 	#undef	CG023_NRF24L01_INO
 	#undef	CX10_NRF24L01_INO
+	#undef	DM002_NRF24L01_INO
+	#undef	E01X_NRF24L01_INO
 	#undef	ESKY_NRF24L01_INO
+	#undef	ESKY150_NRF24L01_INO
+	#undef	ESKY150V2_CC2500_INO	// Use both CC2500 and NRF code
+	#undef	FQ777_NRF24L01_INO
+	#undef	FX816_NRF24L01_INO
+	#undef	FY326_NRF24L01_INO
+	#undef	GD00X_NRF24L01_INO
+	#undef	GW008_NRF24L01_INO
+	#undef	H8_3D_NRF24L01_INO
 	#undef	HISKY_NRF24L01_INO
+	#undef	HONTAI_NRF24L01_INO
+	#undef	JJRC345_NRF24L01_INO
 	#undef	KF606_NRF24L01_INO
 	#undef	KN_NRF24L01_INO
+	#undef	MJXQ_NRF24L01_INO
+	#undef	MT99XX_NRF24L01_INO
+	#undef	NCC1701_NRF24L01_INO
+	#undef	OMP_CC2500_INO
+	#undef	POTENSIC_NRF24L01_INO
+	#undef	PROPEL_NRF24L01_INO
+	#undef	Q303_NRF24L01_INO
+	#undef	Q90C_NRF24L01_INO
+	#undef	REALACC_NRF24L01_INO
+	#undef	SHENQI_NRF24L01_INO
 	#undef	SLT_NRF24L01_INO
 	#undef	SYMAX_NRF24L01_INO
+	#undef	TIGER_NRF24L01_INO
 	#undef	V2X2_NRF24L01_INO
-	#undef	YD717_NRF24L01_INO
-	#undef	MT99XX_NRF24L01_INO
-	#undef	MJXQ_NRF24L01_INO
-	#undef	SHENQI_NRF24L01_INO
-	#undef	FY326_NRF24L01_INO
-	#undef	FQ777_NRF24L01_INO
-	#undef	ASSAN_NRF24L01_INO
-	#undef	HONTAI_NRF24L01_INO
-	#undef	Q303_NRF24L01_INO
-	#undef	GW008_NRF24L01_INO
-	#undef	GD00X_NRF24L01_INO
-	#undef	DM002_NRF24L01_INO
-	#undef	CABELL_NRF24L01_INO
-	#undef	ESKY150_NRF24L01_INO
-	#undef	H8_3D_NRF24L01_INO
-	#undef	CFLIE_NRF24L01_INO
-	#undef	BUGSMINI_NRF24L01_INO
-	#undef	NCC1701_NRF24L01_INO
-	#undef	E01X_NRF24L01_INO
 	#undef	V761_NRF24L01_INO
 	#undef	V911S_NRF24L01_INO
-	#undef	XN297L_CC2500_EMU
-	#undef	POTENSIC_NRF24L01_INO
+	#undef	XK_NRF24L01_INO
+	#undef	YD717_NRF24L01_INO
 	#undef	ZSX_NRF24L01_INO
 #endif
+#if not defined(STM32_BOARD)
+	#undef SX1276_INSTALLED
+#endif
+#ifndef SX1276_INSTALLED
+	#undef FRSKYR9_SX1276_INO
+#endif
+
+//OpenTX 2.3.x issue
+#if defined (FRSKYD_CC2500_INO) || defined(FRSKYV_CC2500_INO) || defined(FRSKYX_CC2500_INO)
+	#define	FRSKYX_CC2500_INO
+	#define	FRSKY_RX_CC2500_INO
+#endif
 
 //Make sure telemetry is selected correctly
 #ifndef TELEMETRY
@@ -246,14 +326,24 @@
 	#undef NCC1701_HUB_TELEMETRY
 	#undef HUB_TELEMETRY
 	#undef SPORT_TELEMETRY
-	#undef SPORT_POLLING
+	#undef SPORT_SEND
 	#undef DSM_TELEMETRY
 	#undef MULTI_STATUS
 	#undef MULTI_TELEMETRY
 	#undef SCANNER_TELEMETRY
 	#undef SCANNER_CC2500_INO
-	#undef FRSKYX_RX_TELEMETRY
-	#undef FRSKYX_RX_CC2500_INO
+	#undef FRSKY_RX_TELEMETRY
+	#undef FRSKY_RX_CC2500_INO
+	#undef AFHDS2A_RX_TELEMETRY
+	#undef AFHDS2A_RX_A7105_INO
+	#undef HOTT_FW_TELEMETRY
+	#undef BAYANG_RX_TELEMETRY
+	#undef BAYANG_RX_NRF24L01_INO
+	#undef DEVO_HUB_TELEMETRY
+	#undef PROPEL_HUB_TELEMETRY
+	#undef OMP_HUB_TELEMETRY
+	#undef RLINK_HUB_TELEMETRY
+	#undef DSM_RX_CYRF6936_INO
 #else
 	#if defined(MULTI_TELEMETRY) && defined(MULTI_STATUS)
 		#error You should choose either MULTI_TELEMETRY or MULTI_STATUS but not both.
@@ -262,13 +352,30 @@
 		#undef SCANNER_TELEMETRY
 		#undef SCANNER_CC2500_INO
 	#endif
-	#if not defined(FRSKYX_RX_CC2500_INO) || not defined(FRSKYX_RX_TELEMETRY)
-		#undef FRSKYX_RX_TELEMETRY
-		#undef FRSKYX_RX_CC2500_INO
+	#if not defined(FRSKY_RX_CC2500_INO) || not defined(FRSKY_RX_TELEMETRY)
+		#undef FRSKY_RX_TELEMETRY
+		#undef FRSKY_RX_CC2500_INO
+	#endif
+	#if not defined(AFHDS2A_RX_A7105_INO) || not defined(AFHDS2A_RX_TELEMETRY)
+		#undef AFHDS2A_RX_TELEMETRY
+		#undef AFHDS2A_RX_A7105_INO
+	#endif
+	#if not defined(BAYANG_RX_NRF24L01_INO) || not defined(BAYANG_RX_TELEMETRY)
+		#undef BAYANG_RX_TELEMETRY
+		#undef BAYANG_RX_NRF24L01_INO
 	#endif
 	#if not defined(BAYANG_NRF24L01_INO)
 		#undef BAYANG_HUB_TELEMETRY
 	#endif
+	#if not defined(DEVO_CYRF6936_INO)
+		#undef DEVO_HUB_TELEMETRY
+	#endif
+	#if not defined(OMP_CC2500_INO)
+		#undef OMP_HUB_TELEMETRY
+	#endif
+	#if not defined(PROPEL_NRF24L01_INO)
+		#undef PROPEL_HUB_TELEMETRY
+	#endif
 	#if not defined(NCC1701_NRF24L01_INO)
 		#undef NCC1701_HUB_TELEMETRY
 	#endif
@@ -278,6 +385,9 @@
 	#if not defined(CABELL_NRF24L01_INO)
 		#undef CABELL_HUB_TELEMETRY
 	#endif
+	#if not defined(RLINK_CC2500_INO)
+		#undef RLINK_HUB_TELEMETRY
+	#endif
 	#if not defined(HUBSAN_A7105_INO)
 		#undef HUBSAN_HUB_TELEMETRY
 	#endif
@@ -292,26 +402,42 @@
 	#if not defined(FRSKYD_CC2500_INO)
 		#undef HUB_TELEMETRY
 	#endif
-	#if not defined(FRSKYX_CC2500_INO)
+	#if not defined(FRSKYX_CC2500_INO) && not defined(FRSKYR9_SX1276_INO)
 		#undef SPORT_TELEMETRY
-		#undef SPORT_POLLING
+		#undef SPORT_SEND
 	#endif
-	#if not defined (SPORT_TELEMETRY) || not defined (STM32_BOARD)
-		#undef SPORT_POLLING
-	#endif
-	#if defined SPORT_POLLING && not defined INVERT_TELEMETRY
-		#error SPORT_POLLING has been defined but not INVERT_TELEMETRY. They should be both enabled to work.
+	#if not defined (SPORT_TELEMETRY)
+		#undef SPORT_SEND
 	#endif
 	#if not defined(DSM_CYRF6936_INO)
 		#undef DSM_TELEMETRY
 	#endif
-	#if not defined(DSM_TELEMETRY) && not defined(SPORT_TELEMETRY) && not defined(HUB_TELEMETRY) && not defined(HUBSAN_HUB_TELEMETRY) && not defined(BUGS_HUB_TELEMETRY) && not defined(NCC1701_HUB_TELEMETRY) && not defined(BAYANG_HUB_TELEMETRY) && not defined(CABELL_HUB_TELEMETRY) && not defined(AFHDS2A_HUB_TELEMETRY) && not defined(AFHDS2A_FW_TELEMETRY) && not defined(MULTI_TELEMETRY) && not defined(MULTI_STATUS) && not defined(HITEC_HUB_TELEMETRY) && not defined(HITEC_FW_TELEMETRY) && not defined(SCANNER_TELEMETRY) && not defined(FRSKYX_RX_TELEMETRY)
+	#if not defined(HOTT_CC2500_INO)
+		#undef HOTT_FW_TELEMETRY
+	#endif
+	#if not defined(HOTT_FW_TELEMETRY) && not defined(DSM_TELEMETRY) && not defined(SPORT_TELEMETRY) && not defined(HUB_TELEMETRY) && not defined(HUBSAN_HUB_TELEMETRY) && not defined(BUGS_HUB_TELEMETRY) && not defined(NCC1701_HUB_TELEMETRY) && not defined(BAYANG_HUB_TELEMETRY) && not defined(CABELL_HUB_TELEMETRY) && not defined(RLINK_HUB_TELEMETRY) && not defined(AFHDS2A_HUB_TELEMETRY) && not defined(AFHDS2A_FW_TELEMETRY) && not defined(MULTI_TELEMETRY) && not defined(MULTI_STATUS) && not defined(HITEC_HUB_TELEMETRY) && not defined(HITEC_FW_TELEMETRY) && not defined(SCANNER_TELEMETRY) && not defined(FRSKY_RX_TELEMETRY) && not defined(AFHDS2A_RX_TELEMETRY) && not defined(BAYANG_RX_TELEMETRY) && not defined(DEVO_HUB_TELEMETRY) && not defined(PROPEL_HUB_TELEMETRY) && not defined(OMP_HUB_TELEMETRY)
 		#undef TELEMETRY
 		#undef INVERT_TELEMETRY
-		#undef SPORT_POLLING
+		#undef MULTI_TELEMETRY
+		#undef MULTI_STATUS
 	#endif
 #endif
 
+#ifdef SPORT_TELEMETRY
+	#define SPORT_SEND
+#endif
+
+#if not defined(STM32_BOARD)
+	#undef MULTI_SYNC
+#endif
+
+#if not defined(MULTI_TELEMETRY)
+	#undef MULTI_SYNC
+	#undef MULTI_NAMES
+#else
+	#define MULTI_NAMES
+#endif
+
 //Make sure TX is defined correctly
 #ifndef AILERON
 	#error You must select a correct channel order.
@@ -363,3 +489,18 @@
 #if defined (STM32_BOARD) && defined (DEBUG_SERIAL) && defined (NRF24L01_INSTALLED)
 	#define XN297DUMP_NRF24L01_INO
 #endif
+
+//Check if Direct inputs defined correctly
+#if defined (ENABLE_DIRECT_INPUTS) 
+	#if not defined (STM32_BOARD) || not defined (ENABLE_PPM) || defined (ENABLE_SERIAL)
+		#error You can enable dirct inputs only in PPM mode and only for STM32 board.
+	#endif
+
+	#if not defined (DI1_PIN) && not defined (DI2_PIN) && not defined (DI3_PIN) && not defined (DI4_PIN)
+		#error You must define at least 1 direct input pin or undefine ENABLE_DIRECT_INPUTS in config.
+	#endif
+	
+	#if not defined (DI_CH1_read) && not defined (DI_CH2_read) && not defined (DI_CH3_read) && not defined (DI_CH4_read)
+		#error You must define at least 1 direct input chanell read macros or undefine ENABLE_DIRECT_INPUTS in config.
+	#endif
+#endif

Multiprotocol/WFLY_cyrf6936.ino

@@ -194,25 +194,25 @@ uint16_t ReadWFLY()
 				debugln("L=%02X",len)
 				if(len==0x10)
 				{
-					CYRF_ReadDataPacketLen(pkt, len);
+					CYRF_ReadDataPacketLen(packet_in, len);
 					debug("RX=");
 					for(uint8_t i=0;i<0x0F;i++)
 					{
-						debug(" %02X",pkt[i]);
-						if(pkt[i]==packet[i])
+						debug(" %02X",packet_in[i]);
+						if(packet_in[i]==packet[i])
 							check++;							// Verify quickly the content
-						sum+=pkt[i];
+						sum+=packet_in[i];
 					}
-					debugln(" %02X",pkt[15]);
-					if(sum==pkt[15] && check>=10)
+					debugln(" %02X",packet_in[15]);
+					if(sum==packet_in[15] && check>=10)
 					{ // Good packet received
-						if(pkt[2]==0x64)
+						if(packet_in[2]==0x64)
 						{ // Switch to normal mode
 							BIND_DONE;
 							phase=WFLY_PREP_DATA;
 							return 10000;
 						}
-						memcpy((void *)packet,(void *)pkt,0x10);	// Send back to the RX what we've just received with no modifications
+						memcpy((void *)packet,(void *)packet_in,0x10);	// Send back to the RX what we've just received with no modifications
 					}
 					phase=WFLY_BIND_TX;							
 					return 200;
@@ -232,6 +232,9 @@ uint16_t ReadWFLY()
 			packet_count=0;
 			phase++;
 		case WFLY_DATA:
+			#ifdef MULTI_SYNC
+				telemetry_set_input_sync(5371);
+			#endif
 			start=micros();
 			while ((uint8_t)((uint8_t)micros()-(uint8_t)start) < 200)
 				if((CYRF_ReadRegister(CYRF_02_TX_CTRL) & 0x80) == 0x00)

Multiprotocol/WK2x01_cyrf6936.ino

@@ -435,6 +435,9 @@ uint16_t WK_cb()
 {
 	if (packet_sent == 0)
 	{
+		#ifdef MULTI_SYNC
+			telemetry_set_input_sync(2800);
+		#endif
 		packet_sent = 1;
 		if(sub_protocol == WK2801)
 			WK_BuildPacket_2801();

Multiprotocol/XK_nrf24l01.ino

@@ -0,0 +1,217 @@
+/*
+ This project is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+
+Multiprotocol is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
+ */
+// Compatible with X450 and X420/X520 plane.
+
+#if defined(XK_NRF24L01_INO)
+
+#include "iface_nrf250k.h"
+
+//#define FORCE_XK_ORIGINAL_ID
+
+#define XK_INITIAL_WAIT		500
+#define XK_PACKET_PERIOD	4000
+#define XK_RF_BIND_NUM_CHANNELS 8
+#define XK_RF_NUM_CHANNELS	4
+#define XK_PAYLOAD_SIZE		16
+#define XK_BIND_COUNT		750					//3sec
+
+static uint16_t __attribute__((unused)) XK_convert_channel(uint8_t num)
+{
+	uint16_t val=convert_channel_10b(num);
+	// 1FF..01=left, 00=center, 200..3FF=right
+	if(val==0x200)
+		val=0;									// 0
+	else
+		if(val>0x200)
+			val--;								// 200..3FE
+		else
+		{
+			val=0x200-val;						// 200..01
+			if(val==0x200)
+				val--;							// 1FF..01
+		}
+	return val;
+}
+
+static void __attribute__((unused)) XK_send_packet()
+{
+	memset(packet,0x00,7);
+	memset(&packet[10],0x00,5);
+
+	packet[12]=0x40;
+	packet[13]=0x40;
+	if(IS_BIND_IN_PROGRESS)
+		packet[14] = 0xC0;
+	else
+	{
+		uint16_t val=convert_channel_10b(THROTTLE);
+		packet[0] = val>>2;						// 0..255
+		//packet[12] |= val & 2;
+		val=XK_convert_channel(RUDDER);
+		packet[1] = val>>2;
+		//packet[12] |= (val & 2)<<2;
+		val=XK_convert_channel(ELEVATOR);
+		packet[2] = val>>2;
+		//packet[13] |= val & 2;
+		val=XK_convert_channel(AILERON);
+		packet[3] = val>>2;
+		//packet[13] |= (val & 2)<<2;
+		
+		memset(&packet[4],0x40,3);				// Trims
+		
+		if(Channel_data[CH5] > CHANNEL_MAX_COMMAND)
+			packet[10] = 0x10; 					// V-Mode
+		else
+			if(Channel_data[CH5] > CHANNEL_MIN_COMMAND)
+				packet[10] = 0x04; 				// 6G-Mode
+		//0x00 default M-Mode
+		
+		packet[10] |= GET_FLAG(CH7_SW,0x80);	// Emergency stop momentary switch
+
+		packet[11]  = GET_FLAG(CH8_SW,0x03)		// 3D/6G momentary switch
+					 |GET_FLAG(CH6_SW,0x40);	// Take off momentary switch
+		packet[14]  = GET_FLAG(CH9_SW,0x01)		// Photo momentary switch
+					 |GET_FLAG(CH10_SW,0x2);	// Video momentary switch
+	}
+
+	crc=packet[0];
+	for(uint8_t i=1; i<XK_PAYLOAD_SIZE-1;i++)
+		crc+=packet[i];
+	packet[15]=crc;
+
+//	debug("C: %02X, P:",hopping_frequency[(IS_BIND_IN_PROGRESS?0:XK_RF_BIND_NUM_CHANNELS)+(hopping_frequency_no>>1)]);
+	XN297L_Hopping((IS_BIND_IN_PROGRESS?0:XK_RF_BIND_NUM_CHANNELS)+(hopping_frequency_no>>1));
+	hopping_frequency_no++;
+	if(hopping_frequency_no >= (IS_BIND_IN_PROGRESS?XK_RF_BIND_NUM_CHANNELS*2:XK_RF_NUM_CHANNELS*2))
+		hopping_frequency_no=0;
+
+	XN297L_WritePayload(packet, XK_PAYLOAD_SIZE);
+//	for(uint8_t i=0; i<XK_PAYLOAD_SIZE; i++)
+//		debug(" %02X",packet[i]);
+//	debugln("");
+	
+	XN297L_SetPower();		// Set tx_power
+	XN297L_SetFreqOffset();	// Set frequency offset
+}
+
+const uint8_t PROGMEM XK_bind_hop[XK_RF_BIND_NUM_CHANNELS]= { 0x07, 0x24, 0x3E, 0x2B, 0x47, 0x0E, 0x39, 0x1C };	// Bind
+
+const uint8_t PROGMEM XK_tx_addr[]= { 0xB3, 0x67, 0xE9, 0x98, 0x3A, 0xEC, 0xA6, 0x59, 0xB2, 0x94, 0x2B, 0xA5, 0x37, 0xC5, 0x4A, 0xD3,
+									  0x49, 0xA6, 0x83, 0xEB, 0x4B, 0xC9, 0x59, 0xD2, 0x65, 0x34, 0x6A, 0xD3, 0x2C, 0x96, 0x2A, 0xA9,
+									  0x32, 0xB2, 0xB4, 0x49, 0xD3, 0x37, 0xE9 };
+
+const uint8_t PROGMEM XK_hop[]= { 0x47, 0x3A, 0x4C, 0x39, 0x4D, 0x34, 0x4A, 0x3F, 0x45, 0x3E, 0x4B, 0x3D, 0x3B, 0x48, 0x40, 0x49,
+								  0x46, 0x3C, 0x43, 0x38, 0x35, 0x42, 0x33, 0x44, 0x4E, 0x37, 0x44, 0x35, 0x37, 0x4E, 0x36, 0x41 };
+
+static void __attribute__((unused)) XK_initialize_txid()
+{
+	//bind hop
+	for(uint8_t i=0; i<XK_RF_BIND_NUM_CHANNELS; i++)
+		hopping_frequency[i]=pgm_read_byte_near( &XK_bind_hop[i] );
+
+	//GID
+	packet[7]=rx_tx_addr[1];
+	packet[8]=rx_tx_addr[2];
+	packet[9]=rx_tx_addr[3];
+	uint8_t sum=packet[7]+packet[8]+packet[9];
+//	debugln("GID=%02X %02X %02X, sum=%d", packet[7],packet[8],packet[9],sum);
+	
+	//Normal hop
+	uint8_t start=(sum&0x07)<<2;
+//	debug("start=%d, hop=",start);
+	for(uint8_t i=0; i<XK_RF_NUM_CHANNELS; i++)
+	{
+		hopping_frequency[ i + XK_RF_BIND_NUM_CHANNELS ]=pgm_read_byte_near( &XK_hop[ start + i ] );
+//		debug("%02X ", hopping_frequency[ i + XK_RF_BIND_NUM_CHANNELS ]);
+	}
+//	debugln("");
+	//Normal packet address
+	start=(sum&0x1F)+((sum>>5)&0x03);
+//	debug("start=%d, addr=",start);
+	for(uint8_t i=0; i<5; i++)
+	{
+		rx_tx_addr[i]=pgm_read_byte_near( &XK_tx_addr[ start + i ] );
+//		debug("%02X ", rx_tx_addr[ i ]);
+	}
+//	debugln("");
+
+	#ifdef FORCE_XK_ORIGINAL_ID
+		switch(RX_num%2)
+		{
+			default:
+				//TX1 X8 X450
+				//GID
+				packet[7]=0x04;
+				packet[8]=0x15;
+				packet[9]=0x22;
+				//Normal hop
+				memcpy(&hopping_frequency[XK_RF_BIND_NUM_CHANNELS],(uint8_t*)"\x3B\x48\x40\x49", XK_RF_NUM_CHANNELS);	// freq and order verified
+				//Normal packet address
+				memcpy(rx_tx_addr,(uint8_t*)"\x2C\x96\x2A\xA9\x32",5);
+				break;
+			case 1:
+				//TX2 X4 X420
+				//GID
+				packet[7]=0x13;
+				packet[8]=0x24;
+				packet[9]=0x18;
+				//Normal hop
+				memcpy(&hopping_frequency[XK_RF_BIND_NUM_CHANNELS],(uint8_t*)"\x36\x41\x37\x4E", XK_RF_NUM_CHANNELS);	// freq ok and order from xn297dump auto
+				//Normal packet address
+				memcpy(rx_tx_addr,(uint8_t*)"\xA6\x83\xEB\x4B\xC9",5);
+				break;
+		}
+	#endif
+}
+
+static void __attribute__((unused)) XK_init()
+{
+	XN297L_Init();
+	XN297L_SetTXAddr((uint8_t*)"\x68\x94\xA6\xD5\xC3", 5);						// Bind address
+	XN297L_HoppingCalib(XK_RF_BIND_NUM_CHANNELS+XK_RF_NUM_CHANNELS);			// Calibrate all channels
+}
+
+uint16_t XK_callback()
+{
+	if(sub_protocol==X420)
+		option=0;																// Forcing the use of NRF24L01@1Mbps
+	#ifdef MULTI_SYNC
+		telemetry_set_input_sync(XK_PACKET_PERIOD);
+	#endif
+	if(IS_BIND_IN_PROGRESS)
+		if(--bind_counter==0)
+		{
+			BIND_DONE;
+			XN297L_SetTXAddr(rx_tx_addr, 5);									// Normal packets address
+		}
+	XK_send_packet();
+	return XK_PACKET_PERIOD;
+}
+
+uint16_t initXK()
+{
+	if(sub_protocol==X420)
+		option=prev_option=0;													// Forcing the use of NRF24L01@1Mbps
+	BIND_IN_PROGRESS;															// Autobind protocol
+	XK_initialize_txid();
+	XK_init();
+	if(sub_protocol==X420)
+		NRF24L01_SetBitrate(NRF24L01_BR_1M);									// X420/X520 runs @1Mbps
+	hopping_frequency_no = 0;
+	bind_counter=XK_BIND_COUNT;
+	return XK_INITIAL_WAIT;
+}
+
+#endif

Multiprotocol/XN297Dump_nrf24l01.ino

@@ -23,7 +23,7 @@
 
 // Parameters which can be modified
 #define XN297DUMP_PERIOD_SCAN		50000 	// 25000
-#define XN297DUMP_MAX_RF_CHANNEL	84		// Default 84
+#define XN297DUMP_MAX_RF_CHANNEL	127		// Default 84
 
 // Do not touch from there
 #define XN297DUMP_INITIAL_WAIT		500
@@ -33,6 +33,10 @@
 uint8_t address_length;
 uint16_t timeH=0;
 boolean scramble;
+boolean enhanced;
+boolean ack;
+uint8_t pid;
+uint8_t bitrate;
 
 static void __attribute__((unused)) XN297Dump_init()
 {
@@ -48,14 +52,14 @@ static void __attribute__((unused)) XN297Dump_init()
 	NRF24L01_WriteRegisterMulti(NRF24L01_0A_RX_ADDR_P0, (uint8_t*)"\x55\x0F\x71", 3);	// set up RX address to xn297 preamble
 	NRF24L01_WriteReg(NRF24L01_11_RX_PW_P0, XN297DUMP_MAX_PACKET_LEN);	// Enable rx pipe 0
 
-	debug("XN297 dump, address length=%d, speed=",address_length);
-	switch(sub_protocol)
+	debug("XN297 dump, address length=%d, bitrate=",address_length);
+	switch(bitrate)
 	{
-		case 0:
+		case XN297DUMP_250K:
 			NRF24L01_SetBitrate(NRF24L01_BR_250K);
 			debugln("250K");
 			break;
-		case 2:
+		case XN297DUMP_2M:
 			NRF24L01_SetBitrate(NRF24L01_BR_2M);
 			debugln("2M");
 			break;
@@ -76,9 +80,14 @@ static boolean __attribute__((unused)) XN297Dump_process_packet(void)
 {
 	uint16_t crcxored;
 	uint8_t packet_sc[XN297DUMP_MAX_PACKET_LEN], packet_un[XN297DUMP_MAX_PACKET_LEN];
+	enhanced=false;
 	// init crc
 	crc = 0xb5d2;
 	
+	/*debug("P: 71 0F 55 ");
+	for(uint8_t i=0; i<XN297DUMP_MAX_PACKET_LEN; i++)
+		debug("%02X ",packet[i]);
+	debugln("");*/
 	//Try normal payload
 	// address
 	for (uint8_t i = 0; i < address_length; i++)
@@ -142,17 +151,17 @@ static boolean __attribute__((unused)) XN297Dump_process_packet(void)
 	}
 	if(packet_length!=0)
 	{ // Found a valid CRC for the enhanced payload mode
-		debug("Enhanced ");
+		enhanced=true;
 		//check selected address length
 		if((packet_un[address_length]>>1)!=packet_length-address_length)
 		{
 			for(uint8_t i=3;i<=5;i++)
 				if((packet_un[i]>>1)==packet_length-i)
 					address_length=i;
-			debug("Wrong address length selected using %d ", address_length )
+			debugln("Detected wrong address length, using %d intead", address_length );
 		}
-		debug("pid=%d ",((packet_un[address_length]&0x01)<<1)|(packet_un[address_length+1]>>7));
-		debug("ack=%d ",(packet_un[address_length+1]>>6)&0x01);
+		pid=((packet_un[address_length]&0x01)<<1)|(packet_un[address_length+1]>>7);
+		ack=(packet_un[address_length+1]>>6)&0x01;
 		// address
 		for (uint8_t i = 0; i < address_length; i++)
 			packet[address_length-1-i]=packet_un[i];
@@ -175,92 +184,524 @@ static void __attribute__((unused)) XN297Dump_overflow()
 }
 static uint16_t XN297Dump_callback()
 {
-	static uint32_t time=0;
+	static uint32_t time=0,*time_rf;
+
+	//!!!Blocking mode protocol!!!
+	TX_MAIN_PAUSE_off;
+	tx_resume();
 	while(1)
 	{
-		if(option==0xFF && bind_counter>XN297DUMP_PERIOD_SCAN)
-		{	// Scan frequencies
-			hopping_frequency_no++;
-			bind_counter=0;
-		}
-		if(hopping_frequency_no!=rf_ch_num)
-		{	// Channel has changed
-			if(hopping_frequency_no>XN297DUMP_MAX_RF_CHANNEL)
-				hopping_frequency_no=0;	// Invalid channel 0 by default
-			rf_ch_num=hopping_frequency_no;
-			debugln("Channel=%d,0x%02X",hopping_frequency_no,hopping_frequency_no)
-			NRF24L01_WriteReg(NRF24L01_05_RF_CH,hopping_frequency_no);
-			// switch to RX mode
-			NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
-			NRF24L01_SetTxRxMode(TXRX_OFF);
-			NRF24L01_SetTxRxMode(RX_EN);
-			NRF24L01_FlushRx();
-			NRF24L01_WriteReg(NRF24L01_00_CONFIG, (0 << NRF24L01_00_EN_CRC)   // switch to RX mode and disable CRC
-											| (1 << NRF24L01_00_CRCO)
-											| (1 << NRF24L01_00_PWR_UP)
-											| (1 << NRF24L01_00_PRIM_RX));
-			phase=0;				// init timer
-		}
-		XN297Dump_overflow();
-		
-		if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
-		{ // RX fifo data ready
-			if(NRF24L01_ReadReg(NRF24L01_09_CD) || option != 0xFF)
-			{
-				NRF24L01_ReadPayload(packet,XN297DUMP_MAX_PACKET_LEN);
-				XN297Dump_overflow();
-				uint16_t timeL=TCNT1;
-				if(TIMER2_BASE->SR & TIMER_SR_UIF)
-				{//timer just rolled over...
+		if(sub_protocol<XN297DUMP_AUTO)
+		{
+			if(option==0xFF && bind_counter>XN297DUMP_PERIOD_SCAN)
+			{	// Scan frequencies
+				hopping_frequency_no++;
+				bind_counter=0;
+			}
+			if(hopping_frequency_no!=rf_ch_num)
+			{	// Channel has changed
+				if(hopping_frequency_no>XN297DUMP_MAX_RF_CHANNEL)
+					hopping_frequency_no=0;	// Invalid channel 0 by default
+				rf_ch_num=hopping_frequency_no;
+				debugln("Channel=%d,0x%02X",hopping_frequency_no,hopping_frequency_no);
+				NRF24L01_WriteReg(NRF24L01_05_RF_CH,hopping_frequency_no);
+				// switch to RX mode
+				NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
+				NRF24L01_SetTxRxMode(TXRX_OFF);
+				NRF24L01_SetTxRxMode(RX_EN);
+				NRF24L01_FlushRx();
+				NRF24L01_WriteReg(NRF24L01_00_CONFIG, (0 << NRF24L01_00_EN_CRC)   // switch to RX mode and disable CRC
+												| (1 << NRF24L01_00_CRCO)
+												| (1 << NRF24L01_00_PWR_UP)
+												| (1 << NRF24L01_00_PRIM_RX));
+				phase=0;				// init timer
+			}
+			XN297Dump_overflow();
+			
+			if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
+			{ // RX fifo data ready
+				if(NRF24L01_ReadReg(NRF24L01_09_CD) || option != 0xFF)
+				{
+					NRF24L01_ReadPayload(packet,XN297DUMP_MAX_PACKET_LEN);
 					XN297Dump_overflow();
-					timeL=0;
-				}
-				if(phase==0)
-				{
-					phase=1;
-					time=0;
-				}
-				else
-					time=(timeH<<16)+timeL-time;
-				debug("RX: %5luus C=%d ", time>>1 , hopping_frequency_no);
-				time=(timeH<<16)+timeL;
-				if(XN297Dump_process_packet())
-				{ // valid crc found
-					debug("S=%c A=",scramble?'Y':'N');
-					for(uint8_t i=0; i<address_length; i++)
-					{
-						debug(" %02X",packet[i]);
+					uint16_t timeL=TCNT1;
+					if(TIMER2_BASE->SR & TIMER_SR_UIF)
+					{//timer just rolled over...
+						XN297Dump_overflow();
+						timeL=0;
 					}
-					debug(" P(%d)=",packet_length-address_length);
-					for(uint8_t i=address_length; i<packet_length; i++)
+					if((phase&0x01)==0)
 					{
-						debug(" %02X",packet[i]);
+						phase=1;
+						time=0;
+					}
+					else
+						time=(timeH<<16)+timeL-time;
+					if(XN297Dump_process_packet())
+					{ // valid crc found
+						debug("RX: %5luus C=%d ", time>>1 , hopping_frequency_no);
+						time=(timeH<<16)+timeL;
+						if(enhanced)
+						{
+							debug("Enhanced ");
+							debug("pid=%d ",pid);
+							if(ack) debug("ack ");
+						}
+						debug("S=%c A=",scramble?'Y':'N');
+						for(uint8_t i=0; i<address_length; i++)
+						{
+							debug(" %02X",packet[i]);
+						}
+						debug(" P(%d)=",packet_length-address_length);
+						for(uint8_t i=address_length; i<packet_length; i++)
+						{
+							debug(" %02X",packet[i]);
+						}
+						debugln("");
+					}
+					else
+					{
+						debugln("RX: %5luus C=%d Bad CRC", time>>1 , hopping_frequency_no);
 					}
-					debugln("");
 				}
-				else
+				
+				XN297Dump_overflow();
+				// restart RX mode
+				NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
+				NRF24L01_SetTxRxMode(TXRX_OFF);
+				NRF24L01_SetTxRxMode(RX_EN);
+				NRF24L01_FlushRx();
+				NRF24L01_WriteReg(NRF24L01_00_CONFIG, (0 << NRF24L01_00_EN_CRC)   // switch to RX mode and disable CRC
+												| (1 << NRF24L01_00_CRCO)
+												| (1 << NRF24L01_00_PWR_UP)
+												| (1 << NRF24L01_00_PRIM_RX));
+				XN297Dump_overflow();
+			}
+		}
+		else if(sub_protocol==XN297DUMP_AUTO)
+		{
+			switch(phase)
+			{
+				case 0:
+					debugln("------------------------");
+					debugln("Detecting XN297 packets.");
+					XN297Dump_init();
+					debug("Trying RF channel: 0");
+					hopping_frequency_no=0;
+					bitrate=0;
+					phase++;
+					break;
+				case 1:
+					if(bind_counter>XN297DUMP_PERIOD_SCAN)
+					{	// Scan frequencies
+						hopping_frequency_no++;
+						bind_counter=0;
+						if(hopping_frequency_no>XN297DUMP_MAX_RF_CHANNEL)
+						{
+							hopping_frequency_no=0;
+							bitrate++;
+							bitrate%=3;
+							debugln("");
+							XN297Dump_init();
+							debug("Trying RF channel: 0");
+						}
+						if(hopping_frequency_no)
+							debug(",%d",hopping_frequency_no);
+						NRF24L01_WriteReg(NRF24L01_05_RF_CH,hopping_frequency_no);
+						// switch to RX mode
+						NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
+						NRF24L01_SetTxRxMode(TXRX_OFF);
+						NRF24L01_SetTxRxMode(RX_EN);
+						NRF24L01_FlushRx();
+						NRF24L01_WriteReg(NRF24L01_00_CONFIG, (0 << NRF24L01_00_EN_CRC)   // switch to RX mode and disable CRC
+														| (1 << NRF24L01_00_CRCO)
+														| (1 << NRF24L01_00_PWR_UP)
+														| (1 << NRF24L01_00_PRIM_RX));
+					}
+					if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
+					{ // RX fifo data ready
+						if(NRF24L01_ReadReg(NRF24L01_09_CD))
+						{
+							NRF24L01_ReadPayload(packet,XN297DUMP_MAX_PACKET_LEN);
+							if(XN297Dump_process_packet())
+							{ // valid crc found
+								debug("\r\n\r\nPacket detected: bitrate=");
+								switch(bitrate)
+								{
+									case XN297DUMP_250K:
+										NRF24L01_SetBitrate(NRF24L01_BR_250K);
+										debug("250K");
+										break;
+									case XN297DUMP_2M:
+										NRF24L01_SetBitrate(NRF24L01_BR_2M);
+										debug("2M");
+										break;
+									default:
+										NRF24L01_SetBitrate(NRF24L01_BR_1M);
+										debug("1M");
+										break;
+
+								}
+								debug(" C=%d ", hopping_frequency_no);
+								if(enhanced)
+								{
+									debug("Enhanced ");
+									debug("pid=%d ",pid);
+									if(ack) debug("ack ");
+								}
+								debug("S=%c A=",scramble?'Y':'N');
+								for(uint8_t i=0; i<address_length; i++)
+								{
+									debug(" %02X",packet[i]);
+									rx_tx_addr[i]=packet[i];
+								}
+								debug(" P(%d)=",packet_length-address_length);
+								for(uint8_t i=address_length; i<packet_length; i++)
+								{
+									debug(" %02X",packet[i]);
+								}
+								packet_length=packet_length-address_length;
+								debugln("\r\n--------------------------------");
+								phase=2;
+								debugln("Identifying all RF channels in use.");
+								bind_counter=0;
+								hopping_frequency_no=0;
+								rf_ch_num=0;
+								packet_count=0;
+								debug("Trying RF channel: 0");
+								NRF24L01_Initialize();
+								XN297_SetScrambledMode(scramble?XN297_SCRAMBLED:XN297_UNSCRAMBLED);
+								XN297_SetTXAddr(rx_tx_addr,address_length);
+								XN297_SetRXAddr(rx_tx_addr,address_length);
+								NRF24L01_FlushRx();
+								NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);     	// Clear data ready, data sent, and retransmit
+								NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);      	// No Auto Acknowldgement on all data pipes
+								NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x01);  	// Enable data pipe 0 only
+								NRF24L01_WriteReg(NRF24L01_11_RX_PW_P0, packet_length + 2 + (enhanced?2:0) ); // 2 extra bytes for xn297 crc
+								NRF24L01_WriteReg(NRF24L01_05_RF_CH,0);
+								NRF24L01_SetTxRxMode(TXRX_OFF);
+								NRF24L01_FlushRx();
+								NRF24L01_SetTxRxMode(RX_EN);
+								XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP) | _BV(NRF24L01_00_PRIM_RX));
+							}
+						}
+					}
+					break;
+				case 2:
+					if(bind_counter>XN297DUMP_PERIOD_SCAN)
+					{	// Scan frequencies
+						hopping_frequency_no++;
+						bind_counter=0;
+						if(packet_count && packet_count<=5)
+							debug("\r\nTrying RF channel: ");
+						packet_count=0;
+						if(hopping_frequency_no>XN297DUMP_MAX_RF_CHANNEL)
+						{
+							debug("\r\n\r\n%d RF channels identified:",rf_ch_num);
+							for(uint8_t i=0;i<rf_ch_num;i++)
+								debug(" %d",hopping_frequency[i]);
+							time_rf=(uint32_t*)malloc(rf_ch_num*sizeof(time));
+							if(time_rf==NULL)
+							{
+								debugln("\r\nCan't allocate memory for next phase!!!");
+								phase=0;
+								break;
+							}
+							debugln("\r\n--------------------------------");
+							debugln("Identifying RF channels order.");
+							hopping_frequency_no=1;
+							phase=3;
+							packet_count=0;
+							bind_counter=0;
+							debugln("Time between CH:%d and CH:%d",hopping_frequency[0],hopping_frequency[hopping_frequency_no]);
+							time_rf[hopping_frequency_no]=0xFFFFFFFF;
+							NRF24L01_WriteReg(NRF24L01_05_RF_CH,hopping_frequency[0]);
+							uint16_t timeL=TCNT1;
+							if(TIMER2_BASE->SR & TIMER_SR_UIF)
+							{//timer just rolled over...
+								XN297Dump_overflow();
+								timeL=0;
+							}
+							time=(timeH<<16)+timeL;
+							NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
+							NRF24L01_SetTxRxMode(TXRX_OFF);
+							NRF24L01_SetTxRxMode(RX_EN);
+							NRF24L01_FlushRx();
+							NRF24L01_WriteReg(NRF24L01_00_CONFIG, (0 << NRF24L01_00_EN_CRC)   // switch to RX mode and disable CRC
+															| (1 << NRF24L01_00_CRCO)
+															| (1 << NRF24L01_00_PWR_UP)
+															| (1 << NRF24L01_00_PRIM_RX));
+							XN297Dump_overflow();
+							break;
+						}
+						debug(",%d",hopping_frequency_no);
+						NRF24L01_WriteReg(NRF24L01_05_RF_CH,hopping_frequency_no);
+						// switch to RX mode
+						NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
+						NRF24L01_SetTxRxMode(TXRX_OFF);
+						NRF24L01_SetTxRxMode(RX_EN);
+						NRF24L01_FlushRx();
+						XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP) | _BV(NRF24L01_00_PRIM_RX));
+					}
+					if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
+					{ // RX fifo data ready
+						if(NRF24L01_ReadReg(NRF24L01_09_CD))
+						{
+							boolean res;
+							if(enhanced)
+								res=XN297_ReadEnhancedPayload(packet, packet_length);
+							else
+								res=XN297_ReadPayload(packet, packet_length);
+							if(res)
+							{ // valid crc found
+								XN297Dump_overflow();
+								uint16_t timeL=TCNT1;
+								if(TIMER2_BASE->SR & TIMER_SR_UIF)
+								{//timer just rolled over...
+									XN297Dump_overflow();
+									timeL=0;
+								}
+								if(packet_count==0)
+								{//save channel
+									hopping_frequency[rf_ch_num]=hopping_frequency_no;
+									rf_ch_num++;
+									time=0;
+								}
+								else
+									time=(timeH<<16)+timeL-time;
+								debug("\r\nRX on channel: %d, Time: %5luus P:",hopping_frequency_no, time>>1);
+								time=(timeH<<16)+timeL;
+								for(uint8_t i=0;i<packet_length;i++)
+									debug(" %02X",packet[i]);
+								packet_count++;
+								if(packet_count>5)
+								{//change channel
+									bind_counter=XN297DUMP_PERIOD_SCAN+1;
+									debug("\r\nTrying RF channel: ");
+								}
+							}
+						}
+						// restart RX mode
+						NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
+						NRF24L01_SetTxRxMode(TXRX_OFF);
+						NRF24L01_SetTxRxMode(RX_EN);
+						NRF24L01_FlushRx();
+						XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP) | _BV(NRF24L01_00_PRIM_RX));
+					}
+					XN297Dump_overflow();
+					break;
+				case 3:
+					if(bind_counter>XN297DUMP_PERIOD_SCAN)
+					{	// Scan frequencies
+						hopping_frequency_no++;
+						bind_counter=0;
+						if(hopping_frequency_no>=rf_ch_num)
+						{
+							uint8_t next=0;
+							debugln("\r\n\r\nChannel order:");
+							debugln("%d:     0us",hopping_frequency[0]);
+							uint8_t i=1;
+							do
+							{
+								time=time_rf[i];
+								if(time!=0xFFFFFFFF)
+								{
+									next=i;
+									for(uint8_t j=2;j<rf_ch_num;j++)
+										if(time>time_rf[j])
+										{
+											next=j;
+											time=time_rf[j];
+										}
+									time_rf[next]=-1;
+									debugln("%d: %5luus",hopping_frequency[next],time);
+									i=0;
+								}
+								i++;
+							}
+							while(i<rf_ch_num);
+							free(time_rf);
+							debugln("\r\n--------------------------------");
+							debugln("Identifying Sticks and features.");
+							phase=4;
+							hopping_frequency_no=0;
+							break;
+						}
+						debugln("Time between CH:%d and CH:%d",hopping_frequency[0],hopping_frequency[hopping_frequency_no]);
+						time_rf[hopping_frequency_no]=-1;
+						NRF24L01_WriteReg(NRF24L01_05_RF_CH,hopping_frequency[0]);
+						uint16_t timeL=TCNT1;
+						if(TIMER2_BASE->SR & TIMER_SR_UIF)
+						{//timer just rolled over...
+							XN297Dump_overflow();
+							timeL=0;
+						}
+						time=(timeH<<16)+timeL;
+						// switch to RX mode
+						NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
+						NRF24L01_SetTxRxMode(TXRX_OFF);
+						NRF24L01_SetTxRxMode(RX_EN);
+						NRF24L01_FlushRx();
+						XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP) | _BV(NRF24L01_00_PRIM_RX));
+					}
+					if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
+					{ // RX fifo data ready
+						if(NRF24L01_ReadReg(NRF24L01_09_CD))
+						{
+							boolean res;
+							if(enhanced)
+								res=XN297_ReadEnhancedPayload(packet, packet_length);
+							else
+								res=XN297_ReadPayload(packet, packet_length);
+							if(res)
+							{ // valid crc found
+								XN297Dump_overflow();
+								uint16_t timeL=TCNT1;
+								if(TIMER2_BASE->SR & TIMER_SR_UIF)
+								{//timer just rolled over...
+									XN297Dump_overflow();
+									timeL=0;
+								}
+								if(packet_count&1)
+								{
+									time=(timeH<<16)+timeL-time;
+									if(time_rf[hopping_frequency_no] > (time>>1))
+										time_rf[hopping_frequency_no]=time>>1;
+									debugln("Time: %5luus", time>>1);
+									NRF24L01_WriteReg(NRF24L01_05_RF_CH,hopping_frequency[0]);
+								}
+								else
+								{
+									time=(timeH<<16)+timeL;
+									NRF24L01_WriteReg(NRF24L01_05_RF_CH,hopping_frequency[hopping_frequency_no]);
+								}
+								packet_count++;
+								if(packet_count>6)
+								{
+									bind_counter=XN297DUMP_PERIOD_SCAN+1;
+									packet_count=0;
+								}
+							}
+						}
+						// restart RX mode
+						NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
+						NRF24L01_SetTxRxMode(TXRX_OFF);
+						NRF24L01_SetTxRxMode(RX_EN);
+						NRF24L01_FlushRx();
+						XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP) | _BV(NRF24L01_00_PRIM_RX));
+					}
+					XN297Dump_overflow();
+					break;
+				case 4:
+					if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
+					{ // RX fifo data ready
+						if(NRF24L01_ReadReg(NRF24L01_09_CD))
+						{
+							boolean res;
+							if(enhanced)
+								res=XN297_ReadEnhancedPayload(packet, packet_length);
+							else
+								res=XN297_ReadPayload(packet, packet_length);
+							if(res)
+							{ // valid crc found
+								if(memcmp(packet_in,packet,packet_length))
+								{
+									debug("P:");
+									for(uint8_t i=0;i<packet_length;i++)
+										debug(" %02X",packet[i]);
+									debugln("");
+									memcpy(packet_in,packet,packet_length);
+								}
+							}
+						}
+						// restart RX mode
+						NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
+						NRF24L01_SetTxRxMode(TXRX_OFF);
+						NRF24L01_SetTxRxMode(RX_EN);
+						NRF24L01_FlushRx();
+						XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP) | _BV(NRF24L01_00_PRIM_RX));
+					}
+					break;
+			}
+		}
+		else
+		{
+			if(phase==0)
+			{
+				address_length=5;
+				memcpy(rx_tx_addr, (uint8_t *)"\xC9\x59\xD2\x65\x34", 5);
+				bitrate=XN297DUMP_250K;
+				packet_length=16;
+				hopping_frequency_no=0x03;
+				
+				NRF24L01_Initialize();
+				NRF24L01_SetTxRxMode(TXRX_OFF);
+				NRF24L01_SetTxRxMode(RX_EN);
+				NRF24L01_FlushTx();
+				NRF24L01_FlushRx();
+				NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);						// Clear data ready, data sent, and retransmit
+				NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00);							// No Auto Acknowledgment on all data pipes
+				NRF24L01_WriteReg(NRF24L01_02_EN_RXADDR, 0x01);						// Enable data pipe 0 only
+				NRF24L01_WriteReg(NRF24L01_03_SETUP_AW, address_length-2);			// RX/TX address length
+				NRF24L01_WriteRegisterMulti(NRF24L01_0A_RX_ADDR_P0, rx_tx_addr, address_length);	// set up RX address
+				NRF24L01_WriteReg(NRF24L01_11_RX_PW_P0, packet_length);				// Enable rx pipe 0
+				NRF24L01_WriteReg(NRF24L01_05_RF_CH, hopping_frequency_no);
+
+				debug("NRF dump, len=%d, rf=%d, address length=%d, bitrate=",packet_length,hopping_frequency_no,address_length);
+				switch(bitrate)
 				{
-					debugln("Bad CRC");
+					case XN297DUMP_250K:
+						NRF24L01_SetBitrate(NRF24L01_BR_250K);
+						debugln("250K");
+						break;
+					case XN297DUMP_2M:
+						NRF24L01_SetBitrate(NRF24L01_BR_2M);
+						debugln("2M");
+						break;
+					default:
+						NRF24L01_SetBitrate(NRF24L01_BR_1M);
+						debugln("1M");
+						break;
+
+				}
+				NRF24L01_Activate(0x73);								// Activate feature register
+				NRF24L01_WriteReg(NRF24L01_1C_DYNPD, 0x00);				// Disable dynamic payload length on all pipes
+				NRF24L01_WriteReg(NRF24L01_1D_FEATURE, 0x01);
+				NRF24L01_Activate(0x73);
+				NRF24L01_SetPower();
+				NRF24L01_WriteReg(NRF24L01_00_CONFIG, _BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP) | _BV(NRF24L01_00_PRIM_RX));
+				phase++;
+			}
+			else
+			{
+				if( NRF24L01_ReadReg(NRF24L01_07_STATUS) & _BV(NRF24L01_07_RX_DR))
+				{ // RX fifo data ready
+					if(NRF24L01_ReadReg(NRF24L01_09_CD))
+					{
+						NRF24L01_ReadPayload(packet, packet_length);
+						if(memcmp(packet_in,packet,packet_length))
+						{
+							debug("P:");
+							for(uint8_t i=0;i<packet_length;i++)
+								debug(" %02X",packet[i]);
+							debugln("");
+							memcpy(packet_in,packet,packet_length);
+						}
+					}
+					// restart RX mode
+					NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
+					NRF24L01_SetTxRxMode(TXRX_OFF);
+					NRF24L01_SetTxRxMode(RX_EN);
+					NRF24L01_FlushRx();
+					NRF24L01_WriteReg(NRF24L01_00_CONFIG, _BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP) | _BV(NRF24L01_00_PRIM_RX));
 				}
 			}
-			
-			XN297Dump_overflow();
-			// restart RX mode
-			NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);			// Clear data ready, data sent, and retransmit
-			NRF24L01_SetTxRxMode(TXRX_OFF);
-			NRF24L01_SetTxRxMode(RX_EN);
-			NRF24L01_FlushRx();
-			NRF24L01_WriteReg(NRF24L01_00_CONFIG, (0 << NRF24L01_00_EN_CRC)   // switch to RX mode and disable CRC
-											| (1 << NRF24L01_00_CRCO)
-											| (1 << NRF24L01_00_PWR_UP)
-											| (1 << NRF24L01_00_PRIM_RX));
-			XN297Dump_overflow();
 		}
 		bind_counter++;
 		if(IS_RX_FLAG_on)					// Let the radio update the protocol
 		{
 			if(Update_All()) return 10000;	// New protocol selected
-			if(prev_option!=option)
+			if(prev_option!=option && sub_protocol<XN297DUMP_AUTO)
 			{	// option has changed
 				hopping_frequency_no=option;
 				prev_option=option;
@@ -274,6 +715,10 @@ static uint16_t XN297Dump_callback()
 uint16_t initXN297Dump(void)
 {
 	BIND_DONE;
+	if(sub_protocol<XN297DUMP_AUTO)
+		bitrate=sub_protocol;
+	else
+		bitrate=0;
 	address_length=RX_num;
 	if(address_length<3||address_length>5)
 		address_length=5;	//default
@@ -281,7 +726,7 @@ uint16_t initXN297Dump(void)
 	bind_counter=0;
 	rf_ch_num=0xFF;
 	prev_option=option^0x55;
-	phase=0;				// init timer
+	phase=0;				// init
 	return XN297DUMP_INITIAL_WAIT;
 }