SLT try 1b

Any ID

Lua_scripts/MultiChan.txt

@@ -35,6 +35,7 @@
 6,3,DSM,X_2F,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
 6,5,DSM,R_1F,0,AUX3,AUX4,AUX5
+6,6,DSM,2SFC,0
 70,0,DSM_RX,RX,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12
 70,1,DSM_RX,CPPM,0,CH5,CH6,CH7,CH8,CH9,CH10,CH11,CH12
 45,0,E01X,E012,1,n-a,Flip,n-a,HLess,RTH
@@ -157,7 +158,7 @@
 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
 74,2,RadioLink,DumboRC,0,CH5,CH6,CH7,CH8,FS_CH1,FS_CH2,FS_CH3,FS_CH4,FS_CH5,FS_CH6,FS_CH7,FS_CH8
 74,3,RadioLink,RC4G,0,CH5,FS_CH1,FS_CH2,FS_CH3,FS_CH4
-76,0,Realacc,Std,1,Flip,Light,Calib,HLess,RTH,UNK
+76,0,Realacc,Std,1,Flip,Light,Calib,HLess,RTH,ThCut,Rotat
 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
@@ -213,5 +214,6 @@
 94,0,Scorpio
 95,0,Bluefly,HP100,0,CH5,CH6,CH7,CH8
 96,0,BumbleB
-97,0,SGF22,Std,1,Mode,Flip,LED,Pict,Video
+97,0,SGF22,Std,1,Mode,Flip,LED,Pict,Video,TrRes
 61,1,EazyRC
+98,0,Kyosho3,ASF,0

Multiprotocol/CYRF6936_SPI.ino

@@ -249,7 +249,7 @@ void CYRF_WriteDataPacket(const uint8_t dpbuffer[])
 }
 */
 //NOTE: This routine will reset the CRC Seed
-void CYRF_FindBestChannels(uint8_t *channels, uint8_t len, uint8_t minspace, uint8_t min, uint8_t max)
+void CYRF_FindBestChannels(uint8_t *channels, uint8_t len, uint8_t minspace, uint8_t min, uint8_t max, uint8_t forced)
 {
 	#define NUM_FREQ 80
 	#define FREQ_OFFSET 4
@@ -269,7 +269,12 @@ void CYRF_FindBestChannels(uint8_t *channels, uint8_t len, uint8_t minspace, uin
 	delayMilliseconds(1);
 	for(i = 0; i < NUM_FREQ; i++)
 	{
-		CYRF_ConfigRFChannel(protocol==PROTO_LOSI?i|1:i);
+		if(((i&1) && forced == FIND_CHANNEL_EVEN) || (!(i&1) && forced == FIND_CHANNEL_ODD))
+		{
+			rssi[i] = 0xFF;
+			continue;
+		}
+		CYRF_ConfigRFChannel(i);	//protocol==PROTO_LOSI?i|1:i);
 		delayMicroseconds(270);					//slow channel require 270usec for synthesizer to settle
         if( !(CYRF_ReadRegister(CYRF_05_RX_CTRL) & 0x80)) {
             CYRF_WriteRegister(CYRF_05_RX_CTRL, 0x80); //Prepare to receive

Multiprotocol/DSM_Rx_cyrf6936.ino

@@ -267,6 +267,7 @@ uint16_t DSM_RX_callback()
 							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
+							0x23 => DX3R DSM2 2 surface packets
 							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

Multiprotocol/DSM_cyrf6936.ino

@@ -19,11 +19,10 @@
 
 //#define DSM_DEBUG_FWD_PGM
 //#define DEBUG_BIND  1
-//#define DSM_GR300
 
-#define CLONE_BIT_MASK 0x20 
-
-#define DSM_BIND_CHANNEL 0x0d //13 This can be any odd channel
+#define CLONE_BIT_MASK			0x20
+#define DSM_BIND_CHANNEL		0x0D	//13 This can be any odd channel
+#define DSM2_SFC_PERIOD			16500
 
 //During binding we will send BIND_COUNT packets
 //One packet each 10msec
@@ -32,8 +31,8 @@
 // Lemon-RX G2s seems to have a timeout waiting for the channel to get quiet after the 
 // first good BIND packet.. If using 3s (300), Lemon-RX will not transmit the BIND-Response packet. 
 
-#define DSM_BIND_COUNT             180  // About 1.8s
-#define DSM_BIND_COUNT_READ        600  // About 4.2s of waiting for Response
+#define DSM_BIND_COUNT			180  // About 1.8s
+#define DSM_BIND_COUNT_READ		600  // About 4.2s of waiting for Response
 
 enum {
 	DSM_BIND_WRITE=0,
@@ -95,9 +94,12 @@ static void __attribute__((unused)) DSM_build_bind_packet()
 		packet[11] = 12;
 	else
 		packet[11] = num_ch;				// DX5 DSMR sends 0x48...
+	//packet[11] = 3;						// DX3R
 
 	if (sub_protocol==DSMR)
 		packet[12] = 0xa2;
+	else if (sub_protocol==DSM2_SFC)
+		packet[12] = 0x23;					// DX3R
 	else if (sub_protocol==DSM2_1F)
 		packet[12] = num_ch<8?0x01:0x02;	// DSM2/1024 1 or 2 packets depending on the number of channels
 	else if(sub_protocol==DSM2_2F)
@@ -111,7 +113,6 @@ static void __attribute__((unused)) DSM_build_bind_packet()
 	else									// DSMX_2F && DSM_AUTO
 		packet[12] = 0xb2;					// DSMX/2048 2 packets
 
-
 	packet[13] = 0x00;						//???
 	for(i = 8; i < 14; i++)
 		sum += packet[i];
@@ -137,8 +138,13 @@ static void __attribute__((unused)) DSM_update_channels()
 	if(num_ch<3 || num_ch>12)
 		num_ch=6;						// Default to 6 channels if invalid choice...
 
-	if(sub_protocol==DSMR && num_ch>7)
-		num_ch=7;						// Max 7 channels in DSMR
+	#ifndef MULTI_AIR
+		if(sub_protocol==DSMR && num_ch>7)
+			num_ch=7;						// Max 7 channels in DSMR
+
+		if(sub_protocol==DSM2_SFC && num_ch>5)
+			num_ch=5;						// Max 5 channels in DSM2_SFC
+	#endif
 
 	// Create channel map based on number of channels and refresh rate
 	uint8_t idx=num_ch-3;
@@ -175,13 +181,17 @@ static void __attribute__((unused)) DSM_build_data_packet(uint8_t upper)
 	}
 
 	#ifndef MULTI_AIR
-		if(sub_protocol == DSMR)
-		{
+		if(sub_protocol == DSMR || sub_protocol == DSM2_SFC)
+		{ // 12 bits, full range, no reassignment
 			for (uint8_t i = 0; i < 7; i++)
 			{
 				uint16_t value = 0x0000;
 				if(i < num_ch)
+				{
 					value=Channel_data[i]<<1;
+					if(sub_protocol == DSM2_SFC)
+						value |= i<<12;
+				}
 				packet[i*2+2] = (value >> 8) & 0xff;
 				packet[i*2+3] = (value >> 0) & 0xff;
 			}
@@ -266,12 +276,18 @@ static uint8_t __attribute__((unused)) DSM_Check_RX_packet()
 uint16_t DSM_callback()
 {
 	#if defined MULTI_EU
-		if(sub_protocol == DSM2_1F || sub_protocol == DSM2_2F)
+		if(sub_protocol == DSM2_1F || sub_protocol == DSM2_2F || sub_protocol == DSM2_SFC)
+		{
+			SUB_PROTO_INVALID;
 			return 11000;
+		}
 	#endif
 	#if defined MULTI_AIR
-		if(sub_protocol == DSMR)
+		if(sub_protocol == DSMR || sub_protocol == DSM2_SFC)
+		{
+			SUB_PROTO_INVALID;
 			return 11000;
+		}
 	#endif
 	#define DSM_CH1_CH2_DELAY	4010			// Time between write of channel 1 and channel 2
 	#ifdef STM32_BOARD
@@ -285,12 +301,7 @@ uint16_t DSM_callback()
 		uint8_t len;
 	#endif
 	uint8_t start;
-
-	#ifdef DSM_GR300
-		uint16_t timing=5000+(convert_channel_8b(CH13)*100);
-		debugln("T=%u",timing);
-	#endif
-	
+	//debugln("P=%d",phase);
 	switch(phase)
 	{
 		case DSM_BIND_WRITE:
@@ -304,11 +315,11 @@ uint16_t DSM_callback()
 			return 10000;
 	#if defined DSM_TELEMETRY
 		case DSM_BIND_CHECK:
-      #if DEBUG_BIND
-        debugln("Bind Check");
-      #endif
-      //64 SDR Mode is configured so only the 8 first values are needed
-      CYRF_ConfigDataCode((const uint8_t *)"\x98\x88\x1B\xE4\x30\x79\x03\x84");
+			#if DEBUG_BIND
+				debugln("Bind Check");
+			#endif
+			//64 SDR Mode is configured so only the 8 first values are needed
+			CYRF_ConfigDataCode((const uint8_t *)"\x98\x88\x1B\xE4\x30\x79\x03\x84");
 			CYRF_SetTxRxMode(RX_EN);							//Receive mode
 			CYRF_WriteRegister(CYRF_05_RX_CTRL, 0x87);			//Prepare to receive
 			bind_counter=DSM_BIND_COUNT_READ; //Timeout of 4.2s if no packet received
@@ -371,25 +382,38 @@ uint16_t DSM_callback()
 			CYRF_SetTxRxMode(TX_EN);
 			hopping_frequency_no = 0;
 			phase = DSM_CH1_WRITE_A;							// in fact phase++
+			#ifndef MULTI_AIR
 			if(sub_protocol == DSMR)
 				DSM_set_sop_data_crc(false, true);
 			else
+			#endif
 				DSM_set_sop_data_crc(true, sub_protocol==DSMX_2F||sub_protocol==DSMX_1F);	//prep CH1
 			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
+				if(sub_protocol!=DSM2_SFC || option&0x40)		// option&40 in this case is 16.5ms/11ms frame rate for DSM2_SFC
+					telemetry_set_input_sync(11000);			// Always request 11ms spacing even if we don't use half of it in 22ms mode
+				else
+					telemetry_set_input_sync(DSM2_SFC_PERIOD);
 			#endif
+			#ifndef MULTI_AIR
 			if(sub_protocol == DSMR)
 				CYRF_SetPower(0x08);							//Keep transmit power in sync
 			else
+			#endif
 				CYRF_SetPower(0x28);							//Keep transmit power in sync
 		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:
 			CYRF_ReadRegister(CYRF_04_TX_IRQ_STATUS);			// clear IRQ flags
-			CYRF_WriteDataPacket(packet);
+			//debugln_time("");
+			#ifndef MULTI_AIR
+			if(sub_protocol==DSM2_SFC)
+				CYRF_WriteDataPacketLen(packet,2*(num_ch+1));
+			else
+			#endif
+				CYRF_WriteDataPacket(packet);
 			#if 0
 				for(uint8_t i=0;i<16;i++)
 					debug(" %02X", packet[i]);
@@ -426,14 +450,19 @@ uint16_t DSM_callback()
 			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
-			if(sub_protocol==DSMR)
-			{
-				phase = DSM_CH2_READ_B;
-				return 11000 - DSM_WRITE_DELAY - DSM_READ_DELAY;
-			}
-			#ifdef DSM_GR300
-				if(num_ch==3)
-					return timing - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY - DSM_READ_DELAY;
+			#ifndef MULTI_AIR
+				if(sub_protocol==DSMR || sub_protocol == DSM2_SFC)
+				{
+					phase = DSM_CH2_READ_B;
+					if(sub_protocol == DSM2_SFC)
+					{
+						if(option&0x40)		// option&40 in this case is 16.5ms/11ms frame rate for DSM2_SFC
+							return 11000 - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY - DSM_READ_DELAY;
+						else
+							return DSM2_SFC_PERIOD - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY - DSM_READ_DELAY;
+					}
+					return 11000 - DSM_WRITE_DELAY - DSM_READ_DELAY;
+				}
 			#endif
 			return 11000 - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY - DSM_READ_DELAY;
 		case DSM_CH2_READ_A:
@@ -468,10 +497,6 @@ uint16_t DSM_callback()
 				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)
@@ -492,19 +517,20 @@ uint16_t DSM_callback()
 				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 ;
+					#ifndef MULTI_AIR
+						if(sub_protocol==DSM2_SFC)
+						{
+							if(option&0x40)					// option&40 in this case is 16.5ms/11ms frame rate for DSM2_SFC
+								return 11000 - DSM_CH1_CH2_DELAY - DSM_WRITE_DELAY ;
+							else
+								return DSM2_SFC_PERIOD - 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
 	}
@@ -547,15 +573,13 @@ void DSM_init()
 				SUB_PROTO_INVALID;
 			else
 			{
-				SUB_PROTO_VALID;
+				//SUB_PROTO_VALID;
 				uint8_t row = rx_tx_addr[3]%22;
 				for(uint8_t i=0; i< 4; i++)
 					cyrfmfg_id[i] = pgm_read_byte_near(&DSMR_ID_FREQ[row][i]);
 				for(uint8_t i=0; i< 23; i++)
 					hopping_frequency[i] = pgm_read_byte_near(&DSMR_ID_FREQ[row][i+4]);
 			}
-		#else
-			SUB_PROTO_INVALID;
 		#endif
 	}
 	else
@@ -568,25 +592,25 @@ void DSM_init()
 				uint16_t temp = DSM_CLONE_EEPROM_OFFSET;
 				for(uint8_t i=0;i<4;i++)
 					cyrfmfg_id[i] = eeprom_read_byte((EE_ADDR)temp++);
-        #if DEBUG_BIND
-          debugln("Using cloned ID");  
-  				debug("Clone ID=")
-  				for(uint8_t i=0;i<4;i++)
-  					debug("%02x ", cyrfmfg_id[i]);
-  				debugln("");
-          #endif
+				#if DEBUG_BIND
+					debugln("Using cloned ID");  
+					debug("Clone ID=")
+					for(uint8_t i=0;i<4;i++)
+						debug("%02x ", cyrfmfg_id[i]);
+					debugln("");
+				#endif
 			}
 			else
 			{
 				SUB_PROTO_INVALID;
-        #if DEBUG_BIND
+				#if DEBUG_BIND
 				  debugln("No valid cloned ID");
-        #endif
+				#endif
 			}
 		}
 		else
 		{
-			SUB_PROTO_VALID;
+			//SUB_PROTO_VALID;
 			CYRF_GetMfgData(cyrfmfg_id);
 		}
 	}
@@ -602,8 +626,8 @@ void DSM_init()
 		//Fix for OrangeRX using wrong DSM_pncodes by preventing access to "Col 8"
 		if(sop_col==0 && sub_protocol != DSMR)
 		{
-		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;
+			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;
 		}
 	}
 
@@ -616,7 +640,7 @@ void DSM_init()
 	else if(sub_protocol != DSMR)
 	{ 
 		uint8_t tmpch[10];
-		CYRF_FindBestChannels(tmpch, 10, 5, 3, 75);
+		CYRF_FindBestChannels(tmpch, 10, 5, 3, 75, FIND_CHANNEL_ANY);
 		//
 		uint8_t idx = random(0xfefefefe) % 10;
 		hopping_frequency[0] = tmpch[idx];
@@ -639,10 +663,10 @@ void DSM_init()
 	{
 		DSM_initialize_bind_phase();		
 		phase = DSM_BIND_WRITE;
-    bind_counter=DSM_BIND_COUNT;
-    #if DEBUG_BIND
-      debugln("Bind Started: write count=%d",bind_counter);
-    #endif
+		bind_counter=DSM_BIND_COUNT;
+		#if DEBUG_BIND
+			debugln("Bind Started: write count=%d",bind_counter);
+		#endif
 	}
 	else
 		phase = DSM_CHANSEL;

Multiprotocol/Devo_cyrf6936.ino

@@ -365,7 +365,7 @@ static void __attribute__((unused)) DEVO_cyrf_init()
 
 static void __attribute__((unused)) DEVO_set_radio_channels()
 {
-	CYRF_FindBestChannels(hopping_frequency, 3, 4, 4, 80);
+	CYRF_FindBestChannels(hopping_frequency, 3, 4, 4, 80, FIND_CHANNEL_ANY);
 	hopping_frequency[3] = hopping_frequency[0];
 	hopping_frequency[4] = hopping_frequency[1];
 }

Multiprotocol/J6Pro_cyrf6936.ino

@@ -124,7 +124,7 @@ static void __attribute__((unused)) j6pro_set_radio_channels()
 {
     //FIXME: Query free channels
     //lowest channel is 0x08, upper channel is 0x4d?
-    CYRF_FindBestChannels(hopping_frequency, 3, 5, 8, 77);
+    CYRF_FindBestChannels(hopping_frequency, 3, 5, 8, 77, FIND_CHANNEL_ANY);
     hopping_frequency[3] = hopping_frequency[0];
 }
 

Multiprotocol/Kyosho3_cyrf6936.ino

@@ -0,0 +1,121 @@
+/*
+ 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(KYOSHO3_CYRF6936_INO)
+
+#include "iface_cyrf6936.h"
+
+//#define KYOSHO3_FORCE_ID
+//#define KYOSHO3_DEBUG
+
+#define KYOSHO3_BIND_PACKET_SIZE	4
+#define KYOSHO3_PACKET_SIZE			9
+
+const uint8_t PROGMEM KYOSHO3_init_vals[][2] = {
+	//Init from dump
+	{CYRF_0B_PWR_CTRL, 0x00},					// PMU
+	{CYRF_32_AUTO_CAL_TIME, 0x3C},				// Default init value
+	{CYRF_35_AUTOCAL_OFFSET, 0x14},				// Default init value
+	{CYRF_03_TX_CFG, 0x28 | CYRF_BIND_POWER},	// 8DR Mode, 64 chip codes
+	{CYRF_10_FRAMING_CFG, 0xA4},				// SOP and LEN enable
+	{CYRF_1F_TX_OVERRIDE, 0x05},				// Disable CRC, Data invert
+	{CYRF_1E_RX_OVERRIDE, 0x04},				// CRC check disabled
+	//{CYRF_11_DATA32_THOLD, 0x04},				// ???Using 64 chip...
+	{CYRF_12_DATA64_THOLD, 0x0E},				// Default
+	{CYRF_06_RX_CFG, 0x52},						// AGC disabled, LNA enabled, override enabled
+};
+
+static uint16_t __attribute__((unused)) KYOSHO3_send_packet()
+{
+	CYRF_SetPower(0x28);
+	if(IS_BIND_IN_PROGRESS)
+	{
+		if(--bind_counter==0)
+			BIND_DONE;
+		packet[0] = 0xAA;
+		//ID
+		memcpy(&packet[1],&rx_tx_addr[1],3);
+		CYRF_WriteDataPacketLen(packet, KYOSHO3_BIND_PACKET_SIZE);
+		#ifdef KYOSHO3_DEBUG
+			debug("P:");
+			for(uint8_t i=0;i<KYOSHO3_BIND_PACKET_SIZE;i++)
+				debug(" %02X",packet[i]);
+			debugln("");
+		#endif
+		return 2434;
+	}
+	else
+	{
+		//ID
+		memcpy(packet,&rx_tx_addr[1],3);
+		//Channels
+		for(uint8_t i=0;i<4;i++)
+		{
+			packet[3] >>= 2;
+			packet[3] |= Channel_data[i]<<6;
+			packet[4+i]  = Channel_data[i]>>3;
+		}
+		//Checksum
+		packet[8] = packet[3];
+		for(uint8_t i=4;i<8;i++)
+			packet[8] += packet[i];
+		//Timing
+		phase ^= 0x01;
+		CYRF_WriteDataPacketLen(packet, KYOSHO3_PACKET_SIZE);
+		#ifdef KYOSHO3_DEBUG
+			debug("P:");
+			for(uint8_t i=0;i<KYOSHO3_PACKET_SIZE;i++)
+				debug(" %02X",packet[i]);
+			debugln("");
+		#endif
+		if(phase)
+			return 9047;
+	}
+	return 6957;
+}
+
+uint16_t KYOSHO3_callback()
+{
+	return KYOSHO3_send_packet();
+}
+
+void KYOSHO3_init()
+{ 
+	//Config CYRF registers
+	for(uint8_t i = 0; i < sizeof(KYOSHO3_init_vals) / 2; i++)	
+		CYRF_WriteRegister(pgm_read_byte_near(&KYOSHO3_init_vals[i][0]), pgm_read_byte_near(&KYOSHO3_init_vals[i][1]));
+	CYRF_WritePreamble(0x333304);
+
+	//Find a free even channel
+	CYRF_FindBestChannels(hopping_frequency,1,1,0x04,0x50, FIND_CHANNEL_EVEN);
+
+	#ifdef KYOSHO3_FORCE_ID					// data taken from TX dump
+		rx_tx_addr[1] = 0x01;
+		rx_tx_addr[2] = 0xAB;
+		rx_tx_addr[3] = 0x31;
+		hopping_frequency[0] = 0x04;
+	#endif
+	#ifdef KYOSHO3_DEBUG
+		debugln("ID: %02X %02X %02X",rx_tx_addr[1],rx_tx_addr[2],rx_tx_addr[3]);
+		debugln("RF CH: %02X",hopping_frequency[0]);
+	#endif
+
+	CYRF_ConfigRFChannel(hopping_frequency[0]);
+	
+	bind_counter = 8217;
+	phase = 0;
+}
+
+#endif

Multiprotocol/Losi_cyrf6936.ino

@@ -169,8 +169,7 @@ void LOSI_init()
 {
 	LOSI_cyrf_init();
 
-	CYRF_FindBestChannels(hopping_frequency, 1, 0, 0x07, 0x4F);	// 0x07 and 0x4F are unknown limits, this routine resets the CRC Seed to 0
-	hopping_frequency[0] |= 1;									// Only odd channels are used, integrated in CYRF code...
+	CYRF_FindBestChannels(hopping_frequency, 1, 0, 0x07, 0x4F, FIND_CHANNEL_ODD);	// 0x07 and 0x4F are unknown limits, this routine resets the CRC Seed to 0
 
 	crc8 = 0;
 	crc8 = (uint16_t)LOSI_check(((rx_tx_addr[2]&0x0F) << 8) + rx_tx_addr[3]) >> 12;

Multiprotocol/Multi.txt

@@ -3,7 +3,7 @@
 3,FrskyD,D8,Cloned
 4,Hisky,Hisky,HK310
 5,V2x2,V2x2,JXD506,MR101
-6,DSM,DSM2_1F,DSM2_2F,DSMX_1F,DSMX_2F,AUTO,DSMR_1F
+6,DSM,DSM2_1F,DSM2_2F,DSMX_1F,DSMX_2F,AUTO,DSMR_1F,DSMR,DSM2_SFC
 7,Devo,8CH,10CH,12CH,6CH,7CH
 8,YD717,YD717,SKYWLKR,SYMAX4,XINXUN,NIHUI
 9,KN,WLTOYS,FEILUN
@@ -94,3 +94,4 @@
 95,BlueFly
 96,BumbleB
 97,SGF22
+98,Kyosho3

Multiprotocol/Multi_Protos.ino

@@ -109,6 +109,7 @@ const char STR_BLUEFLY[]    ="BlueFly";
 const char STR_BUMBLEB[]    ="BumbleB";
 const char STR_SGF22[]      ="SGF22";
 const char STR_EAZYRC[]     ="EazyRC";
+const char STR_KYOSHO3[]    ="Kyosho3";
 
 const char STR_SUBTYPE_FLYSKY[] =     "\x04""Std\0""V9x9""V6x6""V912""CX20";
 const char STR_SUBTYPE_HUBSAN[] =     "\x04""H107""H301""H501";
@@ -121,9 +122,9 @@ const char STR_SUBTYPE_FRSKYD[] =     "\x06""D8\0   ""Cloned";
 const char STR_SUBTYPE_HISKY[] =      "\x05""Std\0 ""HK310";
 const char STR_SUBTYPE_V2X2[] =       "\x06""Std\0  ""JXD506""MR101\0";
 #ifndef MULTI_EU
-	const char STR_SUBTYPE_DSM[] =        "\x04""2 1F""2 2F""X 1F""X 2F""Auto""R 1F";
+	const char STR_SUBTYPE_DSM[] =        "\x04""2 1F""2 2F""X 1F""X 2F""Auto""R 1F""2SFC";
 #else
-	const char STR_SUBTYPE_DSM[] =        "\x04""--->""--->""X 1F""X 2F""Auto""R 1F";
+	const char STR_SUBTYPE_DSM[] =        "\x04""--->""--->""X 1F""X 2F""Auto""R 1F""----";
 #endif
 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 ";
@@ -171,6 +172,7 @@ const char STR_SUBTYPE_V761[] =       "\x05""3ch\0 ""4ch\0 ""TOPRC";
 const char STR_SUBTYPE_RLINK[] =      "\x07""Surface""Air\0   ""DumboRC""RC4G\0  ";
 const char STR_SUBTYPE_KYOSHO[] =     "\x04""FHSS""Hype";
 const char STR_SUBTYPE_KYOSHO2[] =    "\x05""KT-17";
+const char STR_SUBTYPE_KYOSHO3[] =    "\x03""ASF";
 const char STR_SUBTYPE_FUTABA[] =     "\x05""SFHSS";
 const char STR_SUBTYPE_JJRC345[] =    "\x08""JJRC345\0""SkyTmblr";
 const char STR_SUBTYPE_MOULDKG[] =    "\x06""Analog""Digit\0";
@@ -258,7 +260,7 @@ const mm_protocol_definition multi_protocols[] = {
 		{PROTO_DM002,      STR_DM002,     NO_SUBTYPE,            0, OPTION_NONE,    0, 0, SW_NRF,    DM002_init,      DM002_callback      },
 	#endif
 	#if defined(DSM_CYRF6936_INO)
-		{PROTO_DSM,        STR_DSM,       STR_SUBTYPE_DSM,       6, OPTION_MAXTHR,  0, 1, SW_CYRF,   DSM_init,        DSM_callback        },
+		{PROTO_DSM,        STR_DSM,       STR_SUBTYPE_DSM,       7, OPTION_MAXTHR,  0, 1, SW_CYRF,   DSM_init,        DSM_callback        },
 	#endif
 	#if defined(DSM_RX_CYRF6936_INO)
 		{PROTO_DSM_RX,     STR_DSM_RX,    STR_SUB_DSM_RX,  DSMCPPM, OPTION_NONE,    0, 1, SW_CYRF,   DSM_RX_init,     DSM_RX_callback     },
@@ -387,6 +389,9 @@ const mm_protocol_definition multi_protocols[] = {
 	#if defined(KYOSHO2_NRF24L01_INO)
 		{PROTO_KYOSHO2,    STR_KYOSHO2,   STR_SUBTYPE_KYOSHO2,   1, OPTION_NONE,    0, 0, SW_NRF,    KYOSHO2_init,    KYOSHO2_callback    },
 	#endif
+	#if defined(KYOSHO3_CYRF6936_INO)
+		{PROTO_KYOSHO3,    STR_KYOSHO3,   STR_SUBTYPE_KYOSHO3,   1, OPTION_NONE,    0, 0, SW_CYRF,   KYOSHO3_init,    KYOSHO3_callback    },
+	#endif
 	#if defined(LOLI_NRF24L01_INO)
 		{PROTO_LOLI,       STR_LOLI,      NO_SUBTYPE,            0, OPTION_NONE,    1, 0, SW_NRF,    LOLI_init,       LOLI_callback       },
 	#endif

Multiprotocol/Multiprotocol.h

@@ -19,7 +19,7 @@
 #define VERSION_MAJOR		1
 #define VERSION_MINOR		3
 #define VERSION_REVISION	4
-#define VERSION_PATCH_LEVEL	0
+#define VERSION_PATCH_LEVEL	7
 
 #define MODE_SERIAL 0
 
@@ -125,6 +125,7 @@ enum PROTOCOLS
 	PROTO_BLUEFLY	= 95,	// =>CC2500 & NRF24L01
 	PROTO_BUMBLEB	= 96,	// =>CC2500 & NRF24L01
 	PROTO_SGF22		= 97,	// =>NRF24L01
+	PROTO_KYOSHO3	= 98,	// =>CYRF6936
 
 	
 	PROTO_NANORF	= 126,	// =>NRF24L01
@@ -173,6 +174,7 @@ enum DSM
 	DSMX_2F		= 3,
 	DSM_AUTO	= 4,
 	DSMR		= 5,
+	DSM2_SFC	= 6,
 };
 enum DSM_RX
 {

Multiprotocol/REALACC_nrf24l01.ino

@@ -18,7 +18,7 @@ Multiprotocol is distributed in the hope that it will be useful,
 
 #include "iface_xn297.h"
 
-#define FORCE_REALACC_ORIGINAL_ID
+//#define FORCE_REALACC_ORIGINAL_ID
 
 #define REALACC_INITIAL_WAIT		500
 #define REALACC_PACKET_PERIOD		2268
@@ -30,7 +30,7 @@ Multiprotocol is distributed in the hope that it will be useful,
 
 static void __attribute__((unused)) REALACC_send_packet()
 {
-	packet[ 0]= 0xDC;
+	packet[ 0]= 0xDC;							// DC/D6/DE
 	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
@@ -39,16 +39,17 @@ static void __attribute__((unused)) REALACC_send_packet()
 	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
+	packet[ 9]= 0x88;							// Change at each power up: C5 A2 77 F0 84 58, fixed for the E017 = 88
+	packet[10]= 0x04 							// Flag1: R11=04, E017=0C
 		| 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
+		| GET_FLAG(CH10_SW,0x80);				//   Throttle cut
 	packet[12]= 0x00 							// Flag3
 		| GET_FLAG(CH5_SW, 0x01)				//   Flip
+		| GET_FLAG(CH11_SW,0x02)				//   Rotating
 		| GET_FLAG(CH6_SW, 0x80);				//   Light
 
 	XN297_Hopping(hopping_frequency_no);
@@ -59,31 +60,50 @@ static void __attribute__((unused)) REALACC_send_packet()
 
 static void __attribute__((unused)) REALACC_send_bind_packet()
 {
-	packet[0] = 0xB1;
-	memcpy(&packet[1],rx_tx_addr,4);
-	memcpy(&packet[5],hopping_frequency,5);
+	packet[0] = 0xB1;							// B0/B1
+	memcpy(&packet[1],rx_tx_addr,4);			// Address
+	memcpy(&packet[5],hopping_frequency,5);		// RF frequencies
 
 	XN297_WriteEnhancedPayload(packet, REALACC_BIND_PAYLOAD_SIZE,1);
 }
 
 static void __attribute__((unused)) REALACC_initialize_txid()
 {
+	rx_tx_addr[3] &= 0x3F;
 	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
+		if(RX_num==0)
+		{//TX1
+			rx_tx_addr[0]=0x99;
+			rx_tx_addr[1]=0x06;
+			rx_tx_addr[2]=0x00;
+			rx_tx_addr[3]=0x00;	// 00..3F:OK, 40..:NOK
+			hopping_frequency[0]=0x55;
+			hopping_frequency[1]=0x59;
+			hopping_frequency[2]=0x5A;
+			hopping_frequency[3]=0x5A;
+			hopping_frequency[4]=0x62;
+		}
+		else
+		{//TX2
+			rx_tx_addr[0]=0x4F;
+			rx_tx_addr[1]=0xB9;
+			rx_tx_addr[2]=0xA1;
+			rx_tx_addr[3]=0x17;
+			hopping_frequency[0]=0x45;
+			hopping_frequency[1]=0x38;
+			hopping_frequency[2]=0x3C;
+			hopping_frequency[3]=0x41;
+			hopping_frequency[4]=0x3F;
+		}
 	#endif
+	#if 0
+		debug("ID: %02X %02X %02X %02X, C: ",rx_tx_addr[0],rx_tx_addr[1],rx_tx_addr[2],rx_tx_addr[3]);
+		for(uint8_t i=0; i<REALACC_RF_NUM_CHANNELS; i++)
+			debug(" %02X",hopping_frequency[i]);
+		debugln("");
+	#endif
+
 }
 
 static void __attribute__((unused)) REALACC_RF_init()
@@ -129,18 +149,39 @@ void REALACC_init()
 // 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
+//   TX1
+//   ---
+//     P(10) = B1 99 06 00 00 55 59 5A 5A 62
+//     Bx indicates bind packet, why x=1?
 //     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
+//     55 59 5A 5A 62 = 85, 89, 90, 90, 98 = RF channels to be used (kind of match previous dumps)
+//   TX2
+//   ---
+//     P(10) = B0 4F B9 A1 17 45 38 3C 41 3F
+//     Bx indicates bind packet, why x=0?
+//     4F B9 A1 17 = ID = address of normal packets
+//     45 38 3C 41 3F  = 69, 56, 60, 65, 63 = RF channels to be used
 // 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
+//   TX1
+//   ---
+//     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
+//     Dx = normal packet, why C ?
+//     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
+//   TX2
+//   ---
+//     Address = 4F B9 A1 17
+//     P(13)= D6/DE 80 80 80 80 20 20 20 20 88 0C 00 00
+//     Dx = normal packet, why 6/E ?
+//     80 80 32 80 : AETR 00..80..FF
+//     20 20 20 20 : Trims
+//     88 : not changing unknown
+//     0C : |0x20=headless, |0x01=rate2, |0x02=rate3
+//     00 : |0x01=calib, |0x20=return, |0x80=unknown
+//     00 : |0x80=light, |0x01=flip, |0x02=Rotating

Multiprotocol/SGF22_nrf24l01.ino

@@ -35,6 +35,7 @@ Multiprotocol is distributed in the hope that it will be useful,
 #define SGF22_FLAG_VERTICAL		0xC0
 //packet[9]
 #define SGF22_FLAG_PHOTO		0x40
+#define SGF22_FLAG_TRIMRESET	0x04
 
 static void __attribute__((unused)) SGF22_send_packet()
 {
@@ -66,7 +67,8 @@ static void __attribute__((unused)) SGF22_send_packet()
 			packet[8] |= SGF22_FLAG_6G;					// mode 1 - 6g
 		if(Channel_data[CH5] > CHANNEL_MAX_COMMAND)
 			packet[8] |= SGF22_FLAG_VERTICAL;			// mode 0 - vertical
-		packet[9] = GET_FLAG(CH8_SW, SGF22_FLAG_PHOTO);	// press in throttle trim for photo
+		packet[9] = GET_FLAG(CH8_SW, SGF22_FLAG_PHOTO)	// press in throttle trim for photo
+				| GET_FLAG(CH10_SW, SGF22_FLAG_TRIMRESET);   // Both sticks down inwards
 		packet[10] = 0x42;								// no fine tune
 		packet[11] = 0x10;								// no fine tune
 	}
@@ -91,6 +93,8 @@ static void __attribute__((unused)) SGF22_send_packet()
 
 static void __attribute__((unused)) SGF22_initialize_txid()
 {
+	rx_tx_addr[2] &=0x7F;
+	rx_tx_addr[3] &=0x7F;
 	uint8_t val = (( (uint16_t) rx_tx_addr[2] << 8 ) | rx_tx_addr[3])%5;
 
 	const uint8_t hop[5][4] =
@@ -110,8 +114,8 @@ static void __attribute__((unused)) SGF22_initialize_txid()
 	if(val    ) hopping_frequency[3]++;*/
 	
 	#ifdef FORCE_SGF22_ORIGINAL_ID
-		rx_tx_addr[2] = 0x1F;
-		rx_tx_addr[3] = 0x61;
+		rx_tx_addr[2] = 0x1F;	// TX2:27 TX3:2B
+		rx_tx_addr[3] = 0x61;	// TX2:51 TX3:0C
 		memcpy(hopping_frequency,"\x15\x34\x24\x44", SGF22_RF_NUM_CHANNELS);    //Original dump=>21=0x15,52=0x34,36=0x24,68=0x44
 	#endif
 	#if 0
@@ -163,7 +167,7 @@ void SGF22_init()
 	SGF22_initialize_txid();
 	SGF22_RF_init();
 	bind_counter=SGF22_BIND_COUNT;
-	packet_sent = packet_count = 0x26;
+	packet_sent = packet_count = 0x26;	// TX2:26 TX3:26
 	phase = 0;
 }
 

Multiprotocol/TRAXXAS_cyrf6936.ino

@@ -87,22 +87,15 @@ static void __attribute__((unused)) TRAXXAS_send_data_packet()
 	memset(&packet[1],0x00,TRAXXAS_PACKET_SIZE-1);
 	//Next RF channel ? 0x00 -> keep current, 0x0E change to F=15
 	//packet[1] = hopping_frequency[0] - 1;
-	//Steering
-	uint16_t ch = convert_channel_16b_nolimit(RUDDER,500,1000,false);
-	packet[2]=ch>>8;
-	packet[3]=ch;
-	//Throttle
-	ch = convert_channel_16b_nolimit(THROTTLE,500,1000,false);
-	packet[4]=ch>>8;
-	packet[5]=ch;
-	//AUX3
-	ch = convert_channel_16b_nolimit(AILERON,500,1000,false);
-	packet[6]=ch>>8;
-	packet[7]=ch;
-	//AUX4???
-	ch = convert_channel_16b_nolimit(ELEVATOR,500,1000,false);
-	packet[12]=ch>>8;
-	packet[13]=ch;
+	
+	//6 channels
+	uint16_t ch;
+	for(uint8_t i=0; i<6; i++)
+	{
+		ch = convert_channel_16b_nolimit(i,500,1000,false);
+		packet[2+i*2]=ch>>8;
+		packet[3+i*2]=ch;
+	}
 
 	CYRF_SetPower(0x08);
 	CYRF_WriteDataPacketLen(packet, TRAXXAS_PACKET_SIZE);
@@ -241,7 +234,7 @@ void TRAXXAS_init()
 	//Read CYRF ID
 	CYRF_GetMfgData(cyrfmfg_id);
 	//cyrfmfg_id[0]+=RX_num;				// Not needed since the TX and RX have to match
-	CYRF_FindBestChannels(hopping_frequency,1,1,0x02,0x21);
+	CYRF_FindBestChannels(hopping_frequency,1,1,0x02,0x21, FIND_CHANNEL_ANY);
 	#ifdef TRAXXAS_FORCE_ID					// data taken from TX dump
 		cyrfmfg_id[0]=0x65;					// CYRF MFG ID
 		cyrfmfg_id[1]=0xE2;

Multiprotocol/Validate.h

@@ -266,6 +266,7 @@
 	#undef	E01X_CYRF6936_INO
 	#undef	E129_CYRF6936_INO
 	#undef	J6PRO_CYRF6936_INO
+	#undef	KYOSHO3_CYRF6936_INO
 	#undef	LOSI_CYRF6936_INO
 	#undef	MLINK_CYRF6936_INO
 	#undef	TRAXXAS_CYRF6936_INO
@@ -377,6 +378,7 @@
 	#undef	TRAXXAS_CYRF6936_INO
 	#undef	EAZYRC_NRF24L01_INO
 	#undef	KYOSHO2_NRF24L01_INO
+	#undef	KYOSHO3_CYRF6936_INO
 	#undef	MOULDKG_NRF24L01_INO
 	#undef	SHENQI_NRF24L01_INO
 #endif
@@ -432,7 +434,6 @@
 	#undef	OMP_CCNRF_INO
 	#undef	Q303_CCNRF_INO
 	#undef	Q90C_CCNRF_INO
-	#undef	SLT_CCNRF_INO
 	#undef	V911S_CCNRF_INO
 #endif
 

Multiprotocol/WK2x01_cyrf6936.ino

@@ -487,7 +487,7 @@ void WK_init()
 	CYRF_SetTxRxMode(TX_EN);
 
 	hopping_frequency_no=0;
-	CYRF_FindBestChannels(hopping_frequency, 3, 4, 4, 80);
+	CYRF_FindBestChannels(hopping_frequency, 3, 4, 4, 80, FIND_CHANNEL_ANY);
 	CYRF_ConfigRFChannel(hopping_frequency[0]);
 
 	packet_count = 0;

Multiprotocol/XN297Dump_nrf24l01.ino

@@ -37,6 +37,7 @@ boolean enhanced;
 boolean ack;
 uint8_t pid;
 uint8_t bitrate;
+uint8_t old_option;
 
 static void __attribute__((unused)) XN297Dump_RF_init()
 {
@@ -609,12 +610,11 @@ static uint16_t XN297Dump_callback()
 		{
 			if(phase==0)
 			{
-				address_length=3;
-				memcpy(rx_tx_addr, (uint8_t *)"\xBD\x54\x78", address_length); //"\x62\xE6\xBD\x54\x78"
-
-				bitrate=XN297DUMP_1M;
-				packet_length=7;
-				hopping_frequency_no=40; //bind ?, normal 40
+				address_length=4;
+				memcpy(rx_tx_addr, (uint8_t *)"\xF4\x71\x8D\x01", address_length);	// bind \x7E\xB8\x63\xA9
+				bitrate=XN297DUMP_250K;
+				packet_length=16;
+				hopping_frequency_no=0x50; //bind 0x50, normal ??
 				
 				NRF24L01_Initialize();
 				NRF24L01_SetTxRxMode(TXRX_OFF);
@@ -623,8 +623,9 @@ static uint16_t XN297Dump_callback()
 				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, option);	//hopping_frequency_no);
+				old_option = option;
 				
-				debug("NRF dump, len=%d, rf=%d, address length=%d, bitrate=",packet_length,hopping_frequency_no,address_length);
+				debug("NRF dump, len=%d, rf=%d, address length=%d, bitrate=",packet_length,option,address_length);	//hopping_frequency_no,address_length);
 				switch(bitrate)
 				{
 					case XN297DUMP_250K:
@@ -656,7 +657,7 @@ static uint16_t XN297Dump_callback()
 						memcpy(buffer,packet,packet_length);
 						//if(memcmp(&packet_in[0],&packet[0],packet_length))
 						{
-							debug("P:");
+							debug("C: %02X P:", option);
 							for(uint8_t i=0;i<packet_length;i++)
 								debug(" %02X",packet[i]);
 							debugln("");
@@ -718,7 +719,11 @@ static uint16_t XN297Dump_callback()
 					NRF24L01_FlushRx();
 					NRF24L01_WriteReg(NRF24L01_00_CONFIG, _BV(NRF24L01_00_PWR_UP) | _BV(NRF24L01_00_PRIM_RX)); //  _BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) |
 				}
-				NRF24L01_WriteReg(NRF24L01_05_RF_CH, option);	//hopping_frequency_no);
+				if(old_option != option)
+				{
+					NRF24L01_WriteReg(NRF24L01_05_RF_CH, option);	//hopping_frequency_no);
+					old_option = option;
+				}
 			}
 		}
 		else if(sub_protocol == XN297DUMP_CC2500)

Multiprotocol/_Config.h

@@ -165,9 +165,14 @@
 /*** PROTOCOLS TO INCLUDE ***/
 /****************************/
 //In this section select the protocols you want to be accessible when using the module.
-//All the protocols will not fit in the Atmega328p module so you need to pick and choose.
+//All the protocols will not fit in the STM32 or Atmega328p modules so you need to pick and choose.
 //Comment the protocols you are not using with "//" to save Flash space.
 
+//Already defined protocols selection
+//#define MULTI_AIR			//Only Air protocols will be available, all the others are disabled
+//#define MULTI_SURFACE		//Only Surface protocols will be available, all the others are disabled
+//#define MULTI_EU			//Only LBT/EU protocols will be available, all the others are disabled
+
 //Protocol for module configuration
 #define MULTI_CONFIG_INO
 
@@ -191,6 +196,7 @@
 #define	E01X_CYRF6936_INO
 #define	E129_CYRF6936_INO
 #define	J6PRO_CYRF6936_INO
+#define	KYOSHO3_CYRF6936_INO
 #define	LOSI_CYRF6936_INO		//Need DSM to be enabled
 #define	MLINK_CYRF6936_INO
 #define	SCORPIO_CYRF6936_INO
@@ -606,6 +612,7 @@ const PPM_Parameters PPM_prot[14*NBR_BANKS]=	{
 		DSMX_1F
 		DSMX_2F
 		DSMR
+		DSM2_SFC
 	PROTO_DSM_RX
 		DSM_RX
 		DSM_CLONE
@@ -738,6 +745,8 @@ const PPM_Parameters PPM_prot[14*NBR_BANKS]=	{
 		KYOSHO_HYPE
 	PROTO_KYOSHO2
 		NONE
+	PROTO_KYOSHO3
+		NONE
 	PROTO_LOLI
 		NONE
 	PROTO_LOSI

Multiprotocol/iface_cyrf6936.h

@@ -71,7 +71,11 @@ enum CYRF_PWR {
     CYRF_PWR_DEFAULT,
 };
 
-
+enum FIND_CHANNEL {
+	FIND_CHANNEL_ANY  = 0,
+	FIND_CHANNEL_EVEN = 1,
+	FIND_CHANNEL_ODD  = 2,
+};
 
 /* SPI CYRF6936 */
 /*

Protocols_Details.md

@@ -75,7 +75,7 @@ CFlie|38|CFlie||||||||NRF24L01|
 [CX10](Protocols_Details.md#CX10---12)|12|GREEN|BLUE|DM007|-|J3015_1|J3015_2|MK33041||NRF24L01|XN297
 [Devo](Protocols_Details.md#DEVO---7)|7|Devo|8CH|10CH|12CH|6CH|7CH|||CYRF6936|
 [DM002](Protocols_Details.md#DM002---33)|33|||||||||NRF24L01|XN297
-[DSM](Protocols_Details.md#DSM---6)|6|DSM2_1F|DSM2_2F|DSMX_1F|DSMX_2F|AUTO|DSMR_1F|||CYRF6936|
+[DSM](Protocols_Details.md#DSM---6)|6|DSM2_1F|DSM2_2F|DSMX_1F|DSMX_2F|AUTO|DSMR_1F|DSM2SFC||CYRF6936|
 [DSM_RX](Protocols_Details.md#DSM_RX---70)|70|Multi|CPPM|||||||CYRF6936|
 [E010R5](Protocols_Details.md#E010R5---81)|81|||||||||CYRF6936|RF2500
 [E016H](Protocols_Details.md#E016H---85)|85|||||||||NRF24L01|XN297
@@ -116,6 +116,7 @@ CFlie|38|CFlie||||||||NRF24L01|
 [KN](Protocols_Details.md#KN---9)|9|WLTOYS|FEILUN|||||||NRF24L01|
 [Kyosho](Protocols_Details.md#Kyosho---73)|73|FHSS|Hype|||||||A7105|
 [Kyosho2](Protocols_Details.md#Kyosho2---93)|93|KT-17||||||||NRF24L01|
+[Kyosho3](Protocols_Details.md#Kyosho3---98)|98|ASF||||||||CYRF6936|
 [LOLI](Protocols_Details.md#LOLI---82)|82|||||||||NRF24L01|
 [Losi](Protocols_Details.md#Losi---89)|89|||||||||CYRF6936|
 [MJXq](Protocols_Details.md#MJXQ---18)|18|WLH08|X600|X800|H26D|E010*|H26WH|PHOENIX*||NRF24L01|XN297
@@ -540,12 +541,23 @@ Surface DSMR receivers
 
 **Only 22 IDs available**, use RX num to cycle through them.
 
-Telemetry enabled, extended limits available.
+Telemetry enabled, extended limits available and no channel mapping. Do not use DSM/AUTO to bind but DSM/R_1F instead.
 
 CH1|CH2|CH3|CH4|CH5|CH6|CH7
 ---|---|---|---|---|---|---
 STR|THR|AUX1|AUX2|AUX3|AUX4|AUX5
 
+### Sub_protocol DSM2SFC - *6*
+Surface DSM2 receivers, tested with a SR3100
+
+Extended limits available and no channel mapping. Do not use DSM/AUTO to bind but DSM/2SFC instead.
+
+Servo refresh rate 22/11ms is repurposed to the frame rates 16.5ms(22) and 11ms(11).
+
+CH1|CH2|CH3
+---|---|---
+STR|THR|AUX1
+
 ## DSM_RX - *70*
 The DSM receiver protocol enables master/slave trainning, separate access from 2 different radios to the same model,...
 
@@ -638,6 +650,17 @@ CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12
 ---|---|---|---|---|---|---|---|---|----|----|----
 A|E|T|R|CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12
 
+## Kyosho3 - *98*
+
+### Sub_protocol ASF - *0*
+Surface protocol ASF. Models: Mini-Z.
+
+Extended limits supported
+
+CH1|CH2|CH3|CH4
+---|---|---|---
+STEERING|THROTTLE|CH3|CH4
+
 ## Losi - *89*
 TX: LSR-3000
 
@@ -670,13 +693,15 @@ CH1|CH2|CH3|CH4
 A|E|T|R
 
 ## Traxxas - *43*
-Transmitter TQ, Receivers: 6519, ECM-2.5
+Transmitter TQ, Receivers: 6519, 2218(X), ECM-2.5
 
 Extended limits supported
 
-CH1|CH2|CH3|CH4
----|---|---|---
-AUX3|AUX4|THROTTLE|STEERING
+CH1|CH2|CH3|CH4|CH5|CH6
+---|---|---|---|---|---
+CH1|CH2|CH3|CH4|CH5|CH6
+
+Warning from v1.3.4.7 channels order have changed
 
 ## WFLY - *40*
 Receivers: WFR04S, WFR07S, WFR09S
@@ -1704,7 +1729,7 @@ Only 8 TX IDs available
 Model: FX620 SU35
 
 ### Sub_protocol 9630 - *2*
-Model: FX9630, FX9603 and QIDI-550
+Model: FX9630, FX9603, QIDI-550 and QIDI-560
 
 CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9
 ---|---|---|---|---|---|---|---|---
@@ -1953,9 +1978,9 @@ Model: Realacc R11, Eachine E017
 
 Autobind protocol
 
-CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10
----|---|---|---|---|---|---|---|---|----
-A|E|T|R|FLIP|LIGHT|CALIB|HLESS|RTH|UNK
+CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10|CH11
+---|---|---|---|---|---|---|---|---|----|----
+A|E|T|R|FLIP|LIGHT|CALIB|HLESS|RTH|THR_CUT|ROTATE
 
 ## Redpine - *50*
 [Link to the forum](https://www.rcgroups.com/forums/showthread.php?3236043-Redpine-Lowest-latency-RC-protocol)
@@ -1968,9 +1993,9 @@ Autobind protocol
 
 Model: SGF22
 
-CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9
----|---|---|---|---|---|---|---|---
-A|E|T|R|MODE|FLIP|LIGHT|PHOTO|VIDEO
+CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10
+---|---|---|---|---|---|---|---|---|---
+A|E|T|R|MODE|FLIP|LIGHT|PHOTO|VIDEO|TRIMRESET
 
 ## Shenqi - *19*
 Autobind protocol