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DIY-Multiprotocol-TX-Module/Multiprotocol/V911S_ccnrf.ino
Pascal Langer 4a626eaf14 Change XN297 emulation layer 
Loads of protocols have been touched by this change. Some testing has been done but please test on all your models.
The XN297 emulation selects in this order:
 - the CC2500 if it is available and bitrate=250K. Configure the option field automatically for RF tune.
 - the NRF for all bitrates if it is available
 - if NRF is not available and bitrate=1M then an invalid protocol is sent automatically to the radio.
CC2500 @250K can now receive normal and enhanced payloads.
OMP protocol supports telemetry on CC2500 and is also for NRF only modules including telemetry.
Separation of E016H (new protocol) from E01X due to different structure.
MJXQ, MT99XX, Q303 and XK: some sub protocols available on CC2500 only.
2021-03-17 17:05:42 +01:00

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/*
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 V911S
#if defined(V911S_CCNRF_INO)
#include "iface_nrf250k.h"
//#define V911S_ORIGINAL_ID
#define V911S_PACKET_PERIOD 5000
#define V911S_BIND_PACKET_PERIOD 3300
#define V911S_INITIAL_WAIT 500
#define V911S_PACKET_SIZE 16
#define V911S_RF_BIND_CHANNEL 35
#define V911S_NUM_RF_CHANNELS 8
#define V911S_BIND_COUNT 200
// 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
static void __attribute__((unused)) V911S_send_packet()
{
if(IS_BIND_IN_PROGRESS)
{
packet[0] = 0x42;
packet[1] = 0x4E;
packet[2] = 0x44;
for(uint8_t i=0;i<5;i++)
packet[i+3] = rx_tx_addr[i];
for(uint8_t i=0;i<8;i++)
packet[i+8] = hopping_frequency[i];
}
else
{
uint8_t channel=hopping_frequency_no;
if(rf_ch_num&1)
{
if((hopping_frequency_no&1)==0)
channel+=8;
channel>>=1;
}
if(rf_ch_num&2)
channel=7-channel;
XN297_Hopping(channel);
hopping_frequency_no++;
hopping_frequency_no&=7; // 8 RF channels
packet[ 0]=(rf_ch_num<<3)|channel;
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;
packet[ 8] = ch>>8;
ch=convert_channel_16b_limit(AILERON ,0x7FF,0);
packet[ 8]|= ch<<3;
packet[ 9] = ch>>5;
ch=convert_channel_16b_limit(ELEVATOR,0,0x7FF);
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(sub_protocol==V911S_STD)
XN297_WritePayload(packet, V911S_PACKET_SIZE);
else
XN297_WriteEnhancedPayload(packet, V911S_PACKET_SIZE, IS_BIND_IN_PROGRESS?0:1);
XN297_SetPower(); // Set tx_power
XN297_SetFreqOffset(); // Set frequency offset
}
static void __attribute__((unused)) V911S_RF_init()
{
XN297_Configure(XN297_CRCEN, XN297_SCRAMBLED, XN297_250K);
if(sub_protocol==V911S_STD)
XN297_SetTXAddr((uint8_t *)"KNBND",5); // V911S Bind address
else
XN297_SetTXAddr((uint8_t *)"XPBND",5); // E119 Bind address
XN297_HoppingCalib(V911S_NUM_RF_CHANNELS); // Calibrate all channels
XN297_RFChannel(V911S_RF_BIND_CHANNEL); // Set bind channel
}
static void __attribute__((unused)) V911S_initialize_txid()
{
//channels
uint8_t offset=rx_tx_addr[3]%5; // 0-4
for(uint8_t i=0;i<V911S_NUM_RF_CHANNELS;i++)
hopping_frequency[i]=0x10+i*5+offset;
if(!offset) hopping_frequency[0]++;
// channels order
rf_ch_num=random(0xfefefefe)&0x03; // 0-3
}
uint16_t V911S_callback()
{
#ifdef MULTI_SYNC
telemetry_set_input_sync(V911S_PACKET_PERIOD);
#endif
if(bind_counter)
{
bind_counter--;
if (bind_counter == 0)
{
BIND_DONE;
XN297_SetTXAddr(rx_tx_addr, 5);
packet_period=V911S_PACKET_PERIOD;
}
else if(bind_counter==100) // same as original TX...
packet_period=V911S_BIND_PACKET_PERIOD*3;
}
V911S_send_packet();
return packet_period;
}
void V911S_init(void)
{
V911S_initialize_txid();
#ifdef V911S_ORIGINAL_ID
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_RF_init();
if(IS_BIND_IN_PROGRESS)
{
bind_counter = V911S_BIND_COUNT;
packet_period= V911S_BIND_PACKET_PERIOD;
}
else
{
XN297_SetTXAddr(rx_tx_addr, 5);
packet_period= V911S_PACKET_PERIOD;
}
hopping_frequency_no=0;
}
#endif
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