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Multiprotocol.h
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Multiprotocol.h
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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/>.
*/
//******************
// Version
//******************
#define VERSION_MAJOR 1
#define VERSION_MINOR 3
#define VERSION_REVISION 2
#define VERSION_PATCH_LEVEL 2
//******************
// Protocols
//******************
enum PROTOCOLS
{
MODE_SERIAL = 0, // Serial commands
PROTO_FLYSKY = 1, // =>A7105
PROTO_HUBSAN = 2, // =>A7105
PROTO_FRSKYD = 3, // =>CC2500
PROTO_HISKY = 4, // =>NRF24L01
PROTO_V2X2 = 5, // =>NRF24L01
PROTO_DSM = 6, // =>CYRF6936
PROTO_DEVO = 7, // =>CYRF6936
PROTO_YD717 = 8, // =>NRF24L01
PROTO_KN = 9, // =>NRF24L01
PROTO_SYMAX = 10, // =>NRF24L01
PROTO_SLT = 11, // =>NRF24L01
PROTO_CX10 = 12, // =>NRF24L01
PROTO_CG023 = 13, // =>NRF24L01
PROTO_BAYANG = 14, // =>NRF24L01
PROTO_FRSKYX = 15, // =>CC2500
PROTO_ESKY = 16, // =>NRF24L01
PROTO_MT99XX = 17, // =>NRF24L01
PROTO_MJXQ = 18, // =>NRF24L01
PROTO_SHENQI = 19, // =>NRF24L01
PROTO_FY326 = 20, // =>NRF24L01
PROTO_FUTABA = 21, // =>CC2500
PROTO_J6PRO = 22, // =>CYRF6936
PROTO_FQ777 = 23, // =>NRF24L01
PROTO_ASSAN = 24, // =>NRF24L01
PROTO_FRSKYV = 25, // =>CC2500
PROTO_HONTAI = 26, // =>NRF24L01
PROTO_OPENLRS = 27, // =>OpenLRS hardware
PROTO_AFHDS2A = 28, // =>A7105
PROTO_Q2X2 = 29, // =>NRF24L01, extension of CX-10 protocol
PROTO_WK2x01 = 30, // =>CYRF6936
PROTO_Q303 = 31, // =>NRF24L01
PROTO_GW008 = 32, // =>NRF24L01
PROTO_DM002 = 33, // =>NRF24L01
PROTO_CABELL = 34, // =>NRF24L01
PROTO_ESKY150 = 35, // =>NRF24L01
PROTO_H8_3D = 36, // =>NRF24L01
PROTO_CORONA = 37, // =>CC2500
PROTO_CFLIE = 38, // =>NRF24L01
PROTO_HITEC = 39, // =>CC2500
PROTO_WFLY = 40, // =>CYRF6936
PROTO_BUGS = 41, // =>A7105
PROTO_BUGSMINI = 42, // =>NRF24L01
PROTO_TRAXXAS = 43, // =>CYRF6936
PROTO_NCC1701 = 44, // =>NRF24L01
PROTO_E01X = 45, // =>NRF24L01
PROTO_V911S = 46, // =>NRF24L01
PROTO_GD00X = 47, // =>NRF24L01
PROTO_V761 = 48, // =>NRF24L01
PROTO_KF606 = 49, // =>NRF24L01
PROTO_REDPINE = 50, // =>CC2500
PROTO_POTENSIC = 51, // =>NRF24L01
PROTO_ZSX = 52, // =>NRF24L01
PROTO_HEIGHT = 53, // =>A7105
PROTO_SCANNER = 54, // =>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_MLINK = 78, // =>CYRF6936
PROTO_WFLY2 = 79, // =>A7105
PROTO_E016HV2 = 80, // =>CC2500 & NRF24L01
PROTO_E010R5 = 81, // =>CYRF6936
PROTO_LOLI = 82, // =>NRF24L01
PROTO_NANORF = 126, // =>NRF24L01
PROTO_TEST = 127, // =>CC2500
};
enum Flysky
{
Flysky = 0,
V9X9 = 1,
V6X6 = 2,
V912 = 3,
CX20 = 4,
};
enum Height
{
FZ410 = 0,
};
enum Hubsan
{
H107 = 0,
H301 = 1,
H501 = 2,
};
enum AFHDS2A
{
PWM_IBUS = 0,
PPM_IBUS = 1,
PWM_SBUS = 2,
PPM_SBUS = 3,
PWM_IB16 = 4,
PPM_IB16 = 5,
};
enum Hisky
{
Hisky = 0,
HK310 = 1,
};
enum DSM
{
DSM2_22 = 0,
DSM2_11 = 1,
DSMX_22 = 2,
DSMX_11 = 3,
DSM_AUTO = 4,
};
enum YD717
{
YD717 = 0,
SKYWLKR = 1,
SYMAX4 = 2,
XINXUN = 3,
NIHUI = 4,
};
enum KN
{
WLTOYS = 0,
FEILUN = 1,
};
enum SYMAX
{
SYMAX = 0,
SYMAX5C = 1,
};
enum SLT
{
SLT_V1 = 0,
SLT_V2 = 1,
Q100 = 2,
Q200 = 3,
MR100 = 4,
};
enum CX10
{
CX10_GREEN = 0,
CX10_BLUE = 1, // also compatible with CX10-A, CX12
DM007 = 2,
JC3015_1 = 4,
JC3015_2 = 5,
MK33041 = 6,
};
enum Q2X2
{
Q222 = 0,
Q242 = 1,
Q282 = 2,
F_Q222 = 8,
F_Q242 = 9,
F_Q282 = 10,
};
enum CG023
{
CG023 = 0,
YD829 = 1,
};
enum BAYANG
{
BAYANG = 0,
H8S3D = 1,
X16_AH = 2,
IRDRONE = 3,
DHD_D4 = 4,
QX100 = 5,
};
enum MT99XX
{
MT99 = 0,
H7 = 1,
YZ = 2,
LS = 3,
FY805 = 4,
};
enum MJXQ
{
WLH08 = 0,
X600 = 1,
X800 = 2,
H26D = 3,
E010 = 4,
H26WH = 5,
PHOENIX = 6,
};
enum FRSKYD
{
FRSKYD = 0,
DCLONE = 1,
};
enum FRSKYX
{
CH_16 = 0,
CH_8 = 1,
EU_16 = 2,
EU_8 = 3,
XCLONE_16 = 4,
XCLONE_8 = 5,
};
enum HONTAI
{
HONTAI = 0,
JJRCX1 = 1,
X5C1 = 2,
FQ777_951 =3,
};
enum V2X2
{
V2X2 = 0,
JXD506 = 1,
V2X2_MR101 = 2,
};
enum FY326
{
FY326 = 0,
FY319 = 1,
};
enum WK2x01
{
WK2801 = 0,
WK2401 = 1,
W6_5_1 = 2,
W6_6_1 = 3,
W6_HEL = 4,
W6_HEL_I= 5,
};
enum Q303
{
Q303 = 0,
CX35 = 1,
CX10D = 2,
CX10WD = 3,
};
enum CABELL
{
CABELL_V3 = 0,
CABELL_V3_TELEMETRY = 1,
CABELL_SET_FAIL_SAFE= 6,
CABELL_UNBIND = 7,
};
enum H8_3D
{
H8_3D = 0,
H20H = 1,
H20MINI = 2,
H30MINI = 3,
};
enum CORONA
{
COR_V1 = 0,
COR_V2 = 1,
FD_V3 = 2,
};
enum HITEC
{
OPT_FW = 0,
OPT_HUB = 1,
MINIMA = 2,
};
enum E01X
{
E012 = 0,
E015 = 1,
E016H = 2,
};
enum GD00X
{
GD_V1 = 0,
GD_V2 = 1,
};
enum BUGSMINI
{
BUGSMINI= 0,
BUGS3H = 1,
};
enum REDPINE
{
RED_FAST= 0,
RED_SLOW= 1,
};
enum TRAXXAS
{
RX6519 = 0,
};
enum ESKY150
{
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,
};
enum RLINK
{
RLINK_SURFACE = 0,
RLINK_AIR = 1,
RLINK_DUMBORC = 2,
};
#define NONE 0
#define P_HIGH 1
#define P_LOW 0
#define AUTOBIND 1
#define NO_AUTOBIND 0
struct PPM_Parameters
{
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,
MULTI_TELEMETRY_SPORT = 2,
MULTI_TELEMETRY_HUB = 3,
MULTI_TELEMETRY_DSM = 4,
MULTI_TELEMETRY_DSMBIND = 5,
MULTI_TELEMETRY_AFHDS2A = 6,
MULTI_TELEMETRY_REUSE_1 = 7,
MULTI_TELEMETRY_SYNC = 8,
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 || protocol==PROTO_WFLY2 || protocol==PROTO_LOLI)
#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 ***
//***************
#define RX_FLAG_on protocol_flags |= _BV(0)
#define RX_FLAG_off protocol_flags &= ~_BV(0)
#define IS_RX_FLAG_on ( ( protocol_flags & _BV(0) ) !=0 )
//
#define CHANGE_PROTOCOL_FLAG_on protocol_flags |= _BV(1)
#define CHANGE_PROTOCOL_FLAG_off protocol_flags &= ~_BV(1)
#define IS_CHANGE_PROTOCOL_FLAG_on ( ( protocol_flags & _BV(1) ) !=0 )
//
#define POWER_FLAG_on protocol_flags |= _BV(2)
#define POWER_FLAG_off protocol_flags &= ~_BV(2)
#define IS_POWER_FLAG_on ( ( protocol_flags & _BV(2) ) !=0 )
//
#define RANGE_FLAG_on protocol_flags |= _BV(3)
#define RANGE_FLAG_off protocol_flags &= ~_BV(3)
#define IS_RANGE_FLAG_on ( ( protocol_flags & _BV(3) ) !=0 )
//
#define AUTOBIND_FLAG_on protocol_flags |= _BV(4)
#define AUTOBIND_FLAG_off protocol_flags &= ~_BV(4)
#define IS_AUTOBIND_FLAG_on ( ( protocol_flags & _BV(4) ) !=0 )
//
#define BIND_BUTTON_FLAG_on protocol_flags |= _BV(5)
#define BIND_BUTTON_FLAG_off protocol_flags &= ~_BV(5)
#define IS_BIND_BUTTON_FLAG_on ( ( protocol_flags & _BV(5) ) !=0 )
//PPM RX OK
#define PPM_FLAG_off protocol_flags &= ~_BV(6)
#define PPM_FLAG_on protocol_flags |= _BV(6)
#define IS_PPM_FLAG_on ( ( protocol_flags & _BV(6) ) !=0 )
//Bind flag
#define BIND_IN_PROGRESS protocol_flags &= ~_BV(7)
#define BIND_DONE protocol_flags |= _BV(7)
#define IS_BIND_DONE ( ( protocol_flags & _BV(7) ) !=0 )
#define IS_BIND_IN_PROGRESS ( ( protocol_flags & _BV(7) ) ==0 )
//
#define FAILSAFE_VALUES_off protocol_flags2 &= ~_BV(0)
#define FAILSAFE_VALUES_on protocol_flags2 |= _BV(0)
#define IS_FAILSAFE_VALUES_on ( ( protocol_flags2 & _BV(0) ) !=0 )
//
#define RX_DONOTUPDATE_off protocol_flags2 &= ~_BV(1)
#define RX_DONOTUPDATE_on protocol_flags2 |= _BV(1)
#define IS_RX_DONOTUPDATE_on ( ( protocol_flags2 & _BV(1) ) !=0 )
//
#define RX_MISSED_BUFF_off protocol_flags2 &= ~_BV(2)
#define RX_MISSED_BUFF_on protocol_flags2 |= _BV(2)
#define IS_RX_MISSED_BUFF_on ( ( protocol_flags2 & _BV(2) ) !=0 )
//TX Pause
#define TX_MAIN_PAUSE_off protocol_flags2 &= ~_BV(3)
#define TX_MAIN_PAUSE_on protocol_flags2 |= _BV(3)
#define IS_TX_MAIN_PAUSE_on ( ( protocol_flags2 & _BV(3) ) !=0 )
#define TX_RX_PAUSE_off protocol_flags2 &= ~_BV(4)
#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)
#define IS_INPUT_SIGNAL_on ( ( protocol_flags2 & _BV(5) ) !=0 )
#define IS_INPUT_SIGNAL_off ( ( protocol_flags2 & _BV(5) ) ==0 )
//Bind from channel
#define BIND_CH_PREV_off protocol_flags2 &= ~_BV(6)
#define BIND_CH_PREV_on protocol_flags2 |= _BV(6)
#define IS_BIND_CH_PREV_on ( ( protocol_flags2 & _BV(6) ) !=0 )
#define IS_BIND_CH_PREV_off ( ( protocol_flags2 & _BV(6) ) ==0 )
//Wait for bind
#define WAIT_BIND_off protocol_flags2 &= ~_BV(7)
#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
#define FAILSAFE_CHANNEL_NOPULSES 0
//********************
//** Debug messages **
//********************
#if defined(STM32_BOARD) && (defined (DEBUG_SERIAL) || defined (ARDUINO_MULTI_DEBUG))
uint16_t debug_time=0;
#define debug(msg, ...) {char debug_buf[64]; sprintf(debug_buf, msg, ##__VA_ARGS__); Serial.write(debug_buf);}
#define debugln(msg, ...) {char debug_buf[64]; sprintf(debug_buf, msg "\r\n", ##__VA_ARGS__); Serial.write(debug_buf);}
#define debug_time(msg) { uint16_t debug_time_TCNT1=TCNT1; debug_time=debug_time_TCNT1-debug_time; debug(msg "%u", debug_time>>1); debug_time=debug_time_TCNT1; }
#define debugln_time(msg) { uint16_t debug_time_TCNT1=TCNT1; debug_time=debug_time_TCNT1-debug_time; debug(msg "%u\r\n", debug_time>>1); debug_time=debug_time_TCNT1; }
#else
#define debug(...) { }
#define debugln(...) { }
#define debugln_time(...) { }
#undef DEBUG_SERIAL
#endif
//********************
//*** Blink timing ***
//********************
#define BLINK_BIND_TIME 100
#define BLINK_SERIAL_TIME 500
#define BLINK_PPM_TIME 1000
#define BLINK_BAD_PROTO_TIME_HIGH 50
#define BLINK_BAD_PROTO_TIME_LOW 1000
#define BLINK_WAIT_BIND_TIME_HIGH 1000
#define BLINK_WAIT_BIND_TIME_LOW 100
#define BLINK_BANK_TIME_HIGH 50
#define BLINK_BANK_TIME_LOW 500
#define BLINK_BANK_REPEAT 1500
//*******************
//*** AUX flags ***
//*******************
#define GET_FLAG(ch, mask) ( ch ? mask : 0)
#define CH5_SW (Channel_AUX & _BV(0))
#define CH6_SW (Channel_AUX & _BV(1))
#define CH7_SW (Channel_AUX & _BV(2))
#define CH8_SW (Channel_AUX & _BV(3))
#define CH9_SW (Channel_AUX & _BV(4))
#define CH10_SW (Channel_AUX & _BV(5))
#define CH11_SW (Channel_AUX & _BV(6))
#define CH12_SW (Channel_AUX & _BV(7))
#define CH13_SW (Channel_data[CH13]>CHANNEL_SWITCH)
#define CH14_SW (Channel_data[CH14]>CHANNEL_SWITCH)
#define CH15_SW (Channel_data[CH15]>CHANNEL_SWITCH)
#define CH16_SW (Channel_data[CH16]>CHANNEL_SWITCH)
//************************
//*** Power settings ***
//************************
enum {
TXPOWER_100uW,
TXPOWER_300uW,
TXPOWER_1mW,
TXPOWER_3mW,
TXPOWER_10mW,
TXPOWER_30mW,
TXPOWER_100mW,
TXPOWER_150mW
};
// A7105 power
// The numbers do not take into account any outside amplifier
enum A7105_POWER
{
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
#define A7105_RANGE_POWER A7105_POWER_0
#define A7105_BIND_POWER A7105_POWER_0
// NRF Power
// The numbers do not take into account any outside amplifier
enum NRF_POWER
{
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
#define NRF_RANGE_POWER NRF_POWER_0
#define NRF_BIND_POWER NRF_POWER_0
// CC2500 power output from the chip itself
// The numbers do not take into account any outside amplifier
enum CC2500_POWER
{
CC2500_POWER_0 = 0x00, // -55dbm or less
CC2500_POWER_1 = 0x50, // -30dbm
CC2500_POWER_2 = 0x44, // -28dbm
CC2500_POWER_3 = 0xC0, // -26dbm
CC2500_POWER_4 = 0x84, // -24dbm
CC2500_POWER_5 = 0x81, // -22dbm
CC2500_POWER_6 = 0x46, // -20dbm
CC2500_POWER_7 = 0x93, // -18dbm
CC2500_POWER_8 = 0x55, // -16dbm
CC2500_POWER_9 = 0x8D, // -14dbm
CC2500_POWER_10 = 0xC6, // -12dbm
CC2500_POWER_11 = 0x97, // -10dbm
CC2500_POWER_12 = 0x6E, // -8dbm
CC2500_POWER_13 = 0x7F, // -6dbm
CC2500_POWER_14 = 0xA9, // -4dbm
CC2500_POWER_15 = 0xBB, // -2dbm
CC2500_POWER_16 = 0xFE, // 0dbm
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
CYRF_POWER_1 = 0x01, // -30dbm
CYRF_POWER_2 = 0x02, // -24dbm
CYRF_POWER_3 = 0x03, // -18dbm
CYRF_POWER_4 = 0x04, // -13dbm
CYRF_POWER_5 = 0x05, // -5dbm
CYRF_POWER_6 = 0x06, // 0dbm
CYRF_POWER_7 = 0x07 // +4dbm
};
#define CYRF_HIGH_POWER CYRF_POWER_7
#define CYRF_LOW_POWER CYRF_POWER_3
#define CYRF_RANGE_POWER CYRF_POWER_1 // 1/30 of the full power distance
#define CYRF_BIND_POWER CYRF_POWER_0
enum TXRX_State {
TXRX_OFF,
TX_EN,
RX_EN
};
// Packet ack status values
enum {
PKT_PENDING = 0,
PKT_ACKED,
PKT_TIMEOUT
};
// baudrate defines for serial
#define SPEED_100K 0
#define SPEED_9600 1
#define SPEED_57600 2
#define SPEED_125K 3
/** EEPROM Layout */
#define EEPROM_ID_OFFSET 10 // Module ID (4 bytes)
#define EEPROM_BANK_OFFSET 15 // Current bank number (1 byte)
#define EEPROM_ID_VALID_OFFSET 20 // 1 byte flag that ID is valid
#define MODELMODE_EEPROM_OFFSET 30 // Autobind mode, 1 byte per model, end is 30+16=46
#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 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 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 | 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
MLINK 78
WFLY2 79
E016HV2 80
E010R5 81
LOLI 82
BindBit=> 0x80 1=Bind/0=No
AutoBindBit=> 0x40 1=Yes /0=No
RangeCheck=> 0x20 1=Yes /0=No
Stream[2] = RxNum | Power | Type;
RxNum value is 0..15 (bits 0..3)
Type is 0..7 <<4 (bit 4..6)
sub_protocol==Flysky
Flysky 0
V9x9 1
V6x6 2
V912 3
CX20 4
sub_protocol==Hubsan
H107 0
H301 1
H501 2
sub_protocol==Hisky
Hisky 0
HK310 1
sub_protocol==DSM
DSM2_22 0
DSM2_11 1
DSMX_22 2
DSMX_11 3
DSM_AUTO 4
sub_protocol==YD717
YD717 0
SKYWLKR 1
SYMAX4 2
XINXUN 3
NIHUI 4
sub_protocol==KN
WLTOYS 0
FEILUN 1
sub_protocol==SYMAX
SYMAX 0
SYMAX5C 1
sub_protocol==CX10
CX10_GREEN 0
CX10_BLUE 1 // also compatible with CX10-A, CX12
DM007 2
--- 3
JC3015_1 4
JC3015_2 5
MK33041 6
sub_protocol==Q2X2
Q222 0
Q242 1
Q282 2
sub_protocol==CG023
CG023 0
YD829 1
sub_protocol==BAYANG
BAYANG 0
H8S3D 1
X16_AH 2
IRDRONE 3
DHD_D4 4
sub_protocol==MT99XX
MT99 0
H7 1
YZ 2
LS 3
FY805 4
sub_protocol==MJXQ
WLH08 0
X600 1
X800 2
H26D 3
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
X5C1 2
FQ777_951 3
sub_protocol==AFHDS2A
PWM_IBUS 0
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
sub_protocol==WK2x01
WK2801 0
WK2401 1
W6_5_1 2
W6_6_1 3
W6_HEL 4
W6_HEL_I 5
sub_protocol==Q303
Q303 0
CX35 1
CX10D 2
CX10WD 3
sub_protocol==CABELL
CABELL_V3 0
CABELL_V3_TELEMETRY 1
CABELL_SET_FAIL_SAFE 6
CABELL_UNBIND 7
sub_protocol==H8_3D
H8_3D 0
H20H 1
H20MINI 2
H30MINI 3
sub_protocol==CORONA
COR_V1 0
COR_V2 1
FD_V3 2
sub_protocol==HITEC
OPT_FW 0
OPT_HUB 1
MINIMA 2
sub_protocol==SLT
SLT_V1 0
SLT_V2 1
Q100 2
Q200 3
MR100 4
sub_protocol==E01X
E012 0
E015 1
E016H 2
sub_protocol==GD00X