# MULTI-Module Protocol Details **You'll find below a detailed description of every supported protocols sorted by RF modules.** Legend: - Extended limits supported: -125%..+125% can be used and will be transmitted. Otherwise the default is -100%..+100% only. - Autobind protocol: you do not need to press the bind button at power up to bind, this is done automatically. The AETR mentionned here for all protocols depends on the TX settings compilation option set in _Config.h. *** # A7105 RF Module ## FLYSKY Extended limits supported CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8 ---|---|---|---|---|---|---|--- A|E|T|R|CH5|CH6|CH7|CH8 Note that the RX ouput will be AETR. ### Sub_protocol V9X9 CH5|CH6|CH7|CH8 ---|---|---|--- FLIP|LIGHT|PICTURE|VIDEO ### Sub_protocol V6X6 CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12 ---|---|---|---|---|---|---|--- FLIP|LIGHT|PICTURE|VIDEO|HEADLESS|RTH|XCAL|YCAL ### Sub_protocol V912 CH5|CH6 ---|--- BTMBTN|TOPBTN ## HUBSAN Models: Hubsan H102D, H107/L/C/D and Hubsan H107P/C+/D+ Autobind protocol Telemetry enabled for battery voltage and TX RSSI Option=vTX frequency (H107D) 5645 - 5900 MHz CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9 ---|---|---|---|---|---|---|---|--- A|E|T|R|FLIP|LIGHT|PICTURE|VIDEO|HEADLESS # CC2500 RF Module ## FRSKYV = FrSky 1 way Models: FrSky receivers V8R4, V8R7 and V8FR. Extended limits supported Option=fine frequency tuning. This value is different for each board. To determine the option value, find the two limits where the RX loses connection then set the option value to half way between them. If you have a 4in1 V2 board the value is around 40. CH1|CH2|CH3|CH4 ---|---|---|--- CH1|CH2|CH3|CH4 ## FRSKYD Models: FrSky receivers D4R and D8R. DIY RX-F801 and RX-F802 receivers. Extended limits supported Telemetry enabled for A0, A1, RSSI, TSSI and Hub Option=fine frequency tuning. This value is different for each board. To determine the option value, find the two limits where the RX loses connection then set the option value to half way between them. If you have a 4in1 V2 board the value is around 40. CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8 ---|---|---|---|---|---|---|--- CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8 ## FRSKYX Models: FrSky receivers X4R, X6R and X8R. Extended limits supported Telemetry enabled for A1 (RxBatt), A2, RSSI, TSSI and Hub Option=fine frequency tuning. This value is different for each board. To determine the option value, find the two limits where the RX loses connection then set the option value to half way between them. If you have a 4in1 V2 board the value is around 40. ### Sub_protocol CH_16 CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12|CH13|CH14|CH15|CH16 ---|---|---|---|---|---|---|---|---|----|----|----|----|----|----|---- CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12|CH13|CH14|CH15|CH16 ### Sub_protocol CH_8 CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8 ---|---|---|---|---|---|---|--- CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8 ## SFHSS Models: Futaba RXs and XK models. Option=fine frequency tuning. This value is different for each board. To determine the option value, find the two limits where the RX loses connection then set the option value to half way between them. If you have a 4in1 V2 board the value is around 40. CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8 ---|---|---|---|---|---|---|--- A|E|T|R|CH5|CH6|CH7|CH8 # CYRF6936 RF Module ## DEVO Extended limits supported CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8 ---|---|---|---|---|---|---|--- A|E|T|R|CH5|CH6|CH7|CH8 Note that the RX ouput will be EATR. Bind procedure using serial: - With the TX off, put the binding plug in and power on the RX (RX LED slow blink), then power it down and remove the binding plug. Receiver should now be in autobind mode. - Turn on the TX, set protocol = Devo with option=0, turn off the TX (TX is now in autobind mode). - Turn on RX (RX LED fast blink). - Turn on TX (RX LED solid, TX LED fast blink). - Wait for bind on the TX to complete (TX LED solid). - Make sure to set the RX_Num value for model match. - Change option to 1 to use the global ID. - Do not touch option/RX_Num anymore. Bind procedure using PPM: - With the TX off, put the binding plug in and power on the RX (RX LED slow blink), then power it down and remove the binding plug. Receiver should now be in autobind mode. - Turn on RX (RX LED fast blink). - Turn the dial to the model number running protocol DEVO on the module. - Press the bind button and turn on the TX. TX is now in autobind mode. - Release bind button after 1 second: RX LED solid, TX LED fast blink. - Wait for bind on the TX to complete (TX LED solid). - Press the bind button for 1 second. TX/RX is now in fixed ID mode. - To verify that the TX is in fixed mode: power cycle the TX, the module LED should be solid ON (no blink). - Note: Autobind/fixed ID mode is linked to the dial number. Which means that you can have multiple dial numbers set to the same protocol DEVO with different RX_Num and have different bind modes at the same time. It enables PPM users to get model match under DEVO. ## DSM Extended limits supported Telemetry enabled for TSSI and plugins option=number of channels from 4 to 12. An invalid option value will end up with 6 channels. CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12 ---|---|---|---|---|---|---|---|---|----|----|---- A|E|T|R|CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12 Notes: - model/type/number of channels indicated on the RX can be different from what the RX is in fact wanting to see. So don't hesitate to test different combinations until you have something working. Using Auto is the best way to find these settings. - RX ouput will always be TAER independently of the input AETR, RETA... ### Sub_protocol DSM2_22 DSM2, Resolution 1024, refresh rate 22ms ### Sub_protocol DSM2_11 DSM2, Resolution 2048, refresh rate 11ms ### Sub_protocol DSMX_22 DSMX, Resolution 2048, refresh rate 22ms ### Sub_protocol DSMX_11 DSMX, Resolution 2048, refresh rate 11ms ### Sub_protocol AUTO The "AUTO" feature enables the TX to automatically choose what are the best settings for your DSM RX and update your model protocol settings accordingly. The current radio firmware which are able to use the "AUTO" feature are ersky9x (9XR Pro, 9Xtreme, Taranis, ...) and er9x for M128 (9XR) and M2561. For these firmwares, you must have a telemetry enabled TX and you have to make sure you set the Telemetry "Usr proto" to "DSMx". Also on er9x you will need to be sure to match the polarity of the telemetry serial (normal or inverted by bitbashing), while on ersky9x you can set "Invert COM1" accordinlgy. ## J6Pro CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12 ---|---|---|---|---|---|---|---|---|----|----|---- A|E|T|R|CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12 # NRF24L01 RF Module ## ASSAN Extended limits supported CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10 ---|---|---|---|---|---|---|---|---|--- CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10 The transmitter must be close to the receiver while binding. ## BAYANG Models: EAchine H8(C) mini, BayangToys X6/X7/X9, JJRC JJ850, Floureon H101 ... Autobind protocol CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10 ---|---|---|---|---|---|---|---|---|---- A|E|T|R|FLIP|RTH|PICTURE|VIDEO|HEADLESS|INVERTED ## CG023 Models: EAchine CG023/CG031/3D X4 Autobind protocol CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9 ---|---|---|---|---|---|---|---|--- A|E|T|R|FLIP|LIGHT|PICTURE|VIDEO|HEADLESS ### Sub_protocol YD829 Models: Attop YD-822/YD-829/YD-829C ... CH5|CH6|CH7|CH8|CH9 ---|---|---|---|--- FLIP||PICTURE|VIDEO|HEADLESS ### Sub_protocol H8_3D Models: EAchine H8 mini 3D, JJRC H20/H22 CH5|CH6|CH7|CH8|CH9 ---|---|---|---|--- FLIP|LIGTH|OPT1|OPT2|CAL JJRC H20: OPT1=Headless, OPT2=RTH JJRC H22: OPT1=RTH, OPT2=180/360° flip mode H8 3D: OPT1=RTH then press a direction to enter headless mode (like stock TX), OPT2=switch 180/360° flip mode CAL: calibrate accelerometers ## CX10 Extended limits supported Autobind protocol CH1|CH2|CH3|CH4|CH5|CH6 ---|---|---|---|---|--- A|E|T|R|FLIP|RATE Rate: -100%=rate 1, 0%=rate 2, +100%=rate 3 ### Sub_protocol GREEN Models: Cheerson CX-10 green pcb Same channels assignement as above. ### Sub_protocol BLUE Models: Cheerson CX-10 blue pcb & some newer red pcb, CX-10A, CX-10C, CX11, CX12, Floureon FX10, JJRC DHD D1 CH5|CH6|CH7|CH8 ---|---|---|--- FLIP|RATE|PICTURE|VIDEO Rate: -100%=rate 1, 0%=rate 2, +100%=rate 3 or headless for CX-10A ### Sub_protocol DM007 CH5|CH6|CH7|CH8|CH9 ---|---|---|---|--- FLIP|MODE|PICTURE|VIDEO|HEADLESS ### Sub_protocol Q282 and Q242 CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12 ---|---|---|---|---|---|---|--- FLIP|LED|PICTURE|VIDEO|HEADLESS|RTH|XCAL|YCAL Model: JXD 509 is using Q282 with CH12=Start/Stop motors ### Sub_protocol JC3015_1 CH5|CH6|CH7|CH8 ---|---|---|--- FLIP|MODE|PICTURE|VIDEO ### Sub_protocol JC3015_2 CH5|CH6|CH7|CH8 ---|---|---|--- FLIP|MODE|LED|DFLIP ### Sub_protocol MK33041 CH5|CH6|CH7|CH8|CH9|CH10 ---|---|---|---|---|--- FLIP|MODE|PICTURE|VIDEO|HEADLESS|RTH ## ESKY CH1|CH2|CH3|CH4|CH5|CH6 ---|---|---|---|---|--- A|E|T|R|GYRO|PITCH ## FY326 CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9 ---|---|---|---|---|---|---|---|--- A|E|T|R|FLIP|RTH|HEADLESS|EXPERT|CALIBRATE ## FQ777 Model: FQ777-124 CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8 ---|---|---|---|---|---|---|--- A|E|T|R|FLIP|RTH|HEADLESS|EXPERT ## HISKY CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8 ---|---|---|---|---|---|---|--- A|E|T|R|GEAR|PITCH|GYRO|CH8 GYRO: -100%=6G, +100%=3G ### HK310 Models: RX HK-3000, HK3100 and XY3000 (TX are HK-300, HK-310 and TL-3C) CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8 ---|---|---|---|---|---|---|--- |||T|R|AUX|T_FSAFE|R_FSAFE|AUX_FSAFE ## KN CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10|CH11 ---|---|---|---|---|---|---|---|---|----|---- A|E|T|R|DR|THOLD|IDLEUP|GYRO|Ttrim|Atrim|Etrim Dual Rate: +100%=full range, Throttle Hold: +100%=hold, Idle Up: +100%=3D, GYRO: -100%=6G, +100%=3G ### Sub_protocol WLTOYS ### Sub_protocol FEILUN Same channels assignement as above. ## HONTAI Autobind protocol CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10|CH11 ---|---|---|---|---|---|---|---|---|----|---- A|E|T|R|FLIP|LED|PICTURE|VIDEO|HEADLESS|RTH|CAL ### Sub_protocol HONTAI ### Sub_protocol JJRCX1 CH6| ---| ARM| ### Sub_protocol X5C1 clone ## MJXQ Autobind protocol CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10|CH11|CH12|CH13 ---|---|---|---|---|---|---|---|---|---|---|---|--- A|E|T|R|FLIP|LED|PICTURE|VIDEO|HEADLESS|RTH|AUTOFLIP|PAN|TILT ### Sub_protocol WLH08 ### Sub_protocol X600 Only 3 TX IDs available, change RX_Num value 0..2 to cycle through them ### Sub_protocol X800 Only 3 TX IDs available, change RX_Num value 0..2 to cycle through them ### Sub_protocol H26D ### Sub_protocol E010 ## MT99XX Autobind protocol CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9 ---|---|---|---|---|---|---|---|--- A|E|T|R|FLIP|LED|PICTURE|VIDEO|HEADLESS ### Sub_protocol MT Models: MT99xx ### Sub_protocol H7 Models: Eachine H7, Cheerson CX023 ### Sub_protocol YZ Model: Yi Zhan i6S Only one model can be flown at the same time since the ID is hardcoded. ### Sub_protocol LS Models: LS114, 124, 215 CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9 ---|---|---|---|---|---|---|---|--- A|E|T|R|FLIP|INVERT|PICTURE|VIDEO|HEADLESS ## Shenqi Autobind protocol Model: Shenqiwei 1/20 Mini Motorcycle CH1|CH2|CH3|CH4 ---|---|---|--- | |T|R Throttle +100%=full forward,0%=stop,-100%=full backward. ## SLT Autobind protocol CH1|CH2|CH3|CH4|CH5|CH6 ---|---|---|---|---|--- A|E|T|R|GEAR|PITCH ## Symax Autobind protocol CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9 ---|---|---|---|---|---|---|---|--- A|E|T|R|FLIP||PICTURE|VIDEO|HEADLESS ### Sub_protocol SYMAX Models: Syma X5C-1/X11/X11C/X12 ### Sub_protocol SYMAX5C Model: Syma X5C (original) and X2 ## V2X2 Models: WLToys V202/252/272, JXD 385/388, JJRC H6C, Yizhan Tarantula X6 ... CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9|CH10|CH11 ---|---|---|---|---|---|---|---|---|----|---- A|E|T|R|FLIP|LIGHT|PICTURE|VIDEO|HEADLESS|MAG_CAL_X|MAG_CAL_Y PICTURE: also automatic Missile Launcher and Hoist in one direction VIDEO: also Sprayer, Bubbler, Missile Launcher(1), and Hoist in the other dir ## YD717 Autobind protocol CH1|CH2|CH3|CH4|CH5|CH6|CH7|CH8|CH9 ---|---|---|---|---|---|---|---|--- A|E|T|R|FLIP|LIGHT|PICTURE|VIDEO|HEADLESS ### Sub_protocol YD717 ### Sub_protocol SKYWLKR ### Sub_protocol SYMAX4 ### Sub_protocol XINXUN ### Sub_protocol NIHUI Same channels assignement as above.