Here are detailed descriptions of every supported protocols (sorted by RF modules) as well as the available options for each protocol.
If you want to see a list of models that use these protocols see the Models page.
The Deviation project (on which this project was based) have a useful list of models and protocols here.
Here is the default mapping of protocols to the 16-position protocol selection switch on the module. You can customize these when you compile your own firmware as described in Compiling and Programming.
Note that the protocol must be selected before the unit is turned on.
| Dial | Protocol | Sub_protocol | RX Num | Power | Auto Bind | Option | RF Module |
|---|---|---|---|---|---|---|---|
| 0 | Select serial | ||||||
| 1 | FLYSKY | Flysky | 0 | High | No | 0 | A7105 |
| 2 | HUBSAN | - | 0 | High | No | 0 | A7105 |
| 3 | FRSKYD | - | 0 | High | No | 40 | CC2500 |
| 4 | HISKY | Hisky | 0 | High | No | 0 | NRF24L01 |
| 5 | V2X2 | - | 0 | High | No | 0 | NRF24L01 |
| 6 | DSM | DSM2 | 0 | High | No | 6 | CYRF6936 |
| 7 | DEVO | - | 0 | High | No | 0 | CYRF6936 |
| 8 | YD717 | YD717 | 0 | High | No | 0 | NRF24L01 |
| 9 | KN | WLTOYS | 0 | High | No | 0 | NRF24L01 |
| 10 | SYMAX | SYMAX | 0 | High | No | 0 | NRF24L01 |
| 11 | SLT | - | 0 | High | No | 0 | NRF24L01 |
| 12 | CX10 | BLUE | 0 | High | No | 0 | NRF24L01 |
| 13 | CG023 | CG023 | 0 | High | No | 0 | NRF24L01 |
| 14 | BAYANG | - | 0 | High | No | 0 | NRF24L01 |
| 15 | SYMAX | SYMAX5C | 0 | High | No | 0 | NRF24L01 |
- Extended limits supported - A command range of -125%..+125% will be transmitted. Otherwise the default is -100%..+100% only.
- Channel Order - The channel order assumed in all the documentation is AETR and it is highly recommended that you keep it this way. You can change this in the compilation settings. However, please indicate your channel order in all questions and posts on the forum pages.
- Italic numbers are referring to protocol/sub_protocol numbers that you should use if the radio (serial mode only) is not displaying (yet) the protocol you want to access.
- Autobind protocol:
- The transmitter will automatically initiate a bind sequence on power up. This is for models where the receiver expects to rebind every time it is powered up. In these protocols you do not need to press the bind button at power up to bind, it will be done automatically.
- Enable Bind from channel feature:
- Bind from channel can be globally enabled/disabled in _config.h using ENABLE_BIND_CH.
- Bind from channel can be locally enabled/disabled by setting Autobind to Y/N per model for serial or per dial switch number for ppm.
- Bind channel can be choosen on any channel between 5 and 16 using BIND_CH in _config.h.
- Bind will only happen if all these elements are happening at the same time:
- Autobind = Y
- Throttle = LOW (<-95%)
- Bind channel is going from -100% to +100%
- Additional notes:
- It's recommended to combine Throttle cut with another button to drive the bind channel. This will prevent to launch a bind while flying...
- Bind channel does not have to be assigned to a free channel. Since it only acts when Throttle is Low (and throttle cut active), it could be used on the same channel as Flip for example since you are not going to flip your model when Throttle is low... Same goes for RTH and such other features.
- Using channel 16 for the bind channel seems the most relevant as only one protocol so far is using 16 channels which is FrSkyX. But even on FrSkyX this feature won't have any impact since there is NO valid reason to have Autobind set to Y for such a protocol.
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.
| CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|
| FLIP | LIGHT | PICTURE | VIDEO |
| CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 | CH12 |
|---|---|---|---|---|---|---|---|
| FLIP | LIGHT | PICTURE | VIDEO | HEADLESS | RTH | XCAL | YCAL |
| CH5 | CH6 |
|---|---|
| BTMBTN | TOPBTN |
Model: Cheerson Cx-20
| CH5 | CH6 | CH7 |
|---|
Extended limits supported
Telemetry enabled for battery voltage and RX&TX RSSI using FrSky Hub protocol
Option is used to change the servo refresh rate. A value of 0 gives 50Hz (min), 70 gives 400Hz (max). Specific refresh rate value can be calculated like this option=(refresh_rate-50)/5.
RX_Num is used to give a number a given RX. You must use a different RX_Num per RX. A maximum of 16 AFHDS2A RXs are supported.
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 | CH12 | CH13 | CH14 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| A | E | T | R | CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 | CH12 | CH13 | CH14 |
Note that the RX ouput will be AETR.
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 |
Models: FrSky receivers V8R4, V8R7 and V8FR.
Extended limits supported
Option for this protocol is fine frequency tuning. This value is different for each Module. To determine this value:
- find a value where the RX accepts to bind. A good start is to use one of these values -40, 0 and 40.
- find the values min/max where the RX loses connection. In serial mode you can change the value and see the effect live.
- set the value to half way between min and max.
- video showing the process
| CH1 | CH2 | CH3 | CH4 |
|---|---|---|---|
| CH1 | CH2 | CH3 | CH4 |
Models: FrSky receivers D4R and D8R. DIY RX-F801 and RX-F802 receivers. Also known as D8.
Extended limits supported
Telemetry enabled for A0, A1, RSSI, TSSI and Hub
Option for this protocol is fine frequency tuning. This value is different for each Module. To determine this value:
- find a value where the RX accepts to bind. A good start is to use one of these values -40, 0 and 40.
- find the values min/max where the RX loses connection. In serial mode you can change the value and see the effect live.
- set the value to half way between min and max.
- video showing the process
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|---|---|---|---|
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
Models: FrSky receivers X4R, X6R and X8R. Also known as D16.
Extended limits supported
Telemetry enabled for A1 (RxBatt), A2, RSSI, TSSI and Hub
Option for this protocol is fine frequency tuning. This value is different for each Module. To determine this value:
- find a value where the RX accepts to bind. A good start is to use one of these values -40, 0 and 40.
- find the values min/max where the RX loses connection. In serial mode you can change the value and see the effect live.
- set the value to half way between min and max.
- video showing the process
FCC protocol 16 channels @18ms.
| 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 |
FCC protocol 8 channels @9ms.
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|---|---|---|---|
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
EU-LBT protocol 16 channels @18ms. Note that the LBT part is not implemented, the TX transmits right away.
| 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 |
EU-LBT protocol 8 channels @9ms. Note that the LBT part is not implemented, the TX transmits right away.
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|---|---|---|---|
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
Models: Futaba RXs and XK models.
Extended limits supported
Option for this protocol is fine frequency tuning. This value is different for each Module. To determine this value:
- find a value where the RX accepts to bind. A good start is to use one of these values -40, 0 and 40.
- find the values min/max where the RX loses connection. In serial mode you can change the value and see the effect live.
- set the value to half way between min and max.
- video showing the process
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|---|---|---|---|
| A | E | T | R | CH5 | CH6 | CH7 | CH8 |
Channels 9 to 16 are used as failsafe values for the channels 1 to 8.
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.
Extended limits supported Autobind protocol
Note: RX ouput will always be AETR independently of the input AETR, RETA...
This roughly corresponds to the number of channels supported, but many of the newer 6-channel receivers actually support the WK2801 protocol. It is recommended to try the WK2801 protocol 1st when working with older Walkera models before attempting the WK2601 or WK2401 mode, as the WK2801 is a superior protocol. The WK2801 protocol supports up to 8 channels.
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|---|---|---|---|
| A | E | T | R | CH5 | CH6 | CH7 | CH8 |
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 = WK2X01, sub_protocol = WK2801 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 protocol WK2X01 and sub_protocol WK2801 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 WK2X01 and sub_protocol WK2801 with different RX_Num and have different bind modes at the same time. It enables PPM users to get model match.
The WK2401 protocol is used to control older Walkera models.
| CH1 | CH2 | CH3 | CH4 |
|---|---|---|---|
| A | E | T | R |
WK2601 5+1: AIL, ELE, THR, RUD, GYRO (ch 7) are proportional. Gear (ch 5) is binary. Ch 6 is disabled
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 |
|---|---|---|---|---|---|---|
| A | E | T | R | GEAR | DIS | GYRO |
WK2601 6+1: AIL, ELE, THR, RUD, COL (ch 6), GYRO (ch 7) are proportional. Gear (ch 5) is binary. This mode is highly experimental.
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 |
|---|---|---|---|---|---|---|
| A | E | T | R | GEAR | COL | GYRO |
WK2601 Heli: AIL, ELE, THR, RUD, GYRO are proportional. Gear (ch 5) is binary. COL (ch 6) is linked to Thr. If Ch6 >= 0, the receiver will apply a 3D curve to the Thr. If Ch6 < 0, the receiver will apply normal curves to the Thr. The value of Ch6 defines the ratio of COL to THR.
W6HEL_I: Invert COL servo
option= maximum range of COL servo
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 |
|---|---|---|---|---|---|---|
| A | E | T | R | GEAR | COL | GYRO |
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...
DSM2, Resolution 1024, refresh rate 22ms
DSM2, Resolution 2048, refresh rate 11ms
DSMX, Resolution 2048, refresh rate 22ms
DSMX, Resolution 2048, refresh rate 11ms
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.
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 | CH12 |
|---|---|---|---|---|---|---|---|---|---|---|---|
| A | E | T | R | CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 | CH12 |
Extended limits supported
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|---|---|---|---|
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
The transmitter must be close to the receiver while binding.
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 |
Option=0 -> normal Bayang protocol
Option=1 -> enable telemetry with Silverxxx firmware. Value returned to the TX using FrSkyD Hub are RX RSSI, TX RSSI, A1=uncompensated battery voltage, A2=compensated battery voltage
Model: H8S 3D
Same channels assignement as above.
Model: X16 AH
TAKE_OFF
Model: IRDRONE
| CH11 | CH12 |
|---|---|
| TAKE_OFF | EMG_STOP |
Homegrown protocol with variable number of channels (4-16) and telemetry (RSSI, V1, V2).
It is a FHSS protocol developed by Dennis Cabell (KE8FZX) using the NRF24L01+ 2.4 GHz transceiver. 45 channels are used frequency hop from 2.403 through 2.447 GHz. The reason for using 45 channels is to keep operation within the overlap area between the 2.4 GHz ISM band (governed in the USA by FCC part 15) and the HAM portion of the band (governed in the USA by FCC part 97). This allows part 15 compliant use of the protocol, while allowing licensed amateur radio operators to operate under the less restrictive part 97 rules if desired.
Additional details about configuring and using the protocol are available at the RX project at: https://github.com/soligen2010/RC_RX_CABELL_V3_FHSS
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 | CH12 | CH13 | CH14 | CH15 | CH16 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| A | E | T | R | AUX1 | AUX2 | AUX3 | AUX4 | AUX5 | AUX6 | AUX7 | AUX8 | AUX9 | AUX10 | AUX11 | AUX12 |
4 to 16 channels without telemetry
4 to 16 channels with telemetry (RSSI, V1, V2). V1 & V2 can be used to return any analog voltage between 0 and 5 volts, so can be used for battery voltage or any other sensor that provides an analog voltage.
This sub-protocol is only used during binding. If this is selected during the bind, then the RX uses No Pulses as the failsafe action. During failsafe, the RX puts out no signal, this applies to all output protocols, even those that have a failsafe flag like SBUS.
Stores failsafe values in the RX. The channel values are set when the sub-protocol is changed to 6, so hold sticks in place as the sub-protocol is changed.
The receiver bound to the model is un-bound. This happens immediately when the sub-protocol is set to 7.
Autobind protocol
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 |
|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | LIGHT | PICTURE | VIDEO | HEADLESS |
Models: EAchine CG023/CG031/3D X4
Models: Attop YD-822/YD-829/YD-829C ...
| CH5 | CH6 | CH7 | CH8 | CH9 |
|---|---|---|---|---|
| FLIP | PICTURE | VIDEO | HEADLESS |
Autobind protocol
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 |
|---|---|---|---|---|---|
| A | E | T | R | FLIP | RATE |
Rate: -100%=rate 1, 0%=rate 2, +100%=rate 3
Models: Cheerson CX-10 green pcb
Same channels assignement as above.
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
| CH5 | CH6 | CH7 | CH8 | CH9 |
|---|---|---|---|---|
| FLIP | MODE | PICTURE | VIDEO | HEADLESS |
| CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|
| FLIP | MODE | PICTURE | VIDEO |
| CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|
| FLIP | MODE | LED | DFLIP |
| CH5 | CH6 | CH7 | CH8 | CH9 | CH10 |
|---|---|---|---|---|---|
| FLIP | MODE | PICTURE | VIDEO | HEADLESS | RTH |
Autobind protocol
Only 3 TX IDs available, change RX_Num value 0-1-2 to cycle through them
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 |
|---|---|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | LED | CAMERA1 | CAMERA2 | HEADLESS | RTH | RATE_LOW |
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 |
|---|---|---|---|---|---|
| A | E | T | R | GYRO | PITCH |
ESky protocol for small models since 2014 (150, 300, 150X, ...)
Number of channels are set with option. option=0 4 channels and option=1 7 channels. An invalid option value will end up with 4 channels.
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 |
|---|---|---|---|---|---|---|
| A | E | T | R | FMODE | AUX6 | AUX7 |
FMODE and AUX7 have 4 positions: -100%..-50%=>0, -50%..5%=>1, 5%..50%=>2, 50%..100%=>3
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 |
|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | RTH | HEADLESS | EXPERT | CALIBRATE |
Model: FQ777-124 (with SV7241A)
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | RTH | HEADLESS | EXPERT |
Model: Global Drone GW008 from Banggood
There are 3 versions of this small quad, this protocol is for the one with a XNS104 IC in the stock Tx and PAN159CY IC in the quad. The xn297 version is compatible with the CX10 protocol (green pcb). The LT8910 version is not supported yet.
| CH1 | CH2 | CH3 | CH4 | CH5 |
|---|---|---|---|---|
| A | E | T | R | FLIP |
Autobind protocol
Models: EAchine H8 mini 3D, JJRC H20/H22/H11D
| CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 | CH12 | CH13 |
|---|---|---|---|---|---|---|---|---|
| FLIP | LIGTH | PICTURE | VIDEO | OPT1 | OPT2 | CAL1 | CAL2 | GIMBAL |
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
CAL1: H8 3D acc calib, H20/H20H headless calib CAL2: H11D/H20/H20H acc calib
CH6=Motors on/off
Only 3 TX IDs available, change RX_Num value 0-1-2 to cycle through them
Only 4 TX IDs available, change RX_Num value 0-1-2_3 to cycle through them
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 |
|---|---|---|---|---|---|---|---|
| A | E | T | R | GEAR | PITCH | GYRO | CH8 |
GYRO: -100%=6G, +100%=3G
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 |
| 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
Same channels assignement as above.
Autobind protocol
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 |
|---|---|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | LED | PICTURE | VIDEO | HEADLESS | RTH | CAL |
| CH6 |
|---|
| ARM |
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 |
Only 3 TX IDs available, change RX_Num value 0..2 to cycle through them
Only 3 TX IDs available, change RX_Num value 0..2 to cycle through them
Only 3 TX IDs available, change RX_Num value 0..2 to cycle through them
15 TX IDs available, change RX_Num value 0..14 to cycle through them
If the E010 does not respond well to inputs or hard to bind, set Power to Low.
| CH6 |
|---|
| ARM |
Only 1 TX ID available
Autobind protocol
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 |
|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | LED | PICTURE | VIDEO | HEADLESS |
Models: MT99xx
Models: Eachine H7, Cheerson CX023
Model: Yi Zhan i6S Only one model can be flown at the same time since the ID is hardcoded.
Models: LS114, 124, 215
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 |
|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | INVERT | PICTURE | VIDEO | HEADLESS |
Model: FY805
Only 1 ID available
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 |
|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | HEADLESS |
Models: Q222 v1 and V686 v2
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 | CH12 |
|---|---|---|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | LED | MODULE2 | MODULE1 | HEADLESS | RTH | XCAL | YCAL |
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 | CH12 |
|---|---|---|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | LED | PICTURE | VIDEO | HEADLESS | RTH | XCAL | YCAL |
Model: JXD 509 is using Q282 with CH12=Start/Stop motors
Autobind protocol
| CH1 | CH2 | CH3 | CH4 |
|---|---|---|---|
| A | E | T | R |
Q303 warning: this sub_protocol is known to not work at all/properly with 4in1 RF modules.
| CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 |
|---|---|---|---|---|---|---|
| AHOLD | FLIP | PICTURE | VIDEO | HEADLESS | RTH | GIMBAL |
GIMBAL needs 3 position -100%/0%/100%
| CH5 | CH6 | CH7 | CH8 | CH9 | CH10 | CH11 |
|---|---|---|---|---|---|---|
| ARM | VTX | PICTURE | VIDEO | RTH | GIMBAL |
ARM is 2 positions: land / take off
Each toggle of VTX will increment the channel.
Gimbal is full range.
| CH5 | CH6 |
|---|---|
| ARM | FLIP |
ARM is 3 positions: -100%=land / 0%=manual / +100%=take off
Autobind protocol
Model: Shenqiwei 1/20 Mini Motorcycle
| CH1 | CH2 | CH3 | CH4 |
|---|---|---|---|
| T | R |
Throttle +100%=full forward,0%=stop,-100%=full backward.
Autobind protocol
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 |
|---|---|---|---|---|---|
| A | E | T | R | GEAR | PITCH |
Autobind protocol
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 |
|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | RATES | PICTURE | VIDEO | HEADLESS |
Models: Syma X5C-1/X11/X11C/X12
Model: Syma X5C (original) and X2
| 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 |
Models: WLToys V202/252/272, JXD 385/388, JJRC H6C, Yizhan Tarantula X6 ...
PICTURE: also automatic Missile Launcher and Hoist in one direction
VIDEO: also Sprayer, Bubbler, Missile Launcher(1), and Hoist in the other dir
Model: JXD 506
| CH10 | CH11 | CH12 |
|---|---|---|
| Start/Stop | EMERGENCY | CAMERA_UP/DN |
Autobind protocol
| CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | CH9 |
|---|---|---|---|---|---|---|---|---|
| A | E | T | R | FLIP | LIGHT | PICTURE | VIDEO | HEADLESS |
Same channels assignement as above.