Multiprotocol is a 2.4GHz transmitter which enables any TX to control lot of different models available on the market.
The source code is partly based on the Deviation TX project, thanks to all the developpers for their great job on protocols.
Forum link on RCGROUPS for additional information or requesting a new protocol integration.
To download the latest compiled version (hex file), click on Release on the top menu.
The multiprotocol TX module can be used on any TX with a trainer port.
Channels order is AETR by default but can be changed in the _Config.h.
The protocol selection is done via a dip switch, rotary dip switch or scsi ID selector.
You can access to up to 15 different protocols and associated settings.
Settings per selection are located in _Config.h:
- Protocol and type: many main protocols have variants
- RX Num: number your different RXs and make sure only one model will react to the commands
- Power: High or low, enables to lower the power setting of your TX (indoor for example).
- Option: -127..+127 allowing to set specific protocol options. Like for Hubsan to set the video frequency.
- Autobind: Yes or No. At the model selection (or power applied to the TX) a bind sequence will be initiated
The multiprotocol TX module takes full advantage of being used on a Turnigy 9X, 9XR, 9XR Pro, Taranis, 9Xtreme, AR9X, ... running er9x or ersky9X. An OpenTX version for Taranis is available here.
This enables full integration using the radio GUI to setup models with all the available protocols options.
Options are:
- Protocol and type: many main protocols have variants
- RX Num: number your different RXs and make sure only one model will react to the commands
- Power: High or low, enables to lower the power setting of your TX (indoor for example).
- Option: -127..+127 allowing to set specific protocol options. Like for Hubsan to set the video frequency.
- Bind: bind a RX/model
- Autobind: Yes or No. At the model selection (or power applied to the TX) a bind sequence will be initiated
- Range: test range by setting the transmission power to the lowest value
Notes:
- Using this solution does not need any modification of the TX since it uses the TX module slot PPM pin for serial transfer.
- There are 2 versions of serial protocol either 8 or 16 channels. 16 channels is the latest and only available version going forward. Make sure to use the right version based on your version of er9x/ersky9x.
- Channels order is AETR by default but can be changed in _Config.h.
There are 4 protocols supporting telemetry: Hubsan, DSM, FrSkyD and FrSkyX.
Hubsan displays the battery voltage and TX RSSI.
DSM displays TX RSSI and full telemetry.
FrSkyD displays full telemetry (A0, A1, RX RSSI, TX RSSI and Hub).
FrSkyX displays full telemetry (A1, A2, RX RSSI, TX RSSI and Hub).
Telemetry is available as a serial 9600 8 n 1 output on the TX pin of the Atmega328p using the FrSky hub format for Hubsan, FrSkyD, FrSkyX and DSM format for DSM2/X.
You can connect it to your TX if it is telemetry enabled or use a bluetooth adapter (HC05/HC06) along with an app on your phone/tablet (app example) to display telemetry information and setup alerts.
Telemetry is built in for er9x and ersky9x TXs.
To enable telemetry on a Turnigy 9X or 9XR you need to modify your TX following one of the Frsky mod like this one.
Note: DSM telemetry is not available on er9x due to a lack of flash space.
Enabling telemetry on a 9XR PRO and may be other TXs does not require any hardware modifications. The additional required serial pin is already available on the TX back module pins.
Once the TX is telemetry enabled, it just needs to be configured on the model (see er9x/ersky9x documentation).
The multiprotocol TX module is using a 32bits ID generated randomly at first power up. This global ID is used by nearly all protocols. There are little chances to get a duplicated ID.
For DSM2/X and Devo the CYRF6936 unique manufacturer ID is used.
It's possible to generate a new ID using bind button on the Hubsan protocol during power up.
To bind a model in PPM Mode press the physical bind button, apply power and then release.
In Serial Mode you have 2 options:
- use the GUI, access the model protocol page and long press on Bind. This operation can be done at anytime.
- press the physical bind button, apply power and then release. It will request a bind of the first loaded model protocol.
Notes:
- the physical bind button is only effective at power up. Pressing the button later has no effects.
- a bind in progress is indicated by the LED fast blinking. Make sure to bind during this period.
PPM is only allowing access to a subset of existing protocols. The protocols, subprotocols and all other settings can be personalized by modifying the _Config.h file.
The default association dial position / protocol in every release is listed below.
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 | -41 | 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 |
Note:
- The dial selection must be done before the power is applied.
Serial is allowing access to all existing protocols & sub_protocols listed below.
Protocol | Sub_protocol |
---|---|
Flysky | |
Flysky | |
V9x9 | |
V6x6 | |
V912 | |
Hubsan |
Protocol | Sub_protocol |
---|---|
FrSkyV | |
FrSkyD | |
FrSkyX | |
CH_16 | |
CH_8 | |
SFHSS |
Protocol | Sub_protocol |
---|---|
DSM | |
DSM2 | |
DSMX | |
Devo | |
J6Pro |
Protocol | Sub_protocol |
---|---|
Hisky | |
Hisky | |
HK310 | |
V2x2 | |
YD717 | |
YD717 | |
SKYWLKR | |
SYMAX4 | |
XINXUN | |
NIHUI | |
KN | |
WLTOYS | |
FEILUN | |
SymaX | |
SYMAX | |
SYMAX5C | |
SLT | |
CX10 | |
GREEN | |
BLUE | |
DM007 | |
Q282 | |
JC3015_1 | |
JC3015_2 | |
MK33041 | |
Q242 | |
CG023 | |
CG023 | |
YD829 | |
H8_3D | |
Bayang | |
ESky | |
MT99XX | |
MT | |
H7 | |
YZ | |
LS | |
MJXQ | |
WLH08 | |
X600 | |
X800 | |
H26D | |
E010 | |
Shenqi | |
FY326 | |
FQ777 | |
ASSAN | |
HONTAI | |
HONTAI | |
JJRCX1 | |
X5C1 |
Note:
- The dial should be set to 0 for serial. Which means all protocol selection pins should be left unconnected.
Check the Protocols_Details.md file for a detailed description of every protocols with channels assignements.
Up to 4 RF modules can be installed:
- A7105 for Flysky, Hubsan
- CC2500 for FrSkyV, FrSkyD, FrSkyX and SFHSS
- CYRF6936 for DSM, DEVO, J6Pro
- NRF24L01 for Hisky, V2x2, CX-10, SYMAX and plenty other protocols
RF modules can be installed for protocols need only. Example: if you only need the Hubsan protocol then install only a A7105 on your board.
You also need some antennas and cables.
The main program is running on an ATMEGA328p running @16MHz and 3.3V. An Arduino pro mini 16Mhz/5V powered at 3.3V (yes it works) can be used to build your own Multimodule. An Arduino Mini based on Atmega328p can also be used.
Using a home made PCB:
Build your own board using SMD components and an associated PCB v2.3c:
If you build this PCB v2.3c and want to enable serial mode for er9x/ersky9x, you have to do this mod.
New PCB v2.3d! available
Repository includes Kicad files of schematic and pcb. This is a variant of the Multipro V2.3c circuit design. It is basicly the same as the 2.3c board as far as component placement goes. What's changed is the added resistors for the serial protocol and also the addition of solder jumpers on the bottom of the board for the various options to connect the TX, RX, and PPM lines through them.
OSH Park link if you want to order.
This module can be purchased here. All the 4 RF modules are already implemented A7105, NRF24L01, CC2500 and CYRF6936. The board is also equiped with an antenna switcher which means only one antenna for all.
It is highly recommended to update the firmware of this board as it is distributed with a really old and bugged one. For this you have to solder a 6 pin header (top left) and use an USBASP like explained below.
If you want to enable serial mode for er9x/ersky9x/Taranis/... and depending on your board revision, you have to do one of these modifications:
Note: if you have the 1st board revision (check pictures above), sometime bind occures at power up even without pressing the bind button or not having an autobind protocol. To solve this issue, replacing the BIND led resistor (on the board back) of 1.2K by a 4.7K.
Notes:
- Attention: All modules are 3.3V only, never power them with 5V.
- For serial, the dial switch is not needed and the bind button optionnal
If you build your own version of the board you can 3D print this case (details here):
If you have the Banggood ready to use board you can 3D print this case (details here):
Multiprotocol source can be compiled using the Arduino IDE.
The currently supported Arduino version is 1.6.10.
Download the zip file of this repository, unzip it in a folder, navigate to the Multiprotocol directory and then click on Multiprotocol.ino. The Arduino environment will appear and the Multiprotocol project will be loaded.
_Config.h file must be modified to select which protocols will be available, change protocols/sub_protocols/settings associated with dial for PPM input, different TX channel orders and timing, Telemetry or not, ... This is mandatory since all available protocols will not fit in the ATmega328. You need to pick and choose what you want.
Notes:
- Make sure to select "Arduino Pro or Pro Mini, ATmega328 (5V,16MHz)" before compiling.
- Compilation of the code posted here works. So if it doesn't for you this is a problem with your setup, please double check everything before asking.
- If you want to reduce the code size even further, you can modify the file platform.txt located in "C:\Program Files (x86)\Arduino\hardware\arduino\avr". Set the line "compiler.c.elf.extra_flags=" to "compiler.c.elf.extra_flags=-Wl,--relax".
It is recommended to use an external programmer like USBASP to upload the code in the Atmega328. The programmer should be set to 3.3V or nothing to not supply any over voltage to the multimodule and avoid any damages.
The dial must be set to 0 before flashing!
From the Arduino environment, you can use this shortcut to compile and upload to the module: Skecth->Upload Using Programmer (Ctrl+Maj+U)
To flash the latest provided hex file under Release, you can use a tool like AVR Burn-O-Mat, set the microcontroller to m328p and flash it.
Use this method only for Arduino Pro Mini boards with bootloader.
Use an external FTDI adapter like this one.
The programmer should be set to 3.3V or nothing to not supply any over voltage to the multimodule and avoid any damages.
From the Arduino environment, you can use Upload button which will compile and upload to the module: Skecth->Upload (Ctrl+U)
To upload the latest provided hex file under Release, you can use a tool like XLoader, set the microcontroller to Atmega328 and upload it.
Use a tool like AVR Burn-O-Mat to set the fuses of the Atmega328 to:
- Extended Fuse 0x05 (or 0xFD which is the same)
- High Fuse 0xD2
- Low Fuse 0xFF
This will make sure your ATMEGA328 is well configured and the global TX ID is not erased at each updates.
- off: program not running or a protocol selected with the associated module not installed.
- flash(on=0.1s,off=1s): invalid protocol selected (excluded from compilation or invalid protocol number)
- slow blink(on=0.5s,off=0.5s): serial has been selected but no valid signal has been seen on the RX pin.
- fast blink(on=0.1s,off=0.1s): bind in progress.
- on: normal operation.
- The protocol/mode selection must be done before the power is applied.
- Connect 1 to 4 of the selection protocol pins to GND.
- Make sure you have done the mods to the v2.3c PCB by adding the 2.2k and 470 ohm resistors as indicated in the [Board section] (https://github.com/pascallanger/DIY-Multiprotocol-TX-Module#board).
- Leave all 4 selection pins unconnected.
Make sure to follow this procedure: press the bind button, apply power and then release it after 1sec. The LED should be blinking fast indicating a bind status and then fixed on when the bind period is over. It's normal that the LED turns off when you press the bind button, this behavior is not controlled by the Atmega328. For serial, the preffered method is to bind via the GUI protocol page.
If your module is always/sometime binding at power up without pressing the button:
- Arduino Pro Mini with an external status LED: to work around this issue connect a 10K resistor between D13 and 3.3V.
- 4in1 module V1 (check 4in1 pictures): to solve this issue, replacing the BIND led resistor (on the board back) of 1.2K by a 4.7K.
You can report your problem using the GitHub issue system or go to the Main thread on RCGROUPS to ask your question. Please provide the following information:
- Multiprotocol code version
- TX type
- Using PPM or Serial, if using er9x or ersky9x the version in use
- Different led status (multimodule and model)
- Explanation of the behavior and reproduction steps