Ryde remote controls
The Ryde DATV receiver is designed to work with an Infrared remote control handset.
A Infrared sensor is needed on the receiver and can be one salvaged from an old consumer electronic part or purchased new - typical example is https://uk.farnell.com/vishay/tsop2438/ir-receiver-45m-0-12mw-m2-side/dp/4913097
These sensors are 3 legged devices with +ve ground and output. The +ve should be connected to a 3.3v supply via a suitable resistor (typically 100 ohms) and the output is connected directly to pin 11 of the RPi GPIO port.
5 volt devices
Older devices may need to be used on a +5v supply and must be fitted with a resistor to ground on the high impedance output to reduce the voltage to 3.3v for the Rpi GPIO port.
Connect 5v to the device and use an oscilloscope to measure the voltage on the output - connect a 47K resistor to ground and check the level drops to 3.3v - if not adjust the resistor value to suit.
Remote control Handsets
The following remotes are already programmed in to the standard firmware:
- Virgin Media remote
- Nebula DigiTV DVB-T USB receiver
- Ebay DVB-T / DVB-S combo box
- LG 42 inch TV
- LG Blu-Ray Player
- Samsung 32 inch TV
- Elekta Bravo TV
- WDTV Live Media Player
- Hauppauge MediaMVP Network Media Player
- Technosat TS-1 Satellite Receiver
- Technosat TS-3500 Satellite Receiver
- Digi-Wav £2 F2100 Universal Remote
- Octagon SF8008 Sat RX Remote
- RTL-SDR Basic Remote
Photos of some of these remotes are on this page: Ryde Remote Photos
You can select the remote control by SSH in to the Ryde main menu > 3 Select the Remote Control Type.
Using a custom remote control
The Ryde receiver can be customised to use another suitable remote control - note not all remote controls will work.
You can program the Ryde to use a different type of remote by SSH the Ryde main menu > 4 IR Check. This takes you to the command line. Press the following buttons on your remote control and note the code displayed against each button pressed.
Then you will need to amend the file
so that it looks something like this:
--- name: My Remote Name driver: rc-5 buttons: POWER: 0x0d UP: 0x16 DOWN: 0x17 LEFT: 0x18 RIGHT: 0x19 SELECT: 0x1a BACK: 0x14 MENU: 0x15 ZERO: 0x00 ONE: 0x01 TWO: 0x02 THREE: 0x03 FOUR: 0x04 FIVE: 0x05 SIX: 0x06 SEVEN: 0x07 EIGHT: 0x08 NINE: 0x09
Do not worry if your remote does not have number buttons. Menu, Up, Down, Left, Right and Select are sufficient to get started. Just delete the lines for the buttons that you don't have.
You also need to set the protocol that the remote uses in this file - you can see the protocol in the brackets when you press a key:
Testing events. Please, press CTRL-C to abort. 9801.580057: lirc protocol(rc5): scancode = 0x5 9801.580077: event type EV_MSC(0x04): scancode = 0x05 9801.580077: event type EV_SYN(0x00).
So in this example, the protocol is rc-5 and the code to enter in the file is 0x05.
You then need to also ammend the protocol in the file:
The protocol also gets entered on the 5th line of /home/pi/ryde-build/rx.sh
#!/bin/bash # File to set conditions for Ryde and start it. sudo ir-keytable -p rc-5 >/dev/null 2>/dev/null cd /home/pi/ryde python3 -m rydeplayer /home/pi/ryde/config.yaml >/dev/null 2>/dev/null & exit
In this example it is rc-5.
Once you have edited and saved both files, you can press ctrl-c to exit the remote control code monitor screen, and then type menu to return to the menu and then start the receiver. Test your remote.
If it all works, please post details of your remote and its codes on the BATC Forum here BATC Forum Ryde Remote Controls. The software team can then add the remote to the main build so that it is available to all users.