Ignition detection solution
Introduction
Ignition detection is a useful feature that we can implement into our connectivity solutions with some additional electrical components. In this article, we will show you two options on how to run the device depending on the state of Ignition:
- 1st option - the device turns on with the ignition and turns off when the ignition goes off.
- 2nd option - the device turns on with the ignition and stays on for some time, even if the ignition is turned off.
This example will use the 4-pin connector, available on most of the Teltonika networking devices:
To access the I/O pins and power the device at the same time you would likely need one of these adaptors from our Accessories list:
Schematics
The first schematic diagram provided gives you the ability to turn the device on and off depending on ignition state.
schematic.png
To build this schematic, you would need two electrical components:
- Diode
1N4001 diode or similar could be used. It is used to protect the control circuit from the sudden voltage spike. If the relay that you are using has a flyback diode built in, this diode is not needed. NOTE: if you are using this schematic without the diode, you risk damaging the device.
- Electromagnetic Relay
Relay choice depends on vehicle's electrical system voltage. If this setup is installed into a Vehicle with 12 V system, then a relay similar to the CM1-12V could be used. Otherwise, if the electrical system is 24 V, a relay similar to the CB1-P-24V could be used. When choosing a relay, the most important aspect is Coil Voltage, therefore I recommend using aforementioned relays based on the voltage.
The second schematic diagram provided gives you the ability to turn the device on with the ignition and turn off only when certain preset time expires after the ignition is turned off.
schematic.png
To build this schematic, you would need to use the same electrical components as mentioned above, only in this case we will use 2 Relays and 2 Diodes. As mentioned earlier, using this schematic without the diode, raises risk damaging the device.
Device configuration
If you chose the first option, no additional device configuration is needed. If you would like a set up based on the second schematic, you would need to do additional configuring in the device.
Startup script
First of all, we need a custom startup script to toggle a second relay to ON position. Follow these steps to configure startup behavior:
- Navigate to System -> Custom scripts -> Startup script.
- Above the exit 0 text, input command to turn on the output Pin: ubus call ioman.gpio.dout1 update '{"value":"1"}'
- Press Save & Apply.
Input/Output Juggler configuration
Input/Output configuration also needs some changes for this functionality to work as intended.
- Navigate to Services -> Input/Output -> IO Juggler.
- In the general tab, press enable to turn on I/O Juggler functionality.
Action configuration
- Navigate to Actions tab.
- In the Add new instance section, input name (delayoff in this example) for action and in Type select Output, press Add.
In the new window, configure the settings according to the explanations below.
- Type: Output.
- Execution delay (how long you would like to keep the router on after the ignition turns off): your preferred time in seconds.
- Control: Output (4) (Output pin on which the relay control is connected).
- State: Low.
Leave everything else as default, press Save & Apply.
Instance configuration
Switch back to the General tab. In the Add new instance section, select Role: Input(3) and press Add to add new instance.
In the new window, configure the settings according to the explanations below.
- Press Enable to enable the instance.
- Trigger interval – 1.
- Trigger – Falling (reacts when state goes from On to Off).
- Add actions – select the action which you‘ve created previously (delayoff in this example).
- Press Save & Apply.