Automotive Relay

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Relay

Introduction to the product

Тhe advantages of a relay are that even if the thieves managed to bypass the cars alarm system by using modern jammers, or even unplug the FM device they won't be able to start the engine.

Product Specification

Relay schematic diagram
Name Value
Contact Rating 30A/40A 14VDC
Coil Voltage 12VDC
Coil Power 1.8W
Release Voltage ≥10%
Pickup Voltage ≤70%
Insulation Resistance 100Ω
Contact Resistance 100Ω
Between open contact 500VAC
Between coil & contact 750VAC
Temperature Range -55~+85℃
Dimension 25.0x27.4x28.4
Weight 40g

Use cases

There are three main use cases for a relay

1. Double relay.

  • You will need two relays, device that has two Digital Outputs and 1-Wire. The relay will be deactivated via driver authentication.

2. Inverted relay.

  • You will need one relay. Relay will be deactivated via SMS command.

3. Immobilizer relay.

  • You will need one relay, device that has one Digital Output and 1-Wire. The relay will be deactivated via driver authentication.

Double relay scenario

The benefits of double relay scenario is double security. If someone manages to bypass the vehicles alarm system, and unplugs the FM device the second relay will prevent engine start.

Inverted relay scenario

If you do not need driver authentication you can simply control the relay by SMS command setdigout from your phone.

Immobilizer relay scenario

Relay Wiring

The benefit of this connection is that every driver will be autorizated before he can start the engine.
For different scenarios you can use iButton, RFiD or Beacon (for beacon authorization you don't need DOUT or 1-Wire, the scenario work via Bluetooth)

Relay PIN Relay cable color Connects to
30 Blue To Engine
85 Black DOUT
86 White To Car Battery
87 Yellow None
87a Red Starter


Device connection

For configuration example we will be using FMB120 and RFiD

1.      Connect your FMB120 device to power supply

  •      Red wire on the positive contact of the power supply
  •      Black wire on GND of the power supply

2.      Connect your device to PC and open FMB120 configurator software to configure required fields for Immobilizer scenario.

You need to configure your device to read iButton/RFID card data and set immobilizer settings correctly.

Immobilizer scenario configuration

Immobilizer scenario configuration.png

Figure 1. FMB120 Immobilizer scenario configuration

Navigate to Features panel, locate Immobilizer feature and configure Immobilizer settings as shown in the Figure 1.
1. Scenario settings – When low priority event is triggered, device makes additional record with indication of event cause.
2. Eventual Records - Select "Enable". When "Enable" value is selected, scenario status will be sent to your server only when it is triggered.
3. Output Control - you need to select which DOUT will be activated. In this case Digital output 2 will be activated if event happens.
4. List Check For Authorization – this parameter lets the user use this scenario for authorization.

System panel configuration

System panel configuration.png

Figure 2. Ignition source configuration

Go to system tab and look at the Ignition Source. We recommend to use DIN 1 as ignition source for this scenario.

Authorized ID List

Authorization ID List.png

Figure 3. Authorized ID List

Go to Authorized ID List settings tab. There you can see Authorized IDs List which is used to enter authorized IDs codes. Codes are used to authenticate user in immobilizer scenario as shown in Figure 3. For example, if you enter the wrong RFID card ID here, you will not be able to deactivate configured digital output. Below you will see a guide for RFID card ID decoding.

How to decode RFID Card ID with Configurator

1. Connect the device with RFID Card Reader to the computer using USB cable and open configurator.

2. In the configurator, open „I/O“ tab and find iButton in the list

3. Attach the RFID card to the RFID Card Reader and check what ID is generated under „Current Value“ column near iButton parameter.

IO elements.png

Figure 4. iButton ID detection

4. In our case, the generated ID when we attach the card is: 01437829000700CF.
5. To get the RFID Card ID in a proper format for list checking, type the ID from the back to front taking 2 digits at a time. (Figure 5.)

IButton ID decoding.png

Figure 5. iButton ID decoding

6. The ID we get from Figure 5 (CF00070029784301) is the ID of our RFID Card that we need to use in iButton List. Enter the ID in iButton list.

Stage 2. Connecting device to relay and iButton/RFID reader

1.      Connect FMB120to you power supply:

  •      Connect FMB120 positive cable to positive power supply contact (red wire).
  •      Connect FMB120 GND cable to GND power supply contact (black wire).

2.      Take relay, and connect wires in this order:

  •      86 (White wire) connects to 12V cable (both, FMB120 and power supply)
  •      85 Dout (Black) connects to DOUT 1 or 2 of FMB120 (in this instructions we will use DOUT2 purple cable)
  •    87a (Relay red cable) Connects to DIN1 (yellow) of FMB120

3.      Take iButton or RFiD card reader and connect their wires in this order. (in this case we use RFiD card reader)

  •      Green cable connects to GND cable of FMB120 and power supply.
  •      Brown cable connects to 12V cables, FMB120, power supply and Relay.
  •      White cable connects to 1-wire (green) of FMB120

5. Connect micro USB cable to FMB120 and your computer.

6. Turn on your power supply.

7. Connect Blue cable of relay (30 starter control) to positive power supply contact using additional cable.

8. Open the configurator and go to status window I/O info section. In Figure 7 you can see Ignition value is 1 and digital output 2 value is also 1, digital input 1 value should be 0 (if you connect relay to DOUT 1, then you will see the value in Digital output 1 section).

IO info blur.png

Figure 7. I/O info. Ignition

In figure 7 you can see Ignition value is 1 and Digital output 2 value is also 1, digital input value should be 0 (if you connect relay to DOUT 1, then you will see the value in Digital output 1 section).
9. Touch RFID card with the RFID Card reader, and after that in the configurator status window you should see that Digital output 2 changed it’s value to 0 ant digital input changed it’s value to 1. As shown in Figure 8.

IO info. Digital Input.png

Figure 8. I/O info. Digital Input

10.  To check if your RFID card reader or iButton works you can go to I/O window and find iButton parameter as shown in Figure 9.

IButton ID.png

Figure 9. iButton ID

When you touch the RFID card (or iButton) to RFID card (or iButton) reader these parameters should change to your iButton’s ID:

IButton ID 2.png

Figure 10. iButton ID

Operation example:
When DOUT 2 value is 1, ignition is blocked and the vehicle will not be started. When the iButton/RFID card is attached to the reader, DOUT 2 value changes from 1 to 0 allowing you to start the transport normally.