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Heating pad, seat, right (64FR)

Heating pad, seat, right (64FR)

Location

Heating pad, seat, seat cushion (64A) .

Heating pad, seat, back rest (64B) .

Main task

To quickly electrically heat the seat when starting in cold temperatures.

Type

The heating pad consists of two circuits, one circuit is the heating element and the other circuit provides information about the temperature in question. The temperature sensor consists of a NTC resistor whose resistance varies with the temperature of the heating pad.


Connect

If the heating pad is connected to the ACC unit:

Heating element:

Relay 511FL is fed with +15 from fuse 15 in the rear electrical centre. The circuit continues through the seat and backrest cushion and is ground at grounding point G33P.

Wiring diagram, Back and seat heating pad



Wiring diagram, Heating pad temperature sensor.


The relay is connected to pin 8 (K32) on the ACC control module, when pin 8 is ground the relay makes and the heating circuit is activated.

Temperature sensor circuit:

The sensor (254) is ground internally in the ACC unit via pin 31 (K32) and the sensor is fed from pin 23 (K32) with 5V via an integrated 10 kOhm resistor in the ACC unit. The NTC resistor characteristics mean the at the resistance drops as the temperature rises. This means that the voltage measured across the resistor will at the same time drop with a rising temperature.

The voltage level from the A/D sensor is converted and is then available in digital form. The digital voltage level is then converted to a temperature value which is stored in the ACC unit operating memory. Voltage levels near 0 V or 5 V are determined as circuit faults.

If the heating pad is connected to the MCC:

Heating element:

Relay 511FL is fed with +15 from fuse 15 in the rear electrical centre. The circuit continues through the seat and backrest cushion and is ground at grounding point G33P.

The relay is connected to pin 2 on the MCC control module, when pin 2 is ground the relay makes and the heating circuit is activated.

Temperature sensor circuit:

The sensor (254) is grounded internally in the MCC unit via pin 9 and the sensor is fed from pin 21 with 5V via a 10 kOhm resistor integrated in the MCC unit. The NTC resistor characteristics mean the that the resistance drops as the temperature rises. This means that the voltage measured across the resistor will at the same time drop with a rising temperature.

The voltage level from the A/D sensor is converted and is then available in digital form. The digital voltage level is then converted to a temperature value which is stored in the ACC unit operating memory. Voltage levels near 0 V or 5 V are determined as circuit faults.