5 minute read
HEAD, SIDE AND TAIL LAMPS .................................................................... 4
Instrument Pack
The instrument pack (C0230) acts as a gateway, relaying CAN messages to and from different components throughout the vehicle as follows:
Pressure Sensor
The pressure sensor is located in the high pressure A/C line adjacent the compressor, and replaces the more traditional trinary pressure switch. The instrument pack (C0230) provides a 5 V reference voltage to the pressure sensor (C1257) on a UO wire. The pressure sensor (C1257) is provided an earth path via the instrument pack (C0230) on a PB wire.
The pressure sensor (C1257) provides the instrument pack (C0230) a signal feed on a UG wire. The value of this signal feed is dependent upon the pressure within the A/C system. This signal is relayed by the instrument pack (C0230) to the ECM (C0331) via the CAN-BUS on YB (High) and YN (Low) wires. The ECM uses this signal to determine the pressure within the A/C system, enabling it to carry out the following tasks: To provide a safety cut-out function if the pressure within the A/C system goes either too high or too low. To control the speed of the cooling and condenser fans via the cooling fan ECU. To help control engine idle speed.
Evaporator Temperature Sensor
The evaporator temperature sensor is used to ensure the evaporator doesn't freeze. The instrument pack (C0230) provides a feed to the evaporator temperature sensor (C0417) on a GO wire. The sensor (C0417) is earthed on a B wire. The instrument pack relays the temperature reading to the ECM (C0331) via the CAN BUS on YB (High) and YN (Low) wires. NOTE: The ECM also uses the evaporator temperature sensor signal in conjunction with the pressure sensor signal to help control engine idle speed.
For more information on CAN messages, refer to the Communication Databuses section of the System Description and Operation Workshop manual.
Cooling Fan ECU – 01MY
Fusible link 5 of the engine compartment fuse box (C0573) provides a constant battery feed to the cooling fan ECU (C0701) on an NW wire. Fuse 4 of the engine compartment fuse box (C0575) provides a feed to the cooling fan ECU (C0701) on an NK wire when the main relay is energised (see above). The cooling fan ECU (C0701) is earthed on a B wire.
To control cooling fan and condenser fan speed, the ECM (C0331) provides the cooling fan ECU (C0701) a Pulse Width Modulated (PWM) signal on a UR then NK wire. The frequency of the pulses supplied by the ECM determines the speed the cooling fan ECU will drive the cooling fan and condenser fan motors.
The cooling fan ECU interprets the PWM signal provided by the ECM as follows: If a PWM signal of between approximately 12 % and 87 % is received by the cooling fan ECU, it will not power the cooling fans. If a PWM signal of 87 % or over is received by the cooling fan ECU, it will provide a feed to the cooling fan (C0005) and condenser fan motors (C0280) on SU wires. An earth path is provided for the cooling fan (C0005) and condenser fan motors (C0280) by the cooling fan ECU (C0701) on a pair of PS wires. If a PWM signal of less than 12 % is received by the cooling fan ECU, it assumes a fault has occurred and powers the cooling and condenser fan motors as described above. If a continuous voltage is received by the cooling fan ECU, it assumes a fault has occurred and powers the cooling and condenser fan motors as described above.
Cooling Fan Control Unit – 02MY
Fusible link 5 of the engine compartment fuse box (C0573) provides a constant battery feed to the cooling fan control unit (C0208) on an NG wire. Fuse 4 of the engine compartment fuse box (C0575) provides a feed to the cooling control unit (C1680) on an NK wire when the main relay is energised (see above). The cooling control unit (C0208) is earthed on a B wire.
To control cooling fan and condenser fan speed, the ECM (C0331) provides the cooling fan control unit (C1680) a Pulse Width Modulated (PWM) signal on a UW wire. The frequency of the pulses supplied by the ECM determines the speed the cooling fan control unit will drive the cooling fan and condenser fan motors.
The cooling fan control unit interprets the PWM signal provided by the ECM as follows: If a PWM signal of between approximately 12 % and 87 % is received by the cooling fan control unit, it will not power the cooling fans. If a PWM signal of 87 % or over is received by the cooling fan control unit, it will provide a feed to the cooling fan (C0005) and condenser fan motors (C0280) on SU wires. An earth path is provided for the cooling fan (C0005) and condenser fan motors (C0280) by the cooling fan control unit (C0701) on a pair of PS wires. If a PWM signal of less than 12 % is received by the cooling fan control unit, it assumes a fault has occurred and powers the cooling and condenser fan motors as described above. If a continuous voltage is received by the cooling fan control unit, it assumes a fault has occurred and powers the cooling and condenser fan motors as described above.
Fresh/Recirculated Air
Fuse 4 of the passenger compartment fuse box (C0586) provides an ignition feed to the fresh/recirculated air motor (C0006) and the fresh/recirculated air switch (C0750) on G then LGS wires. When the switch is the normal (released) position, it provides an earth path for the motor (C0006) via a Y wire. The motor will open the recirculation flap, allowing the A/C system to use air drawn from outside the vehicle.
If the fresh/recirculated air switch is pressed, it provides an earth path for the motor (C0006) via a K wire. The motor will now close the recirculation flap, allowing the A/C system to use recirculated air. The switch is mounted on the centre console, adjacent the A/C master switch, and is earthed (C0750) on a B wire.
AIR CONDITIONING (A/C) – K SERIES AND KV6
DESCRIPTION General
The air conditioning (A/C) system will only operate when the engine is running. The A/C system is switched on and off by pressing the switch mounted on the centre console. When the switch is pressed, an LED mounted within the switch illuminates to inform the driver the system is operational. For more information on LED operation, refer to the Interior Illumination section of this manual. + INTERIOR ILLUMINATION.
The position of the rotary heater control determines the amount of warm air from the heater matrix blended with cool air from the A/C evaporator, and hence the temperature of the air output from the heater ducts. NOTE: The blower switch must be in at least position 1 for the A/C system to operate.
For more information on heater operation, refer to the Heater Blower section of this manual. + HEATER BLOWER.
