Range Rover 2. Electrical Manual — part 203
HEATING AND VENTILATION (WITHOUT A/C)
K3
6
CIRCUIT DIAGRAM
C1597
Z253
Heating
Ventilation and
Air Conditioning
Control Unit
(HEVAC)
4
S
2
RB
15
W
16
N
6
B
1
S
5
RB
7
W
9
N
10
B
14
S
13
RB
8
W
11
N
12
B
M
M
M
M165
Distribution
Motor
M164
Right Blend
Motor
M163
Left Blend Motor
HEATING AND VENTILATION (WITH A/C)
K4
CIRCUIT OPERATION
1
CIRCUIT OPERATION
Ignition position 1 (Accessories)
This feed is obtained from the BeCM via fuse 8 and
is shared with the Radio, Front cigar lighter and car
phone (if fitted). The Ignition 1 is essential to the
control panel as it provides power to the ECU
although no functions or display on the LCD are
possible.
Ignition position 2
This feed is obtained from the BeCM via fuse 35.
Battery feed
This feed is obtained from the fuse box via fuse 42.
Ground Connection
This feed runs down to a spliced joint, joining the
main earth run down to fascia earth point E0562.
Dimmer Line
This Pulse Width Modulated signal is provided by the
BeCM.
LCD Dimmer line
This line is a input to the HEVAC and the signal is a
inverse Pulse Width Modulated signal which is
determined by the instrument pack.
Compressor Clutch
The clutch line provides a 12 volt power feed to the
compressor clutch via pressure switch 1.
Condenser Fans
The HEVAC panel provides a signal normally at 12
volts for “off” condition and 0 volts for the “on”
condition, which in the case of petrol vehicles is fed
into the ECM and diesel vehicles directly onto the
coil of relay 18. In line is the Air–Conditioning
pressure switch 2, which turns the fans on/off.
When relay 18 is energised, it provides connection
between relays 13 and 14 (fan 1 and 2) in series or
parallel with each other. This is dependent upon the
state of the air–conditioning pressure switch 1.
For the petrol option, when the signal enters the
ECM, the ECM will switch the output on/off to the
fusebox. The ECM will switch the output on
sometimes for engine cooling reasons even though
the engine has been turned off.
Aspirator
There are two parts of this sensor, one of which is a
fan which draws cabin air onto the temperature
sensor. The temperature sensor then sends the
signal back to the HEVAC ECU.
Ambient Sensor
This sensor measures the temperature of the
external air flow into the vehicle.
The ambient temperature sensor is located behind the
LH side of the vehicle in front of the condenser. The
revised location improves the response time of the
sensor. The new HEVAC software will not update the
ambient temperature sensor readings unless the
vehicle is travelling over approximately 15 mph (25
km/h). The HEVAC software will therefore not auto-
matically correct temperature readings when a faulty
ambient temperature sensor is renewed.
Temperature
Resistance (Ohms)
–20
°
C (–4
°
F)
94.5 K
–10
°
C (14
°
F)
54.3 K
0
°
C (32
°
F)
32.1 K
10
°
C (50
°
F)
19.7 K
20
°
C (68
°
F)
12.5 K
30
°
C (86
°
F)
8.1 K
40
°
C (104
°
F)
5.4 K
Heater Core Sensor
This sensor measures the engine coolant
temperature within the fascia area.
Evaporator Sensor
This sensor is located within the evaporator unit and,
by providing feedback to the HEVAC ECU, prevents
it from freezing.
Alternator Charge signal
This signal is given to the HEVAC ECU to inform it
that the engine is running. This signal is active low.
Diagnostic K line
This line is used to communicate with the diagnostic
equipment (TESTBOOK) and is normally held at 12V
when not active.
Road Speed
This signal is fed into the HEVAC ECU.
Solar Sensor
This sensor provides the HEVAC ECU with the
power of the sun’s solar load and allows the system
to compensate accordingly.
A/C Request
This signal is active low and sends a request to the
ECM to switch on the air–conditioning system.
HEATING AND VENTILATION (WITH A/C)
K4
CIRCUIT OPERATION
2
A/C Grant
This signal is active low and sends a signal to the
HEVAC ECU to acknowledge the request signal and
that it is ready for the load to be switched on by the
HEVAC system.
Pressure switch 1 (Trinary switch)
This switch is in parallel with two components, the
condensor fans and the compressor clutch which are
both normally short circuit. If the pressure is too high
or too low, the switch will open and cut the feed to
the clutch to prevent damage to the system. With the
third setting, at a specific pressure the switch is
shorted and changes the condenser fan mode from
series to parallel.
Pressure switch 2 (Single switch)
The switch is normally open circuit. At a specific
pressure, the switch is shorted and allows the
condenser fans to turn on.
Left/Right Recirculation motors
These motors control the flaps on the blower motor
modules. The flaps should be in one of two
positions, either fully open or fully closed.
Left/Right Blower modules
The blowers have a permanent 12V feed to them.
The speed of the motors is determined by the control
lines which go to the motors. The motors also
provide a voltage feedback to the HEVAC ECU to
determine the actual voltage at the motors but also
to show if there are any faults.
Left/Right Blend and Distribution Motors
These motors are controlled by the HEVAC ECU
which provides power to the motors, which in turn
report back their actual positions to the HEVAC
ECU.
HEATING AND VENTILATION (WITH A/C)
K4
3
CIRCUIT DIAGRAM
REV: 11/99
Data Link
Connector
25
C0448
NY
C0162
25
C0448
C0203
15
C1289
Petrol
Diesel
Z106
Generator
S573
Starting and
Charging
D +
6
30
F 8
30 A
Z238
Body Electrical
Control Module
(BECM)
RL7
C1276
S212
WK
Z253
Heating
Ventilation and
Air Conditioning
Control Unit
(HEVAC)
1
4
C0792
S208
E0562
6
7
C0793
LGR
KR
15
C0040
7
S213
S214
X318
Data Link Connector (OBDII)
B
See Ground
Distribution
P125a
Engine
Compartment
Fuse Box
30
F 42
10 A
8
C0574
15
F 35
10 A
3
C0575
3
2
S211
See Fuse Details
C0226D
C0185
C0792
Petrol
Diesel
Radio
See Fuse
Details
Power
Distribution
NY
S137
W
Navigation
System
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