Land Rover Anti Lock Control Traction Control Rover Manual

							COMPONENT LOCATIONS - SHEET 1 OF 2
Hydraulic control unit with attached ABS module1
Stoplamp switch2
Right rear wheel speed sensor3
Left rear wheel speed sensor4
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							Yaw rate and lateral acceleration sensor5
HDC relay (non-serviceable, integrated into
Central Junction Box (CJB))
6
Steering angle sensor7
Left front wheel speed sensor8
Right front wheel speed sensor9
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							COMPONENT LOCATIONS - SHEET 2 OF 2
Brake warning indicator (NAS only)1
ABS warning indicator2
Brake warning indicator (all except NAS)3
DSC switch4
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							HDC switch5
HDC warning indicator (low line instrument
cluster only)
6
HDC information indicator7
DSC warning indicator8
GENERAL
The anti-lock control - traction control system is based
on the 4 channel Bosch 8.0 system and provides the
following brake functions:
•Anti-lock Braking System (ABS).
•Corner Brake Control (CBC).
•Dynamic Stability Control (DSC).
•Electronic Brake-force Distribution (EBD).
•Electronic Traction Control (ETC).
•Emergency Brake Assist (EBA).
•Engine Drag-torque Control (EDC).
•Hill Descent Control (HDC).
The system consists of the following components:
•A DSC switch.
•An HDC switch.
•An HDC relay.
•A stoplamp switch.
•Four wheel speed sensors.
•A yaw rate and lateral acceleration sensor.
•A steering angle sensor.
•Warning indicators; four on vehicles with a high line
instrument cluster and five on vehicles with a low
line instrument cluster.
•A Hydraulic Control Unit (HCU) with attached ABS
module.
DSC SWITCH
The DSC switch allows the DSC function to be selected
off. Although Land Rover recommend that DSC is
selected on for all normal driving conditions, it may be
beneficial to de-select DSC, to maximize traction, under
the following conditions:
•If the vehicle needs to be rocked out of a hollow or
a soft surface.
•Driving on loose surfaces or with snow chains.
•Driving in deep sand, snow or mud.
•On tracks with deep longitudinal ruts.
The DSC switch is a non-latching switch installed in
the center switch pack on the instrument panel. Pressing
the DSC switch connects an ignition power feed to the
ABS module. With the first press of the DSC switch,
the ABS module disables the DSC functions. When the
DSC switch is pressed again, the ABS module
re-enables the DSC functions. The DSC switch must be
pressed for a minimum of 0.3 s for the ABS module to
react. The DSC function is re-enabled at the beginning
of each ignition cycle.
The status of the DSC switch selection is shown by the
DSC warning indicator. The DSC warning indicator is
off while DSC is selected on, and continuously
illuminated while DSC is selected off.
A DSC switch request to disable DSC is ignored if the
air suspension system has failed, or is in off-road height
at speeds above 60 km/h (37.5 mph).
To guard against incorrect operation or a broken switch,
if the input from the DSC switch is held high for more
than one minute, a failure is stored in the ABS module.
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							Even if DSC is deselected, driving manoeuvres with
extreme yaw or lateral acceleration may trigger DSC
activity to assist vehicle stability.
HDC SWITCH
The HDC switch controls the selection of the HDC
function.
The HDC switch is a non-latching switch installed on
the center console, to the rear of the gear shift lever.
Pressing and releasing the HDC switch momentarily
connects an ignition power feed to the ABS module.
With the first press and release of the HDC switch, the
ABS module enables operation of the HDC function.
When the HDC switch is pressed and released again,
the ABS module disables operation of the HDC
function.
To guard against incorrect operation or a broken switch,
if the switch is pressed for more than 10 seconds no
change of state occurs. If the input from the HDC switch
is held high for more than one minute, a failure is stored
in the ABS module.
HDC RELAY
The HDC relay is used to illuminate the stoplamps when
the brakes are activated during HDC operation and
during dynamic application of the parking brake.
The HDC relay is a non-serviceable, solid state relay
on the circuit board of the Central Junction Box (CJB).
Operation of the HDC relay is controlled by the ABS
module switching the coil to ground. The ABS module
monitors brake system hydraulic pressure and energizes
the HDC relay during active braking. A pressure
threshold and time filter prevent the stoplamps from
flickering when HDC is braking.
STOPLAMP SWITCH
The stoplamp switch is mounted in the brake pedal
bracket and operated by the brake pedal. The stoplamp
switch is a two pole switch: The Brake Switch (BS) pole
supplies a brake pedal status signal to the ABS module;
the Brake Lamp Switch (BLS) pole operates the
stoplamps and also supplies a brake pedal status signal
to the ABS module and to the Engine Control Module
(ECM).
While the brake pedal is released:
•The BS contacts are closed, and connect an ignition
power feed from the Central Junction Box (CJB) to
the ABS module.
•The BLS contacts are open.
When the brake pedal is pressed:
•The BS contacts open.
•The BLS contacts close, and connect an ignition
power feed from the CJB to the three stoplamps, the
ABS module and the ECM.
The ABS module monitors the status inputs from the
stoplamp switch and broadcasts the brake pedal status
and an associated quality factor on the high speed
Controller Area Network (CAN) bus.
WHEEL SPEED SENSORS
Knuckle assembly1
Sensor ring2
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							Halfshaft3
Wheel speed sensor4
Screw5
An active wheel speed sensor is installed in each wheel
hub to provide the ABS module with a rotational speed
signal from each road wheel. The head of each wheel
speed sensor is positioned close to a 48 tooth sensor
ring on the outer diameter of the constant velocity joint
of the halfshaft. A flying lead connects each sensor to
the vehicle wiring.
The wheel speed sensors each have a power supply
connection and a signal connection with the ABS
module. When the ignition switch is in position II, the
ABS module supplies power to the wheel speed sensors
and monitors the return signals. Any rotation of the
halfshafts induces current fluctuations in the return
signals which are converted into individual wheel speeds
and the overall vehicle speed by the ABS module.
The ABS module outputs the individual wheel speeds
and the vehicle speed on the high speed CAN bus for
use by other systems. The quality of the vehicle speed
signal is also broadcast on the high speed CAN bus. If
all wheel speed signals are available to calculate vehicle
speed from, the quality of the vehicle speed signal is set
to data calculated within specified accuracy. If one or
more wheel speed sensors is faulty, the quality of the
vehicle speed signal is set to accuracy outside
specification.
The ABS module monitors the wheel speed sensor
circuits for faults. If a fault is detected the ABS module
stores a related fault code and illuminates the appropriate
warning indicators, depending on the system functions
affected (DSC/ETC, ABS, EBA/EBD, HDC). A warning
chime sounds and, on vehicles with the high line
instrument cluster, a related message is shown in the
message center.
Since the wheel speed sensors are active devices, a
return signal is available when the road wheels are not
turning, which enables the ABS module to check the
sensors while the vehicle is stationary. In addition, the
direction of travel of each wheel can be sensed. This
information is broadcast on the high sped CAN bus for
use by other systems.
YAW RATE AND LATERAL
ACCELERATION SENSOR
The yaw rate and lateral acceleration sensor provides
the ABS module with inputs of yaw rate and lateral
acceleration.
The yaw rate and lateral acceleration sensor is installed
under the center console and secured to the transmission
tunnel with two bolts.
When the ignition switch is in position II, the yaw rate
and lateral acceleration sensor receives an ignition power
feed from the CJB. The sensor is self diagnosed by the
ABS module and can be interrogated using T4. The
ABS module broadcasts the yaw rate and lateral
acceleration values, on the high speed CAN bus, for use
by other systems.
The ABS module monitors the yaw rate and lateral
acceleration sensor for faults. If a fault is detected the
ABS module stores a related fault code and illuminates
the DSC warning indicator and, on vehicles with the
low line instrument cluster, the HDC warning indicator.
A warning chime sounds and, on vehicles with the high
line instrument cluster, a message advising of an HDC
fault is shown in the message center.
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							STEERING ANGLE SENSOR
Gear wheel1
Electrical connector2
The steering angle sensor measures the steering wheel
angle and the rate of change of the steering wheel angle
(known as the steering wheel angle speed). These
measurements are output on the high speed CAN bus,
together with a quality factor signal, and used by the
ABS module for CBC and DSC operation.
The steering angle sensor is fixed to the pivot bracket
of the steering column by three screws. A gear wheel
in the steering angle sensor engages with a plastic drive
collar fixed onto the lower shaft of the column. Inside
the steering angle sensor, the gear wheel meshes with
a gear train containing magnets. An eight pin electrical
connector provides the interface between the vehicle
wiring and integrated circuits in the steering angle
sensor.
The steering angle sensor uses the Magneto Resistive
(MR) effect, which evaluates the direction of magnetic
fields, to measure the angular position of the lower shaft,
and thus the steering wheel angle. When the steering
wheel turns, the steering column lower shaft rotates the
gear wheel in the steering angle sensor, which drives
the gear train and rotates the magnets on the gears. The
direction of the magnetic fields is constantly monitored
by the steering angle sensor and converted into a steering
wheel angle and steering wheel angle speed.
The steering angle sensor performs a plausibility check
of the steering wheel angle each time the following
conditions co-exist:
•The vehicle is traveling in a straight line.
•The vehicle speed is between 20 and 25 km/h (12.5
and 15.6 mph).
•The transfer box is in high range.
•The brake pedal is not pressed.
•There is no ABS, DSC or ETC activity.
The steering angle sensor uses inputs of wheel speed,
yaw rate and lateral acceleration to determine when the
vehicle is traveling in a straight line. When all of the
conditions co-exist, the steering angle sensor checks the
steering angle, which should be 0 ± 11°. If the steering
angle is outside the limits on two successive checks, the
steering angle sensor changes the quality factor signal
to outside specification for the remainder of the ignition
cycle and stores a fault code. At the beginning of each
ignition cycle the quality factor signal is reset to within
specified accuracy.
The status of the steering angle sensor can be determined
using T4.
If the steering angle sensor is replaced, the new sensor
must be calibrated using T4. The steering angle sensor
must also be re-calibrated any time it is disturbed from
the steering column, or if the upper and lower steering
columns are separated.
Steering Angle Sensor Harness Connector C0862
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							Steering Angle Sensor Harness Connector C0862 Pin Details
Input/OutputDescriptionPin No.
-Not used1 to 4
InputIgnition power supply5
Input/OutputHigh speed CAN bus high6
Input/OutputHigh speed CAN bus low7
-Ground8
WARNING INDICATORS
The following anti-lock control - traction control
indicators are installed in the instrument cluster:
ABS Warning Indicator
The ABS warning indicator is an amber colored
indicator located between the coolant temperature gage
and the fuel level gage.
The ABS warning indicator is continuously illuminated
if there is a fault that affects ABS performance or causes
the ABS function to be disabled.
Operation of the ABS warning indicator is controlled
by a high speed CAN bus message from the ABS
module to the instrument cluster.
When the ignition switch is first turned to position II,
the ABS warning indicator illuminates for approximately
3 seconds as a bulb check. During the bulb check, if a
fault is stored in the memory of the ABS module, the
ABS warning indicator goes off for 0.5 second, 0.5
second after the start of the bulb check. If a fault during
the previous ignition cycle caused the ABS warning
indicator to be illuminated, the ABS warning indicator
may remain illuminated after the next bulb check, even
if the fault has been rectified and cleared from the ABS
module; the ABS warning indicator remains illuminated
until vehicle speed reaches 15-20 km/h (9.5-12.5 mph)
while additional checks of the related inputs are
performed.
Brake Warning Indicator
The brake warning indicator is a dual colored indicator,
located in the coolant temperature gage, that illuminates
amber for EBA faults and red for EBD faults. The brake
warning indicator is also used to give warnings of:
•Low brake fluid level (illuminates red).
•Brake pad wear (illuminates amber).
Operation of the brake warning indicator is controlled
by a high speed CAN bus message from the ABS
module to the instrument cluster.
When the ignition switch is first turned to position II,
the brake warning indicator illuminates amber for
approximately 1.5 seconds then red for approximately
1.5 seconds, as a bulb check.
DSC Warning Indicator
The DSC warning indicator is an amber colored warning
indicator located in the tachometer.
Each time the DSC or the ETC function is active, the
DSC warning indicator flashes at 2 Hz. If DSC has been
selected off, or there is a fault that disables the DSC or
the ETC function, the DSC warning indicator is
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							continuously illuminated. If DSC has been selected off,
vehicles with the high line instrument cluster also
display a message, advising that DSC is switched off.
Operation of the DSC warning indicator is controlled
by a high speed CAN bus message from the ABS
module to the instrument cluster.
When the ignition switch is first turned to position II,
the DSC warning indicator illuminates for approximately
3 seconds as a bulb check. If a fault during the previous
ignition cycle caused the DSC warning indicator to be
illuminated, the DSC warning indicator may remain
illuminated after the next bulb check, even if the fault
has been rectified and cleared from the ABS module;
the DSC warning indicator may remain illuminated
during vehicle operation while additional checks of the
related inputs are performed.
HDC Information Indicator
The HDC information indicator is a green colored
indicator located in the tachometer.
The HDC information indicator is continuously
illuminated while the HDC function is selected on and
the vehicle is within the parameters for HDC operation;
when the vehicle is outside the parameters for HDC
operation, the HDC information indicator is flashed at
2 Hz.
Operation of the HDC information indicator is
controlled by a high speed CAN bus message from the
ABS module to the instrument cluster.
When the ignition switch is first turned to position II,
the HDC information indicator illuminates for
approximately 3 seconds as a bulb check.
HDC Warning Indicator
On the low line instrument cluster, the HDC warning
indicator is an amber colored indicator located between
the tachometer and the speedometer. On vehicles with
the high line instrument cluster, the HDC warning
indicator consists of a message in the message center.
On the low line instrument cluster the HDC warning
indicator is continuously illuminated if there is a fault
that affects the HDC function, and flashed at 2 Hz if the
HDC function is temporarily unavailable because of
brake overheat.
On the high line instrument cluster, appropriate
messages are displayed in the message center if there
is a fault that affects the HDC function, or if the HDC
function is temporarily unavailable because of brake
overheat.
Operation of the HDC warning indicator is controlled
by a high speed CAN bus message from the ABS
module to the instrument cluster.
On the low line instrument cluster, when the ignition
switch is first turned to position II, the HDC warning
indicator illuminates for approximately 3 seconds as a
bulb check.
HCU
The HCU is a 4 channel unit that modulates the supply
of hydraulic pressure to the brakes under the control of
the ABS module.
The HCU is attached by three mounting bushes to a
bracket in the plenum box on the driver side of the
engine compartment. Hydraulic pipes connect the HCU
to the master cylinder and the brakes.
The primary and secondary outlets of the master cylinder
are connected to primary and secondary circuits within
the HCU. The primary circuit in the HCU has separate
outlet ports to the front brakes. The secondary circuit
in the HCU has separate outlet ports to the rear brakes.
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							Each of the circuits in the HCU contain the following
components to control the supply of hydraulic pressure
to the brakes:
•A normally open, solenoid operated, pilot valve, to
enable active braking.
•A normally closed, solenoid operated, priming valve,
to connect the brake fluid reservoir to the return
pump during active braking.
•A return pump, to generate hydraulic pressure for
active braking and return brake fluid to the reservoir.
•Normally open, solenoid operated, inlet valves and
normally closed, solenoid operated, outlet valves, to
modulate the hydraulic pressure in the individual
brakes.
•An accumulator and a relief valve, to allow the fast
release of pressure from the brakes.
•Filters, to protect the components from
contamination.
The primary circuit also incorporates a pressure sensor
to provide the ABS module with a hydraulic pressure
signal.
Contact pins on the HCU mate with contacts on the ABS
module to provide the electrical connections from the
ABS module to the return pump motor and the pressure
sensor. The solenoids that operate the valves are
installed in the ABS module.
Replacement HCU are supplied pre-filled. After
installation on the vehicle, T4 must be used to operate
the solenoid valves and the return pump to ensure correct
bleeding of the HCU and brake circuits.
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