Contents Wiring diagrams Section: Fuel System All sections

Speed Control - v8 4.4l Petrol Land Rover Range Rover Sport I

Fuel System 3 illustrations ~2658 words

SPECIFICATIONS

DescriptionNm
Speed control sensor adjuster locknut10
Speed control module retaining bolt10
Speed control sensor bolts10

TORQUE SPECIFICATIONS

PETROL ENGINE SPEED CONTROL COMPONENT LOCATION

ItemPart NumberDescription
1Engine control module (ECM)
2Instrument cluster
3Speed control switches
4Adaptive speed control module
5Transmission control module (TCM)
6Accelerator pedal position (APP)
7Brake pedal position (BPP) switch
8Adaptive speed control radar sensor
9Anti-lock brake system (ABS) module
10Electric throttle 4.4 Liter engine
11Electric throttle 4.2 Liter engine
12Transfer box control module

Scheme 100

Scheme 100: PETROL ENGINE SPEED CONTROL, CONTROL DIAGRAM
ItemPart NumberDescription
1ABS module
2ECM
3Clock spring
4Speed control switches
5Forward alert ON/OFF switch
6Adaptive speed control module
7Adaptive speed control radar sensor
8APP
9Electric throttle 4.4 Liter
10Electric throttle 4.2 Liter Supercharged
11BPP switch
12Diagnostic socket
13Instrument cluster
14TCM
AHardwired
DHigh speed controller area network (CAN)

The speed control system is integrated with the engine management system and uses fueling intervention to automatically maintain a set vehicle speed. Once engaged, the system can also be used to accelerate the vehicle without using the accelerator pedal. The speed control system comprises the following components

  1. Resume/Suspend switch
  2. '+' and '-' (set/accelerate and decelerate)
  3. Clock spring
  4. Speed control warning lamp (in the instrument cluster)

The speed control system also uses inputs from the brake pedal switch, the APP sensor, the ECM and the ABS Control Module.

The speed control is operated by the driver using only the steering wheel switches. When speed control is active, the ECM controls the electronic throttle to adjust the fuel supply as required to maintain the set speed.

CONTROL SWITCHES

ItemPart NumberDescription
1Suspend/Resume switch
2Set speed/adjust speed (+/-) Switches
3Adaptive speed control time gap adjustment switches
4Clock spring
5Wiper control column switch

The speed control switches are located on the left-hand (LH) side of the steering wheel. The switches are connected via fly leads directly to the clock spring. All of the speed control switches are non-latching momentary rocker switches. The minimum set speed for speed control is 18 mph (30 (km/h). Speed control is automatically suspended if the vehicle speed falls below 15 mph (24 km/h).

The speed control switches are resistive ladder type switches. There are three rocker switches associated with speed control, two of which are for adaptive speed control (where specified). The switches vary the resistance of a signal voltage sent to the ECM. The switches receive a 5 volt reference supply which is varied in response to which switches are pressed.

Suspend/Resume Switch

The suspend/resume switch controls the selection of speed control. When the ignition is in position II, a press of the suspend switch will activate the suspend mode which temporarily switches off the speed control system, but retains the previously set speed in the ECM memory.

Accelerate/Decelerate (+/-) Switches

When the speed control system is active, pressing the '+' switch set the controlled speed to the current road speed of the vehicle. Subsequent momentary presses of the switch increase the set road speed by 1 mph (2 km/h) with each press. If the switch is pressed and held the road speed will continue to increase until the switch is released. Momentarily pressing the '-' switch, decreases the set speed by 1 mph (2 km/h) with each press. If the switch is pressed and held, the set speed is decreased until the switch is released.

Time Gap Adjustment Switches

The time gap adjustment switches allows the driver to adjust the length of time gap between the vehicle and the vehicle in front. The maximum time gap is 2.4 seconds and the minimum time gap is 1 second.

General

The adaptive speed control system comprises the following components

  1. Adaptive Speed Control Sensor
  2. Adaptive Speed Control module
  3. Steering wheel control switches
  4. ECM
  5. Electric throttle
  6. ABS module and pump

The adaptive speed control system uses a forward looking radar sensor to scan the road ahead, looking for objects that are moving at a different rate to itself. When a target is identified the adaptive speed control system will monitor the time gap between it and the target vehicle. When that gap falls below a set driver selected level (4 seconds) the adaptive speed control system will intervene slowing the vehicle by backing off the throttle and/or applying the brakes, until the correct gap is attained.

The system will detect but not react to the following

  1. Vehicles in the oncoming lane
  2. Stationary vehicles
  3. Pedestrians
  4. Vehicles not in the same lane.

Adaptive speed control is active when the vehicle is moving. Adaptive Speed Control only functions when a set speed is entered in normal speed control mode. The adaptive speed control system only intervenes with the set speed when it detects a target vehicle, and then only if the minimum time gap is breached.

It is important to note that the system is intended for use in limited driving situations, does not remove control and responsibility from the driver, and at all times can be quickly overridden. The adaptive speed control system is not a collision warning system and will not react to stationary objects. The system does not operate below a minimum speed of approximately 30 km/h (20 mph) since it is unsuitable for use in cities or congested traffic. The system is best suited to main roads/highways with gradual bends.

The ECM, throttle body and throttle control are unchanged from those used for non Adaptive Speed Control variants.

Radar Sensing

The adaptive speed control system is based on the use of a front mounted radar sensor. The sensor transmits a 1.5° wide beam forward of the vehicle and detects the returning signals reflected off other vehicles and objects ahead. The 1.5° wide radar beam is mechanically scanned at a rate of 10 sweeps/second across a total arc of 15° centered on the longitudinal axis of the vehicle. The radar operates at millimetric wavelengths (76 - 77 GHz) and transmits a frequency modulated continuous wave signal at a relatively low power level (no high power pulses).

Radar Viewing Angle/Range

ItemPart NumberDescription
ASensor range 130 meters
BSensor scan angle 15 degrees

With the ignition switched ON, the adaptive speed control module is powered up but no radar transmissions are emitted until the vehicle is in motion.

The radar sensor detects three primary parameters of objects within the scanned arc. These are

  1. Range
  2. Relative velocity
  3. Angle
  4. Range - the radar sensor detects the presence and ranges of different vehicles and objects within the scanned arc up to a distance of approximately 130 meters. The transmitted signal frequency changes continuously in a cyclic pattern (modulation). This means that, in the time taken for the signal wave front, to travel to and from a target vehicle (or other object), the transmission frequency will have changed. The difference between the received signal frequency and the new transmission frequency is proportional to the distance between the transmitting vehicle and the target vehicle.
  5. Relative speed - when the signal is reflected off a vehicle moving at a different speed (opening or closing gap) an effect known as the Doppler shift causes an extra frequency modulation to be imposed on the signal. This Doppler frequency varies with the relative speed of the vehicle being followed, enabling the system to differentiate between vehicles traveling at different speeds and also between moving vehicles and stationary objects.
  6. Angle of target - using a narrow angle beam to scan horizontally enables the system to distinguish between vehicles in different lanes and between vehicles and roadside objects.

Follow Mode

A set speed is selected in the normal speed control manner and this speed is maintained until a slower vehicle is encountered in the lane ahead. When the vehicle ahead comes within the effective range of the radar sensor, the system identifies it as a target vehicle and an icon is illuminated on the instrument cluster to indicate that the system is in "follow mode". When the distance between the two vehicles closes to a set time gap, the adaptive speed control system closes the throttle and if necessary applies the brakes to maintain the set time gap. Follow mode is effectively a closed loop system. If several vehicles are ahead, the closest vehicle is chosen as the target to follow. If the target vehicle moves out of radar range, or if either vehicle changes lane or drops below the minimum operating speed, the system exits follow mode and the follow mode icon is extinguished. The adaptive speed control system will only raise its speed to the originally set speed, it will not accelerate past this speed to maintain a time gap.

Driver operation of the foot brake or control switches will immediately cancel adaptive speed control.

System Restrictions

The adaptive speed control system is only intended to provide enhanced speed control as described above in certain restricted conditions. The following points should be noted

Automatic braking is limited to approximately 20% of full pressure (0.2G) and is intended to provide a smooth, gradual deceleration in follow mode conditions. Harsh braking by the target vehicle or following the target vehicle down to very low speeds or to a halt will require driver override of the brakes.

While the radar sensor detects moving and stationary targets for assessment of the environment ahead, the system does not react to or provide any control in situations other than follow mode conditions. Stationary or slow moving vehicles (below 10 km/h), pedestrians, objects on the road and oncoming vehicles in the same lane are not recognized.

WARNINGIt must be emphasized that the adaptive speed control system is not a collision warning or avoidance system and that, other than the limited conditions of follow mode, driver intervention will be necessary to control the vehicle speed.

In follow mode, some situations may cause target ambiguities for the detection system. These situations include

  1. The nearby presence of a third vehicle when driving on a line slightly offset to the target vehicle
  2. Vehicles edging into the lane ahead which are not detected by the system until they have moved into the radar beam.

On the approach to, or exit from a bend, a target vehicle may be lost or a new target acquired as vehicles ahead change their angular position with respect to the radar sensor. On a straight road, if the sensing vehicle is in follow mode below its selected set speed, losing the target vehicle will cause the sensing vehicle to accelerate to this set speed. This acceleration is undesirable either on, or entering a bend when the target is suddenly lost, and in this situation the system inhibits the resumption of the set speed.

The speed control system compares vehicle speed data from the ABS system with the relative speed of an external object as detected by the radar sensor to ascertain whether the object is stationary or not.

Note. If tires are fitted which are different in diameter from those specified for the vehicle, the vehicle speed calculated by the ABS will not be the true road speed. This situation may cause stationary objects to be falsely identified as moving vehicles and result in automatic deceleration on a clear road.

Adaptive Speed Control Module

The Adaptive Speed Control module, located on the drivers side at the bottom of the A post. The control module is connected to The other vehicle systems via The high speed CAN bus. Signals from The Adaptive Speed Control forward looking radar sensor are received on a dedicated CAN bus between The two modules.

Adaptive Speed Control, Control Module Harness Connector C2145

Pin NoDescriptionInput/Output
1Not used
2Private radar sensor CAN lowInput/Output
3Private radar sensor CAN highInput/Output
4Not used
5Forward alert switch light emitting diode (LED)Output
6Not used
7Not used
8Not used
9Not used
10Not used
11Not used
12Ground (GND)
13Not used
14Ignition voltageInput
15Battery positive voltage (B+)Input
16Not used
17Not used
18Not used
19Not used
20Forward alert switchInput
21Not used
22Not used
23CAN LowInput/Output
24CAN HighInput/Output
25Not used
26Not used
27Not used
28Not used
29Not used
30Not used

Scheme 101

Scheme 101: Adaptive Speed Control Sensor

Adaptive Speed Control Sensor Harness Connector C2025

Pin NoDescriptionInput/Output
1IgnitionInput
2GND
3CANInput/Output
4CAN+Input/Output
5B+Input

The adaptive speed control radar sensor is located in the front bumper, on the LH side adjacent to the front fog light (where fitted) behind the bumper cover. The sensor is connected to the Adaptive Speed Control, module via a private CAN bus. If the unit is replaced in service the unit must be re-aligned vertically. For additional information, refer to: Speed Control Sensor .

For additional information, refer to: Speed Control Sensor Adjustment .

Horizontal alignment is achieved by putting the sensor in service mode via T4. The vehicle is then driven for a short period while the sensor calibrates itself. Calibration is complete when the 'follow' icon in the instrument cluster stops flashing.

Forward Alert

The forward alert system utilizes the Adaptive Speed Control system components. Forward alert is turned on and off independently of Adaptive Speed Control, via a switch mounted in the instrument panel above the Integrated Head Unit. Forward alert will notify the driver by means of a chime, and icon in the instrument cluster and indication in the message center, when a target vehicle comes into range. The system will NOT use throttle or brake intervention to slow the vehicle.

Note. This system is intended as a driver aid and should be used as such. The system is not a collision warning or avoidance device.

OVERVIEW

For information on the description and operation of the speed control systems, refer to Speed Control .

INSPECTION AND VERIFICATION

  1. Verify the customer concern.
  2. Visually inspect for obvious mechanical or electrical faults. Visual Inspection Mechanical Electrical Forward looking sensor condition and installation Speed control switches Forward alert switch Brake switches Tire size and condition Fuses Forward looking sensor Speed control switches Forward alert switch Brake switches Adaptive speed control module Engine control module (ECM) ABS control module Controller area network (CAN) circuits
  3. If an obvious cause for an observed or reported concern is found, correct the cause (if possible) before proceeding to the next step.
  4. Use the approved diagnostic system or a scan tool to retrieve any diagnostic trouble codes (DTCs) before moving onto the DTC index. Because the DTCs are stored in more than one module, a complete vehicle read is recommended Make sure that all DTCs are cleared following rectification.

FORWARD LOOKING SENSOR

The correct function of the system depends on the operation of the Forward Looking sensor, this requires correct alignment and an unobstructed field of view.

Customer complaints of poor system performance, late vehicle detection, late system braking, heavier than expected braking when gaining on the vehicle in front or system is detecting vehicles in adjacent lanes, may be due to the sensor pointing up or down (it should be set to level).

Check that there are no obstructions to the sensor

Check for signs of damage to the front bumper/sensor mounting area that could indicate that the sensor has been disturbed.

Check the sensor vertical alignment. For detailed instructions on sensor adjustment, refer to Speed Control Sensor Adjustment in the service information. If the sensor is adjusted up or down then carry out the diagnostic service alignment procedure using the approved diagnostic system.

DTC INDEX

Note. Generic scan tools may not read the codes listed, or may read only 5-digit codes. Match the 5 digits from the scan tool to the first 5 digits of the 7-digit code listed to identify the fault (the last 2 digits give extra information read by the manufacturer-approved diagnostic system).

DTCDescriptionPossible causesActions
C1A0041Control ModuleCruise control module power supply circuit voltage out of range General checksum failure (module internal failure)A momentary low voltage occurred, check vehicle battery and charging circuit. Refer to the relevant service information. Refer to the electrical guides and check the power supply circuits to the module. Clear the DTC and retest. Refer to the warranty policy and procedures manual if a module is suspect.
C1A6511Front Alert Switch CircuitSwitch stuck Switch circuit: short circuit to groundCheck the forward alert switch and circuits. Refer to the electrical guides.
C1A6515Front Alert Switch CircuitSwitch circuit: short circuit to power Switch circuit: high resistanceCheck the forward alert switch and circuits. Refer to the electrical guides.
C1A6611Front Alert LED CircuitLED circuit: short circuit to groundCheck the forward alert LED and circuits. Refer to the electrical guides.
C1A6615Front Alert LED CircuitLED circuit: short circuit to power LED circuit: high resistanceCheck the forward alert LED and circuits. Refer to the electrical guides.
C1A6754Forward Looking SensorMissing calibrationCalibrate the sensor using the approved diagnostic system.
C1A6787Forward Looking SensorMissing messageCheck the forward looking sensor and circuits. Refer to the electrical guides.
C1A6796Forward Looking SensorComponent internal failureCheck the forward looking sensor and circuits. Refer to the electrical guides.
C1A6797Forward Looking SensorSensor obstructed or blockedCheck and clear any obstructions from the sensor, clear the DTC and retest.
C1A6798Forward Looking SensorSensor over-temperatureClear the DTC, allow vehicle to cool down and retest. Consider the atmospheric conditions before condemning a module.
P050429Brake Switch A/B CorrelationBrake switch malfunction - sub-processorCheck for ABS DTCs, check the brake switch and circuits (refer to the electrical guides). Clear the DTCs and test for normal operation.
P050464Brake Switch A/B CorrelationBrake switch malfunctionCheck for ABS DTCs, check the brake switch and circuits (refer to the electrical guides). Clear the DTCs and test for normal operation.
P052500Cruise Control Servo Control Circuit Range/PerformanceInternal control module corruptionCheck the ECM and speed control modules and circuits. Refer to the electrical guides. Refer to the warranty policy and procedures manual if a module is suspect.
P057400Cruise Control System - Vehicle Speed Too HighVehicle speed too highCheck for ABS DTCs. Refer to the relevant service information.
P057600Cruise Control Input Circuit LowSpeed control switch short circuit to ground Speed control switch high resistanceRefer to the electrical guides and check the cruise control circuit between the ECM and switch. Check the switch operation and renew/renew as necessary.
P057700Cruise Control Input Circuit HighSpeed control switch short circuit to powerRefer to the electrical guides and check the cruise control circuit between the ECM and switch. Check the switch operation and renew/renew as necessary.
U007388Control Module Communication Bus "A" OffBus offThe module setting this code has disabled CAN transmission. Ensure that the latest patch file is installed (available on GTR). Check for other bus off codes. Check the module and circuits. Refer to the electrical guides. Clear all DTCs and a road test the vehicle. If the concern reoccurs contact Dealer Technical Support for further advice. Under no circumstance should any parts be replaced to overcome this issue.
U010087Lost Communication With ECM/PCM "A"CAN module status signals not received from the engine/powertrain control module (E/PCM) in the specified timeRefer to the lost communication statement at the start of the Network Communications section of the service information.
U010187Lost Communication with TCMCAN module status signals not received from the transmission control module TCM in the specified timeRefer to the Network Communications section of the service information.
U012287Lost Communication With Vehicle Dynamics Control ModuleCAN module status signals not received from the VDM in the specified timeRefer to the Network Communications section of the service information.
U015587Lost Communication With Instrument Panel Cluster (IPC) Control ModuleCAN Link transfer case control module/instrument cluster missing message CAN bus fault IPC disconnected IPC not configured IPC failure Harness/connector issueCheck the control module installation/configuration. Refer to the lost communication statement at the start of the Network Communications section in the service information.
U023500Lost Communication With Cruise Control Front Distance Range SensorLost communication Fault status transmittedCheck for other CAN DTCs or apparently unrelated customer complaints. Carry out a complete vehicle DTC read. Check the CAN and module power and ground circuits. Refer to the electrical guides. Repair/renew as necessary. Clear the DTCs and test for normal operation.
U030055Internal Control Module Software IncompatibilitySoftware incompatibility Not configuredConfigure the module using the approved diagnostic system.
U1A0088Private Communication NetworkBus offThe module setting this code has disabled CAN transmission. Ensure that the latest patch file is installed (available on GTR). Check for other bus off codes. Check the module and circuits. Refer to the electrical guides. Clear all DTCs and a road test the vehicle. If the concern reoccurs contact Dealer Technical Support for further advice. Under no circumstance should any parts be replaced to overcome this issue.
U1A1449CAN initialization FailureInternal electronic failureCheck the power and ground circuits to the component. Refer to the electrical guides. Configure the module(s) using the approved diagnostic system. Clear the DTC and retest. If the problem persists, renew the control module. Refer to the warranty policy and procedures manual if a module is suspect.

SPEED CONTROL SENSOR ADJUSTMENT

Special Tool(s)

Speed control aligner 310-148

Note. Special tool 310-148 is graduated in 0.5 degree increments.

Note. This procedure details how to adjust the speed control sensor vertically. There is no horizontal adjustment required.

  1. Remove the front bumper cover. For additional information, refer to: «Front Bumper Cover»(/land-rover/range-rover-sport/i-2005-2009/remont/exterior-body-panels/#bumpers) information.
  2. Set the air suspension ride height to the STANDARD setting.
  3. Using the special tool, check the speed sensor is level, (+/- 0.5 degree).
  4. Using the special tool, set the speed control sensor. Rotate the vertical adjuster.
  5. Install the front bumper cover. For additional information, refer to: «Front Bumper Cover»(/land-rover/range-rover-sport/i-2005-2009/remont/exterior-body-panels/#bumpers) information.

Scheme 102

Scheme 102: REMOVAL
  1. Disconnect the battery ground cable. For additional information, refer to: «Specifications»(/land-rover/range-rover-sport/i-2005-2009/remont/charging-system/#battery-and-charging-system-general-information__specifications) information.
  2. Remove the Dynamic Response module. For additional information, refer to: «Dynamic Response Module»(/land-rover/range-rover-sport/i-2005-2009/remont/suspension-control-systems/#ride-and-handling-optimization) information.
  3. Remove the speed control module. Loosen the bolt. Release and disconnect the electrical connector.

INSTALLATION

  1. Install the speed control module. Connect and secure the electrical connector. Tighten the bolt to 10 Nm (7 lb.ft).
  2. Install the Dynamic Response module. For additional information, refer to: «Dynamic Response Module»(/land-rover/range-rover-sport/i-2005-2009/remont/suspension-control-systems/#ride-and-handling-optimization) information.
  3. Connect the battery ground cable. For additional information, refer to: «Specifications»(/land-rover/range-rover-sport/i-2005-2009/remont/charging-system/#battery-and-charging-system-general-information__specifications) information.
  4. Program a new control module using T4.

REMOVAL

  1. Disconnect the battery ground cable. For additional information, refer to: «Specifications»(/land-rover/range-rover-sport/i-2005-2009/remont/charging-system/#battery-and-charging-system-general-information__specifications) information.
  2. Remove the front bumper cover. For additional information, refer to: «Front Bumper Cover»(/land-rover/range-rover-sport/i-2005-2009/remont/exterior-body-panels/#bumpers) information.
  3. Remove the LH bumper support bracket. Remove the 3 Torx screws. Remove the screw.
  4. Remove the speed control sensor. Remove the 2 bolts. Remove the nut. Release and disconnect the electrical connector.
  1. Install the speed control sensor. Tighten the nuts and bolts to 10 Nm (7 lb.ft). Connect and secure the electrical connector.
  2. Install the bumper support bracket. Tighten the screws.
  3. Connect the battery ground cable. For additional information, refer to: «Specifications»(/land-rover/range-rover-sport/i-2005-2009/remont/charging-system/#battery-and-charging-system-general-information__specifications) information.
  4. Adjust the speed control sensor. For additional information, refer to: «Speed Control Sensor Adjustment»(/land-rover/range-rover-sport/i-2005-2009/remont/fuel-system/#speed-control-v8-44l-petrol__speed-control-sensor-adjustment) .
  5. Install the front bumper cover. For additional information, refer to: «Front Bumper Cover»(/land-rover/range-rover-sport/i-2005-2009/remont/exterior-body-panels/#bumpers) information.
  6. Using T4, configure a new speed control sensor.