SPECIFICATIONS
| Item | Land Rover Part No. |
|---|---|
| (1) HO2s removal | STC 50545 |
| HO2s threads | Apply suitable high temperature anti-seize compound to threads of sensor |
| (1) Apply to area around sensor threads prior to attempting to remove sensor | |
| (1) | Apply to area around sensor threads prior to attempting to remove sensor |
LUBRICANTS
| Item | Description |
|---|---|
| Engine management system | |
| Make | Denso |
| Type | PAG EMS - Generation 1 |
| Camshaft position sensor | |
| Make | Denso |
| Type | Left-hand XR83-6B288-AB and Right-hand 2W93-6B288-AA |
| Crankshaft position sensor | |
| Make | Denso |
| Type | XW43-6C315-BB |
ENGINE MANAGEMENT SYSTEM
| Description | Nm | Lb-ft |
|---|---|---|
| (1) Heated oxygen sensor (HO2S) | 45 | 33 |
| (2) RH catalytic converter to exhaust manifold bolts | 22 | 16 |
| (2) LH catalytic converter to exhaust manifold bolts | 22 | 16 |
| (1) Catalyst monitor sensor | 45 | 33 |
| Catalyst monitor sensor heat shield bolts | 10 | 7 |
| Mass air flow (MAF) sensor Torx screws | 2 | 1.5 |
| Camshaft position (CMP) sensor bolt | 7 | 5 |
| Throttle body bolts | 10 | 7 |
| Crankshaft position (CKP) sensor Torx screw | 8 | 6 |
| Knock sensor (KS) bolt | 20 | 15 |
| Oil pressure sensor | 12 | 9 |
| Radiator access panel bolts | 10 | 7 |
| Oil temperature sensor | 20 | 15 |
| Manifold Absolute Pressure (MAP) sensor | 3 | 2 |
| Fuel rail temperature sensor | 7 | 5 |
| Wiring harness support bracket retaining bolt | 10 | 7 |
| Supercharger pressure relief actuator | 10 | 7 |
| Intake air temperature sensor torx screws | 6 | 4 |
| Fuel rail pressure sensor bolts | 6 | 4 |
| (1) Apply anti-seize lubricant to threads of sensor - See Lubricants (2) New bolts must be installed | ||
| (1) | Apply anti-seize lubricant to threads of sensor - See Lubricants |
| (2) | New bolts must be installed |
TORQUE SPECIFICATIONS
V8 4.2 Liter Electronic Engine Controls-Component Location (Sheet 1 Of 2)
Scheme 10
| Item | Part Number | Description |
|---|---|---|
| 1 | Positive crankcase ventilation (PCV) valve | |
| 2 | Fuel rail temperature sensor | |
| 3 | Electric throttle | |
| 4 | RFI capacitor | |
| 5 | Injectors | |
| 6 | Knock sensor | |
| 7 | Manifold absolute pressure and temperature (MAPT) sensor | |
| 8 | Camshaft position (CMP) sensor | |
| 9 | Manifold absolute pressure (MAP) sensor | |
| 10 | Universal Heated Exhaust Gas Oxygen (UHEGO) sensors | |
| 11 | CMP sensor | |
| 12 | Heated Exhaust Gas Oxygen (HEGO) sensors | |
| 13 | Crankshaft position (CKP) sensor | |
| 14 | Spark plugs | |
| 15 | Ignition coils | |
| 16 | Mass air flow (MAF)/intake air temperature (IAT) |
V8 4.2 Liter Electronic Engine Controls - Component Location (Sheet 2 Of 2)
Scheme 11
| Item | Part Number | Description |
|---|---|---|
| 1 | Main relay | |
| 2 | Transfer box control module | |
| 3 | Engine control module (ECM) | |
| 4 | Accelerator pedal position (APP) | |
| 5 | Brake light switch | |
| 6 | Anti-lock brake system (ABS) control module |
4.2 Liter Electronic Engine Controls - Input Control Diagram (Sheet 1 Of 2)
Scheme 12
| Item | Part Number | Description |
|---|---|---|
| 1 | Main relay | |
| 2 | CMP sensor x2 | |
| 3 | CKP sensor | |
| 4 | Engine coolant temperature (ECT) sensor | |
| 5 | APP sensor | |
| 6 | MAPT sensor | |
| 7 | MAP sensor | |
| 8 | Engine oil temperature sensor | |
| 9 | MAF/IAT sensor | |
| 10 | Fuel rail temperature sensor | |
| 11 | Restraints control module (RCM) | |
| 12 | Brake light switch | |
| 13 | Park/neutral signal from transmission control module (TCM) | |
| 14 | Knock sensors | |
| 15 | Fuel rail pressure sensor | |
| 16 | ECM | |
| 17 | Fuse 27E | |
| 18 | Fuse 13E | |
| 19 | Ignition switch | |
| 20 | Fuse 10E |
4.2 Liter Electronic Engine Controls - Control Diagram (Sheet 2 Of 2)
Note. A = Hardwired; D = High speed CAN
Scheme 13
| Item | Part Number | Description |
|---|---|---|
| 1 | Injectors | |
| 2 | Engine cooling fan control/monitor | |
| 3 | ABS control module | |
| 4 | Steering angle sensor | |
| 5 | Terrain response control module | |
| 6 | Instrument cluster | |
| 7 | TCM | |
| 8 | RCM | |
| 9 | Differential control module | |
| 10 | Adaptive speed control sensor | |
| 11 | Adaptive speed control module | |
| 12 | Transfer box control module | |
| 13 | Electric park brake control module | |
| 14 | Automatic temperature control (ATC) control module | |
| 15 | DMTL pump | |
| 16 | UHEGOs | |
| 17 | Ignition coils | |
| 18 | HEGOs | |
| 19 | Generator | |
| 20 | ECM | |
| 21 | Fuel pump relay | |
| 22 | Fuel pump driver module (FPDM) | |
| 23 | Speed control switches | |
| 24 | Clock spring | |
| 25 | Electric throttle |
OVERVIEW
The V8 4.2 Liter supercharged engine is controlled by an ECM manufactured by DENSO. The Engine Management System (EMS) controls the following
- Engine fueling
- Ignition timing
- Closed loop fueling
- Knock control
- Idle speed control
- Emission control
- On-board diagnostic (OBD)
- Interface with the immobilization system
- Speed control
The ECM controls the engine fueling by providing sequential fuel injection to all cylinders. Ignition is controlled by a direct ignition system, provided by eight plug top coils. The ECM is able to detect and correct for ignition knock on each cylinder and adjust the ignition timing for each cylinder to achieve optimum performance.
The ECM uses a torque-based strategy to generate the torque required by the driver and other vehicle control modules. The EMS uses various sensors to determine the torque required from the engine. The EMS also interfaces with other vehicle electronic control modules's, via the controller area network (CAN) bus, to obtain additional information (e.g. road speed from the ABS control module). The EMS processes these signals and decides how much torque to generate. Torque is then generated by using various actuators to supply air, fuel and spark to the engine (electronic throttle, injectors, coils, etc.).
Scheme 14
The ECMis located in the E-Box in the plenum area on the passenger side of the engine compartment attached to the bulkhead.
System ECM has the following inputs
- RCM
- Park/neutral switch
- Ignition coil feedback x2
- Fuel rail temperature
- Fuel rail pressure
- Supercharger inlet pressure
- Mass air flow
- Engine speed
- Camshaft position x2
- Driver demand
- Brake pedal position switch
- Speed control switches
- Generator load
- Oxygen sensors pre catalyst x2
- Oxygen sensors post catalyst x2
- Throttle position
- Cooling fan speed
- Ignition switch position
- Knock sensors x2
- MAP
- Intercooler temperature
- Coolant temperature
- Engine oil temperature
The ECM outputs to the following
- Throttle Actuator
- Brake vacuum pump relay
- Ignition coils (x8)
- Oxygen sensor heaters (4)
- Fuel injectors (8)
- Purge Valve
- Engine Cooling Fan
- Fuel pump relay
- Starter Relay
- EMS Main Relay
- Viscous Fan Control
- Generator Control
- Diagnostic Module Tank Leakage (DMTL) (NAS Only)
- E box fan
- FPDM
ECM Connector C0634 Pin Out Table
| Pin No | Description | Input/Output |
|---|---|---|
| 1 | Not used | |
| 2 | Not used | |
| 3 | Generator monitor | Input |
| 4 | Not used | |
| 5 | Not used | |
| 6 | CKP sensor | Input |
| 7 | CMP sensor 1ground (GND) | |
| 8 | CMP sensor 2GND | |
| 9 | Not used | |
| 10 | Throttle position (TP) sensor GND | |
| 11 | MAP sensor ground | |
| 12 | Fuel rail pressure (FRP) sensor ground | |
| 13 | Not used | |
| 14 | Not used | Input |
| 15 | ECT ground | |
| 16 | Not used MAF ground | |
| 17 | Not used | |
| 18 | MAF sensor ground | |
| 19 | Knock sensor 1A ground | |
| 20 | Knock sensor 1B ground | |
| 21 | Not used | |
| 22 | Not used | |
| 23 | Oil temperature sensor | Input |
| 24 | MAPT sensor 5v ref | Output |
| 25 | Not used | |
| 26 | UHEGO sensor bank B signal | Input |
| 27 | UHEGO sensor bank B GND | |
| 28 | UHEGO sensor bank A signal | Input |
| 29 | UHEGO sensor bank A GND | |
| 30 | CKP sensor + | Input |
| 31 | Not used | |
| 32 | Not used | |
| 33 | CMP signal bank B | Input |
| 34 | CMP signal bank A | Input |
| 35 | Not used | |
| 36 | Not used | |
| 37 | Not used | |
| 38 | MAPsignal | Input |
| 39 | IAT | Input |
| 40 | Not used | Input |
| 41 | Not used | Input |
| 42 | Knock sensor 1 A + | Input |
| 43 | Knock sensor 1 B + | Input |
| 44 | Not used | |
| 45 | Not used | |
| 46 | Fuel rail temperature sensor | Input |
| 47 | Fuel rail pressure sensor 5 V ref voltage | Output |
| 48 | MAP sensor 5 V ref voltage | Output |
| 49 | Not used | |
| 50 | Not used | |
| 51 | Not used | |
| 52 | Not used | |
| 53 | Not used | |
| 54 | Ignition coil cylinder 4B | Output |
| 55 | Ignition coil cylinder 4A | Output |
| 56 | Ignition coil cylinder 3B | Output |
| 57 | Ignition coil cylinder 3A | Output |
| 58 | Ignition coil cylinder 2B | Output |
| 59 | Ignition coil cylinder 2A | Output |
| 60 | Ignition coil cylinder 1B | Output |
| 61 | Ignition coil cylinder 1A | Output |
| 62 | Ignition failure signal bank A | Input |
| 63 | Viscous fan speed monitor | Input |
| 64 | Ignition failure signal bank B | Input |
| 65 | TP sensor 1 | Input |
| 66 | MAF | Input |
| 67 | TP sensor 2 | Input |
| 68 | ECT | Input |
| 69 | Inlet manifold boost pressure | Input |
| 70 | MAF | Input |
| 71 | Fuel rail pressure sensor signal | Input |
| 72 | Electric throttle 5V reference | Output |
| 73 | Not used | |
| 74 | Throttle valve open direction | Output |
| 75 | Throttle valve open direction + | Output |
| 76 | UHEGO Heater bank A | Output |
| 77 | UHEGO Heater bank B | Output |
| 78 | Injector cylinder 1A | Output |
| 79 | Injector cylinder 1B | Output |
| 80 | Injector cylinder 2A | Output |
| 81 | Injector cylinder 2B | Output |
| 82 | Injector cylinder 3A | Output |
| 83 | Injector cylinder 3B | Output |
| 84 | Injector cylinder 4A | Output |
| 85 | Injector cylinder 4B | Output |
| 86 | Not used | |
| 87 | Not used | |
| 88 | Not used | |
| 89 | Not used | |
| 90 | Not used | |
| 91 | Not used | |
| 92 | Purge valve | Output |
| 93 | Viscous fan request | Output |
| 94 | E box fan | Output |
| 95 | FPDM power | Output |
| 96 | Generator control | Output |
ECM Connector C0635 Pin Out Table
| Pin No | Description | Input/Output |
|---|---|---|
| 1 | Signal ground 1 | |
| 2 | Power ground 1 | |
| 3 | Power ground 3 | |
| 4 | Power ground 2 | |
| 5 | ECM power | Output |
| 6 | Electric throttle power | Input |
| 7 | APP sensor ground 1 | |
| 8 | APP sensor ground 2 | |
| 9 | Not used | |
| 10 | Not used | |
| 11 | Not used | |
| 12 | Not used | |
| 13 | Not used | |
| 14 | Not used | |
| 15 | Park/Neutral signal | Input |
| 16 | EMS relay | Output |
| 17 | Crank request | Input |
| 18 | Not used | |
| 19 | APP sensor 2 5V ref | Output |
| 20 | FPDM control | Output |
| 21 | FPDM monitor | Input |
| 22 | HEGO sensor A GND | |
| 23 | DMTL heater | Output |
| 24 | APP sensor 1 signal | Output |
| 25 | HEGO sensor A | Input |
| 26 | HEGO sensor B | Input |
| 27 | Not used | |
| 28 | RCM | Input |
| 29 | Not used | |
| 30 | Ignition switch | Input |
| 31 | Not used | |
| 32 | APP sensor 1 5V reference | Output |
| 33 | DMTL pump | Output |
| 34 | HEGO sensor B GND | |
| 35 | Speed control switch | Output |
| 36 | Speed control switch + | Input |
| 37 | Not used | |
| 38 | APP sensor 2 demand | Input |
| 39 | Not used | |
| 40 | Not used | |
| 41 | Brake pedal switch | Input |
| 42 | Not used | |
| 43 | Not used | |
| 44 | CAN out | Input/output |
| 45 | CAN in | Input/output |
| 46 | HEGO heater A | Output |
| 47 | HEGO heater B | Output |
| 48 | DMTL valve | Output |
| 49 | Not used | |
| 50 | Vacuum pump relay | Output |
| 51 | Starter relay | Output |
| 52 | Not used | |
| 53 | Not used | |
| 54 | Battery voltage | Input |
| 55 | Not used | |
| 56 | Not used | |
| 57 | CAN out + | Input/output |
| 58 | CAN in + | Input/output |
Scheme 15
The crankshaft position sensor is mounted at the rear underside of the engine near the transmission bell housing. Connection between the sensor and the harness is via a link harness and a two-way connector. Both wires go directly to the ECM. The sensor produces the signal which enables the ECM to determine the angle of the crankshaft, and the engine rpm. From this, the point of ignition, fuel injection, etc. is calculated. If the signal wires are reversed a 3 degrees advance in timing will occur, as the electronics within the ECM uses the falling edge of the signal waveform as its reference/timing point for each tooth.
The reluctor is pressed into the flywheel and has a "tooth" pattern based on 36 teeth at 10° intervals and approximately 5° wide: one of the teeth is removed to provide a hardware reference mark which is 30 degrees before top dead center (BTDC) No. 1 cylinder. Because of the crankshaft sensor's orientation, the target wheel uses windows stamped into the face, rather than actual teeth.
The sensor operates by generating an output voltage caused by the change in magnetic field that occurs as the windows pass in front of the sensor. The output voltage varies with the speed of the windows passing the sensor, the higher the engine speed, the higher the output voltage. Note that the output is also dependent on the air gap between the sensor and the teeth (the larger the gap, the weaker the signal, the lower the output voltage). The ECM transmits the engine speed to other vehicle control modules on CAN.
Scheme 16
Two sensors are located at the rear of the engine, in the cylinder head (one per bank), above the rear cylinders. The sensors are Variable Reluctor Sensor (VRS) type, producing four pulses for every two engine crankshaft revolutions. The sensing element is positioned between 0 and 2mm from the side of the cam gear wheel.
The camshaft timing wheel is a centered component which has four teeth on it to enable the EMS to detect cylinder identification. The signal is used for
- Cylinder recognition
- Enabling sequential fuel injection
- Knock control
- Cylinder identification for diagnostic purposes.
Failure symptoms include
- Ignition timing reverting to the base mapping, with no cylinder correction.
- Active knock control is disabled, along with its diagnostic (Safe ignition map - loss of performance).
- Quick cam/crank synchronization on start disabled.
Scheme 17
The ECT sensor is located at the front of the engine at the rear of the thermostat housing. The ECT sensor is a thermistor used to monitor the engine coolant temperature. The engine coolant temperature sensor is vital to the correct running of the engine as a richer mixture is required at lower block temperatures for good quality starts and smooth running, leaning off as the temperature rises to maintain emissions and performance.
The sensor has an operating temperature range of -30 Degrees Celsius to 125 Degrees Celsius. The maximum engine coolant temperature the ECM outputs on the CAN is the 119 Degrees Celsius. When a defective coolant sensor is detected, the ECM uses the oil temperature sensor value.
Scheme 18
Oil temperature is monitored through a temperature sensor mounted in the oil system. This component is a negative temperature coefficient (NTC). The sensor is mounted next to the oil pressure sensor at the front of the engine and locates into the oil filter bracket.
Scheme 19
The fuel rail temperature sensor measures the temperature of the fuel in the fuel rail. This input is then used to deliver the correct quantity of fuel to the engine. The sensors operating range is -40 Degrees Celsius to 150 Degrees Celsius. The fuel rail temperature sensor is fitted on the rear of the right hand bank (bank A) fuel rail.
Scheme 20
The fuel rail pressure sensor is located on top of the fuel rail adjacent to the fuel inlet. The fuel rail pressure sensor measures the pressure of the fuel in the fuel rail. This input is then used by the fuel pump driver module to control the amount of fuel delivered to the fuel rail.
DIAGNOSTIC MONITORING OF TANK LEAKAGE (DMTL) - NAS ONLY
Charcoal Canister with DMTL Pump (NAS only)
Scheme 21
| Item | Part Number | Description |
|---|---|---|
| 1 | Charcoal canister atmospheric pressure vent connection (via DMTL pump) | |
| 2 | DMTL pump | |
| 3 | Charcoal canister | |
| 4 | Electrical connector | |
| 5 | Purge hose connection | |
| 6 | Charcoal canister tank vent hose connection |
The DMTL system periodically checks the evaporative system and the fuel tank for leaks when the ignition is switched off. The DMTL pump is connected to the atmospheric vent of the charcoal canister and incorporates a positive temperature coefficient (PTC) heating element a normally open valve and a reference orifice. The DMTL pump is only operated when the ignition is switched off and is controlled by the ECM. The ECM also monitors the electric air pump operation and the normally open valve for faults. To check the fuel tank and EVAP system for leaks the ECM operates the DMTL pump and monitors the current draw. This is compared to a referenced figure established from the current draw when air is pumped through the reference orifice.
For additional information, refer to: Evaporative Emissions information.
PURGE VALVE
Purge Valve and Hoses location
Scheme 22
| Item | Part Number | Description |
|---|---|---|
| 1 | Fuel feed jump hose (ref only) | |
| 2 | Purge hose connector | |
| 3 | Purge valve | |
| 4 | Bracket | |
| 5 | Purge hose | |
| 6 | Electronic throttle | |
| 7 | Induction elbow |
The purge valve is located at the rear of the engine on a bracket which is attached to the transmission bell housing. The purge valve is a solenoid operated valve which is closed when de-energized. The purge valve is controlled by a 10Hz pulse width modulation (PWM) signal from the ECM. When the engine operating conditions are correct, the ECM opens the purge valve which causes fuel vapor and fresh air to be drawn through the charcoal canister. The fresh air is drawn through the charcoal canister via the DMTL pump fresh air vent.
For additional information, refer to: Evaporative Emissions information.
MASS AIR FLOW/INLET AIR TEMPERATURE (MAF/AT) SENSOR
The MAF/IATis located in the clean air duct immediately after the air filter box.
The air mass flow is determined by the cooling effect of inlet air passing over a "hot film" element contained within the device. The higher the air flow the greater the cooling effect and the lower the electrical resistance of the "hot film" element. The ECM then uses this signal from the MAF to calculate the air mass flowing into the engine.
The measured air mass flow is used in determining the fuel quantity to be injected in order to maintain the stichometric air/fuel mixture required for correct operation of the engine and exhaust catalysts. Should the device fail there is a software backup strategy that will be evoked once a fault has been diagnosed.
The following symptoms may be observed if the sensor fails
- During driving the engine RPM might dip, before recovering.
- Difficulty in starting or start - stall.
- Poor throttle response/engine performance.
- Lambda control and idle speed control halted.
- Emissions incorrect.
- AFM signal offset
The IAT sensor is integrated into the MAF meter. It is a temperature dependent resistor (thermistor), i.e. the resistance of the sensor varies with temperature. This thermistor is a NTC type element meaning that the sensor resistance decreases as the sensor temperature increases. The sensor forms part of a voltage divider chain with an additional resistor in the ECM. The voltage from this sensor changes as the sensor resistance changes, thus relating the air temperature to the voltage measured by the ECM.
The ECM stores a 25 Degrees Celsius default value for air temperature in the event of a sensor failure.
MANIFOLD ABSOLUTE PRESSURE (MAP) SENSOR-SUPERCHARGER INLET PRESSURE
The MAP sensor provides a voltage proportional to the absolute pressure in the supercharger intake. This signal allows the load on the engine to be calculated and used within the internal calculations of the ECM. The sensor is located below the electric throttle on the induction elbow.
MAP Pin Out Table
| Pin No | Description |
|---|---|
| 1 | MAPsignal |
| 2 | Sensor supply |
| 3 | Not used |
| 4 | Sensor ground |
The output signal from the MAP sensor, together with the CKP and IAT sensors, is used by the ECM to calculate the amount of air induced into the cylinders. This enables the ECM to determine ignition timing and fuel injection duration values.
The MAP sensor receives a 5V supply voltage from pin 48 of ECM connector C0634 and provides an analogue signal to pin 38 of ECM connector C0634, which relates to the absolute manifold pressure and allows the ECM to calculate engine load. The ECM provides a ground for the sensor via pin 11 of ECM connector C0634.
If the MAP signal is missing, the ECM will substitute a default manifold pressure reading based on crankshaft speed and throttle angle. The engine will continue to run with reduced driveability and increased emissions, although this may not be immediately apparent to the driver. The ECM will store fault codes which can be retrieved using T4.
Scheme 23
The MAPT is located to the rear of the right-hand (RH) engine bank intercooler outlet. The sensor measures the pressure and temperature of the inducted air prior to it entering the cylinders.
The sensor fits and seals using a radial 'O' ring seal directly to the inlet manifold.
The MAPT signal is used to retard the ignition timing relative to boost pressure. The intercooler temperature is used for air charge density calculations and for intercooler diagnostic purposes.
| Pin No | Description | Input/Output |
|---|---|---|
| 1 | Boost pressure | Output |
| 2 | Sensor supply | Input |
| 3 | Intercooler outlet temperature | Output |
| 4 | Sensor ground |
Scheme 24
The V8 EMS has two knock sensors located in the V of the engine, one per cylinder bank. The sensors are connected to the ECM via a twisted pair.
The knock sensors produce a voltage signal in proportion to the amount of mechanical vibration generated at each ignition point. Each sensor monitors the related cylinder bank.
The knock sensors incorporate a piezo-ceramic crystal. This crystal produces a voltage whenever an outside force tries to deflect it, (i.e. exerts a mechanical load on it). When the engine is running, the compression waves in the material of the cylinder block, caused by the combustion of the fuel/air mixture within the cylinders, deflect the crystal and produce an output voltage signal. The signals are supplied to the ECM, which compares them with 'mapped' signals stored in memory. From this, the ECM can determine when detonation occurs on individual cylinders. When detonation is detected, the ECM retards the ignition timing on that cylinder for a number of engine cycles, then gradually returns it to the original setting.
Care must be taken at all times to avoid damaging the knock sensors, but particularly during removal and fitting procedures. The recommendations regarding torque and surface preparation must be adhered to. The torque applied to the sensor and the quality of the surface preparation both have an influence over the transfer of mechanical noise from the cylinder block to the crystal.
The ECM uses the signals supplied by the knock sensors, in conjunction with the signal it receives from the camshaft sensor, to determine the optimum ignition point for each cylinder. The ignition point is set according to preprogrammed ignition maps stored within the ECM. The ECM is programmed to use ignition maps for 98 research octane number (RON) premium specification fuel. It will also function on 91 RON regular specification fuel and learn new adaptions. If the only fuel available is of poor quality, or the customer switches to a lower grade of fuel after using a high grade for a period of time, the engine may suffer slight pre-ignition for a short period. This amount of pre-ignition will not damage the engine. This situation will be evident while the ECM learns and then modifies its internal mapping to compensate for the variation in fuel quality. This feature is called adaption. The ECM has the capability of adapting its fuel and ignition control outputs in response to several sensor inputs.
The ECM will cancel closed loop control of the ignition system if the signal received from either knock sensor becomes implausible. In these circumstances the ECM will default to a safe ignition map. This measure ensures the engine will not become damaged if low quality fuel is used. The malfunction indicator lamp (MIL) will not illuminate, although the driver may notice that the engine 'pinks' in some driving conditions and displays a drop in performance and smoothness.
When a knock sensor fault is stored, the ECM will also store details of the engine speed, engine load and the coolant temperature.
Scheme 25
The V8 EMS incorporates an electric throttle control system. The electronic throttle body is located on the air intake manifold in the engine compartment. The system comprises three main components
- Electronic throttle control valve
- APP
- ECM
When the accelerator pedal is depressed the APP sensor provides a change in the monitored signals. The ECM compares this against an electronic "map" and moves the electronic throttle valve via a PWM control signal which is in proportion to the APP angle signal. The system is required to
- Regulate the calculated intake air load based on the accelerator pedal sensor input signals and programmed mapping.
- Monitor the drivers input request for cruise control operation.
- Automatically position the electronic throttle for accurate cruise control.
- Perform all dynamic stability control throttle control interventions.
- Monitor and carry out maximum engine and road speed cut out.
- Provide differing responses for differing Terrain response modes.
A software strategy within the ECM enables the throttle position to be calibrated each ignition cycle. When the ignition is turned ON, the ECM performs a self test and calibration routine on the electronic throttle by closing the throttle full, then opening again. This tests the default position springs.
Electronic Throttle Pin Out Table
| Pin No | Description |
|---|---|
| 1 | Motor + |
| 2 | Motor |
| 3 | Sensor ground |
| 4 | Sensor 2 signal |
| 5 | 5 volt supply |
| 6 | Sensor 1 signal |
Scheme 26
The APP sensors are located on the accelerator pedal assembly.
The APP sensors are used to determine the driver's request for vehicle speed, acceleration and deceleration. This value is used by the ECM and the throttle is opened to the correct angle by an electric motor integrated into the throttle body.
The APP Sensor signals are checked for range and plausibility. Two separate reference voltages are supplied to the pedal. Should one sensor fail, the other is used as a 'limp - home' input. In limp home mode due to an APP signal failure the ECM will limit the maximum engine speed to 2000 rpm.
APP Pin Out Table
| Pin No | Description |
|---|---|
| 1 | APP 1 ground |
| 2 | APP 1 demand |
| 3 | APP2 ground |
| 4 | Not used |
| 5 | APP 2 demand |
| 6 | Supply 2, 5 volt |
| 7 | Supply 1, 5 volt |
| 8 | Not used |
OXYGEN SENSORS
There are four oxygen sensors located in the exhaust system. Two upstream before the catalytic converter and two down stream after the catalytic converter. The sensor monitors the level of oxygen in the exhaust gases and is used to control the fuel/air mixture. Positioning a sensor in the stream of exhaust gasses from each bank enables the ECM to control the fueling on each bank independently of the other, allowing much closer control of the air/fuel ratio and catalyst conversion efficiency.
Upstream Oxygen Sensors
Scheme 27
Downstream Oxygen Sensors
Scheme 28
The oxygen sensors need to operate at high temperatures in order to function correctly. To achieve the high temperatures required, the sensors are fitted with heater elements that are controlled by a PWM signal from the ECM. The heater elements are operated immediately following engine start and also during low load conditions when the temperature of the exhaust gases is insufficient to maintain the required sensor temperatures. A non-functioning heater delays the sensor's readiness for closed loop control and influences emissions. The PWM duty cycle is carefully controlled to prevent thermal shock to cold sensors.
UHEGO (Universal Heated Exhaust Gas Oxygen) sensors also known as Linear or "Wide Band" sensors produces a constant voltage, with a variable current that is proportional to the oxygen content. This allows closed loop fueling control to a target lambda, i.e. during engine warm up (after the sensor has reached operating temperature and is ready for operation). This improves emission control.
The HEGO sensor uses Zirconium technology that produces an output voltage dependent upon the ratio of exhaust gas oxygen to the ambient oxygen. The device contains a Galvanic cell surrounded by a gas permeable ceramic, the voltage of which depends upon the level of O2 defusing through. Nominal output voltage of the device for l = 1 is 300 to 500m volts. As the fuel mixture becomes richer (l<1) the voltage tends towards 900m volts and as it becomes leaner (l > 1) the voltage tends towards 0 volts. Maximum tip temperature is 1, 000 Degrees Celsius for a maximum of 100 hours.
Sensors age with mileage, increasing their response time to switch from rich to lean and lean to rich. This increase in response time influences the ECM closed loop control and leads to progressively increased emissions. Measuring the period of rich to lean and lean to rich switching monitors the response rate of the upstream sensors.
Diagnosis of electrical faults is continually monitored in both the upstream and downstream sensors. This is achieved by checking the signal against maximum and minimum threshold, for open and short circuit conditions.
Oxygen sensors must be treated with the utmost care before and during the fitting process. The sensors have ceramic material within them that can easily crack if dropped/banged or over-torqued. The sensors must be torqued to the required figure, (40-50Nm), with a calibrated torque wrench. Care should be taken not to contaminate the sensor tip when anti-seize compound is used on the thread. Heated sensor signal pins are tinned and universal are gold plated. Mixing up sensors could contaminate the connectors and affect system performance.
Failure Modes
- Mechanical fitting & integrity of the sensor.
- Sensor open circuit/disconnected.
- Short circuit to vehicle supply or ground.
- Lambda ratio outside operating band.
- Crossed sensors bank A & B.
- Contamination from leaded fuel or other sources.
- Change in sensor characteristic.
- Harness damage.
- Air leak into exhaust system.
Failure Symptoms
- Default to Open Loop fueling for the particular cylinder bank
- High CO reading.
- Strong smell of H02S (rotten eggs) till default condition.
- Excess Emissions.
It is possible to fit front and rear sensors in their opposite location. However the harness connections are of different gender and color to ensure that the sensors cannot be incorrectly connected. In addition to this the upstream sensors have two holes in the shroud, whereas the down stream sensors have four holes in the shroud for the gas to pass through.
GENERATOR
The Generator has a multifunction voltage regulator for use in a 14V charging system with 6÷12 zener diode bridge rectifiers.
The ECM monitors the load on the electrical system via PWM signal and adjusts the generator output to match the required load. The ECM also monitors the battery temperature to determine the generator regulator set point. This characteristic is necessary to protect the battery; at low temperatures battery charge acceptance is very poor so the voltage needs to be high to maximize any rechargeability, but at high temperatures the charge voltage must be restricted to prevent excessive gassing of the battery with consequent water loss.
The generator has a smart charge capability that will reduce the electrical load on the generator reducing torque requirements, this is implemented to utilize the engine torque for other purposes. This is achieved by monitoring three signals to the ECM
- Generator sense (A sense), measures the battery voltage at the central junction box (CJB).
- Generator communication (Alt Com) communicates desired generator voltage set point from ECM to Generator.
- Generator monitor (Alt Mon) communicates the extent of generator current draw to ECM. This signal also transmits faults to the ECM which will then sends a message to the instrument cluster on the CAN bus to illuminate the charge warning lamp. For additional information, refer to: «Generator»(/land-rover/range-rover-sport/i-2005-2009/remont/charging-system/#generator-and-regulator-v8-sc-42l-petrol) information.
Scheme 29
The engine has 8 fuel injectors (one per cylinder), each injector is directly driven by the ECM. The injectors are fed by a common fuel rail as part of a 'return less' fuel system. The fuel rail pressure is regulated to 4.5 bar by a fuel pressure regulator which is integral to the fuel pump module, within the fuel tank. The injectors can be checked by resistance checks. There is a fuel pressure test Schrader valve attached to the fuel rail on the front left-hand (LH). The ECM monitors the output power stages of the injector drivers for electrical faults.
The injectors have a resistance of 13.8 Ohms ± 0.7 Ohms @ 20 Degrees Celsius For additional information, refer to: Fuel Charging And Controls information.
Scheme 30
The V8 engine is fitted with eight plug-top coils that are driven directly by the ECM. This means that the ECM, at the point where sufficient charge has built up, switches the primary circuit of each coil and a spark is produced in the spark plug. The positive supply to the coil is fed from a common fuse. Each coil contains a power stage to trigger the primary current. The ECM sends a signal to each of the coils power stage to trigger the power stage switching. Each bank has a feedback signal that is connected to each power stage. If the coil power stage has a failure the feedback signal is not sent, causing the ECM to store a fault code appropriate to the failure.
The ECM calculates the dwell time depending on battery voltage and engine speed to ensure constant secondary energy. This ensures sufficient secondary (spark) energy is always available, without excessive primary current flow thus avoiding overheating or damage to the coils.
The individual cylinder spark timing is calculated from a variety of inputs
- Engine speed and load.
- Engine temperature.
- Knock control.
- Auto gearbox shift control.
- Idle speed control.
For additional information, refer to: Engine Ignition information.
FUEL PUMP RELAY
The ECM controls the fuel pump relay which in turn controls the power supply to the fuel pump driver module. The ECM energizes the relay ON with ignition ON, via pin A95 of the ECM.
Scheme 31
The fuel pump driver module is located in the rear LH quarter, adjacent to the parking aid control module.
The fuel pump is controlled by the ECM. The ECM sends a PWM signal to the fuel pump driver module from pin B20 of the ECM, the frequency of the signal determines the duty cycle of the pump. The PWM signal to the pump represents half the ON time of the pump. If the ECM transmits a 50% on time, the fuel pump driver module drives the pump at 100%. If the ECM transmits a 5% ON time, the fuel pump driver module drives the pump at 10%. The fuel pump driver module will only turn the fuel pump ON if it receives a valid signal between 4% and 50%. When The ECM requires the fuel pump to be turned OFF, the ECM transmits a duty cycle signal of 75%.
The status of the fuel pump driver module is monitored by the ECM on pin B21. Any errors can be retrieved from the ECM. The fuel pump driver module cannot be interrogated for diagnostic purposes.
The MAP sensor controls the fuel pump driver module in response to inputs from the fuel rail pressure sensor, the MAP sensor and the MAF/IAT sensor.
Harness Connector C2369 Pin Out Details
| Pin No | Description | Input/Output |
|---|---|---|
| 1 | Pump + | Output |
| 2 | Pump | |
| 3 | ECMPWM signal | Input |
| 4 | Diagnostic signal | Output |
| 5 | Battery voltage | Input |
| 6 | GND |
VISCOUS FAN CONTROL
The ECM controls a viscous coupled fan to provide engine cooling. The ECM supplies the fan with a PWM signal that controls the amount of slippage of the fan, thus providing the correct amount of cooling fan speed and airflow. The EMS uses a Hall effect sensor to determine the fan speed.
For additional information, refer to: Engine Cooling information.
ECM ADAPTIONS
The ECM has the ability to adapt the values it uses to control certain outputs. This capability ensures the EMS can meet emissions legislation and improve the refinement of the engine throughout its operating range.
The components which have adaptions associated with them are
- The APP sensor
- The oxygen sensors
- The MAF/IAT sensor
- The CKP sensor
- The Electric throttle body.
UHEGO/HEGO AND MAF/AT SENSOR
There are several adaptive maps associated with the fueling strategy. Within the fueling strategy the ECM calculates short-term adaptions and long term adaptions. The ECM will monitor the deterioration of the oxygen sensors (HEGO and UHEGO) over a period of time. It will also monitor the current correction associated with the sensors.
The ECM will store a fault code in circumstances where an adaption is forced to exceed its operating parameters. At the same time, the ECM will record the engine speed, engine load and intake air temperature.
CRANKSHAFT POSITION SENSOR
The characteristics of the signal supplied by the CKP sensor is learned by the ECM. This enables the ECM to set an adaption and support the engine misfire detection function. Due to the small variation between different flywheels and different CKP sensors, the adaption must be reset if either component is renewed, or removed and refitted. It is also necessary to reset the flywheel adaption if the ECM is renewed or replaced. The ECM supports four flywheel adaptions for the CKP sensor. Each adaption relates to a specific engine speed range. The engine speed ranges are detailed in the table below
| Adaptions | Engine Speed, rev/min |
|---|---|
| 1 | 1800 - 3000 |
| 2 | 3001 - 3800 |
| 3 | 3801 - 4600 |
| 4 | 4601 - 5400 |
Misfire Detection
Legislation requires that the ECM must be able to detect the presence of an engine misfire. It must be able to detect misfires at two separate levels. The first level is a misfire that could lead to the vehicle emissions exceeding 1.5 times the Federal Test Procedure (FTP) requirements for the engine. The second level is a misfire that may cause catalyst damage.
The ECM monitors the number of misfire occurrences within two engine speed ranges. If the ECM detects more than a predetermined number of misfire occurrences within either of these two ranges, over two consecutive journeys, the ECM will record a fault code and details of the engine speed, engine load and engine coolant temperature. In addition, the ECM monitors the number of misfire occurrences that happen in a 'window' of 200 engine revolutions. The misfire occurrences are assigned a weighting according to their likely impact on the catalysts. If the number of misfires exceeds a certain value, the ECM stores catalyst-damaging fault codes, along with the engine speed, engine load and engine coolant temperature.
The signal from the crankshaft position sensor indicates how fast the poles on the flywheel are passing the sensor tip. A sine wave is generated each time a pole passes the sensor tip. The ECM can detect variations in flywheel speed by monitoring the sine wave signal supplied by the crankshaft position sensor.
By assessing this signal, the ECM can detect the presence of an engine misfire. At this time, the ECM will assess the amount of variation in the signal received from the CKP and assigns a roughness value to it. This roughness value can be viewed within the real time monitoring feature, using a Land Rover approved diagnostic system. The ECM will evaluate the signal against a number of factors and will decide whether to count the occurrence or ignore it. The ECM can assign a roughness and misfire signal for each cylinder, (i.e. identify which cylinder is misfiring).
Diagnostics
The ECM stores faults as diagnostic trouble code (DTC), referred to as 'P' codes. The 'P' codes are defined by OBD legislation and, together with their associated environmental and freeze frame data, can be read using a third party scan tool or a Land Rover approved diagnostic system. A Land Rover approved diagnostic system can also read real time data from each sensor, the adaptive values currently being employed and the current fueling, ignition and idle settings.
TERRAIN RESPONSE™
Terrain Response™ system allows the driver to select a program which will provide the optimum settings for traction and performance for prevailing terrain conditions.
As part of Terrain Response™ there will be different throttle pedal progression maps associated with different Terrain Response™ modes. The two extremes are likely to be a sand map (quick build up of torque with pedal travel) and grass/gravel/snow (very cautious build up of torque).
The V8 Super Charged implementation of throttle progression is based on a fixed blend time. The torque will blend from that on one map to that on the new map (for the same pedal position) over a fixed time. This means blending will always take the same amount of time but when the torque change is small the torque increase over time will be small, whilst if the torque change is greater then the torque increase over time will be steeper. The resulting acceleration of the vehicle will depend on the torque difference between the two maps as well as on the gear and range selected.
For additional information, refer to: Ride And Handling Optimization information.
Scheme 32
The ECM is connected to ignition switch positions I and II. When the ignition is turned ON, 12V is applied to the ignition sense input. The ECM then starts its power up routines and turns ON the ECM main relay, the main power to the ECM and it's associated system components. When the ignition is turned OFF the ECM will maintain its powered up state for up to 20 minutes while it initiates its power down routine and on completion will turn OFF the ECM main relay. The ECM will normally power down in approximately 60 seconds, do not disconcert the battery until the ECM is completely powered down.
PRINCIPLE OF OPERATION
This section covers the sensors and units for the engine management system.
For more information on the system, refer to: Electronic Engine Controls .
INSPECTION AND VERIFICATION
- Verify the customer concern.
- Visually inspect for obvious mechanical or electrical faults. Visual Inspection Chart Mechanical Electrical Engine oil level Cooling system coolant level Fuel level Fuel contamination/grade/quality Sensor installation/condition Viscous fan and solenoid Fuses Wiring harness Electrical connector(s) Sensor(s) Engine control module (ECM) Transmission control module (TCM)
- If an obvious cause for an observed or reported concern is found, correct the cause (if possible) before proceeding to the next step
- Use the approved diagnostic system or a scan tool to retrieve any diagnostic trouble codes (DTCs) before moving onto the symptom chart or DTC index. Make sure that all DTCs are cleared following rectification.
SYMPTOM CHART
| Symptom (general) | Symptom (specific) | Possible causes | Action |
|---|---|---|---|
| Non-Start | Engine does not crank | Security system/Immobilizer engaged ECM relay Battery Starting system Harness Engine seized | Check that the security system is disarmed. Check the ECM relay operation. Check the battery condition and state of charge. For starting system tests, refer to the relevant service information. Check that the engine turns by hand. |
| Engine cranks, but does not fire | Low/Contaminated fuel Ignition system Fuel system Crankshaft position (CKP) sensor Harness ECM fault | Check the fuel level and condition. For ignition system tests and fuel system tests, refer to the relevant service information. For CKP and harness tests refer to the guided diagnostic routine on the approved diagnostic system. Refer to the warranty policy and procedures manual if an ECM is suspect. | |
| Engine cranks and fires, but will not start | Evaporative emissions purge valve Fuel system Spark plugs Ignition coil failure(s) Harness | For purge valve tests, fuel system tests and ignition system tests, refer to the relevant service information. | |
| Difficult to start | Difficult to start cold | Check coolant anti-freeze content Battery Crankshaft position (CKP) sensor Fuel system Evaporative emissions purge valve | Check the coolant condition. Check the battery condition and state of charge, refer to the relevant service information. For CKP sensor tests refer to the guided diagnostic routine on the approved diagnostic system. For fuel system tests and purge valve tests, refer to the relevant service information. |
| Difficult to start hot | Injector leak Fuel system Fuel temperature sensor Intake air temperature (IAT) sensor Mass air flow (MAF) sensor Evaporative emissions purge valve Ignition system | For injector and fuel system tests, refer to the relevant service information section. For fuel temperature sensor, IAT sensor and MAF sensor tests refer to the guided diagnostic routine on the approved diagnostic system. For purge valve tests and ignition system tests, refer to the relevant service information. | |
| Difficult to start after hot soak (vehicle standing after engine has reached operating temperature) | Injector leak Fuel system Fuel temperature sensor IAT sensor MAF sensor Evaporative emissions purge valve Ignition system | For injector and fuel system tests, refer to the relevant service information. For fuel temperature sensor, IAT sensor and MAF sensor tests refer to the guided diagnostic routine on the approved diagnostic system. For purge valve tests and ignition system tests, refer to the relevant service information. | |
| Engine cranks too fast/slow | Compressions high/low Battery Starting system | Check compressions. Check the battery condition and state of charge. For starting system tests. Refer to the relevant service information. | |
| Engine stalls | Engine stalls soon after start | Breather system disconnected/restricted ECM relay MAF sensor Ignition system Air cleaner restricted Air leakage Fuel lines Fuel rail pressure (FRP) sensor | Check the engine breather system, refer to the relevant service information. Check the ECM relay operation. For MAF sensor tests refer to the guided diagnostic routine on the approved diagnostic system. For ignition system tests, air intake information and fuel line information, refer to the relevant service information. For FRP sensor tests refer to the guided diagnostic routine on the approved diagnostic system. |
| Engine stalls on overrun | ECM relay Throttle position (TP) sensors | Check the ECM relay operation. For TP sensor tests refer to the guided diagnostic routine on the approved diagnostic system. | |
| Engine stalls at steady speed | ECM relay CKP sensor TP sensors | Check the ECM relay operation. For CKP sensor and TP sensor tests refer to the guided diagnostic routine on the approved diagnostic system. | |
| Engine stalls with speed control enabled | ECM relay | Check the ECM relay operation. | |
| Engine stalls when maneuvering | ECM relay TP sensors Additional engine loads (PAS, air conditioning, etc) Transmission malfunction CAN malfunction | Check the ECM relay operation. For TP sensor tests refer to the guided diagnostic routine on the approved diagnostic system. For accessory drive and transmission information, refer to the relevant service information. For information. Check for CAN fault codes. | |
| Poor driveability | Engine hesitates/poor acceleration | Fuel pump Fuel lines Injector leak Fuel pressure Air leakage TP sensors Throttle motor Ignition system HO2 sensors Transmission malfunction Restricted pedal travel (carpet, etc) Accelerator pedal position (APP) sensor | For fuel pump and fuel line information, injector tests and intake system checks, refer to the relevant service information. For TP sensor and throttle motor tests refer to the guided diagnostic routine on the approved diagnostic system. For ignition system tests, refer to the relevant service information. Check for DTCs relating to HO2 sensors, refer to the DTC Index. For transmission information, refer to the relevant service information. Check the accelerator pedal travel. For APP sensor tests refer to the guided diagnostic routine on the approved diagnostic system. |
| Engine backfires | Fuel pump Fuel lines Air leakage MAF sensor HO2 sensors Ignition system APP sensor | For fuel pump and fuel line information and intake system, refer to the relevant service information. For MAF sensor tests refer to the guided diagnostic routine on the approved diagnostic system. Check for DTCs relating to HO2 sensors, refer to the DTC Index. For ignition system tests, refer to the relevant service information. For APP sensor tests refer to the guided diagnostic routine on the approved diagnostic system. | |
| Engine surges | Fuel pump Fuel lines MAF sensor Harness TP sensors Throttle motor Ignition system | For fuel pump and fuel line information, refer to the relevant service information. For MAF sensor, TP sensor and throttle motor tests refer to the guided diagnostic routine on the approved diagnostic system. For ignition system tests, refer to the relevant service information. | |
| Engine detonates/knocks | Knock sensor (KS)/circuit malfunction Fuel pump Fuel lines Fuel quality FRP sensor MAF sensor HO2 sensors Air leakage BARO sensor malfunction (internal ECM fault) | For KS circuit tests refer to the guided diagnostic routine on the approved diagnostic system. For fuel pump and fuel line information, refer to the relevant service information. For FRP sensor and MAF sensor tests refer to the guided diagnostic routine on the approved diagnostic system. Check for DTCs relating to HO2 sensors, refer to the DTC Index. For intake system, refer to the relevant service information. Refer to the warranty policy and procedures manual if an ECM is suspect. | |
| No throttle response | APP sensor malfunction TP sensors Throttle motor | For APP sensor, TP sensor and throttle motor tests refer to the guided diagnostic routine on the approved diagnostic system. | |
| Speed control inhibited or disabled | Default mode enabled Speed control switch (es) TP sensors CAN fault | Check message center for default message. For speed control switch information. Refer to the relevant service information. For TP sensor tests refer to the guided diagnostic routine on the approved diagnostic system. Check for CAN fault codes. | |
| Poor throttle response | APP sensor malfunction TP sensors ECT sensor MAF sensor Transmission malfunction Traction control event Air leakage Breather system disconnected/restricted | For APP sensor, TP sensor, ECT sensor and MAF sensor tests refer to the guided diagnostic routine on the approved diagnostic system. For transmission information, intake system checks and breather system checks, refer to the relevant service information. | |
| Engine defaults, warning lamp and messages. Refer to the owner handbook | TP sensors MAF sensor ECT sensor Harness | For TP sensor, MAF sensor and ECT sensor tests refer to the guided diagnostic routine on 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).
| DTC | Description | Possible causes | Action |
|---|---|---|---|
| C003100 | Left Front Wheel Speed Sensor | Invalid data received from ABS wheel speed signal | Check for ABS DTCs. Refer to the relevant service information. |
| C003400 | Right Front Wheel Speed Sensor | Invalid data received from ABS wheel speed signal | Check for ABS DTCs. Refer to the relevant service information. |
| C003700 | Left Rear Wheel Speed Sensor | Invalid data received from ABS wheel speed signal | Check for ABS DTCs. Refer to the relevant service information. |
| C003A00 | Right Rear Wheel Speed Sensor | Invalid data received from ABS wheel speed signal | Check for ABS DTCs. Refer to the relevant service information. |
| P003100 | HO2S Heater Control Circuit Low (Bank 1, Sensor 1) | Heated 0 2 sensor heater power supply circuit high resistance Heated 0 2 sensor heater control circuit high resistance Heated 0 2 sensor heater failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P003200 | HO2S Heater Control Circuit High (Bank 1, Sensor 1) | Heated 0 2 sensor heater power supply circuit high resistance Heated 0 2 sensor heater control circuit high resistance Heated 0 2 sensor heater failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P003600 | HO2S Heater Control Circuit (Bank 1, Sensor 2) | Catalyst monitor sensor heater control circuit short circuit to ground Catalyst monitor sensor heater control circuit high resistance Catalyst monitor sensor heater failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P005100 | HO2S Heater Control Circuit Low (Bank 2, Sensor 1) | Heated 0 2 sensor heater power supply circuit high resistance Heated 0 2 sensor heater control circuit high resistance Heated 0 2 sensor heater failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P005200 | HO2S Heater Control Circuit High (Bank 2, Sensor 1) | Heated 0 2 sensor heater power supply circuit high resistance Heated 0 2 sensor heater control circuit high resistance Heated 0 2 sensor heater failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P005600 | HO2S Heater Control Circuit (Bank 2, Sensor 2) | Catalyst monitor sensor (left-hand bank) heater control circuit short circuit to ground Catalyst monitor sensor heater control circuit high resistance Catalyst monitor sensor heater failure | For left-hand catalyst monitor sensor heater circuit tests. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P006900 | (MAP) - Barometric pressure correlation | Manifold absolute pressure (MAP) sensor failure BARO sensor failure (internal ECM fault) | Check the MAP sensor and circuits. Refer to the electrical guides. Refer to the warranty policy and procedures manual if an ECM is suspect. |
| P007100 | Ambient Air Temperature Sensor Range/Performance | Ambient temperature sensor range performance (stuck) | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P007200 | Ambient Air Temperature Sensor Circuit Low | Ambient temperature sensor circuit low input | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P007300 | Ambient Air Temperature Sensor Circuit High | Ambient temperature sensor circuit high input | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P008700 | Fuel rail/system pressure too low | Fuel rail pressure (FRP) sensor disconnected FRP sensor to ECM sensing circuit short circuit to ground FRP sensor supply circuit high resistance FRP sensor failure Fuel line leak Restricted fuel line Fuel pump module circuit high resistance Fuel pump module circuit short circuit to ground Fuel pump module failure | For FRP sensor tests, refer to the relevant service information. Check the fuel lines, check the fuel pressure and the fuel pump module circuits. Refer to the electrical guides. |
| P008800 | Fuel rail/system pressure too high | Fuel rail pressure (FRP) sensor to ECM wiring (supply/sense) short circuit to each other FRP sensor to ECM sense circuit short circuit to power FRP sensor failure Fuel pressure control valve (FPCV) fault Fuel pump module circuit short circuit to power Fuel pump module failure | For FRP sensor tests, refer to the relevant service information. Check the fuel lines, check the fuel pressure and the fuel pump module circuits. Refer to the electrical guides. |
| P009300 | Fuel System Leak Detected - Large Leak | Fuel rail pressure (FRP) sensor disconnected FRP sensor to ECM sensing circuit short circuit to ground FRP sensor supply circuit high resistance FRP sensor failure Fuel line leak Restricted fuel line Fuel pump module circuit high resistance Fuel pump module circuit short circuit to ground Fuel pump module failure | For FRP sensor tests, refer to the relevant service information. Check the fuel lines, check the fuel pressure and the fuel pump module circuits. |
| P009623 | Intake Air Temperature Sensor 2 Circuit Range/Performance (Bank 1) | Air charge temperature (ACT) sensor circuit short circuit to power ACT sensor failure ECM failure | Check the ACT sensor and circuits. Refer to the electrical guides. Refer to the warranty policy and procedures manual if a module is suspect. |
| P009624 | Intake Air Temperature Sensor 2 Circuit Range/Performance (Bank 1) | Air charge temperature (ACT) sensor circuit short circuit to power ACT sensor failure ECM failure | Check the ACT sensor and circuits. Refer to the electrical guides. Refer to the warranty policy and procedures manual if a module is suspect. |
| P009629 | Intake Air Temperature Sensor 2 Circuit Range/Performance (Bank 1) | Air charge temperature (ACT) sensor circuit short circuit to power ACT sensor failure ECM failure | Check the ACT sensor and circuits. Refer to the electrical guides. Refer to the warranty policy and procedures manual if a module is suspect. |
| P009700 | Intake Air Temperature Sensor 2 Circuit Low (Bank 1) | Air charge temperature (ACT) sensor circuit high resistance ACT sensor circuit short circuit to ground ACT sensor failure ECM failure | Check the ACT sensor and circuits. Refer to the electrical guides. Refer to the warranty policy and procedures manual if a module is suspect. |
| P009800 | Intake Air Temperature Sensor 2 Circuit High (Bank 1) | Air charge temperature (ACT) sensor circuit short circuit to power ACT sensor failure ECM failure | Check the ACT sensor and circuits. Refer to the electrical guides. Refer to the warranty policy and procedures manual if a module is suspect. |
| P010100 | Mass or Volume Air Flow A Circuit | Blocked air cleaner Air intake leak Engine breather leak Mass air flow (MAF) sensor sensing circuit high resistance, intermittent short circuit to ground MAF sensor supply circuit high resistance | Check the air cleaner for blockage, etc. Check the air intake system for leaks. Check the engine breather system. Refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P010200 | Mass or Volume Air Flow A Circuit Low | MAF sensor supply circuit high resistance, short circuit to ground MAF sensor ground circuit high resistance MAF sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P010300 | Mass or Volume Air Flow A Circuit High | MAF sensor sensing circuit short circuit to battery MAF sensor return circuit high resistance MAF sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P010600 | Manifold Absolute Pressure/BARO Sensor Range/Performance | Intake manifold air leak (loose or missing component) MAP sensor circuit(s) fault MAP sensor failure | Check the intake manifold for security, etc. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P010700 | Manifold Absolute Pressure/BARO Sensor Low | MAP sensor circuit high resistance, short circuit to ground MAP sensor supply circuit high resistance MAP sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P010800 | Manifold Absolute Pressure/BARO Sensor High | MAP sensor return circuit high resistance MAP sensor sense circuit short circuit to power MAP sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P011123 | Intake Air Temperature Sensor 1 Circuit Range/Performance (Bank 1) | Signal stuck low at engine start IAT sensor circuit(s) high resistance IAT sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P011124 | Intake Air Temperature Sensor 1 Circuit Range/Performance (Bank 1) | Signal stuck high at engine start IAT sensor circuit(s) high resistance IAT sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P011129 | Intake Air Temperature Sensor 1 Circuit Range/Performance (Bank 1) | Signal invalid IAT sensor circuit(s) high resistance IAT sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P011200 | Intake Air Temperature Sensor 1 Circuit Low (Bank 1) | Intake air temperature IAT sensor disconnected IAT sensor circuit(s) high resistance IAT sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P011300 | Intake Air Temperature Sensor 1 Circuit High (Bank 1) | IAT sensor circuit(s) short circuit to ground IAT sensor sensing circuit short circuit to power IAT sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P011623 | Engine Coolant Temperature Sensor 1 Circuit Range/Performance | Low coolant level Engine thermostat failure ECT sensor sensing circuit intermittent high resistance ECT sensor failure | Check the coolant level and the thermostat operation (stuck open). Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P011624 | Engine Coolant Temperature Sensor 1 Circuit Range/Performance | Low coolant level Engine coolant thermostat failure ECT sensor sensing circuit intermittent high resistance ECT sensor failure | Check the coolant level and the thermostat operation (stuck closed). Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P011629 | Engine Coolant Temperature Sensor 1 Circuit Range/Performance | Low coolant level Engine coolant thermostat failure ECT sensor sensing circuit intermittent high resistance ECT sensor failure | Check the coolant level and the thermostat operation. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P011700 | Engine Coolant Temperature Sensor 1 Circuit Low | ECT sensor disconnected Engine coolant temperature (ECT) sensor sensing circuit high resistance, short circuit to power ECT sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P011800 | Engine Coolant Temperature Sensor 1 Circuit High | Engine overheat condition/cooling fan failure ECT sensor wiring short circuit to ground ECT sensor failure | Check the coolant level and the thermostat operation (stuck closed). Check for cooling fan DTCs. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P012100 | Throttle/Pedal Position Sensor A Circuit Range/Performance | Throttle position sensor wiring high resistance Throttle position sensor sensing circuits (Throttle position 1 or Throttle position 2) short circuit to power Throttle position sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P012200 | Throttle/Pedal Position Sensor A Circuit Low | Throttle position sensor sensing circuit 1 short circuit to ground, high resistance Throttle position sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P012300 | Throttle/Pedal Position Sensor A Circuit High | Throttle position sensor sensing circuit (Throttle position1) short circuit to power Throttle position sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P012500 | Insufficient Coolant Temp For Closed Loop Fuel Control | Low coolant level Engine thermostat failure ECT sensor sensing circuit intermittent high resistance ECT sensor failure | Check the coolant level and thermostat operation. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P012800 | Coolant Thermostat (Coolant Temp Below Thermostat Regulating Temperature) | Contaminated coolant Engine coolant thermostat failure ECT sensor failure ECT sensor DTC may also be flagged | Check the coolant level/condition and thermostat operation. Check for ECT sensor DTCs. |
| P01301A | O2 Circuit (Bank 1, Sensor 1) | Heated 0 2 sensor (right-hand bank) element impedance low Heated 0 2 sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P01301B | O2 Circuit (Bank 1, Sensor 1) | Heated 0 2 sensor (right-hand bank) element impedance high Heated 0 2 sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P013100 | O2 Circuit Low Voltage (Bank 1, Sensor 1) | Heated 0 2 sensor signal circuit high resistance Heated 0 2 sensor signal circuit short circuit to ground Heated 0 2 sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P013200 | O2 Circuit High Voltage (Bank 1, Sensor 1) | Heated 0 2 sensor (right-hand bank) signal circuit short circuit to power Heated 0 2 sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P013300 | O2 Circuit Slow Response (Bank 1, Sensor 1) | Heated 0 2 sensor (right-hand bank) to ECM wiring high resistance Exhaust leak HO2 sensor failure | Check the exhaust system for leaks. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P013400 | O2 Circuit No Activity Detected (Bank 1, Sensor 1) | Heated 0 2 sensor (right-hand bank) slow activation | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P013700 | O2 Circuit Low Voltage (Bank 1, Sensor 2) | Catalyst monitor sensor (right-hand bank) to ECM wiring high resistance Catalyst monitor sensor short circuit to ground Catalyst monitor sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P013800 | O2 Circuit High Voltage (Bank 1, Sensor 2) | Catalyst monitor sensor (right-hand bank) sensing circuit short circuit to power Catalyst monitor sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P013900 | O2 Circuit Slow Response (Bank 1, Sensor 2) | Catalyst monitor sensor (right-hand bank) slow response | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P014000 | O2 Circuit Slow Response (Bank 1, Sensor 2) | Catalyst monitor (right-hand bank) to ECM wiring high resistance Catalyst monitor sensing circuit short circuit to power Catalyst monitor short circuit to ground | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P014100 | O2 Heater Circuit (Bank 1, Sensor 2) | Catalyst monitor sensor (right-hand bank) heater control circuit high resistance Catalyst monitor sensor heater failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P01501A | O2 Circuit (Bank 2, Sensor 1) | Circuit (left-hand bank) resistance below threshold Element impedance low Heated 0 2 sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P01501B | O2 Circuit (Bank 2, Sensor 1) | Circuit (left-hand bank) resistance above threshold Element impedance high Heated 0 2 sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P015100 | O2 Circuit Low Voltage (Bank 2, Sensor 1) | Heated 0 2 sensor (left-hand bank) signal circuit high resistance Heated 0 2 sensor signal circuit short circuit to ground Heated 0 2 sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P015200 | O2 Circuit High Voltage (Bank 2, Sensor 1) | Heated 0 2 sensor (left-hand bank) signal circuit short circuit to power Heated 0 2 sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P015300 | O2 Circuit Slow Response (Bank 2, Sensor 1) | Heated 0 2 sensor (left-hand bank) to ECM wiring high resistance Exhaust leak Heated 0 2 sensor failure | Check the exhaust system for leaks. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P015400 | O2 Circuit No Activity Detected (Bank 2, Sensor 1) | Heated 0 2 sensor (left-hand bank) slow activation | Check the HO2S and circuits. Refer to the electrical guides. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P015700 | O2 Circuit Low Voltage (Bank 2, Sensor 2) | Catalyst monitor sensor (left-hand bank) to ECM wiring high resistance Catalyst monitor sensor short circuit to ground Catalyst monitor sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P015800 | O2 Circuit High Voltage (Bank 2, Sensor 2) | Catalyst monitor sensor (left-hand bank) sensing circuit short circuit to power Catalyst monitor sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P015900 | O2 Circuit Slow Response (Bank 2, Sensor 2) | Catalyst monitor sensor (left-hand bank) slow response | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P016000 | O2 Circuit No Activity Detected (Bank 2, Sensor 2) | Catalyst monitor (left-hand bank) to ECM wiring high resistance Catalyst monitor sensing (left-hand bank) circuit short circuit to power Catalyst monitor short circuit to ground | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P016100 | O2 Heater Circuit (Bank 2, Sensor 2) | Catalyst monitor sensor (left-hand bank) heater control circuit malfunction | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P017000 | Fuel Trim (Bank 1) | Fuel adaption Bank 1 exceeds threshold | Check for other DTCs and rectify as necessary. Clear DTC and retest. |
| P017100 | System Too Lean (Bank 1) | Air intake leak between MAF sensor and cylinder head MAF sensor fault (low intake air flow) Fuel filter/system restriction Low fuel pressure Fuel injector restriction Exhaust leak (before catalyst) Evaporative emission system fault | Check the intake air system for leaks, etc. refer to the relevant service information section. Check the fuel system for restrictions, DTCs, etc. Check the exhaust system for leaks, etc. Check for evaporative emission DTCS. |
| P017200 | System Too Rich (Bank 1) | Restricted air filter High fuel pressure Leaking fuel injector(s) Oil contaminated with fuel (too many cold starts with vehicle subsequently not getting hot enough for long enough) MAF sensor fault Evaporative emission system fault | Check the intake air system for restrictions, etc. Check the fuel system for leaks, DTCs, etc. Check the oil condition. Check for MAF sensor and evaporative emission DTCs. |
| P017300 | Fuel Trim (Bank 1) | Fuel adaption Bank 1 exceeds threshold | Check for other DTCs and rectify as necessary. Clear DTC and retest. |
| P017400 | System Too Lean (Bank 2) | Air intake leak between MAF sensor and cylinder head MAF sensor fault (low intake air flow) Fuel filter/system restriction Low fuel pressure Fuel injector restriction Exhaust leak (before catalyst) Evaporative emission system fault | Check the intake air system for leaks, etc. Check the fuel system for restrictions, DTCs, etc. Check the exhaust system for leaks, etc. Check for evaporative emission DTCS. |
| P017500 | System too Rich (Bank 2) | Restricted air filter High fuel pressure Leaking fuel injector(s) Oil contaminated with fuel (too many cold starts with vehicle subsequently not getting hot enough for long enough) MAF sensor fault Evaporative emission system fault | Check the intake air system for restrictions, etc. Check the fuel system for leaks, DTCs, etc. Check the oil condition. Check for MAF sensor and evaporative emission DTCs. |
| P019623 | Engine Oil Temperature Sensor Range/Performance | Oil temperature sensor sensing circuit intermittent high resistance Oil temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P019624 | Engine Oil Temperature Sensor Range/Performance | Oil temperature sensor sensing circuit intermittent high resistance Oil temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P018124 | Fuel Temperature Sensor A Circuit Range/Performance | Fuel temperature sensor sensing circuit high resistance, short circuit to power Fuel temperature sensor ground circuit high resistance Fuel temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P018129 | Fuel Temperature Sensor A Circuit Range/Performance | Fuel temperature sensor sensing circuit high resistance, short circuit to ground, short circuit to power Fuel temperature sensor ground circuit high resistance Fuel temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P018200 | Fuel Temperature Sensor A Circuit Low | Fuel temperature sensor sensing circuit short circuit to ground Fuel temperature sensor ground circuit short circuit Fuel temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P018300 | Fuel Temperature Sensor A Circuit High | Fuel temperature sensor sensing circuit high resistance, short circuit to power Fuel temperature sensor ground circuit high resistance Fuel temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P019100 | Fuel Rail Pressure Sensor A Circuit Range/Performance | FRP sensor range and performance | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P019200 | Fuel Rail Pressure Sensor A Circuit Low | FRP sensor sensing circuit high resistance or short circuit to ground FRP sensor to supply circuit high resistance FRP sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P019300 | Fuel Rail Pressure Sensor A Circuit High | FRP sensor to ECM wiring (supply, sense) short circuit to each other FRP sensor to ECM sense circuit short circuit to power FRP sensor ground circuit high resistance FRP sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P019623 | Engine Oil Temperature Sensor Range/Performance | Oil temperature sensor sensing circuit intermittent high resistance Oil temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P019624 | Engine Oil Temperature Sensor Range/Performance | Oil temperature sensor sensing circuit intermittent high resistance Oil temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P019629 | Oil temperature sensor circuit range/performance - signal invalid | Oil temperature sensor sensing circuit intermittent high resistance Oil temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P019700 | Engine Oil Temperature Sensor Circuit Low | Oil temperature sensor sensing circuit short circuit to ground Oil temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P019800 | Engine Oil Temperature Sensor Circuit High | Oil temperature sensor sensing circuit high resistance, short circuit to power Oil temperature sensor failure | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P020100 | Cylinder 1 Injector Circuit/Open | Injector disconnected Injector harness wiring high resistance, short circuit to ground Injector failure | For fuel system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P020200 | Cylinder 2 Injector Circuit/Open | Injector disconnected Injector harness wiring high resistance, short circuit to ground Injector failure | For fuel system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P020300 | Cylinder 3 Injector Circuit/Open | Injector disconnected Injector harness wiring high resistance, short circuit to ground Injector failure | For fuel system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P020400 | Cylinder 4 Injector Circuit/Open | Injector disconnected Injector harness wiring high resistance, short circuit to ground Injector failure | For fuel system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P020500 | Cylinder 5 Injector Circuit/Open | Injector disconnected Injector harness wiring high resistance, short circuit to ground Injector failure | For fuel system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P020600 | Cylinder 6 Injector Circuit/Open | Injector disconnected Injector harness wiring high resistance, short circuit to ground Injector failure | For fuel system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P020700 | Cylinder 7 Injector Circuit/Open | Injector disconnected Injector harness wiring high resistance, short circuit to ground Injector failure | For fuel system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P020800 | Cylinder 8 Injector Circuit/Open | Injector disconnected Injector harness wiring high resistance, short circuit to ground Injector failure | For fuel system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P022200 | Throttle/Pedal Position Sensor/Switch B Circuit Low | Throttle position sensor circuit 2 low input | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P022300 | Throttle/Pedal Position Sensor/Switch B Circuit High | Throttle position sensor circuit 2 high input | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P022628 | Throttle/Pedal Position Sensor/Switch C Circuit Range/Performance | Throttle position sensor circuit range monitoring error | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P022662 | Throttle/Pedal Position Sensor/Switch C Circuit Range/Performance | Throttle position sensor circuit range monitoring error | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P022700 | Throttle/Pedal Position Sensor/Switch C Circuit Low | Throttle position sensor circuit 1 short circuit to ground Throttle position sensor circuit 1 high resistance | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P022800 | Throttle/Pedal Position Sensor/Switch C Circuit High | Throttle position sensor circuit 1 short circuit to power | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P023100 | Fuel Pump Secondary Circuit Low | Fuel pump delivery module monitor line has failed low/short to ground | Refer to the electrical guides and check the fuel pump driver module circuits. Refer to the warranty policy and procedures manual if a module is suspect. |
| P023200 | Fuel Pump Secondary Circuit High | Fuel pump delivery module monitor line has failed low/short to power | Refer to the electrical guides and check the fuel pump driver module circuits. Refer to the warranty policy and procedures manual if a module is suspect. |
| P023600 | Turbocharger/Supercharger Boost Sensor A Circuit Range/Performance | Manifold absolute pressure (MAP) pressure sensor range/performance | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P023700 | Turbocharger/Supercharger Boost Sensor A Circuit Low | Manifold absolute pressure (MAP) pressure sensor to ECM circuit short circuit to ground Manifold absolute pressure (MAP) pressure sensor to ECM circuit high resistance | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P023800 | Turbocharger/Supercharger Boost Sensor A Circuit Low High | Manifold absolute pressure (MAP) pressure sensor to ECM circuit short circuit to power | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P030000 | Random Misfire Detected | ECM to ignition coil primary circuit faults (cylinder misfire detected DTCs also logged) Ignition coil failure Spark plug failure/fouled/incorrect gap Fuel delivery pressure (low/high) Fuel injector circuit fault(s) (injector DTCs also logged) Fuel injectors restricted/leaking Fuel injectors continuously open Fuel contamination Cylinder compression low Worn camshaft/broken valve springs Valve clearance adjustment | For ignition coil tests, refer to the coil failure DTCs in this index. Check the spark plug conditions and gaps. Check the fuel pressure, check for fuel injector DTCs and refer to the relevant service information. |
| P030100 | Cylinder 1 Misfire Detected | Refer to P030000 possible sources | For ignition coil tests, refer to the guided diagnostic routine for this code on the approved diagnostic system. Check the spark plug condition and gap. Check the fuel pressure, check for fuel injector DTCs and refer to the relevant service information. |
| P030200 | Cylinder 2 Misfire Detected | Refer to P030000 possible sources | For ignition coil tests, refer to the guided diagnostic routine for this code on the approved diagnostic system. Check the spark plug condition and gap. Check the fuel pressure, check for fuel injector DTCs and refer to the relevant service information. |
| P030300 | Cylinder 3 Misfire Detected | Refer to P030000 possible sources | For ignition coil tests, refer to the guided diagnostic routine for this code on the approved diagnostic system. Check the spark plug condition and gap. Check the fuel pressure, check for fuel injector DTCs and refer to the relevant service information. |
| P030400 | Cylinder 4 misfire detected | Refer to P030000 possible sources | For ignition coil tests, refer to the guided diagnostic routine for this code on the approved diagnostic system. Check the spark plug condition and gap. Check the fuel pressure, check for fuel injector DTCs and refer to the relevant service information. |
| P030500 | Cylinder 5 misfire detected | Refer to P030000 possible sources | For ignition coil tests, refer to the guided diagnostic routine for this code on the approved diagnostic system. Check the spark plug condition and gap. Check the fuel pressure, check for fuel injector DTCs and refer to the relevant service information. |
| P030600 | Cylinder 6 misfire detected | Refer to P030000 possible sources | For ignition coil tests, refer to the guided diagnostic routine for this code on the approved diagnostic system. Check the spark plug condition and gap. Check the fuel pressure, check for fuel injector DTCs and refer to the relevant service information. |
| P030700 | Cylinder 7 misfire detected | Refer to P030000 possible sources | For ignition coil tests, refer to the guided diagnostic routine for this code on the approved diagnostic system. Check the spark plug condition and gap. Check the fuel pressure, check for fuel injector DTCs and refer to the relevant service information. |
| P030800 | Cylinder 8 misfire detected | Refer to P030000 possible sources | For ignition coil tests, refer to the guided diagnostic routine for this code on the approved diagnostic system. Check the spark plug condition and gap. Check the fuel pressure, check for fuel injector DTCs and refer to the relevant service information. |
| P031300 | Misfire Detected With Low Fuel | Misfire detected during low fuel level condition | Add fuel, clear the DTC and test for normal operation. |
| P031600 | Misfire Detected On Startup (First 1000 Revolutions) | Misfire detected on first 1000 revs Refer to P030000 possible sources | Carry out the tests indicated for a normal misfire code, but on a cold engine. |
| P032700 | Knock Sensor 1 Circuit Low (Bank1) | Poor right-hand sensor contact with the cylinder block Knock sensor to ECM sense circuit short circuit to ground Knock sensor failure | Check the installation of the sensor. Refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P032800 | Knock Sensor 1 Circuit High (Bank 1) | Poor right-hand sensor contact with the cylinder block Knock sensor sense circuit high resistance, short circuit to power Knock sensor failure | Check the installation of the sensor. Refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P033200 | Knock Sensor 2 Circuit Low (Bank 2) | Poor left-hand sensor contact with the cylinder block Knock sensor sense circuit short circuit to ground Knock sensor failure | Check the installation of the sensor. Refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P033300 | Knock Sensor 2 Circuit High (Bank 2) | Poor left-hand sensor contact with the cylinder block Knock sensor sense circuit high resistance, short circuit to power Knock sensor failure | Check the installation of the sensor. Refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P033592 | Crankshaft Position Sensor A Circuit | Crankshaft position (CKP) sensor gap incorrect/foreign matter on sensor face or damaged teeth on rotor CKP sensor sensing circuit high resistance, short circuit to ground, short circuit to power CKP sensor failure | Check the installation of the sensor. Refer to the relevant service information. Check for debris/damage on the sensor face and rotor. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P033594 | Crankshaft Position Sensor A Circuit | Crankshaft position (CKP) sensor gap incorrect/foreign matter on sensor face or damaged teeth on rotor CKP sensor sensing circuit high resistance, short circuit to ground, short circuit to power CKP sensor failure | Check the installation of the sensor. Refer to the relevant service information. Check for debris/damage on the sensor face and rotor. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P033600 | Crankshaft position (CKP) sensor A circuit range/performance | CKP sensor gap incorrect/foreign matter on sensor face/damaged teeth on rotor CKP sensor sensing circuit intermittent high resistance, short circuit to ground, short circuit to power CKP sensor failure | Check the installation of the sensor. Refer to the relevant service information. Check for debris/damage on the sensor face and rotor. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P034092 | Camshaft Position Sensor A Circuit (Bank 1 or single sensor) | Camshaft position sensor (CMP) sensor gap incorrect/foreign matter on sensor face/damaged rotor CMP sensor sensing circuit high resistance, short circuit to ground, short circuit to power CMP sensor 1 failure | Check the installation of the sensor. Refer to the relevant service information. Check for debris/damage on the sensor face and rotor. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P034094 | Camshaft Position Sensor A Circuit (Bank 1 or single sensor) | Camshaft position sensor (CMP) sensor gap incorrect/foreign matter on sensor face/damaged rotor CMP sensor sensing circuit high resistance, short circuit to ground, short circuit to power CMP sensor 1 failure | Check the installation of the sensor. Refer to the relevant service information. Check for debris/damage on the sensor face and rotor. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P034100 | Camshaft Position Sensor A Circuit Range/Performance (Bank 1 or single sensor) | Camshaft position sensor (CMP) sensor gap incorrect/foreign matter on sensor face/damaged rotor CMP sensor sensing circuit high resistance, short circuit to ground, short circuit to power CMP sensor 1 failure | Check the installation of the sensor. Refer to the relevant service information. Check for debris/damage on the sensor face and rotor. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P034592 | Camshaft Position Sensor A Circuit (Bank 2) | Camshaft position sensor (CMP) sensor gap incorrect/foreign matter on sensor face/damaged rotor CMP sensor sensing circuit high resistance, short circuit to ground, short circuit to power CMP sensor 2 failure | Check the installation of the sensor. Refer to the relevant service information. Check for debris/damage on the sensor face and rotor. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P034594 | Camshaft Position Sensor A Circuit (Bank 2) | Camshaft position sensor (CMP) sensor gap incorrect/foreign matter on sensor face/damaged rotor CMP sensor sensing circuit high resistance short circuit to ground, short circuit to power CMP sensor 2 failure | Check the installation of the sensor. Refer to the relevant service information. Check for debris/damage on the sensor face and rotor. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P034600 | Camshaft Position Sensor A Circuit Range/Performance (Bank 2) | Camshaft position sensor (CMP) sensor gap incorrect/foreign matter on sensor face/damaged rotor CMP sensor sensing circuit high resistance, short circuit to ground, short circuit to power CMP sensor 2 failure | Check the installation of the sensor. Refer to the relevant service information. Check for debris/damage on the sensor face and rotor. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P035100 | Ignition Coil A Primary/Secondary Circuit | ECM to ignition module/coil drive circuit high resistance, short circuit to ground Ignition module/coil ground circuit high resistance Ignition module/coil battery supply circuit high resistance (including relay, if installed) | Refer to the electrical guides and check the ignition coil circuits. For ignition system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P035200 | Ignition Coil B Primary/Secondary Circuit | ECM to ignition module/coil drive circuit short circuit to ground, high resistance Ignition module/coil ground circuit high resistance Ignition module/coil battery supply circuit high resistance (including relay, if installed) | Refer to the electrical guides and check the ignition coil circuits. For ignition system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P035300 | Ignition Coil C Primary/Secondary Circuit | ECM to ignition module/coil drive circuit short circuit to ground, high resistance Ignition module/coil ground circuit high resistance Ignition module/coil battery supply circuit high resistance (including relay, if installed) | Refer to the electrical guides and check the ignition coil circuits. For ignition system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P035400 | Ignition Coil D Primary/Secondary Circuit | ECM to ignition module/coil drive circuit short circuit to ground, high resistance Ignition module/coil ground circuit high resistance Ignition module/coil battery supply circuit high resistance (including relay, if installed) | Refer to the electrical guides and check the ignition coil circuits. For ignition system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P035500 | Ignition Coil E Primary/Secondary Circuit | ECM to ignition module/coil drive circuit short circuit to ground, high resistance Ignition module/coil ground circuit high resistance Ignition module/coil battery supply circuit high resistance (including relay, if installed) | Refer to the electrical guides and check the ignition coil circuits. For ignition system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P035600 | Ignition Coil F Primary/Secondary Circuit | ECM to ignition module/coil drive circuit short circuit to ground, high resistance Ignition module/coil ground circuit high resistance Ignition module/coil battery supply circuit high resistance (including relay, if installed) | Refer to the electrical guides and check the ignition coil circuits. For ignition system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P035700 | Ignition Coil G Primary/Secondary Circuit | ECM to ignition module/coil drive circuit short circuit to ground, high resistance Ignition module/coil ground circuit high resistance Ignition module/coil battery supply circuit high resistance (including relay, if installed) | Refer to the electrical guides and check the ignition coil circuits. For ignition system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P035800 | Ignition Coil H Primary/Secondary Circuit | ECM to ignition module/coil drive circuit short circuit to ground, high resistance Ignition module/coil ground circuit high resistance Ignition module/coil battery supply circuit high resistance (including relay, if installed) | Refer to the electrical guides and check the ignition coil circuits. For ignition system tests, refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P040100 | Exhaust Gas Recirculation A Flow Insufficient Detected | EGR pipe blocked EGR valve incorrectly installed or loose EGR valve stuck closed/blocked EGR valve failure | Check the EGR pipes. Check the EGR valve installation. For emission system tests. Refer to the relevant service information. |
| P042000 | Catalyst System Efficiency Below Threshold (Bank 1) | Catalyst failure due to overheating damage caused by misfire and/or lean combustion Catalyst failure due to poisoning caused by excessive oil consumption and/or contaminated fuel | Check the catalyst condition. Refer to the warranty policy and procedures manual if the catalyst is suspect. |
| P043000 | Catalyst System Efficiency Below Threshold (Bank 2) | Catalyst failure due to overheating damage caused by misfire and/or lean combustion Catalyst failure due to poisoning caused by excessive oil consumption and/or contaminated fuel | Check the catalyst condition. Refer to the warranty policy and procedures manual if the catalyst is suspect. |
| P044100 | Evaporative Emission System Incorrect Purge Flow | Evaporative emission (EVAP) canister purge valve pipe restricted/leaking Canister vent restricted Purge valve failure | Check the charcoal canister pipework and vent for integrity. Refer to the relevant service information. |
| P044200 | Evaporative Emission System Leak Detected (small leak) | Fuel filler cap not correctly installed Fuel filler cap seal faulty Evaporative emission system leak (canister, pipes, etc) Fuel tank leak Canister dynamic monitoring of tank leakage (DMTL) valve fault | Refer to the relevant service information. |
| P044700 | Evaporative Emission System Vent Control Circuit Open | EVAP DMTL valve circuit short circuit to ground | Refer to the electrical guides and check the DMTL valve circuit. Repair/renew as necessary. Refer to the relevant service information. |
| P044800 | Evaporative Emission System Vent Control Circuit Shorted | EVAP DMTL valve circuit short circuit to power | Refer to the electrical guides and check the DMTL valve circuit. Repair/renew as necessary. Refer to the relevant service information. |
| P045500 | Evaporative Emission System Leak Detected (gross leak/no flow) | Fuel filler cap not installed Fuel filler cap seal faulty/missing Evaporative emission system leak (canister, pipes, etc) Fuel tank leak DMTL valve fault | Check the fuel filler cap and seal, check the canister, pipes, etc. Check the fuel tank for leaks, etc. Refer to the relevant service information. |
| P045800 | Evaporative Emission System Purge Control Valve Circuit Low | Purge valve control circuit short circuit to ground Purge valve control circuit high resistance EVAP canister purge valve failure | Refer to the electrical guides and check the DMTL valve circuit. Repair/renew as necessary. Refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P045900 | Evaporative Emission System Purge Control Valve Circuit High | Purge valve control circuit short circuit to power | Refer to the electrical guides and check the DMTL valve circuit. Repair/renew as necessary. Refer to the relevant service information. Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P046129 | Fuel Level Sensor A Circuit Range/Performance | Fuel level sensor circuits intermittent short circuit or high resistance Fuel level sensor failure | Refer to the electrical guides and check the fuel gauge sender unit circuit. Repair/renew as necessary. |
| P04612F | Fuel Level Sensor A Circuit Range/Performance | Fuel level sensor circuits intermittent short circuit or high resistance Fuel level sensor failure | Refer to the electrical guides and check the fuel gauge sender unit circuit. Repair/renew as necessary. |
| P046200 | Fuel Level Sensor A Circuit Low | Fuel level sensor circuits intermittent short circuit to ground or high resistance Fuel level sensor failure | Refer to the electrical guides and check the fuel gauge sender unit circuit. Repair/renew as necessary. |
| P046300 | Fuel Level Sensor A Circuit High | Fuel level sensor circuits intermittent short circuit to power Fuel level sensor failure | Refer to the electrical guides and check the fuel gauge sender unit circuit. Repair/renew as necessary. |
| P048014 | Fan 1 Control Circuit | Viscous fan speed sensor circuit high resistance | Refer to the electrical guides and check the viscous fan speed sensor circuit. Repair/renew as necessary. |
| P048015 | Fan 1 Control Circuit | Viscous fan control circuit short circuit to power Viscous fan control circuit short circuit to ground | Refer to the electrical guides and check the viscous fan speed sensor circuit. Repair/renew as necessary. |
| P048300 | Fan Performance | Cooling fan control circuit short circuit to ground Cooling fan control circuit short circuit to power Cooling fan control circuit high resistance Cooling fan fault | Check the cooling fan operation. Refer to the electrical guides and check the fan circuit, Repair/renew as necessary. Clear the DTCs and test for normal operation. Check the pulse width modulated (PWM) signal and check the motor for sticking. Repair/renew as necessary. |
| P048900 | Exhaust Gas Recirculation Control Circuit Low | EGR valve power supply circuit high resistance EGR valve power supply circuit short circuit to ground | Refer to the relevant service information. |
| P049000 | Exhaust Gas Recirculation Control Circuit High | EGR valve drive circuit short circuit to power | Refer to the relevant service information. |
| P049300 | Fan Overspeed (clutch locked) | Seized viscous coupling Fan speed sensor failure | Check that the viscous coupling turns independently of the fan. Refer to the electrical guides and check the viscous fan speed sensor circuit. Repair/renew as necessary. |
| P050000 | Vehicle Speed Sensor A | Vehicle speed invalid signal received over CAN | Check for wheel speed sensor DTCs. Investigate and repair any codes stored in other CAN modules. Clear the codes and retest. |
| P050162 | Vehicle Speed Sensor A Range/Performance | Vehicle speed range/performance | Check for wheel speed sensor DTCs. Investigate and repair any codes stored in other CAN modules. Clear the codes and retest. |
| P050164 | Vehicle Speed Sensor A Range/Performance | Vehicle speed range/performance | Check for wheel speed sensor DTCs. Investigate and repair any codes stored in other CAN modules. Clear the codes and retest. |
| P050429 | Brake Switch A/B Correlation | Brake switch malfunction (sub-processor) | Check for ABS DTCs, check the brake switch and circuits (refer to the electrical guides). Clear the DTCs and test for normal operation. |
| P050464 | Brake Switch A/B Correlation | Brake switch malfunction | Check for ABS DTCs, check the brake switch and circuits (refer to the electrical guides). Clear the DTCs and test for normal operation. |
| P050600 | Idle Air Control System RPM Lower Than Expected | Air intake restriction Accessory drive overload (defective/seized component) | Check the air intake system. Check the accessory drive belt and components. Refer to the relevant service information. |
| P050700 | Idle Air Control System RPM Higher Than Expected | Intake air leak between the mass air flow (MAF) sensor and throttle Intake air leak between throttle and engine Engine crankcase breather leak | Check the air intake system. Check the engine breather system. Refer to the relevant service information. |
| P051216 | Starter Request Circuit | Crank request circuit low input | Refer to the electrical guides and check the starter circuit. Repair/renew as necessary. |
| P051217 | Starter Request Circuit | Crank request circuit high input | Refer to the electrical guides and check the starter circuit. Repair/renew as necessary. |
| P051300 | Incorrect Immobilizer Key | Security key invalid | Program keys using the approved diagnostic system. Investigate and repair any codes stored in other CAN modules. Clear the codes and retest. |
| P052500 | Cruise Control Servo Control Circuit Range/Performance | Internal control module software corruption | Refer to the warranty policy and procedures manual if a module is suspect. |
| P052616 | Fan Speed Sensor Circuit | Viscous fan speed sensor low | Refer to the electrical guides and check the viscous fan speed sensor circuit. |
| P052617 | Fan speed sensor circuit | Viscous fan speed sensor high | Refer to the electrical guides and check the viscous fan speed sensor circuit. |
| P056000 | System Voltage | Battery back-up malfunction Battery voltage low Battery ground cable: high resistance Battery connections loose/corroded Battery current drain | Check the battery condition and state of charge. Refer to the relevant service information. |
| P056200 | System Voltage Low | Battery voltage low Battery ground cable: high resistance Battery connections loose/corroded Battery current drain | Check the battery condition and state of charge. Refer to the relevant service information. |
| P056300 | System Voltage High | System boosted from high voltage Battery voltage high Generator over charge condition | Check if the vehicle has been jump-started. Check the battery condition and state of charge. Refer to the relevant service information. |
| P057400 | Cruise Control System - Vehicle Speed Too High | Incorrect speed sensor signal | Check for ABS DTCs. Refer to the relevant service information. |
| P057600 | Cruise Control Input Circuit Low | Speed control switch short circuit to ground Speed control switch high resistance | Refer to the electrical guides and check the cruise control circuit between the ECM and switch. Check the switch operation and renew/renew as necessary. |
| P057700 | Cruise Control Input Circuit High | Speed control switch short circuit to power | Refer to the electrical guides and check the cruise control circuit between the ECM and switch. Check the switch operation and renew/renew as necessary. |
| P057800 | Cruise Control Multi-Function Input A Circuit Stuck | Speed control multi-function input A circuit high resistance Speed control multi-function input A circuit short circuit to ground Speed control multi-function input A circuit short circuit to power Speed control switch stuck | Refer to the electrical guides and check the cruise control circuit between the ECM and switch. Check the switch operation and renew/renew as necessary. |
| P057900 | Cruise Control Multi-Function Input A Circuit Range/Performance | Speed control multi-function input A circuit high resistance Speed control multi-function input A circuit short circuit to ground Speed control multi-function input A circuit short circuit to power Speed control switch stuck | Refer to the electrical guides and check the cruise control circuit between the ECM and switch. Check the switch operation and renew/renew as necessary. |
| P058500 | Cruise Control Multi-Function Input A/B Correlation | Cruise control acceleration monitor fault | Check for other DTCs and Repair/renew those first. Clear this DTC and retest. |
| P060143 | Internal Control Module Memory Check Sum Error | Transmission control module (TCM) Internal control module memory check sum error - special memory failure | Clear the DTC. Cycle the ignition, allow power latch and retest. If the DTC resets, refer to the warranty policy and procedures manual if a module is suspect. |
| P060145 | Internal Control Module Memory Check Sum Error | Internal control module memory check sum error - program memory failure | Clear the DTC. Cycle the ignition, allow power latch and retest. If the DTC resets, refer to the warranty policy and procedures manual if a module is suspect. |
| P060442 | Internal Control Module Random Access Memory (RAM) Error | General memory failure | Clear DTC and retest. If the problem persists, renew the TCM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060443 | Internal Control Module Random Access Memory (RAM) Error | Shut off RAM test - special memory failure | Clear the DTC. Cycle the ignition, allow power latch and retest. If the DTC resets, refer to the warranty policy and procedures manual if a module is suspect. |
| P060444 | Internal Control Module Random Access Memory (RAM) Error | RAM check sum - data memory failure | Clear the DTC. Cycle the ignition, allow power latch and retest. If the DTC resets, refer to the warranty policy and procedures manual if a module is suspect. |
| P060445 | Internal Control Module Random Access Memory (RAM) Error | ECM failure - program memory failure | Clear the DTC. Cycle the ignition, allow power latch and retest. If the DTC resets, refer to the warranty policy and procedures manual if a module is suspect. |
| P060542 | Internal Control Module Read Only Memory (ROM) Error | TCM - general memory failure ROM checksum | Clear DTC and retest. If the problem persists, renew the TCM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060543 | Internal Control Module Read Only Memory (ROM) Error | TCM - shut off ROM test | Clear DTC and retest. If the problem persists, renew the TCM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060544 | Internal Control Module Read Only Memory (ROM) Error | TCM - initial ROM test | Clear DTC and retest. If the problem persists, renew the TCM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060545 | Internal Control Module Read Only Memory (ROM) Error | TCM - continuous ROM test | Clear DTC and retest. If the problem persists, renew the TCM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060546 | Internal Control Module Read Only Memory (ROM) Error | TCM - continuous ROM test | Clear DTC and retest. If the problem persists, renew the TCM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060548 | Internal Control Module Read Only Memory (ROM) Error | ECM circuits short circuit to ground ECM circuits short circuit to power ECM circuits high resistance TCM - shut off ROM test - supervision software fault | Check the ECM circuits. Refer to the electrical guides. Clear the DTC. Cycle the ignition, allow power latch and retest. If the DTC resets, suspect the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060601 | Control Module Processor | PCM/ECM processor controller test - general electrical failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060604 | Control Module Processor | PCM/ECM processor error capturing instructions | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060605 | Control Module Processor | PCM/ECM processor scheduling sequence check - system programming failures | Program the module using the approved diagnostic system. |
| P060641 | Control Module Processor | PCM/ECM processor watch dog timer fault - general checksum failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060642 | Control Module Processor | PCM/ECM processor error capturing instructions - general memory failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060643 | Control Module Processor | PCM/ECM processor duplication memory fault - special memory failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060644 | Control Module Processor | PCM/ECM processor duplication memory fault - data memory failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060645 | Control Module Processor | PCM/ECM processor detection of write to internal ROM - program memory failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060646 | Control Module Processor | PCM/ECM processor detection of write to internal ROM - calibration/parameter memory failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060647 | Control Module Processor | PCM/ECM processor watch dog timer fault/processor fault | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060648 | Control Module Processor | PCM/ECM processor scheduling sequence check/processor - supervision software failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060649 | Control Module Processor | PCM/ECM processor controller test/processor - internal electronic failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060700 | Control Module Performance | ECM event information - CPU watch dog | Check the ECM circuits and connectors. Refer to the electrical guides. Clear the DTC. Cycle the ignition, allow power latch and retest. If the DTC resets, suspect the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060D00 | Internal Control Module Accelerator Pedal Position Performance | ECM internal communication error | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060E62 | Internal Control Module Throttle Position Performance | Throttle motor amplifier failure for valve sensor malfunction - ECM internal signal compare failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P060E64 | Internal Control Module Throttle Position Performance | Throttle position communication - ECM internal signal plausibility failure | Clear DTC and retest. If the problem persists, renew the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P061000 | Control Module Vehicle Options Error | Car configuration file (CCF) settings mismatch | Configure the module using the approved diagnostic system. |
| P061600 | Starter Relay Circuit Low | Starter relay drive circuit short circuit to ground Starter relay drive circuit high resistance Starter relay failure | Check the starter relay operation. Refer to the electrical guides and check the starter relay circuit. Repair/renew as necessary. |
| P061700 | Starter Relay Circuit High | Starter relay drive circuit short circuit to battery Starter relay failure | Check the starter relay operation. Refer to the electrical guides and check the starter relay circuit. Repair/renew as necessary. |
| P061A00 | Internal Control Module Torque Performance | Pedal follower error | Retrieve the flight recorder data using the approved diagnostic system and the customer statement relating to the concern. Check and Repair/renew other DTCs first. If this code still sets, contact the technical help desk. |
| P061A29 | Internal Control Module Torque Performance | Absolute engine torque calculation failure - sub-processor | Retrieve the flight recorder data using the approved diagnostic system and the customer statement relating to the concern. Check and Repair/renew other DTCs first. If this code still sets, contact the technical help desk. |
| P061A64 | Internal Control Module Torque Performance | Absolute engine torque calculation failure | Retrieve the flight recorder data using the approved diagnostic system and the customer statement relating to the concern. Check and Repair/renew other DTCs first. If this code still sets, contact the technical help desk. |
| P061B29 | Internal Control Module Torque Calculation Performance | Internal control module torque calculation performance | Retrieve the flight recorder data using the approved diagnostic system and the customer statement relating to the concern. Check and Repair/renew other DTCs first. If this code still sets, contact the technical help desk. |
| P061B64 | Internal Control Module Torque Calculation Performance | Internal control module torque calculation performance | Retrieve the flight recorder data using the approved diagnostic system and the customer statement relating to the concern. Check and Repair/renew other DTCs first. If this code still sets, contact the technical help desk. |
| P062000 | Generator Control Circuit | Generator circuit fault Generator failure | Refer to the electrical guides and check the generator circuit. Repair/renew as necessary. Refer to the relevant service information. |
| P062500 | Generator Field Terminal Circuit Low | Voltage sense circuit high resistance Generator B+ circuit high resistance/intermittent Generator monitor circuit short circuit to ground | Check the main charging circuit fuse. Check the charging voltage. Check the charging system circuits. Refer to the electrical guides. If no fault is found in the circuits, install a new generator. Refer to the relevant service information. Clear the DTCs and test for normal operation. |
| P062600 | Generator Field Terminal Circuit High | Generator connector loose/not connected Generator monitor circuit short circuit to power Generator monitor circuit high resistance | Check the charging voltage. Check the charging system circuits. Refer to the electrical guides. If no fault is found in the circuits, install a new generator. Refer to the relevant service information. Clear the DTCs and test for normal operation. |
| P062700 | Fuel Pump A Control Circuit Open | Fuel pump control circuit open circuit Fuel pump relay fault | Refer to the electrical guides and check the fuel pump circuits. Activate the relay and listen for an audible 'click'. Repair/renew as necessary. Clear the DTCs and test for normal operation. |
| P062800 | Fuel Pump A Control Circuit Low | Fuel pump control circuit short circuit to ground Fuel pump control circuit high resistance Fuel pump relay fault | Refer to the electrical guides and check the fuel pump circuits. Activate the relay and listen for an audible 'click'. Repair/renew as necessary. Clear the DTCs and test for normal operation. |
| P062900 | Fuel Pump A Control Circuit High | Fuel pump control circuit short circuit to power Fuel pump relay fault | Refer to the electrical guides and check the fuel pump circuits. Activate the relay and listen for an audible 'click'. Repair/renew as necessary. Clear the DTCs and test for normal operation. |
| P062A00 | Fuel Pump A Control Circuit Range/Performance | ECM requesting invalid fuel pump duty cycle | Refer to the electrical guides and check the fuel pump circuits. Clear the DTCs and test for normal operation. Refer to the warranty policy and procedures manual if a module is suspect. |
| P063000 | VIN Not Programmed or Incompatible - ECM/ECM | VIN not programmed VIN incompatible with vehicle specification | Configure the module using the approved diagnostic system. |
| P063305 | Immobilizer Key Not Programmed - ECM/PCM | Security target ID transfer process failed | Program the key using the approved diagnostic system. |
| P063355 | Immobilizer Key Not Programmed - ECM/PCM | Security no target in EMS | Program the module using the approved diagnostic system. |
| P063422 | PCM/ECM/TCM Internal Temperature A Too High | ECM internal temperature too high E box cooling fan obstruction E box cooling fan operation ECM internal sensor error | Consider atmospheric and customer driving conditions before carrying out any other action. Check the E box cooling fan function. Refer to the electrical guides and check the ECM circuits. Using a datalogger function, check the ECM temperature. If the temperature value is greater than 130°C (266°F) suspect the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P063424 | PCM/ECM/TCM Internal Temperature A Too High | ECM internal temperature too high E box cooling fan obstruction E box cooling fan operation ECM internal sensor error | Consider atmospheric and customer driving conditions before carrying out any other action. Check the E box cooling fan function. Refer to the electrical guides and check the ECM circuits. Using a datalogger function, check the ECM temperature. If the temperature value is greater than 130°C (266°F) suspect the ECM. Refer to the warranty policy and procedures manual if a module is suspect. |
| P066800 | PCM/ECM/TCM Internal Temperature Sensor A Circuit Low | ECM temperature sensor circuit short circuit to ground | Clear the DTC, cycle the ignition, allow power latch and retest. If the DTC resets, refer to the warranty policy and procedures manual if a module is suspect. |
| P066900 | PCM/ECM/TCM Internal Temperature Sensor A Circuit High | TCM temperature sensor circuit short circuit to power | Clear the DTC, cycle the ignition, allow power latch and retest. If the DTC resets, refer to the warranty policy and procedures manual if a module is suspect. |
| P068700 | ECM/PCM Power Relay Control Circuit High | ECM control relay malfunction | Check the ECM relay and circuit. Refer to the electrical guides. |
| P069500 | Fan 3 Control Circuit Low | E box fan circuit short circuit to ground | Check the E box fan operation and circuit. Refer to the electrical guides. |
| P069600 | Fan 3 Control Circuit High | E box fan circuit short circuit to power | Check the E box fan operation and circuit. Refer to the electrical guides. |
| P070000 | Transmission Control System (MIL Request) | Transmission fault | Check for other DTCs and rectify those first. Clear this DTC and retest. |
| P085100 | Park/Neutral Switch Input Circuit Low | Park/Neutral switch circuit short to ground | Check the switch and circuits. Refer to the electrical guides and repair/renew as necessary. Clear the DTCs and test for normal operation. |
| P085200 | Park/Neutral Switch Input Circuit High | Park/Neutral switch circuit short to power | Check the switch and circuits. Refer to the electrical guides and repair/renew as necessary. Clear the DTCs and test for normal operation. |
| P131500 | Persistent Misfire | ECM to ignition coil primary circuit fault (cylinder misfire detected DTC also flagged) Ignition coil failure Spark plug failure/fouled/incorrect gap Fuel delivery pressure low Fuel injector circuit fault(s) (injector DTCs also flagged) Cylinder compression low | For ignition coil tests, refer to the coil failure DTCs in this index. Check the spark plug conditions and gaps. Check the fuel pressure, check for fuel injector DTCs and refer to the relevant service information. |
| P131600 | Injector Driver Module Codes Detected | Engine misfire - injector driver module codes detected | Refer to the warranty policy and procedures manual if a module is suspect. |
| P136700 | Ignition Spare | Ignition coil group A monitoring circuit to ECM high resistance, short circuit to ground, short circuit to power Ignition module/coils ground circuit fault, right hand bank | Refer to the electrical guides and check the ignition monitoring circuit between the ignition coils and ECM. Repair as necessary. For ignition coil tests, refer to the coil failure DTCs in this index. |
| P136800 | Ignition Spare | Ignition coil group B monitoring circuit to ECM high resistance, short circuit to ground, short circuit to power Ignition module/coils ground circuit fault left hand bank | Refer to the electrical guides and check the ignition monitoring circuit between the ignition coils and ECM. Repair as necessary. For ignition coil tests, refer to the coil failure DTCs in this index. |
| P160300 | EEPROM Malfunction | ECM fault | Refer to the warranty policy and procedure manual if an ECM is suspect. |
| P210129 | Throttle Actuator A Control Motor Circuit Range/Performance | Jammed throttle blade, gearing or motor | Check for fuel charging DTCs and a message in the instrument cluster. Rectify as necessary. If the problem persists, renew the throttle body. Refer to the relevant service information. |
| P210162 | Throttle Actuator A Control Motor Circuit Range/Performance | Jammed throttle blade, gearing or motor | Check for fuel charging DTCs and a message in the instrument cluster. Rectify as necessary. If the problem persists, renew the throttle body. Refer to the relevant service information. |
| P210164 | Throttle Actuator A Control Motor Circuit Range/Performance | Jammed throttle blade, gearing or motor | Check for fuel charging DTCs and a message in the instrument cluster. Rectify as necessary. If the problem persists, renew the throttle body. Refer to the relevant service information. |
| P210177 | Throttle Actuator A Control Motor Circuit Range/Performance | Jammed throttle blade, gearing or motor | Check for fuel charging DTCs and a message in the instrument cluster. Rectify as necessary. If the problem persists, renew the throttle body. Refer to the relevant service information. |
| P210329 | Throttle Actuator A Control Motor Circuit High | Throttle Actuator control circuit short circuit to power ECM fault | Check the electric throttle unit and circuits. Refer to the electrical guides. Clear the DTCs and test for normal operation. Refer to the guided diagnostic routine for this code on the approved diagnostic system. Refer to the warranty policy and procedure manual if an ECM is suspect. |
| P210364 | Throttle Actuator A Control Motor Circuit High | Control circuit short circuit to power ECM fault | Check the electric throttle unit and circuits. Refer to the electrical guides. Clear the DTCs and test for normal operation. Refer to the guided diagnostic routine for this code on the approved diagnostic system. Refer to the warranty policy and procedure manual if an ECM is suspect. |
| P210500 | Throttle Motor Control System - Forced Engine Shutdown | Throttle MIL request due to fuel cut | Check for DTCs indicating the reason for the fuel cut. Follow the action indicated for those DTCs. |
| P210629 | Throttle Actuator Control System - Forced Limited Power | Intended reduced availability fault (limp home) | Check for fuel charging DTCs and a message in the instrument cluster. Rectify as necessary. If the problem persists, renew the throttle body. Refer to the relevant service information. |
| P210664 | Throttle Actuator Control System - Forced Limited Power | Intended reduced availability fault (limp home) | Check for fuel charging DTCs and a message in the instrument cluster. Rectify as necessary. If the problem persists, renew the throttle body. Refer to the relevant service information. |
| P211800 | Throttle Actuator Control Motor Current Range/Performance | Throttle motor over current condition detected ECM fault | Refer to the electrical guides and check the wiring between the ECM and throttle actuator. Refer to the guided diagnostic routine for this code on the approved diagnostic system. Refer to the warranty policy and procedures manual if an ECM is suspect. |
| P211900 | Throttle Actuator Control Throttle Body Range/Performance | Throttle spring faulty | Check the throttle return spring on the throttle body. Repair/renew as necessary. Check for fuel charging DTCs and a message in the instrument cluster. Rectify as necessary. If the problem persists, renew the throttle body. Refer to the relevant service information. |
| P212200 | Throttle/Pedal Position Sensor/Switch D Circuit | Throttle position sensor circuit 2 low input | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P212300 | Throttle/Pedal Position Sensor/Switch D Circuit High | Throttle position sensor circuit 2 high input | Refer to the guided diagnostic routine for this code on the approved diagnostic system. |
| P213529 | Throttle/Pedal Position Sensor/Switch A/B Voltage Correlation | Driver demand sensor - circuit 1 and 2 range/performance - sub-processor | Refer to the guided diagnostic routine for this code on the approved diagnostic system. Refer to the warranty policy and procedures manual if an ECM is suspect. |
| P213564 | Throttle/Pedal Position Sensor/Switch A/B Voltage Correlation | Driver demand sensor - circuit 1 and 2 range/performance - sub-processor | Refer to the guided diagnostic routine for this code on the approved diagnostic system. Refer to the warranty policy and procedures manual if an ECM is suspect. |
| P222800 | Barometric Pressure Sensor A Circuit Low | Barometric sensor failure (internal ECM fault) | Clear the DTC, cycle the ignition, allow power latch and retest. If the DTC resets, refer to the warranty policy and procedures manual if an ECM is suspect. |
| P222900 | Barometric Pressure Sensor A Circuit High | Barometric sensor failure (internal ECM fault) | Clear the DTC, cycle the ignition, allow power latch and retest. If the DTC resets, refer to the warranty policy and procedures manual if an ECM is suspect. |
| P240100 | Evaporative Emission System Leak Detection Pump Control Circuit Low | Diagnostic monitoring of tank leaks (DMTL) pump circuit(s) short circuit to ground DMTL pump circuit(s) high resistance | Refer to the electrical guides and check the wiring between the ECM and DMTL pump. Repair as necessary. |
| P240200 | Evaporative Emission System Leak Detection Pump Control Circuit High | DMTL pump circuit(s) short circuit to power | Refer to the electrical guides and check the wiring between the ECM and DMTL pump. Repair as necessary. |
| P240429 | Evaporative Emission System Leak Detection Pump Sense Circuit Range/Performance | DMTL reference leak | Check the evaporative emission system for serviceability and leaks. Check the DMTL pump and circuits. Refer to the electrical guides. Complete a DMTL test. Refer to the relevant service information. |
| P24042F | Evaporative Emission System Leak Detection Pump Sense Circuit Range/Performance | DMTL signal erratic | Check the DMTL pump and circuits. Refer to the electrical guides. Refer to the relevant service information. |
| P240500 | Evaporative Emission System Leak Detection Pump Sense Circuit Low | DMTL pump circuit reference circuit low | Refer to the electrical guides and check the wiring between the ECM and DMTL pump. Repair as necessary. |
| P240600 | Evaporative Emission System Leak Detection Pump Sense Circuit High | DMTL pump circuit reference circuit high | Refer to the electrical guides and check the wiring between the ECM and DMTL pump. Repair as necessary. |
| P240B00 | Evaporative Emission System Leak Detection Pump Heater Circuit Low | DMTL heater control circuit low | Refer to the electrical guides and check the wiring between the ECM and DMTL pump. Repair as necessary. |
| P240C00 | Evaporative Emission System Leak Detection Pump Heater Circuit High | DMTL heater control circuit high | Refer to the electrical guides and check the wiring between the ECM and DMTL pump. Repair as necessary. |
| P245000 | Evaporative Emission Control System Switching Valve Performance/Stuck Open | DMTL pump circuit short circuit, high resistance DMTL change over valve failed | Refer to the electrical guides and check the wiring between the ECM and DMTL valve. Repair/renew as necessary. Refer to the relevant service information. |
| P245100 | Evaporative Emission Control System Switching Valve Stuck Closed | DMTL pump circuit short circuit, high resistance DMTL change over valve failed | Refer to the electrical guides and check the wiring between the ECM and DMTL valve. Repair/renew as necessary. Refer to the relevant service information. |
| P252516 | Vacuum reservoir pressure sensor circuit | Brake booster vacuum pump relay short circuit to ground | Refer to the electrical guides and check the brake pump relay circuits/relay operation. |
| P252517 | Vacuum reservoir pressure sensor circuit | Brake booster vacuum pump relay short circuit to power | Refer to the electrical guides and check the brake pump relay circuits/relay operation. |
| P260100 | Coolant Pump A Control Circuit Range/Performance | Coolant pump control circuit range/performance | Refer to the electrical guides and check the supercharger coolant pump circuit. |
| P261000 | ECM Internal engine off timer performance | ECM internal error | Refer to the warranty policy and procedures manual if an ECM is suspect. |
| P277200 | Four Wheel Drive (4WD) Low Switch Circuit Range/Performance | Low gear ratio plausibility check (CAN TCCM message v actual) | Check for four wheel drive system DTCs. Carry out a complete vehicle read. |
| U007300 | Control Module Communication Bus "A" Off | CAN Link circuit malfunction | Check 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. |
| U010100 | Lost Communication With TCM | CAN Link ECM/TCM network malfunction | Check 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. |
| U010200 | Lost Communication With Transfer Case Control Module | CAN Link ECM/transfer case control module network malfunction | Check 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. |
| U010400 | Lost Communication With Cruise Control Module | CAN Link engine control module ECM/Speed control module CAN timeout | Check 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. |
| U012100 | Lost Communication With Anti-Lock Brake System (ABS) Control Module | CAN Link ECM/ABS network malfunction | Check 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. |
| U012600 | Lost Communication With Steering Angle Sensor Module | CAN Link ECM/steering angle sensor network malfunction | Check 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. |
| U012800 | Lost Communication With Park Brake Control Module | CAN Link ECM/electric park brake signal missing network malfunction | Check 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. |
| U013300 | Lost Communication With Suspension Control Module "A" | CAN Link ECM/active roll control module network malfunction | Check 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. |
| U013800 | Lost Communication with All Terrain Control Module | CAN Link ECM/terrain optimization switch network malfunction | Check 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. |
| U015100 | Lost Communication With Restraints Control Module | Lost communications - CAN or hardwired | Check 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. |
| U01511F | Lost Communication With Restraints Control Module | Lost communications - SRS fault | Check 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. |
| U015157 | Lost Communication With Restraints Control Module | Lost communications - CAN fault | Check 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. |
| U015500 | Lost Communication With Instrument Panel Cluster (IPC) Control Module | CAN Link ECM/IPC network malfunction | Check 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. |
| U016700 | Lost Communication With Vehicle Immobilizer Control Module | Security challenge response timeout | Check 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. |
| U023500 | Lost Communication With Cruise Control Front Distance Range Sensor | Lost communication Fault status transmitted | Check 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. |
| U040264 | Invalid Data Received from TCM | Invalid data received from transmission control module - actual gear position status | Check 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. |
| U040267 | Invalid Data Received from TCM | Invalid data received from transmission control module - gear shifter position status | Check 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. |
| U040281 | Invalid Data Received from TCM | Invalid data received from transmission control module - output shaft speed signal | Check 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. |
| U042381 | Invalid Data Received From Instrument Panel Control Module | External ambient temperature | Check 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. |
| U042386 | Invalid Data Received From Instrument Panel Control Module | Battery voltage level | Check 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. |
| U042600 | Invalid Data Received From Vehicle Immobilizer Control Module | Security code mismatch | Check the configuration of the modules using the approved diagnostic system. |
| U206400 | Warning Indicator Requested by Another Control Module | Crash event has occurred | Check for SRS DTCs. Refer to the relevant service information. DTC index. |
POWERTRAIN CONTROL MODULE (PCM) LONG DRIVE CYCLE SELF-TEST
| WARNING | Where possible, all road tests should be on well surfaced and dry roads. Always comply with speed limits and local traffic regulations. |
Note. This procedure is an overcheck only. If fault codes are found, interrogation of the relevant system must be carried out and claimed against.
Note. The vehicle must exceed 50mph (80 km/h) during the road test.
- Connect the diagnostic equipment to the vehicle.
- Follow on screen prompts and check for engine management fault codes.
- Clear the fault codes following the on screen procedure.
- Disconnect the diagnostic equipment from the vehicle.
- Make sure the engine temperature is above 60 °C (140 °F). Carry out a road test and perform the following operations. Accelerate to 55 mph (88 km/h) in 5th gear and cruise for 2 minutes with the engine speed at or above 1800rpm. Lift off the throttle and allow the vehicle to decelerate until the engine speed is less than 1000 rpm. Stop the vehicle. Release brake, allow the vehicle to move with no throttle for 1 minute. Road test is now complete.
- Connect the diagnostic equipment to the vehicle.
- Follow on screen prompts and check for engine management fault codes.
- Disconnect the diagnostic equipment from the vehicle.
POWERTRAIN CONTROL MODULE (PCM) SHORT DRIVE CYCLE SELF-TEST
Note. This procedure is an overcheck only. If fault codes are found, interrogation of the relevant system must be carried out and claimed against.
- Connect the diagnostic equipment to the vehicle.
- Follow on screen prompts and check for engine management fault codes.
- Clear the fault codes following the on screen procedure.
- Start the engine. Allow the engine to idle for 30 seconds. Raise the engine speed to 1500 rpm and hold for 3 minutes until a temperature of 70°C (158 °F) is achieved. Allow the engine to idle for 30 seconds. Switch off the engine.
- Follow on screen prompts and check for engine management fault codes.
- Disconnect the diagnostic equipment from the vehicle.
Scheme 33
- Remove the brake pedal rubber.
- Position the DTI gauge on a suitable mounting block, as illustrated.
- With the aid of another technician, gently press the brake pedal until the stoplamps illuminate.
- Note the measurement of the brake pedal travel from rest position until the stoplamps illuminated.
ADJUST
- Remove the stoplamp switch. For additional information, refer to: «Stoplamp Switch»(/land-rover/range-rover-sport/i-2005-2009/remont/exterior-lights/#exterior-lighting) information.
- Install the stoplamp switch. For additional information, refer to: «Stoplamp Switch»(/land-rover/range-rover-sport/i-2005-2009/remont/exterior-lights/#exterior-lighting) information.
- Check the adjustment of the stoplamp switch by following the Check procedure in this procedure and carry out the Adjust procedure if required.
Scheme 34
Scheme 35
- 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.
- Remove the radiator access panel. Remove the 4 bolts.
- Remove the oil pressure sensor. Disconnect the electrical connector. Position a container to collect the fluid.
INSTALLATION
- To install, reverse the removal procedure. Tighten the oil pressure sensor to 12 Nm (9 lb.ft). Tighten the 4 bolts to 10 Nm (7 lb.ft).
- Check and top-up the engine oil.
Scheme 36
Scheme 37
- 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.
- Remove the radiator access panel. Remove the 4 bolts.
- Remove the oil temperature sensor. Disconnect the electrical connector. Position a container to collect the fluid.
- To install, reverse the removal procedure. Tighten the oil temperature sensor to 20 Nm (15 lb.ft). Tighten the bolts to 10 Nm (7 lb.ft).
- Check and top-up the engine oil.
Scheme 38
- 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.
- Remove the engine cover. For additional information, refer to: «Engine Cover V8 S/C 4.2L Petrol»(/land-rover/range-rover-sport/i-2005-2009/remont/exteriorinterior-trim/#interior-trim-and-omamentation) information.
- Remove the ECT sensor. Position an absorbent cloth to collect fluid spillage. Disconnect the electrical connector. Release the clip. Remove the sensor and discard the seal.
- To install, reverse the removal procedure. Clean the component mating faces. Check and top-up the coolant if required.
REMOVAL
Note. If the ECM is to be replaced, the T4 must be connected prior to battery disconnection and on-screen instructions must be followed.
Scheme 39
Scheme 40
- 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.
- Remove the four-wheel drive control module. For additional information, refer to: «Four-Wheel Drive (4WD) Control Module»(/land-rover/range-rover-sport/i-2005-2009/remont/transfer-case/#four-wheel-drive-systems) information.
- Remove the ECM cover. Disconnect 2 electrical connectors for access. Disconnect the 2 ECM electrical connectors. Remove the 4 Torx screws.
- Remove the ECM. Remove the ECM top cover.
- Install the ECM. Install the ECM cover and secure with Torx screws. Install the ECM upper cover.
- Connect the ECM electrical connectors.
- Connect the 2 electrical connectors disconnected for access.
- Install the four-wheel drive control module. For additional information, refer to: «Four-Wheel Drive (4WD) Control Module»(/land-rover/range-rover-sport/i-2005-2009/remont/transfer-case/#four-wheel-drive-systems) information.
- 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.
- Connect T4 to calibrate a new ECM.
Scheme 41
- 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.
- Raise and support the vehicle.
- Remove the engine undershield. For additional information, refer to: «ENGINE UNDERSHIELD»(/land-rover/range-rover-sport/i-2005-2009/remont/exterior-body-panels/#front-end-body-panels) information.
- Remove the crankshaft position (CKP) sensor. Disconnect the electrical connector. Remove the Torx screw.
- To install, reverse the removal procedure. Tighten the Torx screw to 8 Nm (6 lb.ft).
- Install the engine undershield. For additional information, refer to: «Engine Undershield»(/land-rover/range-rover-sport/i-2005-2009/remont/exterior-body-panels/#front-end-body-panels) information.
- 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.
- Using the approved diagnostic equipment, clear the powertrain control module (PCM) adaptions.
Note. The TP sensor is part of the throttle body assembly and cannot be serviced separately.
- Remove the throttle body. For additional information, refer to: «Throttle Body Gasket»(/land-rover/range-rover-sport/i-2005-2009/remont/fuel-system/#fuel-charging-and-controls-v8-sc-42l-petrol) information.
- Install the throttle body. For additional information, refer to: «Throttle Body Gasket»(/land-rover/range-rover-sport/i-2005-2009/remont/fuel-system/#fuel-charging-and-controls-v8-sc-42l-petrol) information.
Scheme 42
- 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.
- Remove the throttle body gasket. For additional information, refer to: «Throttle Body Gasket»(/land-rover/range-rover-sport/i-2005-2009/remont/fuel-system/#fuel-charging-and-controls-v8-sc-42l-petrol) information.
- Remove the camshaft position (CMP) sensor. Disconnect the electrical connector. Remove the Torx screw. Discard the O-ring seal.
- To install, reverse the removal procedure. Clean the component mating faces. Install a new O-ring seal. Tighten the Torx screw to 7 Nm (5 lb.ft).
Scheme 43
- 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.
- Remove the supercharger. For additional information, refer to: «Supercharger»(/land-rover/range-rover-sport/i-2005-2009/remont/mechanical/#intake-air-distribution-and-filtering-v8-sc-42l-petrol) information.
- Remove the knock sensors (KS). Disconnect the electrical connector. Remove the acoustic pad. Remove the 2 bolts.
- To install, reverse the removal procedure. Clean the component mating faces. Tighten the bolts to 20 Nm (15 lb.ft). Install the acoustic pad.
Scheme 44
- 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.
- Remove the throttle body gasket. For additional information, refer to: «Throttle Body Gasket»(/land-rover/range-rover-sport/i-2005-2009/remont/fuel-system/#fuel-charging-and-controls-v8-sc-42l-petrol) information.
- Remove the manifold absolute pressure (MAP) sensor. Disconnect the electrical connector. Remove the Allen screw. Discard the O-ring seal.
- Install the MAP sensor. Clean the components. Install a new O-ring seal. Tighten the Allen screw to 3 Nm (2 lb.ft). Connect the electrical connector.
- Install the throttle body gasket. For additional information, refer to: «Throttle Body Gasket»(/land-rover/range-rover-sport/i-2005-2009/remont/fuel-system/#fuel-charging-and-controls-v8-sc-42l-petrol) information.
- 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.
- If required, carry out a short drive cycle. For additional information, refer to: «Powertrain Control Module (PCM) Short Drive Cycle SELF-TEST»(/land-rover/range-rover-sport/i-2005-2009/remont/engine-control-systems/#electronic-engine-controls-v8-sc-42l-petrol__powertrain-control-module-pcm-short-drive) .
Scheme 45
- 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.
- Remove the throttle body gasket. For additional information, refer to: «Throttle Body Gasket»(/land-rover/range-rover-sport/i-2005-2009/remont/fuel-system/#fuel-charging-and-controls-v8-sc-42l-petrol) information.
- Remove the fuel temperature sensor. Disconnect the electrical connector.
- Install the fuel temperature sensor. Clean the component mating faces. Apply sealant to the sensor thread. Tighten the sensor to 7 Nm (5 lb.ft). Connect the electrical connector.
- Install the throttle body gasket. For additional information, refer to: «Throttle Body Gasket»(/land-rover/range-rover-sport/i-2005-2009/remont/fuel-system/#fuel-charging-and-controls-v8-sc-42l-petrol) information.
- 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.
HEATED OXYGEN SENSOR (HO2S) LH
Special Tool(s)
Wrench, HO2S 310-121 (LRT-19-014)
Scheme 46
Scheme 47
- Raise and support the vehicle.
- Disconnect the LH catalytic converter from the exhaust manifold. Remove and discard the 2 bolts.
- Disconnect the RH catalytic converter from the exhaust manifold. Remove and discard the 2 bolts.
- Using the special tool, remove the HO2S. Release the wiring harness. Disconnect the electrical connector.
Scheme 48
- Using the special tool, install the HO2S. Clean the components. Apply an anti-seize compound to the thread of the sensor. Tighten the HO2S to 45 Nm (33 lb.ft). Connect the electrical connector. Attach the wiring harness.
- Position the RH catalytic converter to the exhaust manifold. Clean the components. Tighten the new bolts to 22 Nm (16 lb.ft).
- Position the LH catalytic converter to the exhaust manifold. Clean the components. Tighten the new bolts to 22 Nm (16 lb.ft).
- Using the approved diagnostic equipment, clear the powertrain control module (PCM) adaptions.
CATALYST MONITOR SENSOR LH
Special Tool(s)
Wrench, HO2S 310-121 (LRT-19-014)
Scheme 49
Scheme 50
Scheme 51
Scheme 52
Scheme 53
- Raise and support the vehicle.
- Disconnect the LH catalytic converter from the exhaust manifold. Remove and discard the 2 bolts.
- Disconnect the RH catalytic converter from the exhaust manifold. Remove and discard the 2 bolts.
- Remove the catalyst monitor sensor electrical connector heat shield. Remove the 2 bolts.
- Using the special tool, remove the catalyst monitor sensor. Release the wiring harness. Disconnect the electrical connector.
Scheme 54
- Using the special tool, install the catalyst monitor sensor. Clean the components. Apply an anti-seize compound to the thread of the sensor. Tighten the catalyst monitor sensor to 45 Nm (33 lb.ft). Connect the electrical connector. Attach the wiring harness.
- Install the heat shield. Tighten the bolts to 10 Nm (7 lb.ft).
- Position the RH catalytic converter to the exhaust manifold. Clean the components. Tighten the new bolts to 22 Nm (16 lb.ft).
- Position the LH catalytic converter to the exhaust manifold. Clean the components. Tighten the new bolts to 22 Nm (16 lb.ft).
- If required, carry out a long drive cycle. For additional information, refer to: «Powertrain Control Module (PCM) Long Drive Cycle Self-Test»(/land-rover/range-rover-sport/i-2005-2009/remont/engine-control-systems/#electronic-engine-controls-v8-sc-42l-petrol__powertrain-control-module-pcm-long-drive) .
Scheme 55
Scheme 56
Scheme 57
Scheme 58
- 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.
- Remove the air intake resonator. For additional information, refer to: «Intake Air Resonator»(/land-rover/range-rover-sport/i-2005-2009/remont/mechanical/#intake-air-distribution-and-filtering-v8-sc-42l-petrol) information.
- Position the wiring harness support bracket aside. Release the 2 fuel pipe clips. Remove the 4 bolts.
- Remove the throttle body intake. Release the clip. Release the bushing.
- Position the supercharger pressure relief actuator aside for access. Remove the bolt.
- Remove the intake air temperature (IAT) sensor. Disconnect the electrical connector. Remove the 2 Torx screws. Remove and discard the O-ring seal.
- Install the IAT sensor. Clean the components. Install a new O-ring seal. Tighten the Torx screws to 6 Nm (4 lb.ft). Connect the electrical connector.
- Secure the supercharger pressure relief actuator. Tighten the bolt to 10 Nm (7 lb.ft).
- Install the throttle body intake. Align the bushing. Secure the clip.
- Install the wiring harness support bracket. Tighten the bolts to 10 Nm (7 lb.ft).
- Install the air intake resonator. For additional information, refer to: «Intake Air Resonator»(/land-rover/range-rover-sport/i-2005-2009/remont/mechanical/#intake-air-distribution-and-filtering-v8-sc-42l-petrol) information.
- 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.
- Using the approved diagnostic equipment, clear the powertrain control module (PCM) adaptions.
Scheme 59
- 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.
- Remove the engine cover. For additional information, refer to: «Engine Cover V8 S/C 4.2L Petrol»(/land-rover/range-rover-sport/i-2005-2009/remont/exteriorinterior-trim/#interior-trim-and-omamentation) information.
- Remove the FRP sensor. Disconnect the vacuum line. Disconnect the electrical connector. Position an absorbent cloth to collect fluid spillage. Remove the 2 bolts. Discard the O-ring seals.
- Install the FRP sensor. Clean the component mating faces. Install the new O-ring seals. Tighten the bolts to 6 Nm (4 lb.ft). Connect the electrical connector. Connect the vacuum line.
- Install the engine cover. For additional information, refer to: «Engine Cover V8 S/C 4.2L Petrol»(/land-rover/range-rover-sport/i-2005-2009/remont/exteriorinterior-trim/#interior-trim-and-omamentation) information.
- 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.
Scheme 60
- 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.
- Remove the MAF sensor. Disconnect the electrical connector. Remove the 2 screws.
- To install, reverse the removal procedure. Tighten Torx screws to 2 Nm (1.5 lb.ft).
- If required, carry out a short drive cycle. For additional information, refer to: «Powertrain Control Module (PCM) Short Drive Cycle Self-Test»(/land-rover/range-rover-sport/i-2005-2009/remont/engine-control-systems/#electronic-engine-controls-v8-sc-42l-petrol__powertrain-control-module-pcm-short-drive) .
- Using the approved diagnostic equipment, clear the powertrain control module (PCM) adaptions.
See also:
• Evaporative Emissions
• Generator
• Fuel Charging And Controls
• Engine Ignition
• Engine Cooling
• Ride And Handling Optimization
• Stoplamp Switch
• Specifications
• Engine Cover V8 S/C 4.2L Petrol
• Four-Wheel Drive (4WD) Control Module
• ENGINE UNDERSHIELD
• Supercharger
• Electronic Engine Controls
• Powertrain Control Module (PCM) Short Drive Cycle SELF-TEST
• Powertrain Control Module (PCM) Long Drive Cycle Self-Test