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2.0l - Generic Scan Tool - Engine Mechanical - Engine Code(s): Caeb (avant) Audi A4 B8

Engine Control Systems 56 illustrations ~26239 words

GENERAL INFORMATION

Included in the contents of this Generic Scan Tool (GST) manual is a summary table of the vehicle specific OBD II Emission Related DTCs. The DTC table contains DTC Malfunction Criteria, Threshold Values, Secondary Parameters, Enabling Conditions, Monitoring Time Length, Frequency of Checks, and MIL Illumination information which can be used to accurately monitor and diagnose emissions related faults and perform functions required to run Modes 01 through 09 with a hand held scan tool.

This information also contains the step by step procedures to accurately diagnose and repair a component or system once a DTC has been set. References to repair procedures and wiring diagrams can be found within the diagnostic test procedures.

SAFETY PRECAUTIONS

WARNINGFailure to follow these instructions may result in personal injury or possible death. When performing the drive cycle operation, pay strict attention to driving conditions and observe and obey all posted speed limits. Test equipment must always be secured to the rear seat and operated by a second person. If test and measuring equipment is operated from the passenger seat, the person seated could be injured in the event of an accident involving deployment of the passenger-side airbag. The fuel system is under pressure! Before opening the fuel system, place rags around the connection area. Then release pressure by carefully loosening the connection. The engine section of the fuel system, after the high pressure pump, is under extremely high pressure! When working on engine or fuel injection system, fuel pressure must be relieved to residual pressure before opening high pressure components. Refer to the Service Information for the proper procedure. If the battery has not been disconnected, the fuel pump fuse must be removed before opening the fuel supply system as the fuel pump may be activated by the driver's door contact switch. Testing of the EVAP and ORVR systems can result in the escape of explosive fuel vapor. Do not smoke while testing the EVAP system, and make sure the area you are working in is well ventilated. Observe the following for all procedures, especially in the engine compartment due to lack of room: Route lines of all types (e.g. for fuel, hydraulic, EVAP canister system, coolant and refrigerant, brake fluid, vacuum) and electrical wiring so that the original path is followed. Watch for sufficient clearance to all moving or hot components. Do not touch or disconnect the Ignition Coils, ignition wires, connecting parts or adapter cables when the ignition is on or the engine is running or turning at starting RPM. Only disconnect and reconnect wires for injection and ignition system, including test leads, when the ignition is turned off. When removing and installing components from full or partially full fuel tanks, observe the following: The fuel tank must only be partially full. How much fuel can remain in the fuel tank may be read in the respective work description. Empty the fuel tank if necessary. Before starting work, switch on the exhaust extraction system and place an extraction hose close to the installation opening of the fuel tank to extract escaping fuel fumes. If no exhaust extraction system is available, a radial fan (as long as motor is not in air flow) with a displacement greater than 15 m 3 /h can be used. Prevent fuel from contacting the skin! Wear fuel-resistant gloves! When servicing the engine control module (ECM), it may be necessary to use a heat gun. The heat gun, shear bolts, and parts of the protective housing will become extremely hot. Use extreme caution when working with or handling these parts to avoid personal injury. Observe operating instructions when working with a heat gun. To prevent damage (burning) to the wiring and harness connections, insulation and the electronic components, perform outlined work steps exactly! The cooling system is under pressure. To avoid scalding, use caution when opening the cooling system and servicing cooling system components!
CAUTIONThe battery must only be disconnected and connected with the ignition switched off. Otherwise, the engine control module (ECM) can be damaged. The use of nails, paper clips, or another unauthorized materials to back-probe electrical harness connectors is strictly prohibited and may cause damage to the electrical harness connectors, terminal ends or to a component. Use only the manufacturers test lead kit or an equivalent aftermarket test lead kit for back-probing all electrical harness connectors. Do not use sealants containing silicone. Particles of silicone drawn into the engine, will not be burnt in the engine and will damage the oxygen sensors. Secure all hose connections with the correct hose clips (the same as original equipment). If engine is to be cranked without starting, for example as part of a compression test, remove the fuses for the voltage supply of Ignition Coils and the fuel injector. An electrostatic charge can lead to functional problems of electrical components of the engine, transmission and selector lever mechanism. Touch a grounded object, e.g. a water pipe or a hoist, before working on electrical components. Do not make direct contact with electrical harness connector terminals. Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

CLEAN WORKING CONDITIONS

Even minor contaminations can lead to malfunctions in the fuel injection system. When working on the fuel supply/injection system, pay careful attention to the following rules of cleanliness

  1. Thoroughly clean all connections and the surrounding area before disconnecting.
  2. Place removed parts on a clean surface and cover. Use lint-free cloths.
  3. Carefully cover over opened components or seal, if repairs are not performed immediately.
  4. When the system is open, do not work with compressed air. Do not move vehicle unless absolutely necessary.
  5. Install clean components: Remove replacement parts immediately prior to installation. Do not use parts that have been stored unpacked (e.g. in tool boxes etc.).
  6. Separated electrical connectors: Protect from dirt and moisture. Make sure connections are dry when reconnecting.

ON BOARD DIAGNOSTIC SYSTEMS

California OBD-II applies to all gasoline engine vehicles up to 14, 000 lbs. Gross Vehicle Weight Rating (GVWR) starting in the 1996 MY and all diesel engine vehicles up to 14, 000 lbs. GVWR starting in the 1997 MY.

Several states in the northeastern United States have chosen to adopt the California emission regulations starting in the 1998 MY and are known as "Green States".

Green States receive California-certified vehicles for passenger cars and light trucks up to 6, 000 lbs. GVWR. Starting in the 2004 MY, Federal vehicle over 8, 500 lbs. will start phasing in OBD-II.

Starting in 2004 MY, gasoline-fueled medium duty passenger vehicles are required to have OBD-II. Federal OBD-II applies to all gasoline engine vehicles up to 8, 500 lbs. GVWR starting in the 1996 MY and all diesel engine vehicles up to 8, 500 lbs. GVWR starting in the 1997 MY.

OBD-II system implementation and operation is described in the remainder of this document.

MALFUNCTION INDICATOR LAMP ILLUMINATION

If the engine control module (ECM) recognizes a malfunction that leads to increased emission values, it indicates them by illuminating the malfunction indicator lamp (MIL) which is located in the instrument cluster.

The ECM switches on the MIL after the ignition is switched on. Shortly after the engine is started, the MIL goes out if the ECM does not detect a malfunction that increases the emission values.

If the ECM recognizes a malfunction that leads to increased emissions during the operation of the engine, the ECM switches on the MIL and an entry is stored in the DTC memory of the ECM.

The engine control module (ECM) communicates with data bus capable control modules via a CAN Data Link.

The databus capable control modules are connected via data bus wires, which are twisted together (CAN high and CAN low), and exchange information with the ECM. Missing or implausible information on the databus is recognized and stored as a malfunction based on specific DTC criteria.

The malfunction indicator lamp (MIL) is illuminated as a result of a CAN message sent by the ECM. The MIL can be turned on, turned off, or blink, depending on the message received.

ELECTRONIC POWER CONTROL WARNING LAMP

The engine control module (ECM) monitors electronic power control (EPC) components when the ignition is switched on.

If a malfunction is recognized in the EPC system, the ECM switches on the EPC warning lamp, which is located in the instrument cluster, and an entry is stored in the DTC memory of the ECM.

DESCRIPTION AND OPERATION

Note. All manufacturers special tools as well as common tools may contain a manufacturer specific part number. These tools may be substituted with an equivalent aftermarket tool or are available for purchase through the manufacturer. Manufacturers special tools as well as common tools that contain a manufacturer specific part number may be referenced in the test procedure illustrations showing the tool use or installation. If the manufacturer specific tool is not being used, an equivalent aftermarket tool may be installed in the same manner as the manufacturers special tool.

FUEL SUPPLY SYSTEM

For all fuel supply system component locations, removal/installation procedures and torque specifications, refer to the service Information.

EVAPORATIVE EMISSION SYSTEM

The evaporative emission system has been designed to minimize the release of hydrocarbons from the fuel system into the atmosphere. The evaporative system components all work together with the ECM to prevent fuel vapor from escaping and route it to the intake manifold to be burned during normal combustion.

The leak detection system checks the integrity of the evaporative emission system by pressurizing system.

  1. When leak detection is activated, a pump pressurizes the evaporative system.
  2. During the leak diagnosis, the system is monitored for a specific time period. If the pressure does not drop a specific amount during the time period, the system is considered to be sealed.
  3. If the pressure drops greater than a specified amount during a specific time period, the system is pressurized once more. The engine control module measures the time until the pressure drops again. The control module uses the measured value to determine the size of the leak.

Leak diagnosis is activated automatically shortly following every engine start. If a malfunction is determined, an entry is made to the DTC memory. The Malfunction Indicator Lamp in the instrument cluster is illuminated if the malfunction is recognized for two subsequent starts.

For all evaporative system component locations, hose routing, removal/installation procedures and torque specifications, refer to the service Information.

ELECTRONIC ENGINE POWER CONTROL

For EPC, the throttle valve is not operated by a cable from the accelerator pedal. There is no mechanical connection between the accelerator pedal and the throttle valve.

The position of the accelerator pedal is communicated to engine control module (ECM) by the throttle position sensor / accelerator pedal position sensor 2 (variable resistances; stored in one housing) that are connected with the accelerator pedal.

The accelerator pedal position (driver's intention) is a main input unit for the ECM.

Operation of the throttle valve occurs via an electric motor, the throttle drive for in the throttle valve control module. This is true across the entire engine speed and engine load spectrum.

The throttle valve is operated by the EPC according to specifications of engine control module (ECM).

With engine off and ignition switched on, the ECM controls the throttle drive according to specifications of throttle position sensor / accelerator pedal position sensor 2. This means, if the accelerator pedal is pressed half way, the throttle drive opens the throttle valve to the same degree; i.e. throttle valve is then opened approximately half way.

With engine running under load, ECM can open or close the throttle valve independently of the throttle position sensor / accelerator pedal position sensor 2.

This means, for example, that the throttle valve could be fully opened even though the accelerator pedal has only been pressed half way. This has the advantage of preventing torque losses at the throttle valve.

In addition, it results in a significant reduction in emissions and fuel consumption under certain load conditions.

It would be incorrect to think that EPC consists of only one or two components. EPC is much more of a system containing all components that contribute to recognizing, controlling and monitoring the position of the throttle valve.

FUEL INJECTION SYSTEM

For all fuel injection system component locations, removal/installation procedures and torque specifications, refer to the service Information.

ENGINE CONTROL MODULE

The ECM regulates fuel injection, throttle valve control module, oxygen sensor regulation, ignition, knock control, evaporative emission purge valve, engine speed limitation through the fuel injectors or the power supply relay, as well as OBD functions. For locations, removal/installation procedures, refer to the service Information.

EXHAUST SYSTEM COMPONENTS

For all exhaust system, emission control component locations, removal/installation procedures and torque specifications, refer to the service Information.

SECONDARY AIR INJECTION SYSTEM

The secondary air injection system improves the secondary oxidation within the catalytic converter which are due to the rich mixture during the cold start phase where the exhaust emissions contain an increased level of unburned hydrocarbons, thereby reducing harmful emissions. The heat released by secondary oxidation shortens the startup time of the catalytic converter considerably, as well as significantly improves emissions quality during the cold-running phase.

  1. During a cold start, the secondary air injection system injects air behind the exhaust valves. This produces an oxygen rich exhaust gas, causes the after burning and reduces the heating-up phase of the catalytic converter.
  2. In addition, the secondary air injection system is switched on (after a delay) during idle after every subsequent engine start (up to a maximum coolant temperature) and is checked through on board diagnostic functions.

For all secondary air injection system component locations, removal/installation procedures and torque specifications, refer to the service Information.

IGNITION SYSTEM

For all ignition and glow plug system component locations, removal/installation procedures and torque specifications, refer to the service Information.

AUTOMATIC TRANSMISSION

The transmission control module receives information from transmission related components and uses this information to control shifting and operation of the transmission.

For all automatic transmission component locations, removal/installation procedures and torque specifications, refer to the service Information.

PRELIMINARY CHECK

Before performing any pin point test or component diagnosis, a preliminary check must be performed.

Connect the scan tool.

Switch the ignition on.

Using the scan tool, check for any stored or related DTC's.

If other DTC's are stored

Repair these DTC's first before performing the following procedure.

If no other DTC's are stored

Using the scan tool, erase the DTC memory. Refer to DIAGNOSTIC MODE 04 - ERASE DTC MEMORY .

Perform a road test to attempt to duplicate the customers complaint.

If the DTC returns

Perform the diagnostic procedure.

If the DTC does not return

The fault is intermittent or a sporadic condition may exist.

Check the suspected component, electrical harness and electrical harness connectors for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

Perform a road test to verify the repair.

If the DTC returns

Perform the diagnostic procedure.

If the DTC does not return

The fault may have been the result of a loose electrical connection.

Generate readiness code. Refer to READINESS CODE .

READINESS CODE

Readiness code description

Diagnostics are performed at regular intervals during normal vehicle operation. After repairing an emissions related system, a readiness code is generated by road testing the vehicle.

If a malfunction is recognized during the drive cycle, it will be stored in the DTC memory.

The OBD drive cycle operation will be monitored with a hand held diagnostic tool. Consult the manufacturer's instruction information for correct tool operation.

The readiness code is erased every time the DTC memory is erased or any time the battery is disconnected. If the DTC memory has been erased or the battery is disconnected, a new readiness code must be generated.

Only erase the DTC memory if a DTC has been stored.

General recommendations

Most monitors will complete easier and quicker using a "steady-foot" and "smooth" acceleration during the drive cycle operation, cruise, and acceleration modes.

Operating conditions

For the EVAP monitor test, the coolant temperature and the ambient air temperature must be between 10° C and 35° C with a difference between them no greater than 4° C. The ambient air temperature must not change more than 4° C during the drive cycle procedure (e.g. when driving out of a heated workshop in the winter).

Test requirements

  1. Erase the DTC memory.
  2. Coolant temperature must be between 80° C and 110° C.
  3. The intake air temperature must be between 10° C and 35° C.
  4. Battery voltage must be a minimum of 12.5 volts.
  5. Fuel tank level 1/4 to 3/4 full.

Drive Cycle Procedure

Connect the scan tool.

Switch the ignition on and start the vehicle.

Idle the vehicle for 2-3 minutes. This executes the O2 heater, misfire, secondary air injection, fuel trim, and purge system monitors.

Drive the vehicle at 45-55 mph for a continuous 7-minute period - avoid stopping. This executes the evaporative, O2 sensor, fuel trim, and misfire monitors.

Accelerate the vehicle to an engine speed of 5000 RPM; lift off the throttle until the engine speed is around 1200 rpm. This executes the fuel cut off.

Accelerate the vehicle smoothly to 60-65 mph, cruise constantly for 5 min, this executes the catalyst; O2 sensor, misfire, fuel trim, and purge system monitors.

Decelerate and idle the vehicle again for 3 minutes. This executes the misfire, secondary sir injection, fuel trim, and purge system monitors.

Check the status of the readiness code.

Note. Depending on the scan tool used. The readiness code status may be displayed as complete, passed or OK.

If any engine monitor fails the drive cycle test. Repeat the drive cycle test until all engine monitors have successfully run through and passed.

Note. When repeating the drive cycle operation for a failed evaporative or thermostat monitor, allow the engine to cool until the coolant temperature and the ambient air temperature are be between 10° C and 35° C with a difference no greater than 4° C and repeat the drive cycle operation.

If the drive cycle operation fails again.

Check the DTC memory for stored DTCs.

Repair the vehicle if necessary.

Repeat the drive cycle operation until all engine monitors have successfully run through and passed.

Remove the scan tool and switch the ignition off.

DIAGNOSTIC MODES 01 - 0A

The information provided in Modes 01 through 0A displays the various levels of emission related data that may be monitored, as well as the ability to retrieve and read stored DTC trouble codes, erase stored DTC trouble codes, generate readiness codes, and select the various PIDs and Test-IDs used within the modes to monitor the engine, and emission related component parameters.

Note. Depending on scan tool and protocol used, the information in diagnostic mode 01 may be referred to by different names such as Test-ID (TID), Hex-ID, Component-ID (CID), or On-Board Diagnostic Monitor Identifier (OBDMID).

DIAGNOSTIC MODE 01 - READ CURRENT SYSTEM DATA

Diagnostic Mode 01 makes it possible to access current emissions-related measured values and diagnostic data. The original measured values (no replacement values), input and output data and system status information are displayed using Diagnostic Mode 1.

Test requirement

  1. Coolant temperature at least 80° C.

Procedure

Connect the scan tool.

Start the engine and run at idle.

Select "Diagnostic Mode 1: Obtain data.".

From the following table, select the desired the "PID" that is to be monitored, e.g. "PID $05 Coolant temperature".

The current values of the component or system that is being monitored will be displayed on the scan tool screen.

PIDComponent or System
$00Supported definition PIDs $01 thru $20
$01Monitoring status since erasing DTC memory
$03Condition of fuel system
$04Calculated load value
$05Coolant temperature
$06Short term air fuel ratio
$07Long term air fuel ratio
$0CEngine RPM
$0DVehicle speed
$0EIgnition timing advance for #1 cylinder
$0FIntake air temperature
$10Air flow rate from mass air flow sensor
$11Absolute throttle position
$12Secondary Air Injection
$13Oxygen Sensor Bank 1 Sensor 1
$15Oxygen Sensor Bank 1 Sensor 2
$16Oxygen Sensor Bank 1 Sensor 3
$1FTime since engine start
$20Supported definition PIDs $21 thru $40
$21Distance driven with MIL ON
$23Fuel rail pressure
$2ECommanded evap purge
$30Warm up counts after MIL erased
$31Distance driven after erasing DTC memory
$33Barometric pressure
$34Heater current Bank 1 Sensor 1
$3CCalculated catalyst temperature
$40Supported definition PIDs $41 thru $60
$41Monitor status current drive cycle
$42Control module voltage
$43Absolute load value
$44Specified value of oxygen sensor signal
$45Relative throttle valve position
$46Ambient temperature
$47Throttle valve position 2 absolute
$49Accelerator pedal position 1 absolute
$4AAccelerator pedal position 2 absolute
$4CSpecified throttle valve position
$56Offset oxygen sensor regulation after catalytic convertor

Switch the ignition off.

DIAGNOSTIC MODE 02 - READ OPERATING CONDITIONS

When an emissions-related fault (pending DTC, visible in mode 07) is first detected, operating conditions are stored. Mode 02 makes it possible to access this freeze frame data as soon as this fault is shown in mode 03. Each control module only shows freeze frame data for one fault via mode 02. Therefore, there are two priority levels. If there is a malfunction with higher priority, the freeze frame data is overwritten.

Fault with higher priority: Misfire malfunction or fuel trim malfunction.

Fault with normal priority: All other emissions-related faults.

Note. Depending on scan tool and protocol used, the information in diagnostic mode 02 may be referred to by different names such as Test-ID (TID), Hex-ID, Component-ID (CID), or On-Board Diagnostic Monitor Identifier (OBDMID).

Procedure

Connect the scan tool.

Start the engine and run at idle.

Note. If the engine does not start, crank the engine using starter for at least 5 seconds, do not switch the ignition off afterward under any circumstances.

Select "Diagnostic Mode 2: Obtain operating conditions.".

From the following table, select the desired the "PID", e.g. "PID 05-Coolant temperature" that is to be monitored.

The current values of the component or system that is being monitored will be displayed on the scan tool screen.

PIDComponent or System
00Supported definition pids, $01 thru $20
02Fault code that caused the freeze frame to be stored
03Fuel system status
04Calculated load value
05Coolant temperature
06Oxygen sensor integrator
07Oxygen sensor adaptation value
$0CEngine speed
$0DVehicle speed
$0EFiring angle
$0FIntake air temperature
$12Status secondary air injecting (only SULEV)
$1FTime after engine start
$20Supported definition PIDs $21 thru $40
$23Intake air temperature (IAT)
$2EAir mass
$33Ambient pressure
$40Supported definition PIDs $41 thru $60
$42Controller system tension
$43Absolute load factor
$44Lambda desired value
$45Butterfly valve position relative
$46Ambient temperature
$47Butterfly valve position 2 absolute
$49Driving pedal position 1 absolute
$4ADriving pedal position 2 absolute
$4CButterfly valve target position
$56Specified value of oxygen sensor signal

Switch the ignition off.

DIAGNOSTIC MODE 03 - READ DTC MEMORY

Diagnostic Mode 03 makes it possible to read emissions-related faults (confirmed DTCs: faults which have activated the MIL) in the ECM and in the TCM.

When the ECM recognizes an emission related fault it turns on the malfunction indicator lamp. If an electronic throttle malfunction is recognized, the ECM turns on the electronic power control warning lamp. Both are located in the instrument cluster.

The DTCs are sorted by SAE code with the DTC tables consisting of a 5-digit alpha-numeric value.

Note. Depending on scan tool and protocol used, diagnostic mode 03 and the information provided may be referred to by a different name.

The following tables provide a breakdown and explanation of the DTC code.

P-Codes

Component group
PXXXXDTC for the drivetrain
Norm-Code
P0XXXTrouble codes defined by SAE with specified malfunction texts
P1XXXAdditional emission relevant DTCs provided by the manufacturer
P2XXXDTCs defined by SAE with specified texts, from MY 2000
P3XXXAdditional emission relevant DTCs provided by the manufacturer from MY 2000
Component group
Repair group
PX0XXFuel and air mixture and additional emission regulations
PX1XXFuel and air ratios
PX2XXFuel and air ratios
PX3XXIgnition system
PX4XXAdditional exhaust system
PX5XXSpeed and idle control
PX6XXControl module and output signals
PX7XXTransmission
PX8XXTransmission
PX9XXControl modules, input and output signals

U-Codes

Component group
UXXXXDTC for network (CAN bus)
Norm-Code
U0XXXTrouble codes defined by SAE with specified malfunction texts

Procedure

Connect the scan tool.

Switch the ignition to the ON position.

Select Diagnostic Mode 03: Interrogating fault memory.

The stored DTC or DTCs will be displayed on the scan tool screen.

The following table is an example of the DTC information that may be displayed on the scan tool screen

Indication exampleExplanation
P0444SAE Diagnostic Trouble Code
Evaporative emission canister purge regulator valveMalfunctioning wiring path or malfunctioning component
Circuit openMalfunction type as next

Refer to the DTC tables for the diagnostic repair procedures.

Switch the ignition off.

DIAGNOSTIC MODE 04 - ERASE DTC MEMORY

Diagnostic Mode 04 makes it possible to erase the DTC memory and to reset all emissions-related diagnostic data. In that way, all faults in the DTC memory in the ECM and TCM are erased. The adaptation values may also be reset.

Emissions-related diagnostic data includes (as applicable)

  1. MIL Status
  2. Number of DTCs
  3. Readiness bits
  4. Confirmed DTCs
  5. Pending DTCs
  6. DTC that belongs to freeze frame
  7. Freeze frame data
  8. Test results of specific diagnostic functions
  9. Distance driven with "MIL ON"
  10. Number of warm-up cycles after erasing the DTC memory
  11. Distance driven after erasing the DTC memory
  12. Misfire counter

Note. Depending on scan tool and protocol used, diagnostic mode 04 and the information provided may be referred to by a different name.

Procedure

Connect the scan tool.

Switch the ignition on.

Select Diagnostic Mode 03: Interrogating fault memory.

Then select Mode 4: Reset/delete diagnostic data.

The scan tool will display: Diagnostic data are being erased.

Switch the ignition off.

DIAGNOSTIC MODE 05 - READ OXYGEN SENSOR MONITORING TEST RESULTS

Note. Mode 05 may not be supported on all systems. On systems where Diagnostic Mode 05 is not supported, refer to Diagnostic Mode 6 for oxygen sensor Monitoring Test Results.

Test requirement

Procedure

DIAGNOSTIC MODE 06 - READ TEST RESULTS FOR SPECIFIC DIAGNOSTIC FUNCTIONS

Diagnostic Mode 06 makes it possible to retrieve test results for special components and systems which are continuously or not continuously monitored. If the diagnosis of a system is complete, the diagnostic result and the corresponding thresholds are saved and displayed in mode 06. This data remains saved (even with the ignition off) until either new diagnostic results become available or the DTC memory is erased.

The min & max values for each individual test in Mode 06 represent the min & max operating values for a properly operating system. This data is provided to the individual aftermarket scan tool companies for development of their scan tool. Depending on the scan tool being used, the min & max values shown may vary, or be rounded up or down to the nearest decimal point depending on the aftermarket scan tool company's development process. e.g.

Minimum Value
GST manual documentation0.3499
Aftermarket scan tool display0.35

Depending on the scan tool and protocol used, the information displayed in Diagnostic Mode 06 may be referred to by different names such as Test-ID (TID), Hex-ID, Component-ID (CID), On-Board Diagnostic Monitor Identifier (OBDMID), or contain no name at all and may be referenced by only a number.

Note. Depending on the scan tool and protocol used, the information displayed in diagnostic mode 06 may be referred to by different names such as Test-ID (TID), Hex-ID, Component-ID (CID), or On-Board Diagnostic Monitor Identifier (OBDMID).

Test requirements

  1. Exhaust system must be properly sealed between the catalytic converter and the cylinder heads.
  2. No DTCs stored in the DTC memory.
  3. Coolant temperature at least 80° C.

Work procedure

Connect the scan tool.

Start the engine and let run at idle speed.

Select Mode 6: Check test the results of components that are not continuously monitored.

Select the desired Test-ID..

The current minimum and maximum values will be displayed on the scan tool screen.

The following table is a numerical list of all "Test-IDs" or "Hex-IDs" that may be selected.

Test-ID (Hex-ID)Component or System
01 ($01): MONITOR-ID 01 : OXYGEN SENSOR MONITOR BANK 1 - SENSOR 1Oxygen Sensor Monitor Bank 1 - Sensor 1
02 ($02): MONITOR-ID 02 : OXYGEN SENSOR MONITOR BANK 1- SENSOR 2Oxygen Sensor Monitor Bank 1 - Sensor 2
33 ($21): MONITOR-ID 58 : FUEL TANK EVAP SYSTEM INTEGRITY/LEAK TEST (0.90”)Catalytic Converter Monitoring
58 ($3A): MONITOR-ID 58 : FUEL TANK EVAP SYSTEM INTEGRITY/LEAK TEST (0.90”)Fuel Tank EVAP System Integrity / Leak Test (0.90")
59 ($3B): MONITOR-ID 59 : FUEL TANK EVAP SYSTEM INTEGRITY/LEAK TEST (0.40/1.0MM)Fuel Tank EVAP System Integrity / Leak Test (0.40/1.0mm)
60 ($3C): MONITOR-ID 60 : FUEL TANK EVAP SYSTEM INTEGRITY/LEAK TEST (0.20/0.5MM)Fuel Tank EVAP System Integrity / Leak Test (0.20/0.5mm)
61 ($3D): MONITOR-ID 61 : EVAP VALVE FUNCTION CHECKEVAP Valve Function Check
65 ($41): MONITOR-ID 65 : OXYGEN SENSOR HEATER MONITOR BANK 1 - SENSOR 1Oxygen Sensor Heater Monitor Bank 1 - Sensor 1
66 ($42): MONITOR-ID 65 : OXYGEN SENSOR HEATER MONITOR BANK 1 - SENSOR 1Oxygen Sensor Heater Monitor Bank 1 - Sensor 2
162 ($A2): MONITOR-ID A2 : MIS-FIRE CYLINDER 1 DATAMis-Fire Cylinder 1 Data
163 ($A3): MONITOR-ID A3: MIS-FIRE CYLINDER 2 DATAMis-Fire Cylinder 2 Data
164 ($A4): MONITOR-ID A4: MIS-FIRE CYLINDER 3 DATAMis-Fire Cylinder 3 Data
165 ($A5): MONITOR-ID A5 : MIS-FIRE CYLINDER 4 DATAMis-Fire Cylinder 4 Data

MONITOR-ID 01 : OXYGEN SENSOR MONITOR BANK 1 - SENSOR 1

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 01 ".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
131 ($83)P0133Response Check.0.35 VRefer to DTC P0133 in the DTC summary table. DTC TABLES P0133 .
132 ($84)P2195Oscillation check.>0.777 VRefer to DTC P2195 in the DTC summary table. DTC TABLES P2195 .

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID 02 : OXYGEN SENSOR MONITOR BANK 1- SENSOR 2

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 02".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
05 ($05)P0139Output Voltage (signal activity) Check.700 mSecRefer to DTC P0139 in the DTC summary table. DTC TABLES P0139 .
129 ($81)P2271Output Voltage (signal activity) Check.0 VRefer to DTC P2271 in the DTC summary table.
130 ($82)P2270Output Voltage (signal activity) Check.1.2998 VRefer to DTC P2270 in the DTC summary table.
134 ($86)P2271Output Voltage (signal activity) Check.8000 mSRefer to DTC P2271 in the DTC summary table.

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID 03 : OXYGEN SENSOR MONITOR BANK 1- SENSOR 3

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 03".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
05 ($05)P0145Output Voltage (signal activity) Check.700 mSecRefer to DTC P0145 in the DTC summary table. DTC TABLES P0145
129 ($81)P2275Output Voltage (signal activity) Check.0 V1.2998 VRefer to DTC P2275 in the DTC summary table.
130 ($82)P2274Output Voltage (signal activity) Check.1.2998 VRefer to DTC P2274 in the DTC summary table.
134 ($86)P2275Output Voltage (signal activity) Check.10000 mSRefer to DTC P2275 in the DTC summary table.

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID 21: CATALYTIC CONVERTER MONITORING

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 21".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
132 ($84)P0420Catalytic converter monitoring bank 1.0.20365535 mSecRefer to DTC P0420 in the DTC summary table. DTC TABLES P0420 .

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

MONITOR-ID 53 : CAM SHAFT ADJUSTMENT

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 53".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
128 ($80)P0011VVT diagnosis target position is not reached.2.5 °KW28 °KWRefer to DTC P0011 in the DTC summary table.
129 ($81)P000AVVT diagnosis target position Slow Response8 °KW28 °KWRefer to DTC P0011 in the DTC summary table.

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID 58 : FUEL TANK EVAP SYSTEM INTEGRITY/LEAK TEST (0.90”)

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 58 ".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
129 ($81)P0455Tank leak test: Large leak.0.95 Sec65535 mSecRefer to DTC P0455 in the DTC summary table. DTC TABLES P0455 .

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID 59 : FUEL TANK EVAP SYSTEM INTEGRITY/LEAK TEST (0.40/1.0MM)

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 59".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
129 ($81)P0442Fuel Tank Leak Test: Small leak.1550 mSec65535 mSecRefer to DTC P0442 in the DTC summary table. DTC TABLES P0442 .

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID 60 : FUEL TANK EVAP SYSTEM INTEGRITY/LEAK TEST (0.20/0.5MM)

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 60".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
129 ($81)P0456Tank leak test: Pinhole leak (0.5 mm).4.5 Sec65535 mSecRefer to DTC P0456 in the DTC summary table. DTC TABLES P0456 .
130 ($82)Fuel Tank Leak Test.4.9 Sec65535 mSec

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID 61 : EVAP VALVE FUNCTION CHECK

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 61".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
128 ($80)P0441Tank vent valve check from % DTEV: Active test Air balance at idle OK, (Normal operation and short test 70).0.350 %1.999Refer to DTC P0441 in the DTC summary table. DTC TABLES P0441 .
130 ($82)Tank vent valve check from %DTEV: Active test, Oxygen sensor regulator deviating in lean direction (can only test OK), (Normal operation and short test 70).0.0710
130 ($82)Tank vent valve check from %DTEV: Active test, Oxygen sensor regulator deviation in rich direction (can only test OK), (Normal operation and short test 70).100.07

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID 65 : OXYGEN SENSOR HEATER MONITOR BANK 1 - SENSOR 1

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 65".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
133 ($85)P0135Oxygen sensor heating in front of catalytic converter, diagnosis, Bank 1 (Constant oxygen sensor monitoring with CJI25). Ceramic temperature monitoring.+ 40° C1200 °CRefer to DTC P0135 in the DTC summary table. DTC TABLES P0135 .

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID 66 ($42): OXYGEN SENSOR HEATER MONITOR BANK 1 - SENSOR 2

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 66".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
129 ($81)P0141Oxygen sensor heating behind catalytic converter, diagnosis, Bank 1 Nernst cell internal resistance test.0 ohms1404 ohmsRefer to DTC P0141 in the DTC summary table. DTC TABLES P0141 .

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID 67 : OXYGEN SENSOR HEATER MONITOR BANK 1 - SENSOR 3

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 67".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
129 ($81)P0147Diagnosis of Sensor 3 behind catalytic convertor.0 ohms1056... 11856 ohmsRefer to DTC P0147 in the DTC summary table.

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

MONITOR-ID 113 : SECONDARY AIR SYSTEM (ONLY SULEV)

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID 113".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin.Max.Additional Information
128 ($80)P0491Examination secondary air system, examination for reduced secondary air mass.0.102 ohms65535 ohms
129 ($81)P2440Examination secondary air valve leakage (combination valve does not close).01.289

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

MONITOR-ID A2 : MIS-FIRE CYLINDER 1 DATA

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID A2".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin./Max. ValuesAdditional Information
11 ($0B)P0301Misfire cylinder 1, Average value over 10 Driving Cycles.0 - 65535 (counts)Refer to DTC P0301 in the DTC summary table. DTC TABLES P0301 .
12 ($0C)P0301Misfire cylinder 1, in this Driving Cycle.0 - 65535 (counts)Refer to DTC P0301 in the DTC summary table. DTC TABLES P0301 .

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID A3: MIS-FIRE CYLINDER 2 DATA

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6 Check test the results of components that are not continuously monitored".

Select "Monitor-ID A3:".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin./Max. ValuesAdditional Information
11 ($0B)P0302Misfire cylinder 2, Average value over 10 Driving Cycles.0 - 65535 (counts)Refer to DTC P0302 in the DTC summary table. DTC TABLES P0302 .
12 ($0C)P0302Misfire cylinder 2, in this Driving Cycle.0 - 65535 (counts)Refer to DTC P0302 in the DTC summary table. DTC TABLES P0302 .

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID A4: MIS-FIRE CYLINDER 3 DATA

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID A4".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin./Max. ValuesAdditional Information
11 ($0B)P0303Misfire cylinder 3, Average value over 10 Driving Cycles.0 - 65535 (counts)Refer to DTC P0303 in the DTC summary table. DTC TABLES P0303 .
12 ($0C)P0303Misfire cylinder 3, in this Driving Cycle.0 - 65535 (counts)Refer to DTC P0303 in the DTC summary table. DTC TABLES P0303 .

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

MONITOR-ID A5 : MIS-FIRE CYLINDER 4 DATA

Connect the scan tool.

Start the engine and run at idle.

Select "Mode 6: Check test the results of components that are not continuously monitored".

Select "Monitor-ID A5".

Select the desired "Test-ID (TID)" or "Hex-ID".

Check specified values at idle.

Test-ID (TID) (Hex-ID)DTCComponent or SystemMin./Max. ValuesAdditional Information
11 ($0B)P0304Misfire cylinder 4, Average value over 10 Driving Cycles.0 - 65535 (counts)Refer to DTC P0304 in the DTC summary table. DTC TABLES P0304 .
12 ($0C)P0304Misfire cylinder 4, in this Driving Cycle.0 - 65535 (counts)Refer to DTC P0304 in the DTC summary table. DTC TABLES P0304 .

If any of components or systems fail to meet the specified values. Refer to Diagnostic "Mode 03: Interrogating Fault Memory" to check for stored DTC or the corresponding diagnostic repair procedure DIAGNOSTIC MODE 03 - READ DTC MEMORY .

Switch the ignition off.

If any of the components or systems fail to meet the specified values, refer to Diagnostic Mode 03: Interrogating Fault Memory to check for stored DTCs or the corresponding diagnostic repair procedure.

Switch the ignition off.

DIAGNOSTIC MODE 07 - READ FAULTS DETECTED DURING THE CURRENT OR LAST DRIVING CYCLE

Mode 07 makes it possible to check emissions-related faults which appeared during the current or last driving cycle (pending DTCs).

A pending DTC is saved the first time a fault is detected (output via Mode 07).

If the fault is detected again by the end of the following driving cycle, a confirmed DTC is entered (output via Mode 03) and the MIL is activated.

If this malfunction is not detected again by the end of the following driving cycle, the corresponding pending code will be deleted at the end of the driving cycle.

Note. Depending on scan tool and protocol used, some of the information provided may be referred to by a different name.

Procedure

Connect the scan tool.

Start the engine and run at idle.

Note. If the engine does not start, crank the engine using starter for at least 5 seconds. Do not switch the ignition off afterward.

Select Mode 7: Check test results of components that are continuously monitored.

The number of pending DTCs or 0 malfunctions detected will be displayed on the scan tool screen.

Refer to the DTC tables for the diagnostic repair procedures.

Switch the ignition off.

DIAGNOSTIC MODE 08 - REQUEST CONTROL OF ON-BOARD SYSTEM, TEST OR COMPONENT

Diagnostic Mode 08 is used to control the operation of an on-board system, test or component. A Mode 8 service can be used to turn on-board system ON or OFF, or to cycle an on-board system, test or component on or off for a specific period of time. The service can also be used to request system status or to report test results.

Test requirements

  1. No DTCs stored in the DTC memory.
  2. Intake Air Temperature (IAT) maximum 60° C.
  3. Coolant temperature 80 -110° C.
  4. Throttle valve angle 12.0 - 16.0%.

FUNCTION TEST

Note. If the accelerator pedal is depressed during the test, the test will be aborted.

Connect the scan tool.

Start the engine and run at idle for at least 15 minutes.

Select "Mode 8: Tank Leak Test".

Select "Test-ID 01: Tank Leak Test".

Check the specified value of the tank leak test at idle.

The following will be displayed on the scan tool screen

Tank leak testSpecified value
Test function active Test function is being initiated, please wait Test off Test abortedTest OK

Switch the ignition off.

If the specified result is obtained

System OK.

If the specified result is not obtained

Repeat the tank leak test, switch the ignition off and start the engine again and let run for 15 minutes at idle.

Switch the ignition off.

If the specified result is again not obtained

A leak may be present. Refer to EVAPORATIVE SYSTEM, CHECKING FOR LEAKS .

DIAGNOSTIC MODE 09 - READ VEHICLE INFORMATION

Diagnostic Mode 09 makes it possible to access vehicle-specific information from the ECM and the TCM (where applicable).

Note. Depending on scan tool and protocol used, Diagnostic Mode 09 and the information provided may be referred to by a different name.

Test requirement

  1. No DTCs stored in the DTC memory.

Procedure

Connect the scan tool.

Switch the ignition on.

Select Mode 09: Vehicle information.

Select the desired Test-ID.

The information requested will be displayed on the scan tool screen.

The following table is a numerical list of all Test-IDs that may be selected.

Test-IDDiagnostic text
02Vehicle identification number e.g.
A different 17 digit number will be displayed for each vehicle
04Calibration identification e.g.
Engine Control Module (ECM)
Transmission Control Module (TCM)
06CVN (check sum) e.g.
EC5AE460 the check sum is different for every control module version
000D105

Switch the ignition off.

DIAGNOSTIC MODE 0A - CHECK PERMANENT DTC MEMORY

Mode 0A - Check Permanent DTC Memory (Request emissions-related diagnostic trouble codes with permanent status after code clear)

Permanent Fault Codes From MY 2010 with Phase-In conforming to CCR 1968.2 (d) (2.2.5): 50% from MY 2010 / 75% from MY 2011 / 100% from MY 2012 The vehicle only participates in Phase-In if all of the OBD-relevant control modules in the vehicle meet these requirements.

Mode 0A may only be supported exclusively by OBD control modules in US vehicles. Mode 0A may not be supported in EOBD vehicles, meaning the control module may not send a response here.

Mode 0A enables the request of all OBD-relevant faults with the status "Permanent Fault Code": -Permanent Fault Codes are Confirmed Fault Codes that are currently activating the MIL. That means faults that are still displayed in Mode 03 but no longer activate the MIL (History Fault Codes) are not Permanent Fault Codes. -Permanent Fault Codes are updated in Mode 0A at the same time as NVRAM storage immediately after switching the ignition off. A newly detected Permanent Fault Code is only visible after switching the ignition off/on in Mode 0A. -Permanent Fault Codes may only be erased in the control module after they are corrected as long as the last diagnostic result was a PASS and the MIL is no longer activated by this fault. The Permanent Fault Codes should be erased from Mode 0A at the same time the MIL switches off when the ignition is switched off/on. -Permanent Fault Codes may not be erased by clearing the DTC memory or disconnecting the power supply. Storage in NVRAM is required. -Permanent Fault Codes may only be erased after clearing the DTC memory under the following conditions: -As long as no FAIL diagnostic result was detected for a Permanent Fault Code -and at least one PASS diagnostic result was detected -and the Minimum Trip Conditions for a General Denominator (without considering high/ambient temperature) were met in this phase in any DCY after erasing the DTC memory. -The engine control module relays the message "Minimum Trip conditions met" to all other OBD control modules via CAN: CAN message OBD_01, Byte 8, Bit 4: OBD_Minimum_Trip -Permanent Fault Codes may NOT be erased if the diagnostic result is FAIL after clearing the DTC memory. A Pending Fault Code should be stored and the DTC memory line should be overwritten with new Freeze Frame data. (Exception: If the Pending Fault Code is corrected without a Confirmed Fault Code being detected, the Permanent Fault Code may also be erased under the conditions described below.) -Permanent Fault Codes should be erased in engine control modules after Update Programming. At this time, all readiness bits (Mode 01 PID $01) must be reset to "not complete" [ (g) (4.4.6) (D) ]. Permanent Fault Codes should not be erased in OBD control modules with Comprehensive Components (CCM) as a single readiness bit if the identical program/data status is being programmed. If a different program/data status is being programmed, Permanent Fault Codes should be erased after Update Programming. -The procedure in Mode 01 through Mode 09 and in the service tester is NOT affected by implementation of the Permanent Fault Codes.

DTC TABLES

Fuel, air mixture, and additional emissions regulations

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P000AIntake (A) Camshaft Position Slow Response Bank 1Check the Camshaft Adjustment Valve 1 -N205-. Refer to CAMSHAFT ADJUSTMENT VALVE 1, CHECKING .Signal change <1.9...4.2 °CRK/sTime after engine start, >3...10 Sec. frequency (normal operation), 4 times OR engine speed 920...6000 RPM14 SecMultiple 2 DCY
P0010Intake (A) Camshaft Position Actuator Circuit / Open (Bank 1)Check the Camshaft Adjustment Valve 1 -N205-. Refer to CAMSHAFT ADJUSTMENT VALVE 1, CHECKING .Signal voltage, >4.40...5.60 VCamshaft valve, off Engine speed, >80 RPM0.50 SecContinuous 2 DCY
P0011Intake (A) Camshaft Position Timing - Over-Advanced (Bank 1)Check the Camshaft Adjustment Valve 1 -N205-. Refer to CAMSHAFT ADJUSTMENT VALVE 1, CHECKING .Target error (Stuck position) >6.8...8 ° CRKOil temp. -48.0...143.3° C frequency (normal op.), 4.0 times Time after engine start, >3...10 Sec. OR engine speed 920... 6000RPM14 SecMultiple 2 DCY
P0016Crankshaft Position - Camshaft Position Correlation Bank 1 Sensor ACheck the Camshaft Position (CMP) Sensor -G40-. Refer to CAMSHAFT POSITION SENSOR, CHECKING .Permissable deviation, <11.0 Rev OR permissable deviation, >11.0 Rev0.5 SecMultiple 2 DCY
P025AFuel Pump Open circuitCheck the fuel pump. Refer to FUEL PUMP ELECTRICAL, TESTING .Signal voltage > 4.40...5.60 VEngine speed,> 80 RPM0.50 SecContinuous 2 DCY
P025CFuel Pump Short to groundCheck the fuel pump. Refer to FUEL PUMP ELECTRICAL, TESTING .Signal voltage< 2.15...3.25 VEngine speed,> 80 RPM0.5 SecContinuous 2 DCY
P025DFuel Pump Short to B+Check the fuel pump. Refer to FUEL PUMP ELECTRICAL, TESTING .Signal current > 1.10 AEngine speed,> 80 RPM0.5 SecContinuous 2 DCY
P0030HO2S Heater Control Circuit (Bank 1, Sensor 1) Open circuitCheck the Oxygen Sensor (O2S) Heater -Z19-. Refer to OXYGEN SENSOR O2S HEATER, CHECKING .Heater voltage 2.34-3.59 VTime after engine start, > 5 Sec heater commanded off0.50 SecContinuous 2 DCY
P0031HO2S Heater Control Circuit Low (Bank 1, Sensor 1) Short to groundCheck the Oxygen Sensor (O2S) Heater -Z19-. Refer to OXYGEN SENSOR O2S HEATER, CHECKING .Heater voltage < 2.34 VTime after engine start, >5 Sec heater commanded off0.50 SecContinuous 2 DCY
P0032HO2S Heater Control Circuit High (Bank 1, Sensor 1) Short to B+Check the Oxygen Sensor (O2S) Heater -Z19-. Refer to OXYGEN SENSOR O2S HEATER, CHECKING .Heater voltage > 3.59 VTime after engine start, >5 Sec heater commanded on0.50 SecContinuous 2 DCY
P0036HO2S Heater Control Circuit (Bank 1, Sensor 2) open circuitCheck the Oxygen Sensor (O2S) Heater -Z29-. Refer to OXYGEN SENSOR O2S 1 HEATER BEFORE CATALYTIC CONVERTER, CHECKING .SULEV Heater voltage, 4.50-5.50 VTime after engine start, >5 Sec heater commanded off0.50 SecContinuous 2 DCY
P0037HO2S Heater Control Circuit Low (Bank 1, Sensor 2) short to groundCheck the Oxygen Sensor (O2S) Heater -Z29-. Refer to OXYGEN SENSOR O2S 1 HEATER BEFORE CATALYTIC CONVERTER, CHECKING .Heater voltage< 3.00Engine speed > 80 RPM heater, commanded off0.50 SecContinuous 2 DCY
P0038HO2S Heater Control Circuit High (Bank 1, Sensor 2) Short to B+Check the Oxygen Sensor (O2S) Heater -Z29-. Refer to OXYGEN SENSOR O2S 1 HEATER BEFORE CATALYTIC CONVERTER, CHECKING .Heater current2.70... 5.50 AEngine speed, > 80 RPM heater commanded on0.50 SecContinuous 2 DCY
P0043HO2S Heater Control Circuit Low (Bank 1, Sensor 2) short to groundCheck the Oxygen Sensor (O2S) Heater -Z29-. Refer to OXYGEN SENSOR O2S 1 HEATER BEFORE CATALYTIC CONVERTER, CHECKING .SULEV Heater voltage < 3 V ULEV Heater voltage < 3 VSULEV Time after engine start, >5 Sec heater commanded off ULEV engine speed >80 RPM heater, commanded off0.50 SecContinuous 2 DCY
P0044HO2S Heater Control Circuit High (Bank 1, Sensor 2) Short to B+Check the Oxygen Sensor (O2S) Heater -Z29-. Refer to OXYGEN SENSOR O2S 1 HEATER BEFORE CATALYTIC CONVERTER, CHECKING .Heater current, > 2.70...5.50 AEngine speed, >80 RPM heater commanded on0.50 SecContinuous 2 DCY
P050AIdle Air Control System RPM Lower Or Higher Than ExpectedCheck the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Out of range-low engine speed deviation <80 RPM AND RPM controller torque value>= calculated max. value Out of range-high engine speed deviation >80 RPM AND RPM controller torque value<= calculated min. value plausibility check integrated deviation of engine speed low and integrated deviation of engine speed high> 2000 RPMEngine speed, idle vehicle speed 0 km/h altitude, < 2700 m lambda control, active evap purge adaptation < 22 catalyst heating active external torque request not demanded FOR MANUAL TRANSMISSIONS: engine load <20...63% engine speed, idle vehicle speed 0 km/h altitude, < 2700 m lambda control, active evap purge adaptation < 22 catalyst heating active external torque request not demanded engine speed, idle vehicle speed 0 km/h altitude, < 2700 m lambda control, active evap purge adaptation < 22 catalyst heating active external torque request not demanded4 4 3Multiple 2 DCY
P0068MAP/MAF - Throttle Position CorrelationCheck the Mass Air Flow (MAF) Sensor -G70-. Refer to MASS AIR FLOW SENSOR, CHECKING .Plausibility with fuel system load calculation< -50% plausibility with fuel system load calculation> 50%Engine speed 960... 5040 RPM lambda control closed loop ECT> 54.8° C IAT< 90° C mass air flow 0.0... 450.0 kg/h engine load 20... 100% ratio manifold pressure to ambient pressure< 0.90 evap purge valve closed engine speed 960... 5040 RPM lambda control closed loop ECT> 54.8° C IAT< 90° C mass air flow 0.0... 450.0 kg/h engine load 20... 100% ratio manifold pressure to ambient pressure < 0.90 evap purge valve closed30 SecContinuous 2 DCY
P0087Fuel Rail/System Pressure - Too LowCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKINGPressure control activity, > 5.00 mPa AND fuel trim activity, 0.90... 120Engine speed, > 600 RPM evap purge adaptation, < 22.00 ECT>= 54.8° C IAT< 90° C fuel cut off, not active lambda control, closed loop5 SecMultiple 2 DCY
P0088Fuel Rail/System Pressure - Too HighCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKINGFuel rail pressure > 13.9 MPa3 Sec2 DCY
P0089Fuel Pressure Regulator 1 PerformanceCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Actual pressure Deviation <100 kPa >100 kPaECT, > -48° C Time after engine start0.5 Sec2 DCY
P0100Mass or Volume Air Flow A CircuitCheck the Mass Air Flow (MAF) Sensor -G70-. Refer to MASS AIR FLOW SENSOR, CHECKING .MAF sensor signal, 0 u SecEngine speed > 20 RPM0.50 SecMultiple 2 DCY
P0101Mass or Volume Air Flow A Circuit Range/PerformanceCheck the Mass Air Flow (MAF) Sensor -G70-. Refer to MASS AIR FLOW SENSOR, CHECKING .Mass air flow vs lower threshold model < 0...396 kg/h mass air flow vs upper threshold > 34...907 kg/h load calculation> 19% AND fuel system (mult.)< -21% load calculation< -19% AND fuel system (mult.)> 21%Time after engine start, >150 camshaft revs ratio manifold pressure to ambient pressure< 0.90 engine speed 960...5040 RPM ECT> 54.8° C IAT <90.0° C mass air flow 0.0...450 kg/h engine load 20...100% lambda control closed loop evap purge valve closed2 SecMultiple 2 DCY
P0102Mass or Volume Air Flow A Circuit Low InputCheck the Mass Air Flow (MAF) Sensor -G70-. Refer to MASS AIR FLOW SENSOR, CHECKING .MAF sensor signal, < 66 u SecEngine speed > 20 RPM0.50 SecMultiple 2 DCY
P0103Mass or Volume Air Flow A Circuit High InputCheck the Mass Air Flow (MAF) Sensor -G70-. Refer to MASS AIR FLOW SENSOR, CHECKING .MAF sensor signal, > 4500 u SecEngine speed > 20 RPM0.50 SecMultiple 2 DCY
P0106Manifold Absolute Pressure/BARO Sensor Range/PerformanceCheck the Charge Air Pressure Sensor -G31-. Refer to CHARGE AIR PRESSURE SENSOR, CHECKING .-- If the Charge Air Pressure Sensor -G31- has no faults, check the altitude sensor co-located within the ECM.-- Check TSB's for related information.Boost pressure signal >Altitude sensor +230 hPaAltitude sensor, No DTC Boost pressure sensor, No DTC Engine speed, <1000 RPM AND Throttle position, <7.01% DK for 3 Sec. Throttle position sensor, No DTC1 Sec2 DCY
P0111Intake Air Temperature Sensor 1 Rationality check ULEV onlyCheck the Intake Air Temperature (IAT) Sensor -G42- Refer to INTAKE AIR TEMPERATURE SENSOR, CHECKINGDifference value: IAT-ECT @ engine start (depending on engine-off time, >25...40 K AND difference value: IAT-AAT @ engine start (depending on engine-off time), >25...40 KEngine-off time, >6 h ECT @ engine start minus AAT @ engine start, <=25...40° C ECT @ engine start, <1.5° C minus ECT @ time after engine start, 60 Sec AAT @ engine start, <=5.2° C minus AAT @ condition vehicle speed, >25 MPH for time >30 Sec0 SecOnce/DCY 2 DCY
P0112Intake Air Temperature Sensor 1 Circuit Low InputCheck the Intake Air Temperature (IAT) Sensor -G42- Refer to INTAKE AIR TEMPERATURE SENSOR, CHECKINGIAT, > 141.0° C2 SecMultiple 2 DCY
P0113Intake Air Temperature Sensor 1 Circuit High InputCheck the Intake Air Temperature (IAT) Sensor -G42- Refer to INTAKE AIR TEMPERATURE SENSOR, CHECKINGIAT, <46° C2 SecMultiple 2 DCY
P0116Engine Coolant Temperature Sensor 1 Circuit Range/Performance.Check Engine Coolant Temperature (ECT) Sensor -G62-. Refer to ENGINE COOLANT TEMPERATURE SENSOR, CHECKING .-- Check the coolant regulator. Refer to Coolant Pump and Thermostat Overview .Stuck high: diff. ECT vs. IAT at engine start> 25...40° C (depending on engine off time) AND diff. IAT vs. AAT at engine start< 25...40° C (depending on engine off time) AND diff. AAT vs. ECT at engine start> 25...40° C (depending on engine off time)Engine off time> 6 H Blockheater ECT @ start< 2° C minus ECT @ condition: time after engine start 60.0 Sec solar radiation case 1: AAT @ start<= 5° C minus AAT @ condition: vehicle speed> 40km/h for time> 30.0Sec solar radiation case 2: IAT @ start<= 5° C minus IAT @ condition: vehicle speed> 40km/h for time> 30.0Sec0 SecOnce/DCY 2 DCY
P0116Engine Coolant Temperature Sensor 1 Circuit Range/Performance. Only ULEVCheck Engine Coolant Temperature (ECT) Sensor -G62-. Refer to ENGINE COOLANT TEMPERATURE SENSOR, CHECKING .-- Check the coolant regulator. Refer to the appropriate repair information.Signal in range 109.6 ••• 140.3° C and no change on signal < 1.5 K signal in range 50.3... 88.4° C and no change on signal< 1.5 K signal in range 88.5... 109.5° C and no change on signal< 1.5 KDriving condition L vehicle speed 0... 10km/h mass air flow 4... 180 kg/h time required /> 25.0 Sec frequency 3 times and driving condition H vehicle speed 40... 120 mass air flow 4... 152 kg/h time required > 40.0 Sec frequency once Driving condition L vehicle speed 0... 10 mass air flow 4... 180[kg/h] time required > 25.0 Sec frequency 3 times Driving condition H vehicle speed 40... 120 km/h mass air flow 4... 152kg/h time required > 40.0 Sec frequency once engine off time> 9900 ••• 15600 RPM stuck high fault ECT @ start-40... 140° C driving condition L: vehicle speed 0... 10 km/h mass air flow 4... 180 kg/h time required > 25.0 Sec frequency 3 times driving condition H: vehicle speed 40... 120 km/h mass air flow 4... 152 kg/h time required > 40.0 Sec frequency once115 SecOnce/DCY 2 DCY
P0117Engine Coolant Temperature Sensor 1 Circuit Low InputCheck Engine Coolant Temperature (ECT) Sensor -G62-. Refer to ENGINE COOLANT TEMPERATURE SENSOR, CHECKING .-- Check the coolant regulator. Refer to the appropriate repair information.ECT> 140° C2 SecMultiple 2 DCY
P0118Engine Coolant Temperature Sensor 1 Circuit OpenCheck Engine Coolant Temperature (ECT) Sensor -G62-. Refer to ENGINE COOLANT TEMPERATURE SENSOR, CHECKING .-- Check the coolant regulator. Refer to the appropriate repair information.ECT< -40° C2 SecMultiple 2 DCY
P0121Throttle/Pedal Position Sensor A Circuit Range/PerformanceCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .TPS 1-TPS 2, >6.30 % AND Actual TPS 1 -calc. value, >actual TPS 2 calc. value OR TPS 1 -calc value > 9.00%Engine speed > 480 RPM0.3 SecMultiple 2 DCY
P0122Throttle/Pedal Position Sensor A Circuit Low InputCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .Signal voltage, < 0.20 V0.1 SecMultiple 2 DCY
P0123Throttle/Pedal Position Sensor A Circuit High InputCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .Signal voltage, > 4.81 V0.1 SecMultiple 2 DCY
P0130O2 Sensor Circuit (Bank 1, Sensor 1)Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .O2S ceramic temp. < 640.0° CModeled exhaust temp >300° C fuel cut-off not active12 SecMultiple 2 DCY
P0131O2 Sensor Circuit, Bank 1 - Sensor 1 Low VoltageCheck the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .VM, < 2 V UN, < 1.50 V IA, < 0.30 V IP < 0.30 V10 Sec2 DCY
P0132O2 Sensor Circuit, Bank 1 - Sensor 1 High VoltageCheck the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .VM, > 3.25 V UN, > 4.40 V IA, > 7 V IP > 7 V10 Sec2 DCY
P0133O2 Circuit Slow Response (Bank 1, Sensor 1)Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .Symmetric fault: lower value of both area ratios R2L and L2R< 0.30 AND difference of R2L area ratio vs. L2R area ratio-0.400... 0.400 asymmetric fault: lower value of both area ratios R2L and L2R< 0.30 AND difference of R2L area ratio vs. L2R area ratio NOT (-0.400...0.400) general: lower value of both counters for area ratio R2L and L2R>= 5 timesO2S front - min. operation temperature is reached> 720° C O2S front - time since operation readiness> 20.0 Sec Engine speed, 1000-40000 RPM gradient of engine load, <= 10.01% engine load 15.00... 100.01 exhaust system lag time calculation 0.1... 0.3 Sec gradient of exhaust system lag time calculation <= 0.1Sec ECT>= 30° C catalyst temperature >= 400° C lambda control set-point prior to diagnostic fuel steps A/F-Ratio stoichiometric relative fuel amount from wall-applied compensation and evap purge <= 0.2 canister load< 22.00 time since last measurement> 3.0 Sec 2nd lambda control loop not active forced lambda oscillation not active SAI not active tank leakage detection not active diagnosis evap purge system not active fuel cut off for any cylinders not active open circuit pump current (IP) ready only Flex fuel systems without ethanol sensor: ethanol concentration adaptation not active67 SecOnce/DCY 2 DCY
P0135O2 Heater Circuit (Bank 1, Sensor 1)Check the Oxygen Sensor (O2S) Heater -Z19-. Refer to OXYGEN SENSOR O2S HEATER, CHECKING .O2S ceramic temp.< 715° C AND heater duty cycle 100% O2S ceramic temperature, < 715° C AND time after O2S heater on 40 SecOut of range high: Modeled exhaust gas temp, > 300° C Heater control, Active Rationality check: ECT at start, >0.11° C engine shut-off time >300 Sec (during ECM keep alive-time after ignition off)< 60.0...300.0 Sec55 Sec 40 SecMultiple 2 DCY
P0136O2 Circuit (Bank 1, Sensor 2)Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .Delta voltage one step at heater switching> 2.00 V and number of heater coupling>= 6 timesSensor voltage<= 0.40 V or sensor voltage 0.50... 1.26 V case 2: sensor theoretical ready for operation for time> 12 Sec sensor sufficient heated up if exhaust temperature>= 700° C for time> 18.0 Sec or heater power>= 50% for time> 18.0 Sec general: dew point exceeded for time> 10.0 Sec heater not active10.24 SecMultiple 2 DCY
P0137O2 Circuit Low Voltage (Bank 1, Sensor 2)Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .Signal voltage< 0.06 for time> 3.0 Sec AND difference of sensor voltage with load pulse and voltage without load pulse (mean value of 3 measurements)< 0.01 VCase 1: sensor ready for operation sensor voltage<= 0.40 V OR sensor voltage 0.50... 1.26 V case 2: sensor theoretical ready for operation for time> 12 Sec sensor sufficient heated up if exhaust temperature>= 700° C for time> 18.0 Sec OR heater power>= 50% for time> 18.0 general: dew point exceeded fuel cut off not active catalyst purge not active3 SecMultiple 2 DCY
P0138O2 Circuit High Voltage (Bank 1, Sensor 2)Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .Signal voltage >1.26 V for > 5 SecCase 1: sensor ready for operation sensor voltage<= 0.40 V OR sensor voltage 0.50... 1.26 V case 2: sensor theoretical ready for operation for time> 12 Sec sensor sufficient heated up if exhaust temperature>= 700° C for time> 18.0 Sec OR heater power>= 50% for time> 18.0 Sec general: dew point exceeded lambda set value> 0, 9955.0 SecMultiple 2 DCY
P0139O2 Circuit Slow Response (Bank 1, Sensor 2)Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .EWMA filtered transient time at fuel cut-off, >0.7 Sec in voltage range, 201....347.7 mV number of checks (initial phase), >3 number of checks (step function), >3Rich voltage, >=582 mV lean voltage <=191.4 mV O2S rear ready rear O2-sensor signal oscillating monitoring ready EVAP purge valve diagnosis ready fuel cut off active front O2-Sensor lambda signal> 7.00 modeled exhaust gas temp.> 340° C slope of exhaust mass< 50.00 rear O2 Sensor internal resistance<= 4600.00ohms OR trigger for step change: delta transient time> 0.7t4.5 SecMultiple 2 DCY
P0140O2 Circuit No Activity Detected (Bank 1, Sensor 2)Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .Signal voltage, 40...60 mV for > 3 Sec OR difference of sensor voltage with load pulse and voltage without load pulse (mean value of 3 measurements)>= 2.80 VCase 1: sensor ready for operation sensor voltage<= 0.40 V OR sensor voltage 0.50... 1.26 V case 2: sensor theoretical ready for operation for time> 12 Sec sensor sufficient heated up if exhaust temperature>= 700° C for time> 18.0 Sec OR heater power>= 50% for time> 18.0 Sec general: dew point exceeded200 SecMultiple 2 DCY
P0141O2 Heater Circuit (Bank 1, Sensor 2) out of rangeCheck the Oxygen Sensor (O2S) Heater -Z29-. Refer to OXYGEN SENSOR O2S 1 HEATER BEFORE CATALYTIC CONVERTER, CHECKING .Heater resistance, 810...4560 ohmsModeled exhaust gas temp, 250-700° C Engine shutoff time, > 60 Sec. (during ECM keep alive-time after ignition off)< 60.0...300 Sec fuel cut-off not active number of checks 10 heater commanded on15 SecMultiple 2 DCY
P0145O2 Circuit Slow Response (Bank 1, Sensor 2)Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .EWMA filtered transient time at fuel cut-off, >0.4 Sec in voltage range, 401.4...201.2 mV number of checks (initial phase), >3 number of checks (step function), >3Rich voltage, >=547.9 mV lean voltage <=152.3 mV OR Max O2 mass flow (disable), >=6000 mg O2S rear, ready fuel cut-off, active front O2 sensor, lambda signal, >2.00 modeled exhaust gas temp. >400° C exhaust gas mass flow, >25.0 kg/h rear O2 sensor internal resistance, <=131 Kohms or resistance measurement, ready front O2 sensor, sensor cross change, no fault rear O2 sensor heater, wires and oscillating check, no fault purge valve, no fault trigger for step change, delta transient time, READ ERROR4.5 Sec2 DCY
P0169Incorrect Fuel CompositionQuality of fuel is suspect. Higher than allowed levels of alcohol may be present.Comparison with fuel quantity incorrectInternal engine speed> 1200 RPM2.08 SecContinuous 2 DCY
P0171System Too Lean (Bank 1)Check the fuel pressure --. Refer to FUEL PRESSURE TEST .-- Check the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .-- Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .-- Check the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80-. Refer to EVAPORATIVE PURGE REGULATOR VALVE, CHECKING .-- Check the intake system for leaks (false air).-- Check the vacuum lines for leaksLean @ idle Adaptive value >21% lean @ part-load Adaptive value 26 (only B8 ULEVVIIEngine speed, 560-1200 RPM Engine load, 9.0...45% mass air flow, 5.0...23.0 kg/h ECT, >63.0° C IAT, <90.0° C part load adaptation, ready lambda control, closed loop evap purge valve, closed if low fuel signal then wait until mass fuel integral, > 0.00 kg throttle position, <99.6 Sec Engine speed, 1320-5000 RPM Engine load, 20...100% mass air flow, 27...450 kg/h ECT, >63.0° C IAT, <90.0° C lambda control, closed loop evap purge valve, closed if low fuel signal then wait until mass fuel integral, > 0.00 kg10 Sec 10 Sec2 DCY
P0172System Too Rich (Bank 1)Check the fuel pressure --. Refer to FUEL PRESSURE TEST .-- Check the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .-- Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .-- Check the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80-. Refer to EVAPORATIVE PURGE REGULATOR VALVE, CHECKING .-- Check the intake system for leaks (false air).-- Check the vacuum lines for leaksToo rich at idle Adaptive value <5.02% (<6.0 only B8 ULEV) too rich at part-load Adaptive value <21% (-26(only B8 ULEVVII)Engine speed, 560-1200 RPM Engine load, 9.0...45% mass air flow, 5.0...23.0 kg/h ECT, >63.0° C IAT, <90.0° C part load adaptation, ready lambda control, closed loop evap purge valve, closed if low fuel signal then wait until mass fuel integral, > 0.00 kg throttle position, <99.6 Sec Engine speed, 1320-5000 RPM Engine load, 20...100% mass air flow, 27...450 kg/h ECT, >63.0° C IAT, <90.0° C lambda control, closed loop evap purge valve, closed if low fuel signal then wait until mass fuel integral, > 0.00 kg10 Sec 10 Sec2 DCY
P0190Fuel Rail Pressure Sensor A CircuitCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Signal voltage > 4.80 V0.5 SecContinuous 2 DCY
P0191Fuel Rail Control Valve, high pressure sideCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Actual pressure >20.6 mPa0 engine speed, > 0.0 RPM3.0 SecMultiple 2 DCY
P0192Fuel Rail Pressure Sensor A Circuit Low InputCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Signal voltage <.20 V0.5 SecContinuous 2 DCY
P0201Injector Circuit / Open - Cylinder 1Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Low side signal current <2.10 A internal logic failureEngine speed, > 80 RPM injection valve switched on0.5 SecContinuous 2 DCY
P0202Injector Circuit / Open - Cylinder 2Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Low side signal current <2.10 A internal logic failureEngine speed, > 80 RPM Engine speed, > 80 RPM injection valve switched on0.5 SecContinuous 2 DCY
P0203Injector Circuit / Open - Cylinder 3Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Low side signal current <2.10 A internal logic failureEngine speed, > 80 RPM Engine speed, > 80 RPM injection valve switched on0.5 SecContinuous 2 DCY
P0204Injector Circuit / Open - Cylinder 4Check the fuel injectors -N33-. Refer to FUEL INJECTORS, CHECKING .Low side signal current <2.10 A internal logic failureEngine speed, > 80 RPM Engine speed, > 80 RPM injection valve switched on0.5 SecContinuous 2 DCY
P0221Throttle/Pedal Position Sensor/Switch B Circuit Range/PerformanceCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .TPS 1-TPS 2, >6.30% AND actual TPS 2- calc value, > actual TPS1 -calc. value OR TPS 2- calc. value, >9.00%Engine speed >480 RPM0.3 SecMultiple 2 DCY
P0222Throttle/Pedal Position Sensor/Switch B Circuit Low InputCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .Signal voltage < 0.20 V0.1 SecMultiple 2 DCY
P0223Throttle/Pedal Position Sensor/Switch B Circuit High InputCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .Signal voltage, > 4.81 V0.1 SecMultiple 2 DCY
P0234Turbocharger/Supercharger Overboost Condition Rationality check highCheck the Charge Air Pressure Sensor -G31-. Refer to CHARGE AIR PRESSURE SENSOR, CHECKING .-- Check the charge air system for proper seal. Refer to Engine Mechanical, Fuel Injection and Ignition. Charge Air System Charge Air SystemDiff. set value boost pressure vs actual boost pressure value, >200...1280 hPaAltitude, <2700 m1.5 SecMultiple 2 DCY
P0236Turbocharger/Supercharger Boost Sensor A Plausibility checkCheck the Charge Air Pressure Sensor -G31-. Refer to CHARGE AIR PRESSURE SENSOR, CHECKING .-- Check the charge air system for proper seal. Refer to Engine Mechanical, Fuel Injection and Ignition. Charge Air System Charge Air SystemDiff. boost pressure signal vs altitude sensor signal, >220 hPa diff. boost pressure signal vs altitude sensor signal, <120 hPaEngine speed, <1000 RPM throttle position, <11.50% engine speed, <1000 RPM throttle position, <11.50%2 SecMultiple 2 DCY
P0237Turbocharger/Supercharger Boost Sensor A Circuit LowCheck the Charge Air Pressure Sensor -G31-. Refer to CHARGE AIR PRESSURE SENSOR, CHECKING .-- Check the charge air system for proper seal. Refer to appropriate service information.Signal voltage, < 0.20 VEngine speed> 80 RPM0.5 SecContinuous 2 DCY
P0238Turbocharger/Supercharger Boost Sensor A Circuit HighCheck the Charge Air Pressure Sensor -G31-. Refer to CHARGE AIR PRESSURE SENSOR, CHECKING .-- Check the charge air system for proper seal. Refer to appropriate service information.Signal voltage> 4.88Engine speed> 800.5 SecContinuous 2 DCY
P0243Turbocharger/Supercharger Wastegate Solenoid ACheck the Wastegate Bypass Regulator Valve -N75-. Refer to WASTEGATE BYPASS REGULATOR VALVE, CHECKING .Signal voltage, > 4.40...5.60 VBoost pressure control valve, commanded off Engine speed, > 80 RPM0.5 SecContinuous 2 DCY
P0245Turbocharger/Supercharger Wastegate Solenoid A LowCheck the Wastegate Bypass Regulator Valve -N75-. Refer to WASTEGATE BYPASS REGULATOR VALVE, CHECKING .Signal voltage, < 2.15...3.25 VBoost pressure control valve, commanded off Engine speed, > 80 RPM0.5 SecContinuous 2 DCY
P0246Turbocharger/Supercharger Wastegate Solenoid A HighCheck the Wastegate Bypass Regulator Valve -N75-. Refer to WASTEGATE BYPASS REGULATOR VALVE, CHECKING .Signal current, >2.20 ABoost pressure control valve, commanded on Engine speed, > 80 RPM0.5 SecContinuous 2 DCY
P0261Cylinder 1 Injector Circuit LowCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Signal current <2.10 AEngine speed, > 80 RPM High side signal current, > 4.20 A0.5 SecContinuous 2 DCY
P0262Cylinder 1 Injector Circuit HighCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Signal current >14.70 AEngine speed, > 80 RPM injection valve, switched on0.5 SecContinuous 2 DCY
P0264Cylinder 2 Injector Circuit LowCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Signal current <2.10 AEngine speed, > 80 RPM High side signal current, > 4.20 A0.5 SecContinuous 2 DCY
P0265Cylinder 2 Injector Circuit HighCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Signal current >14.70 AEngine speed, > 80 RPM Injection valve, Commanded on0.5 SecContinuous 2 DCY
P0267Cylinder 3 Injector Circuit LowCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Signal current <2.10 AEngine speed, > 80 RPM High side signal current, > 4.20 A0.5 SecContinuous 2 DCY
P0268Cylinder 3 Injector Circuit HighCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Signal current >14.70 AEngine speed, > 80 RPM Injection valve, Commanded on0.5 SecContinuous 2 DCY
P0270Cylinder 4 Injector Circuit LowCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Low side signal current <2.10 AEngine speed, > 80 RPM High side signal current, > 4.20 A0.5 SecContinuous 2 DCY
P0271Cylinder 4 Injector Circuit HighCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Signal current >14.70 AEngine speed, > 80 RPM Injection valve, Commanded on0.5 SecContinuous 2 DCY
P0299Turbocharger/Supercharger Underboost Rationality check lowCheck the charge air system for proper seal. Refer to -- Check the charge air system for proper seal. Refer to Engine Mechanical, Fuel Injection and Ignition. Charge Air System Charge Air SystemDiff. set value boost pressure vs actual boost pressure value, >150 hPaEngine speed, 2200-2800 RPM altitude <2700 m diff. set value boost pressure vs actual boost pressure value 200 hPa Boost pressure control, active turbo charger bypass valve, closed6 SecMultiple 2 DCY

Ignition system

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P0300Crankshaft speed fluctuation (single or multiple)Check the Spark plugs.-- Check the intake system for leaks.-- Check the fuel pressure. Refer to FUEL PRESSURE TEST .-- Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .-- Check the Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Emission threshold misfire rate (MR)> 1.7% catalyst damage misfire rate (MR)> 5.0...20.0%Engine speed range, 440-6800 RPM Engine torque, >=0 Nm ECT > -11° C Fuel cutoff, Not active rough road not detected1000 Rev. 200 Rev.2 DCY immediately
P0301Crankshaft speed fluctuation (single or multiple)Check the Spark plugs.-- Check the intake system for leaks.-- Check the fuel pressure. Refer to FUEL PRESSURE TEST .-- Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .-- Check the Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Emission threshold misfire rate (MR)> 1.7% catalyst damage misfire rate (MR)> 5.0...20.0%Engine speed range, 440-6800 RPM Engine torque, >=0 Nm ECT > -11° C Fuel cutoff, Not active rough road not detected200 Rev.2 DCY immediately
P0302Crankshaft speed fluctuation (single or multiple)Check the Spark plugs.-- Check the intake system for leaks.-- Check the fuel pressure. Refer to FUEL PRESSURE TEST .-- Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .-- Check the Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Emission threshold misfire rate (MR)> 1.7% catalyst damage misfire rate (MR)> 5.0...20.0%Engine speed range, 440-6800 RPM Engine torque, >=0 Nm ECT > -11° C Fuel cutoff, Not active rough road not detected200 Rev.2 DCY immediately
P0303Crankshaft speed fluctuation (single or multiple)Check the Spark plugs.-- Check the intake system for leaks.-- Check the fuel pressure. Refer to FUEL PRESSURE TEST .-- Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .-- Check the Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Emission threshold misfire rate (MR)> 1.7% catalyst damage misfire rate (MR)> 5.0...20.0%Engine speed range, 440-6800 RPM Engine torque, >=0 Nm ECT > -11° C Fuel cutoff, Not active rough road not detected200 Rev.2 DCY immediately
P0304Crankshaft speed fluctuation (single or multiple)Check the Spark plugs.-- Check the intake system for leaks.-- Check the fuel pressure. Refer to FUEL PRESSURE TEST .-- Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .-- Check the Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Emission threshold misfire rate (MR)> 1.7% catalyst damage misfire rate (MR)> 5.0...20.0%Engine speed range, 440-6800 RPM Engine torque, >=0 Nm ECT > -11° C Fuel cutoff, Not active rough road not detected200 Rev.2 DCY immediately
P0321Ignition/Distributor Engine Speed Input Circuit Range/PerformanceCheck the Engine Speed (RPM) Sensor -G28-. Refer to ENGINE SPEED SENSOR, CHECKING .Counted teeth versus reference, incorrect OR monitoring reference gap, failure0.50 SecMultiple" 2 DCY
P0322Ignition/Distributor Engine Speed Input Circuit No SignalCheck the Engine Speed (RPM) Sensor -G28-. Refer to ENGINE SPEED SENSOR, CHECKING .Camshaft signals >3 Engine speed, no signal0.50 SecMultiple" 2 DCY
P0324Knock Control System ErrorCheck the Knock Sensors -G61-. Refer to KNOCK SENSOR 1, CHECKINGSignal fault counter (combustion), >24.0 OR signal fault counter (measuring window), >2.00Engine speed, > 2500 RPM0.5 SecContinuous 2 DCY
P0327Knock Sensor 1 Circuit Low Input (Bank 1) Short to ground, Port BCheck the Knock Sensor -G61-. Refer to KNOCK SENSOR 1, CHECKINGLower threshold, <0.70 VEngine speed, > 1000 RPM0.5 SecContinuous 2 DCY
P0327Knock Sensor 1 Circuit Short to ground, Port ACheck the Knock Sensor -G61-. Refer to KNOCK SENSOR 1, CHECKINGLower threshold, <0.70 VEngine speed, > 1000 RPM0.5 SecContinuous 2 DCY
P0327Knock Sensor 1 Circuit signal range checkCheck the Knock Sensor -G61-. Refer to KNOCK SENSOR 1, CHECKINGLower threshold, <0.70 VEngine speed, > 1000 RPM ECT >40° C engine load, >23.734...55.172%Continuous 2 DCY
P0328Knock Sensor 1 Circuit signal range check (Bank 1)Check the Knock Sensor -G61-. Refer to KNOCK SENSOR 1, CHECKINGUpper threshold > 18.0...150.0VEngine speed, > 2000 RPM ECT, > 41° C Engine load, > 35.3...60.0%0.5 Sec2 DCY
P0328Knock Sensor 1 Circuit short to B+ Port B (Bank 1)Check the Knock Sensor -G61-. Refer to KNOCK SENSOR 1, CHECKINGUpper threshold >1.00 VEngine speed >1000 RPM0.5 SecContinuous 2 DCY
P0328Knock Sensor 1 Circuit short to B+ Port A (Bank 1)Check the Knock Sensor -G61-. Refer to KNOCK SENSOR 1, CHECKINGUpper threshold >1.00 VEngine speed >1000 RPM0.5 SecContinuous 2 DCY
P0340Camshaft Position Sensor A Circuit (Bank 1 or single sensor)Check the Camshaft Position (CMP) Sensor -G40-. Refer to CAMSHAFT POSITION SENSOR, CHECKING .Cam adaption values out of range >20 ° KW <-20 ° KW Difference of adapted and actual values >9° KWEngine speed sensor, No DTC Phase sensor, No DTC Cam adaptation, Active Engine speed sensor, No DTC Phase sensor, No DTC Camshaft adjustment, No DTC Engine start, Completed Cam adaptation, Completed Camshaft in ref pos. for >2 sec.2 Sec2 DCY
P0341Camshaft Position Sensor A Circuit Range/Performance (Bank 1 or single sensor)Check the Camshaft Position (CMP) Sensor -G40-. Refer to CAMSHAFT POSITION SENSOR, CHECKING .Signal pattern, incorrect0.50 SecContinuous 2 DCY
P0342Camshaft Position Sensor A Circuit Low Input (Bank 1 or single sensor)Check the Camshaft Position (CMP) Sensor -G40-. Refer to CAMSHAFT POSITION SENSOR, CHECKING .Signal voltage low and crankshaft signals, 8.00.50 SecContinuous 2 DCY
P0343Camshaft Position Sensor A Circuit High Input (Bank 1 or single sensor)Check the Camshaft Position (CMP) Sensor -G40-. Refer to CAMSHAFT POSITION SENSOR, CHECKING .Signal voltage high and crankshaft signals, 8.00.50 SecContinuous 2 DCY
P0351Ignition Coil A Primary/Secondary CircuitCheck the Ignition Coils with Power Output Stage -N70-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal current, < -0.25...2.00 mA OR Internal check, failedEngine speed, >680 RPM0.5 SecContinuous 2 DCY
P0352Ignition Coil B Primary/Secondary CircuitCheck the Ignition Coils with Power Output Stage - N127-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal current, < -0.25...2.00 mA OR Internal check, failedEngine speed, >680 RPM0.5 SecContinuous 2 DCY
P0353Ignition Coil C Primary/Secondary CircuitCheck the Ignition Coils with Power Output Stage - N291-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal current, < -0.25...2.00 mA OR Internal check, failedEngine speed, >680 RPM0.5 SecContinuous 2 DCY
P0354Ignition Coil D Primary/Secondary CircuitCheck the Ignition Coils with Power Output Stage -N292-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal current, < -0.25...2.00 mA OR Internal check, failedEngine speed, >680 RPM0.5 SecContinuous 2 DCY

Additional exhaust regulation

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P0410System check after SAI PZEV onlyCheck the Secondary Air System. Refer to CATALYTIC CONVERTER, CHECKINGDeviation SAI pressure, >20.0 hPaMass air flow, 7...150kg/h Delta engine load, -10...10% rev ECT, 5...39.8° C IAT, 5...40° C altitude, <2700 m SAI pressure sensor, ready no fault.10 SecOnce/DCY 2 DCY
P0413Open circuit PZEV onlyCheck the Secondary Air System. Refer to CATALYTIC CONVERTER, CHECKINGSignal voltage, 9.25...11.25 VAir valve, commanded off engine speed, >80 RPM0.5 SecContinuous 2 DCY
P0414Short to ground PZEV onlyCheck the Secondary Air System. Refer to CATALYTIC CONVERTER, CHECKINGSignal voltage <6.00 VAir valve, commanded off engine speed, >80 RPM0.5 SecContinuous 2 DCY
P0415Short to B+ PZEV onlyCheck the Secondary Air System. Refer to CATALYTIC CONVERTER, CHECKINGSignal current 2.20...4.20 AAir valve, commanded on engine speed, >80 RPM0.5 SecContinuous 2 DCY
P0418Air pump relay. Open circuit. PZEV onlyCheck the Secondary Air System. Refer to CATALYTIC CONVERTER, CHECKINGSignal voltage 4.50...5.50 VPump relay commanded off engine speed, >80 RPM0.50 SecContinuous 2 DCY
P0420Catalyst System (front) Efficiency Below Threshold (Bank 1) PZEV onlyCheck the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .-- Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .-- Check the Three Way Catalytic Converter (TWC). Refer to CATALYTIC CONVERTER, CHECKING .Measured OSC / OSC of borderline catalyst value for front catalyst, <0.40 OR value for front catalyst, <1.30 AND value for main catalyst, <1.20Time after engine start, > 0 Sec. Delta exhaust mass airflow, < 27.1 kg/h exhaust gas mass flow, lower range, 25.0...80.0 kg/h exhaust gas mass flow, upper range, 60.0...160.0 kg/h modeled exhaust gas temp. in catalyst system, lower range, 490...660° C modeled exhaust gas temp in catalyst system, upper range, 640...780° C Engine speed, 1200-3520 RPM number of checks, 4 O2S front, ready no fault O2S rear, ready no fault SAS not active no misfire50 SecOnce/DCY 2 DCY
P0420Catalyst System (main) Efficiency Below Threshold (Bank 1) PZEV onlyCheck the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .-- Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .-- Check the Three Way Catalytic Converter (TWC). Refer to CATALYTIC CONVERTER, CHECKING .Measured OSC / OSC of borderline catalyst value for main catalyst, <0.90 WHILE value for front catalyst, <2.00Time after engine start, > 80 Sec. Delta exhaust mass airflow, < 30.0 kg/h exhaust gas mass flow, lower range, 25.0...80.0 kg/h exhaust gas mass flow, upper range, 60.0...160.0 kg/h modeled exhaust gas temp. in catalyst system, lower range, 435...660° C modeled exhaust gas temp in catalyst system, upper range, 530...740° C Engine speed, 1200-3520 RPM number of checks, 4 O2S front, ready no fault O2S rear, ready no fault SAS not active no misfire50 SecOnce/DCY 2 DCY
P0420Catalyst System (only bin 5, ULEV) Efficiency Below Threshold (Bank 1)Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .-- Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .-- Check the Three Way Catalytic Converter (TWC). Refer to CATALYTIC CONVERTER, CHECKING .Measured OSC / OSC of borderline catalyst. EWMA filter value for catalyst, <.20Time after engine start, > 2.2 Sec. Delta exhaust mass airflow, < 30.0 kg/h exhaust gas mass flow, lower range, 23.0...85.0 kg/h exhaust gas mass flow, upper range, 60.0...130.0 kg/h modeled exhaust gas temp. in catalyst system, lower range, 500...710° C modeled exhaust gas temp in catalyst system, upper range, 660...800° C Engine speed, 1200-3600 RPM number of checks, 6 O2S front, ready no fault O2S rear, ready no fault SAS not active no misfire50 SecOnce/DCY 1 DCY
P0441Evaporative Emission System Incorrect Purge FlowCheck the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80-. Refer to EVAPORATIVE PURGE REGULATOR VALVE, CHECKING .-- Check the Leak Detection Pump (LDP) -V144-. Refer to LEAK DETECTION PUMP, CHECKING .Reaction of idle controller or lambda controller Deviation less than.079% lambda controller AND < 35% idle controller deviationEvap purge flow integral,> 60...150g OR integrated air mass, 5500...8016kg Engine speed, Idle RPM Engine speed Deviation, < 80 RPM ECT, >55° C or Substitute ECT, >80 °C IAT, > 4° C Altitude, <2700 m lambda control, closed loop22 SecOnce/ DCY 2 DCY
P0442Evaporative Emission System Leak Detected (Small Leak)Check the EVAP System, for Leaks. Refer to EVAPORATIVE SYSTEM, CHECKING FOR LEAKS .-- Check the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80-. Refer to EVAPORATIVE PURGE REGULATOR VALVE, CHECKING .-- Check the Leak Detection Pump (LDP) -V144-. Refer to LEAK DETECTION PUMP, CHECKING .Time for pressure drop < 1.55...1.75 Sec.Time after engine start> 5...65530 Sec. ECT, 4...120° C ECT at start, 4...50° C engine off time, >21600 Sec ambient air temp 4...59° C ambient air temp drop after engine start, < 8 K Intake manifold vacuum, > 2560 hPa Altitude, < 2700 m Vehicle speed, > 40 km/h once Selected gear, Any drive restart temp difference, >0.0 K Evap purge valve closed LDP, Activated Delta ambient pressure, < 2.5 hPa delta vehicle speed not >150 km/h150.4 SecOnce DCY 2 DCY
P0444Evaporative Emission System Purge Control Valve Circuit OpenCheck the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80-. Refer to EVAPORATIVE PURGE REGULATOR VALVE, CHECKING .Signal voltage> 4.40... 5.40 VEVAP purge valve, Commanded off Engine speed, > 80 RPM0.5 SecContinuous 2 DCY
P0455Evaporative Emission System Leak Detected (gross leak/no flow)Check the EVAP System, for Leaks. Refer to EVAPORATIVE SYSTEM, CHECKING FOR LEAKS .-- Check the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80-. Refer to EVAPORATIVE PURGE REGULATOR VALVE, CHECKING .-- Check the Leak Detection Pump (LDP) -V144-. Refer to LEAK DETECTION PUMP, CHECKING .Time for pressure drop < 0.95 Sec.Time after engine start> 5...65530 Sec. ECT, 4...120° C ECT at start, 4...50° C engine off time, >21600 Sec ambient air temp 4...59° C ambient air temp drop after engine start, < 12 K Intake manifold vacuum, > 2560 hPa Altitude, < 2700 m Vehicle speed, > 40 km/h once Selected gear, Any drive restart temp difference, >0.0 K Evap purge valve closed LDP, Activated Delta ambient pressure, < 2.50 hPa delta vehicle speed not >150 km/h120 SecOnce/DCY 2 DCY
P0456Evaporative Emission System Leak Detected (very small leak)Check the EVAP System, for Leaks. Refer to EVAPORATIVE SYSTEM, CHECKING FOR LEAKS .-- Check the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80-. Refer to EVAPORATIVE PURGE REGULATOR VALVE, CHECKING .-- Check the Leak Detection Pump (LDP) -V144-. Refer to LEAK DETECTION PUMP, CHECKING .<5.0 -6.5 Sec.Time after engine start> 5...65530 Sec. ECT, 4...120° C ECT at start, 4...50° C engine off time, >21600 Sec ambient air temp 4...59° C ambient air temp drop after engine start, < 5 K Intake manifold vacuum, > 2560 hPa Altitude, < 2700 m Vehicle speed, > 40 km/h once Selected gear, Any drive restart temp difference, >0.0 K Evap purge valve closed LDP, Activated Delta ambient pressure, < 2.5 hPa delta vehicle speed not >150 km/h vehicle acceleration< 3.50 m/s2 delta engine load< 767.98 %/seg180 SecOnce DCY 2 DCY
P0458Evaporative Emission System Purge Control Valve Circuit LowCheck the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80-. Refer to EVAPORATIVE PURGE REGULATOR VALVE, CHECKING .Signal voltage, <2.15...3.25 VEVAP purge valve, Commanded off Engine speed, >80 RPM0.5 SecContinuous 2 DCY
P0459Evaporative Emission System Purge Control Valve Circuit HighCheck the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80-. Refer to EVAPORATIVE PURGE REGULATOR VALVE, CHECKING .Signal current, > 2.20 AEVAP purge valve, Commanded on Engine speed, >80 RPM0.5 SecContinuous 2 DCY
P0491Secondary Air System Insufficient Flow. flow check during cat. heating. PZEV onlyCheck the Secondary Air System. Refer to CATALYTIC CONVERTER, CHECKINGSAI pressure measured with SAI pressure sensor vs modeled < 0.6 (0.62) %Mass air flow, 7...150kg/h Delta engine load, -10...10% rev ECT, 5...60° C IAT, 5...40° C altitude, <2700 m SAI pressure sensor, ready no fault.18.5 SecOnce/DCY 2 DCY

Speed and idle control

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P0501Vehicle Speed Sensor A Range/PerformanceCheck vehicle speed signal. Refer to SPEED SIGNAL, CHECKING .VSS signal, < 4 km/hEngine torque >150 Nm Engine speed, >2500 RPM vehicle speed sensor, no fault5 SecMultiple 2 DCY
P0503Vehicle Speed Sensor A Out of range highCheck vehicle speed signal. Refer to SPEED SIGNAL, CHECKING .Vehicle speed > 200 km/h0.5 SecContinuous 2 DCY
P0506Idle Air Control System RPM Lower Than ExpectedCheck the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Engine speed deviation <-80 RPM AND RPM controller torque value>= calculated max. value integrated deviation of engine speed low and integrated deviation of engine speed high> 2000 RPMDriver torque demand, none Vehicle speed, 0 MPH engine speed idle Altitude, < 2700 m evap purge adaptation< 22.00 external torque request, not demanded lambda control active3 SecMultiple 2 DCY
P0507Idle Air Control System RPM Higher Than ExpectedCheck the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Engine speed deviation >-80 RPM AND RPM controller torque value<= calculated min. valueExternal torque demand, none engine speed 0 RPM Vehicle speed, 0 MPH Altitude, < 2700 m evap purge adaptation< 22.00 lambda control active7 SecMultiple 2 DCY
P050BCold Start Idle Air Control System PerformanceCheck the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Difference between commanded spark timing vs. actual value> 0.25%Time during catalyst heating> 13 Sec commanded spark retard during catalyst heating< 70% catalyst heating active0.5 SecOnce/DCY 2 DCY
P052AVVT Actuator IntakeCheck the Camshaft Adjustment Valve 1 -N205-. Refer to CAMSHAFT ADJUSTMENT VALVE 1, CHECKING .Difference between target position vs. actual position > 12.0 °CRKTime after engine start>= 15.0 Sec modeled oil temperature>= -13° C catalyst heating active3.5 SecOnce/DCY 2 DCY
P053FFuel Rail Control Valve, high pressure sideCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Time after engine start 12.0 Sec fuel cut off not active catalyst heating active3.5 SecMultiple 2 DCY

Control module and output signals

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P0601Internal Control Module Memory Check Sum ErrorReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Internal check sum, incorrectContinuous 2 DCY
P0604Internal Control Module Random Access Memory (RAM) ErrorReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Write ability check, failedContinuous 2 DCY
P0605Internal Control Module Read Only Memory (ROM) ErrorReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Checksum IncorrectContinuous 2 DCY
P0606CAN: Internal FaultReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.RAM error memory checksum errorInitialization phase time after ignition on 500 mSec0 mSecOnce/DCY 2 DCY
P0606ECM ProcessorReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Function monitoring: WDA general cause failure function monitoring: WDA internal check failure function monitoring: WDA overvoltage detection failure EEPROM check failed internal hardware check (electrical adjustment communication, voltage supply) check0.5 SecContinuous 2 DCY
P0606ECM: 5V Supply VoltageReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Internal hardware check under-/ overvoltage detection0.5 SecContinuous 2 DCY
P0606ECM: A/D converterReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Power-up calibration check failed adc-cannel conversion check failedInitialization phase active power-up calibration executed0.5 SecContinuous 2 DCY
P0606ECM: A/D converter 2Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Power-up calibration check failed adc-cannel conversion check failedInitialization phase active power-up calibration executed0.5 SecContinuous 2 DCY
P0627Fuel Pump "A" Control Circuit /OpenCheck the fuel pressure --. Refer to FUEL PRESSURE TEST .Internal error fuel pump control unit Feedback from fuel pump control unit Pump blocked short circuit to battery +, ground or open circuitBattery voltage, > 9-16 V Engine start, Completed15 SecNo Mil
P0638Throttle Actuator Control Range/Performance - Bank 1Check the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Rationality check: Time to close to reference point > 0.6 Sec. AND reference point, 2.88% Rationality check: time to open over reference point> 0.1 Sec OR time to close below reference point> 0.6 Sec signal range check @ mechanical stop low TPS 1 signal voltage NOT (0.40...0.80) V OR TPS 2 signal voltage NOT (4.20...4.60)Case 1: Ignition, on Engine speed, 0 RPM IAT, >5° C Vehicle speed, 0 km/h ECT, >5° C Case 2: engine shut-off-time 0.5 Sec Ignition, on Engine speed, <= 300 RPM IAT, >5...143° C Vehicle speed, <= 0 km/h ECT, >5...115° C Ignition, on Engine speed, <= 300 RPM IAT, >5...143° C Vehicle speed, <= 0 km/h ECT, >5...115° C5 SecMultiple 2 DCY
P0641Sensor Reference Voltage A Circuit/OpenReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Signal voltage, deviation > +/- 0.3 V0.5 SecContinuous 2 DCY
P0642Sensor Reference Voltage A Circuit LowReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Signal voltage, < 4.6-5 VThreshold values depending on internal 5 V rev voltage0.5 Sec2 DCY
P0643Sensor Reference Voltage A Circuit HighReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.5 V supply voltage >4.99-5.41 VThreshold values depending on internal 5 V rev voltage0.5 Sec2 DCY
P0651Sensor Reference Voltage B Circuit/OpenReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Signal voltage, deviation > +/- 0.3 V0.5 SecContinuous 2 DCY
P0652Sensor Reference Voltage B Circuit LowReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Signal voltage, < 4.6-5 VThreshold values depending on internal 5 V rev voltage0.5 Sec2 DCY
P0653Sensor Reference Voltage B Circuit HighReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.5 V supply voltage >4.99-5.41 VThreshold values depending on internal 5 V rev voltage0.5 Sec2 DCY
P0657Actuator Supply Voltage A Circuit / OpenCheck the Motronic Engine Control Module (ECM) Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY, CHECKING .Signal voltage, 4.40...5.60 VRelay, commanded off Engine speed, > 80 RPM0.5 SecContinuous 2 DCY
P0658Actuator Supply Voltage A Circuit LowCheck the Motronic Engine Control Module (ECM) Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY, CHECKING .Signal voltage, < 2.15...3.25 VRelay, commanded off Engine speed, > 80 RPM0.5 SecContinuous 2 DCY
P0659Actuator Supply Voltage "A" Circuit HighCheck the Motronic Engine Control Module (ECM) Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY, CHECKING .Signal current >1.10 ARelay, commanded on Engine speed, >80 RPM0.5 SecContinuous 2 DCY
P0685ECM/PCM Power Relay Control Circuit/OpenCheck the Motronic Engine Control Module (ECM) Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY, CHECKING .Signal voltage, 2.6-3.7 V Sense circuit voltage, >6 VECM keep alive time main relay, Commanded on (Test pulse)0.5 Sec2 DCY
P0686ECM/PCM Power Relay Control Circuit LowCheck the Motronic Engine Control Module (ECM) Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY, CHECKING .Signal voltage, 2.6-3.7 V Sense circuit voltage, >6 VECM keep alive time main relay, Commanded on (Test pulse)0.5 Sec2 DCY
P0687ECM/PCM Power Relay Control Circuit HighCheck the Motronic Engine Control Module (ECM) Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY, CHECKING .Signal current, >1.4-0.7 A Sense circuit voltage, <6 VMain relay, Commanded on ECM keep alive time main relay, Commanded on (Test pulse)0.5 Sec2 DCY
P0688ECM/PCM Power Relay Sense CircuitCheck the Motronic Engine Control Module (ECM) Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY, CHECKING .Sense voltage, <3.0 V Difference sense circuit voltage with camshaft actuator commanded off and on >2.5 V Battery voltage > 3 VMain relay, commanded on ECM keep alive time Switch off test - Failed1 Sec 4 Sec 2 Sec2 DCY
P0697Sensor Reference Voltage C Circuit / OpenReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Signal voltage, deviation > +/- 0.3 V0.5 SecContinuous 2 DCY
P0698Sensor Reference Voltage C Circuit LowReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.Signal voltage, < 4.6-5 VThreshold values dep. on internal 5 V rev voltage0.4 Sec2 DCY
P0699Sensor Reference Voltage C Circuit HighReplace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.5 V supply voltage>4.99-5.41 VThreshold values dep. on internal 5 V rev voltage0.4 Sec2 DCY
P062BInjection Valves CommunicationCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Internal logic failureEngine speed> 80 RPM0.5 SecContinuous 2 DCY

Fuel and Air ratios, control module

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P1114Internal resistance too large (Bank 1, sensor 2)Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .Heater resistance, (128-648)*(8-40)1.02-25.9 k ohms (dep. on mod. exhaust temp. and heater power)Battery voltage, 10.7-16.1 V Modeled exhaust gas temp, 300-600° C Engine shutoff time, 300 Sec. IAT, >6.75° C15 Sec2 DCY
P12A1Fuel Rail Pressure Sensor Inappropriately LowCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Pressure control activity, > 0.25 mPa AND fuel trim activity, < 0.85Engine speed > 1000....4000 RPM engine load 58.01... 1535.98% ECT>= 54.8° C IAT< 90° C evap purge adaptation < 22.00 lambda control closed loop fuel cut off not active5 SecMultiple 2 DCY
P12A2Fuel Rail Pressure Sensor Inappropriately HighCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Pressure control activity, > 0.25 mPa AND fuel trim activity, < 0.85Engine speed > 600....900 RPM engine load 10.01... 1535.98% ECT>= 54.8° C IAT< 90° C evap purge adaptation < 22.00 lambda control closed loop fuel cut off not active5 SecMultiple 2 DCY
P12A4Fuel Rail Pump Control Valve Stuck ClosedCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Pressure control activity, <6.00 mPa AND fuel trim activity, 0.85...1.15Engine speed > 600 RPM evap purge adaptation < 22.00 ECT>= 54.8° C IAT< 90° C lambda control closed loop fuel cut off not active5 SecMultiple 2 DCY
P13EAIgnition timing monitorCheck the Ignition Coils with Power Output Stage -N70-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Difference between commanded spark timing vs. actual value> 0.60%Time during catalyst heating> 13Sec commanded spark retard during catalyst heating< 80% catalyst heating active0.5 SecOnce/DCY 2 DCY
P150AEngine-Off-TimeCheck ALL power and grounds to the ECM. The ECM must have a power supply when the key is off to run the timer and system checks. If OK, replace the ECM.Comparison of engine off time from instrument cluster control unit with engine after run time. difference between engine-off-time and ECM after-run time< -12.0 Sec comparison of engine off time from instrument cluster control unit with engine after run time difference between engine-off-time and ECM after-run time> 12.0 SecKey-on after ECM after-run time active CAN active key-on during ECM after-run time active CAN active6 SecOnce/DCY 2 DCY

Fuel and air mixture, additional emissions regulations

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P2004Intake Manifold Runner Control Stuck Open Bank 1Check the Intake Flap Motor -V157- /Intake Manifold Runner Position Sensor -G336-. Refer to INTAKE MANIFOLD RUNNER POSITION SENSOR, CHECKING .Normal closed position, unable to reach Signal voltage, <2.62 or >4.65 V or Normal open position, unable to reach signal voltage, <0.35 or >2.38 VECM keep alive time Ignition, Off Runner flaps, Commanded closed Battery voltage, >10 V tumble flap, >5%ECT, -40.5-140° C IAT, -40.5-140° C Position sensor, No DTC Actuator, No DTC25 SecOnce/DCY 2 DCY
P2008Intake Manifold Runner Control Circuit/Open Bank 1Check the Intake Flap Motor -V157- /Intake Manifold Runner Position Sensor -G336-. Refer to INTAKE MANIFOLD RUNNER POSITION SENSOR, CHECKING .Signal voltage 4.40...5.60 VTumble flap, commanded off engine speed >80 RPM0.5 SecContinuous 2 DCY
P2009Intake Manifold Runner Control Circuit/Shorted Bank 1Check the Intake Flap Motor -V157- /Intake Manifold Runner Position Sensor -G336-. Refer to INTAKE MANIFOLD RUNNER POSITION SENSOR, CHECKING .Signal voltage 2.15...3.25 VTumble flap, commanded off engine speed >80 RPM0.5 SecContinuous 2 DCY
P2010Intake Manifold Runner Control Circuit/Shorted to B+ Bank 1Check the Intake Flap Motor -V157- /Intake Manifold Runner Position Sensor -G336-. Refer to INTAKE MANIFOLD RUNNER POSITION SENSOR, CHECKING .Signal current >2.20 ATumble flap, commanded on engine speed >80 RPM0.5 SecContinuous 2 DCY
P2014Intake Manifold Runner Position Sensor/Switch Circuit Bank 1Check the Intake Flap Motor -V157- /Intake Manifold Runner Position Sensor -G336-. Refer to INTAKE MANIFOLD RUNNER POSITION SENSOR, CHECKING .Signal voltage, >4.75 V0.3 Sec2 DCY
P2015Intake Manifold Runner Position Sensor/Switch Circuit Range/Performance Bank 1Check the Intake Flap Motor -V157- /Intake Manifold Runner Position Sensor -G336-. Refer to INTAKE MANIFOLD RUNNER POSITION SENSOR, CHECKING .Deviation runner flap position vs actual position >25 %Flap commanded on adaptation ready1.5 SecMultiple 2 DCY
P2016Intake Manifold Runner Position Sensor/Switch Circuit Low (Bank 1)Check the Intake Flap Motor -V157- /Intake Manifold Runner Position Sensor -G336-. Refer to INTAKE MANIFOLD RUNNER POSITION SENSOR, CHECKING .Signal voltage, <0.25 V0.3 SecContinuous 2 DCY
P2088A Camshaft Position Actuator Control Circuit Low Bank 1 short to groundCheck the Camshaft Adjustment Valve 1 -N205-. Refer to CAMSHAFT ADJUSTMENT VALVE 1, CHECKING .Signal voltage, <2.15...3.25 VCamshaft valve off Engine speed, >80 RPM0.50 SecContinuous 2 DCY
P2089A Camshaft Position Actuator Control Circuit High Bank 1 short to B+Check the Camshaft Adjustment Valve 1 -N205-. Refer to CAMSHAFT ADJUSTMENT VALVE 1, CHECKING .Signal current, >2.20 ACamshaft valve on Engine speed, >80 RPM0.50 SecContinuous 2 DCY
P2096Post Catalyst Fuel Trim System Too Lean Bank 1Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .-- Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .I-portion of 2nd lambda control loop < 0.030Modeled exhaust gas temp., 450.00... 880.00° C exhaust gas mass flow, 18.00... 200.00 kg/h lambda control, closed loop lambda control, not at min or max limit 2nd lambda control, closed loop O2S front, ready, no fault O2S rear, ready, no fault O2S heater front, active O2S heater rear, active fuel cut off, not active catalyst heating, not active SAI, not active140 SecMultiple 2 DCY
P2097Post Catalyst Fuel Trim System Too Rich Bank 1Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .-- Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .I-portion of 2nd lambda control loop > 0.030Modeled exhaust gas temp., 450.00... 880.00° C exhaust gas mass flow, 18.00... 200.00 kg/h lambda control, closed loop lambda control, not at min or max limit 2nd lambda control, closed loop O2S front, ready, no fault O2S rear, ready, no fault O2S heater front, active O2S heater rear, active fuel cut off, not active catalyst heating, not active SAI, not active140 SecMultiple 2 DCY

Fuel and air ratio

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P2101Throttle Actuator Control Motor Circuit Range/PerformanceCheck the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Duty cycle >80% AND ECM power stage, no failure deviation throttle valve angles vs calculated value, 4.0...50.0%5 Sec 5 SecMultiple 2 DCY
P2106Throttle Actuator Control System - short to B+ or groundCheck the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Internal check0.2 SecContinuous 2 DCY
P2106Throttle Actuator Control System Open circuitCheck the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Internal checkDuty cycle, >80% OR deviation throttle valve angles vs calculated value, 4.0...50.0%0.2 SecContinuous 2 DCY
P2106Throttle Actuator Control System temp./current monitoringCheck the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Internal check, failed0.2 SecContinuous 2 DCY
P2106Throttle Actuator Control System Functional checkCheck the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Internal check, failed0.2 SecContinuous 2 DCY
P2110Throttle Actuator Control System - Forced Limited RPMCheck the Throttle Valve Control Module -J338-. Refer to THROTTLE VALVE CONTROL MODULE, CHECKING .Engine load Out of range2 DCY
P2122Throttle/Pedal Position Sensor/Switch D Circuit Low InputCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .Signal voltage < 0.646 V0.20 SecContinuous 2 DCY
P2123Throttle/Pedal Position Sensor/Switch D Circuit High InputCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .Signal voltage >4.794 V0.20 SecContinuous 2 DCY
P2127Throttle/Pedal Position Sensor/Switch E Circuit Low InputCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .Signal voltage < 0.276 V0.20 SecContinuous 2 DCY
P2128Throttle/Pedal Position Sensor/Switch E Circuit High InputCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .Signal voltage >2.431 V0.20 SecContinuous 2 DCY
P2138Throttle/Pedal Position Sensor/Switch D / E Voltage CorrelationCheck the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING .Signal voltage sensor 1 vs 2, > 0.143...0.703 VSignal voltage sensor 1, > 445.0 mV signal voltage sensor 2, > 445.0 mV0.24 SecContinuous 2 DCY
P2146Fuel Injector Group A Supply Voltage Circuit / short to groundCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Short to ground (high side) Signal current, >14.90 A short to battery plus (high side) signal current< 2.60 AEngine speed >80 RPM Engine speed >80 RPM low side signal current> 2.70A0.5 SecContinuous 2 DCY
P2149Fuel Injector Group B Supply Voltage Circuit / Short to groundCheck the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .Short to ground (high side) Signal current, >14.90 A short to battery plus (high side) signal current< 2.60 AEngine speed >80 RPM Engine speed >80 RPM low side signal current> 2.70A0.5 SecContinuous 2 DCY
P2177Fuel SystemCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .System too lean @ part load adaptive value> 26 %Engine speed 960... 5040 RPM engine load 20... 100% mass air flow 27... 450kg/h air flow ECT > 54.8°C IAT < 90[°C] lambda control closed loop evap purge valve closed if low fuel signal then wait until fuel consumption > 0.010 SecMultiple 2 DCY
P2178Fuel SystemCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .System too rich @ part load adaptive value< 26%Engine speed 960... 5040 RPM engine load 20... 100% mass air flow 27... 450kg/h air flow ECT > 54.8°C IAT < 90[°C] lambda control closed loop evap purge valve closed if low fuel signal then wait until fuel consumption > 0.010 SecMultiple 2 DCY
P2181Cooling System PerformanceCheck Engine Coolant Temperature (ECT) Sensor -G62-. Refer to ENGINE COOLANT TEMPERATURE SENSOR, CHECKING .-- Check the Coolant Pump -V50- Refer to the appropriate service information.-- Check the Coolant Thermostat. Refer to the appropriate service information..
P2187Fuel SystemCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .System too lean @ idle adaptive value> 5.02%Engine speed< 520...960 RPM engine load< 9...45 % mass air flow< 5...23 kg/h ECT> 54.8° C IAT< 90° C delta part load adaptation ready lambda control closed loop evap purge valve closed if low fuel signal then wait until fuel consumption> 010 SecMultiple 2 DCY
P2188Fuel SystemCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .System too rich @ idle adaptive value< 6.0%Engine speed< 520...960 RPM engine load< 9...45 % mass air flow< 5...23 kg/h ECT> 54.8° C IAT< 90° C delta part load adaptation ready lambda control closed loop evap purge valve closed10 SecMultiple 2 DCY
P2181Cooling System PerformanceCheck Engine Coolant Temperature (ECT) Sensor -G62-. Refer to ENGINE COOLANT TEMPERATURE SENSOR, CHECKING .-- Check the Coolant Pump -V50- Refer to the appropriate service information.-- Check the Coolant Thermostat. Refer to the appropriate service information..Cooling system temp too low after a sufficient air mass flow interval, 55...80° CBegin of mass integration when engine temp, >30° C ECT at start, -6.7...64° C ambient air temp, > -6.7° C fuel cut-off not active delta ambient pressure, <1.5 hPa integrated air mass depending on engine temp at start and ambient air temp, 4.5...15 kg/h accumulated fuel cut-off time, <40...250 Sec average vehicle speed, 33.4...120 km/h1000 SecOnce/DCY 2 DCY
P2195O2 Sensor Signal Biased/Stuck Lean - Bank 1, Sensor 1Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .Delta lambda of 2nd lambda control loop, >0.070Modeled exhaust gas temp., 450.00... 880.00° C exhaust gas mass flow, 18... 200 kg/h lambda control, closed loop 2nd lambda control, closed loop O2S front, ready, no fault O2S rear, ready, no fault O2S heater front, ready, no fault O2S heater rear, ready, no fault fuel cut off, not active catalyst heating, not active SAI, not active Case 1: 1st lambda control loop, not at min or max limit 2nd lambda control loop, active Case 2: 1st lambda control loop at min limit. O2S front< 1.0 O2S rear voltage< 0.4 V Case 3: 1st lambda control loop at max limit O2S front> 1.0 O2S rear voltage> 0.6 V140 SecMultiple 2 DCY
P2196O2 Sensor Signal Biased/Stuck Rich - Bank 1, Sensor 1Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .Delta lambda of 2nd lambda control loop, < 0.07Modeled exhaust gas temp., 450.00... 880.00° C exhaust gas mass flow, 18... 200 kg/h lambda control, closed loop 2nd lambda control, closed loop O2S front, ready, no fault O2S rear, ready, no fault O2S heater front, ready, no fault O2S heater rear, ready, no fault fuel cut off, not active catalyst heating, not active SAI, not active Case 1: 1st lambda control loop, not at min or max limit 2nd lambda control loop, active Case 2: 1st lambda control loop at min limit. O2S front< 1.0 O2S rear voltage< 0.4 V Case 3: 1st lambda control loop at max limit O2S front> 1.0 O2S rear voltage> 0.6 V140 SecMultiple 2 DCY
P2231O2 Sensor Signal Circuit Shorted to Heater CircuitCheck the Oxygen Sensor (O2S) Heater -Z19-. Refer to OXYGEN SENSOR O2S HEATER, CHECKING .Delta O2S signal front, >190uAEngine speed, <2700 RPM engine load, <60% heater duty cycle, 20.0...80.0% Modeled exhaust, <800.1° C lambda set value READ ERROR lambda, 0.95...1.05 O2S Heater no fault15 SecMultiple 2 DCY
P2237O2 Sensor Positive Current Control Circuit / Open - Bank 1, Sensor 1Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .Lambda set value< 0.97 OR O2S signal front 1.49... 1.51 and lambda set value> 1.03 V O2S signal front< 1.70 V and fuel cut off > 3.00 Sec O2S signal front 1.49... 1.51 V and delta lambda controller> 0.10O2S ceramic temp, >715° C Lambda control, Closed loop Mass air integral, > 0.8 kg lambda set value, 0.97...1.03 O2S ceramic temp, >715 °C electrical adjustment, not active heater control, closed loop EVAP purge valve, ready no fault O2S ceramic temp, >715° C Lambda modulation >0.02 Lambda control, Closed loop heater control, active O2S ceramic temp.> 715° C lambda modulation> 0.01 lambda control closed loop heater control closed loop8 SecMultiple 2 DCY
P2243O2 Sensor Reference Voltage Circuit / Open - Bank 1, Sensor 1Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .O2S signal front > 3.25 V and Internal resistance > 1000 ohms O2S signal front < 0.30 V And Internal resistance > 1000 ohmsHeater control, active sec.20 SecMultiple 2 DCY
P2257Air pump relay. short to grnd. PZEV onlyCheck the Secondary Air System. Refer to CATALYTIC CONVERTER, CHECKINGSignal voltage <3.00 VPump relay commanded off engine speed >80 RPM2 SecContinuous 2 DCY
P2258Air pump relay. sort to B+. PZEV onlyCheck the Secondary Air System. Refer to CATALYTIC CONVERTER, CHECKINGSignal current 0.60...1.20 APump relay commanded on engine speed >80 RPM2 SecContinuous 2 DCY
P2270O2 Circuit Slow Response (Bank 1, Sensor 2Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING .O2S signal rear not oscillating at reference< 603...649 mVMass air flow, >25kg/h O2S rear readiness,>10 Sec modeled exhaust gas temp. >350° C100 Sec2 DCY
P2279Intake air system leakCheck the Intake Air Temperature (IAT) Sensor -G42- Refer to INTAKE AIR TEMPERATURE SENSOR, CHECKINGThreshold to detect a defective system >1.45 AND ratio of the tie system defective during the measurement window to the whole duration of the measurement window >0.60Time after engine start >60.0 Sec engine load < 40.1% mass air flow < 6553.50 kg/h ECT > 50° C lambda control value < 5% lambda set value 0.95...1.05 vehicle speed < 1 km/h lambda control active engine speed idle altitude < 2700m O2S front no fault number of checks 416 SecMultiple 2 DCY
P2293Fuel Pressure Regulator 2 PerformanceCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Difference between target pressure vs. actual pressure, >1.50mPa difference between target pressure vs. actual pressure, < -1.50 mPaTime after engine start, 12.0 Sec fuel cut off, not active3.5 SecMultiple 2 DCY
P2294Fuel Pressure Regulator 2 Control Circuit open circuitCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Signal voltage 1.40 - 3.20 VFuel control valve, commanded off Fuel pump, Commanded on0.5 SecContinuous 2 DCY
P2294Fuel Pressure Regulator 2 Control Circuit Rationality checkCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Signal pattern incorrectFuel Control Valve, Commanded off1 SecMultiple 2 DCY
P2295Fuel Pressure Regulator 2 Control Circuit Low short to groundCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .< 1.40...3.20 VFuel Control Valve, Commanded off0.5 SecContinuous 2 DCY
P2296Fuel Pressure Regulator 2 Control Circuit HighCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Signal voltage >3.20 VFuel Control Valve, Commanded on0.5 SecContinuous 2 DCY

Ignition System

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P2300Ignition Coil A Primary Control Circuit LowCheck the Ignition Coils with Power Output Stage -N70-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal current >24.0 mAEngine speed, >680 RPM0.5 SecContinuous 2 DCY
P2301Ignition Coil A Primary Control Circuit HighCheck the Ignition Coils with Power Output Stage -N70-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal current >5.1...7.0 mAEngine speed, >680 RPM0.50 SecContinuous 2 DCY
P2303Ignition Coil B Primary Control Circuit LowCheck the Ignition Coils with Power Output Stage - N127-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal current >24.0 mAEngine speed, >680 RPM0.50 SecContinuous 2 DCY
P2304Ignition Coil B Primary Control Circuit HighCheck the Ignition Coils with Power Output Stage - N127-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal current >5.1...7.0 mAEngine speed, >680 RPM0.50 SecContinuous 2 DCY
P2306Ignition Coil C Primary Control Circuit LowCheck the Ignition Coils with Power Output Stage -N291-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal current >24.0 mAEngine speed, >680 RPM0.50 SecContinuous 2 DCY
P2307Ignition Coil C Primary Control Circuit HighCheck the Ignition Coils with Power Output Stage -N291-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal voltage >5.1...7.0 mAEngine speed, >680 RPMContinuous 2 DCY
P2309Ignition Coil D Primary Control Circuit LowCheck the Ignition Coils with Power Output Stage -N292-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal current >24.0 mAEngine speed, >680 RPM0.5 SecContinuous 2 DCY
P2310Ignition Coil D Primary Control Circuit HighCheck the Ignition Coils with Power Output Stage -N292-. Refer to IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING .Signal voltage >5.1...7.0 mAEngine speed, >680 RPM0.5 SecContinuous 2 DCY

Additional emission regulations

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P2400Evaporative Emission System Leak Detection Pump Control Circuit/OpenCheck the Leak Detection Pump (LDP) -V144-. Refer to LEAK DETECTION PUMP, CHECKING .Signal voltage > 4.40... 5.60 VPump, Commanded off Engine speed, >80 RPM0.5 SecContinuous 2 DCY
P2401Evaporative Emission System Leak Detection Pump Control Circuit LowCheck the Leak Detection Pump (LDP) -V144-. Refer to LEAK DETECTION PUMP, CHECKING .Signal voltage < 2.15-3.25 VPump, Commanded off Engine speed, >80 RPM0.5 SecContinuous 2 DCY
P2402Evaporative Emission System Leak Detection Pump Control Circuit HighCheck the Leak Detection Pump (LDP) -V144-. Refer to LEAK DETECTION PUMP, CHECKING .Signal current > 3.0 APump, Commanded on Engine speed, >80 RPM0.5 Sec2 DCY
P2403Evaporative Emission System Leak Detection Pump Sense Circuit/OpenCheck the Leak Detection Pump (LDP) -V144-. Refer to LEAK DETECTION PUMP, CHECKING .Low signal voltage > 0.5 SecTime after engine start 5...65530 Sec. ECT, 4...120° C ECT at start, 4...50° C engine off time, >21600 Sec ambient air temp 4...59° C Altitude, < 2700 m integrated purge flow, >12.g restart temp difference, >0.0 K Vehicle speed, > 40 km/h once Selected gear, Any drive Evap purge valve, ready no fault LDP, commanded off0 SecOnce/DCY 2 DCY
P2404Evaporative Emission System Leak Detection Pump Sense Range/PerformanceCheck the Leak Detection Pump (LDP) -V144-. Refer to LEAK DETECTION PUMP, CHECKING .High signal voltage > 12 Sec AND number of checks, 30.0 AND cumulative time of high signal voltage during pumping > 50 SecTime after engine start 5...65530 Sec. ECT, 4...120° C ECT at start, 4...50° C engine off time, >21600 Sec ambient air temp 4...59° C Altitude, < 2700 m intake manifold vacuum, > 2560hPa restart temp difference, >0.0 K Vehicle speed, > 40 km/h once Selected gear, Any drive Evap purge valve, closed, ready, no fault LDP, commanded on171.9 Sec 12 SecOnce/DCY 2 DCY
P2414O2 Sensor Exhaust Sample Error Bank 1, Sensor 1Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .Threshold 1 Signal voltage 3.10...4.81 V Threshold 2 Signal Voltage 2.5...3.10 VLambda set value, 1.6 O2S ceramic temp.,> 715.00° C fuel cut off, not active heater control, closed loop SAI, not active if low fuel signal then wait, > 600.00 Sec15 SecMultiple 2 DCY
P2431Rationality checkCheck the Secondary Air System. Refer to appropriate service information.Difference between SAI pressure and ambient pressure, NOT -25.0...25.00 hPa0.50 SecOnce/DCY 2 DCY
P2432Signal range checkCheck the Secondary Air System. Refer to appropriate service information.Signal voltage, <.40 V0.50 SecContinuous 2 DCY
P2433Signal range checkCheck the Secondary Air System. Refer to appropriate service information.Signal voltage, >4.65 V0.50 SecContinuous 2 DCY
P2440System check after SAI PZEV onlyCheck the Secondary Air System. Refer to appropriate service information.SAI pressure meadured with SAI pressure sensor vs modeled while SAI valve closed. <0.55%ECT, 5...39° C IAT, 5...40° C altitude, <2700m SAI pressure sensor, ready no fault
P2539Low Pressure Fuel System Sensor CircuitCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Signal voltage > 4.9 V1 Sec2 DCY
P2540Low Pressure Fuel System Sensor Circuit Range/PerformanceCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Actual pressure Deviation < 800 kPa <80 kPa5 Sec2 DCY
P2541Low Pressure Fuel System Sensor Circuit LowCheck the Fuel Pressure Sensor -G247-. Refer to FUEL PRESSURE SENSOR, CHECKING .Signal voltage < 0.2 V1 Sec2 DCY
P2626O2 Sensor Pumping Current Trim Circuit/Open Bank 1 Sensor 1Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to HEATED OXYGEN SENSOR HO2S, CHECKING .O2S signal front> 4.81 VModeled exhaust temp, <750° C O2S ceramic temp, >715° C Fuel cut off, Active heater control, closed loop if low fuel signal, then wait, > 600 Sec2.0 SecMultiple 2 DCY

Fuel and air mixture, additional emissions regulations

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
P3081Engine Temperature Too LowCheck Engine Coolant Temperature (ECT) Sensor -G62-. Refer to ENGINE COOLANT TEMPERATURE SENSOR, CHECKING .Reference model temperature - measured engine coolant temp. > 10[K]ECT < 60° C4 SecMultiple 2 DCY

Control module and output signals

DTCError MessageDiagnostic ProcedureMalfunction Criteria and Threshold ValueSecondary Parameters with Enable ConditionsMonitoring Time LengthFrequency of checks, MIL Illum
U0001High Speed CAN Communication BusCheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .CAN message, No feedbackTime after ignition on, 500 mSec250 mSecContinuous 2 DCY
U0002High Speed CAN Communication BusCheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .Global time outTime after ignition on, 500 mSec450 mSecContinuous 2 DCY
U0100Lost Communication with ECM/PCM ACheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .Failure of all CAN engine messages, Time out more than 490 mSec Failure of all CAN engine messages but not all CAN messages, Time out more than 1010 mSecNo bus off error No error failure of all CAN messages No error failure of all CAN engine messages Terminal 15 Voltage, > 9 V for more than 500 mSec > 500 mSec after reset1 Sec
U0101Lost Communication with TCMCheck the CAN-Bus terminal resistance, Direct Shift Gearbox (DSG) Mechatronic -J743- to Motronic Engine Control Module (ECM) - J623-. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .CAN communication with TCM Time out check No message received by ECMTime after ignition on, 500 mSec500 mSecContinuous 2 DCY
U0121CAN ABS brake unitCheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .CAN communication with brake unit, time-outTime after ignition on, 500mSec440 mSec2 DCY
U0140CAN communication with Body Control ModuleCheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .Received CAN message-no messageTime after ignition on 500 mSec1000 mSecContinuous 2 DCY
U0146CAN gateway ACheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .CAN communication with gateway, time-outTime after ignition on 500 mSec1000 mSec2 DCY
U0155CAN: Instrument ClusterCheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .Received CAN message-no messageTime after ignition on 500 mSec500 mSecContinuous 2 DCY
U0302Software Incompatibility with Transmission Control ModuleReplace the Direct Shift Gearbox (DSG) Mechatronic -J743-. Refer to appropriate service information.AT vehicle ECM coded as MT vehicleTime after ignition on, 500 mSec100 mSecContinuous 2 DCY
U0323CAN: Instrument cluster Audi onlyCheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .Ambient temp value module not encoded for ambient temp sensor, 00hKey on status ambient temp from instrument cluster, no fault2 SecMultiple 2 DCY
U0402CAN communication with TCMCheck the CAN-Bus terminal resistance, Selector Lever -E313- to Motronic Engine Control Module (ECM) - J623Data length code transmitted, incorrectTime after ignition on, 500 mSec300 mSecContinuous 2 DCY
U0404Invalid Data Received From Gear Shift Control ModuleCheck the CAN-Bus terminal resistance, Selector Lever -E313- to Motronic Engine Control Module (ECM) - J623-.If the value of message counter is permanent, constant, or change exceeds a threshold, increment an event counter maximum change of message counter > 5No failure of selector lever CAN messages Terminal 15 voltage > 4 V for more than 500 mSec50 mSecContinuous 2 DCY
U0415CAN link to speed sensorRefer to Service information, ABS System.Vehicle speed > 325km/hTime after ignition on 500 mSec60 mSecContinuous 2 DCY
U0415CAN: Vehicle Speed SensorCheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .-- Check vehicle speed signal. Refer to SPEED SIGNAL, CHECKING .Speed sensor signal: initialization error, 655.34km/h speed sensor signal: low voltage error 655.33km/h speed sensor signal: sensor error 655.35km/h vehicle speed>= 325km/h1980 mSec 1980 mSec 480 mSec 2100 mSecContinuous 2 DCY
U0422CAN: Instrument clusterCheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .Ambient temp. value (initialization), Audi, 01hKey on status ambient temp from instrument cluster no fault electrical check ambient temp. sensor, no fault3.0 SecMultiple 2 DCY
U0423CAN: Instrument ClusterCheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .Received CAN message implausible messageTime after ignition on 500 mSec500 mSecContinuous 2 DCY
U0447CAN gatewayCheck the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .CAN message, incorrectTime after ignition on 500 mSec300 mSecContinuous 2 DCY

CAMSHAFT ADJUSTMENT VALVE 1, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. Multimeter
  2. Wiring diagram

Test requirements

Scheme 57

Scheme 57
  1. The Camshaft Adjustment Valve 1 -N205- fuse OK.
  2. Motronic Engine Control Component Power Supply Relay J757 OK.
  3. Battery voltage at least 12.5 volts.
  4. All electrical consumers such as, lights and rear window defroster, switched off.
  5. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  6. A/C switched off.
  7. Ground (GND) connections between engine/transmission/chassis OK.
  8. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to appropriate service information.

Scheme 58

Scheme 58

Disconnect Camshaft Adjustment Valve 1 -N205- electrical harness connector -1-.

Scheme 59

Scheme 59

Using a multimeter, check the Camshaft Adjustment Valve 1 -N205- for resistance.

Scheme 60

Scheme 60

Specified value: 5.0 to 8.0 ohms (at approx. 20° C)

If the specified value was not obtained

Replace the Camshaft Adjustment Valve 1 -N205-. Refer to appropriate service information.

If the specified value was obtained

Checking voltage

Switch the ignition on.

Using a multimeter, Check the Camshaft Adjustment Valve 1 -N205- electrical harness connector terminal 1 to engine ground for voltage.

Switch the ignition off.

Specified value: battery voltage.

If the specified value was not obtained

Check the wiring connections for an open circuit.

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If the specified value was obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, Check the Camshaft Adjustment Valve 1 -N205- electrical harness connector terminal 2 to the Motronic Engine Control Module (ECM) electrical harness connector T60 terminal 60 for an open circuit.

Scheme 61

Scheme 61
Camshaft Adjustment Valve 1 -N205- electrical harness connector terminalMotronic Engine Control Module (ECM) electrical harness connector T60 terminal or test box socket
260

Specified value: 1.5 ohms Max.

If the specified value was not obtained

Check the wiring connection for an open circuit.

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring and voltage supply was not OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Install the engine cover with air filter. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

CAMSHAFT POSITION SENSOR, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. Multimeter
  2. Wiring diagram

Test requirements

  1. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to appropriate service information.

Disconnect the Camshaft Position (CMP) Sensor -G40- electrical harness connector -1-.

Scheme 62

Scheme 62

Switch the ignition on.

Using a multimeter, Check the Camshaft Position (CMP) Sensor -G40- electrical harness connector terminals 1 to 3 for voltage.

Scheme 63

Scheme 63

Specified value: about 5.0 V

Switch the ignition off.

If the specification was not obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, Check the Camshaft Position (CMP) Sensor -G40- electrical harness connector to the Motronic Engine Control Module (ECM) electrical harness connector T60 for an open circuit.

Scheme 64

Scheme 64
Camshaft Position (CMP) Sensor -G40- electrical harness connector terminalsMotronic Engine Control Module (ECM) electrical harness connector T60 terminals or test box sockets
129
254
38

Specified value: 1.5 ohms Max.

If the specified value was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring and voltage supply was OK

Replace the Camshaft Position (CMP) Sensor -G40-. Refer to appropriate service information.

If no malfunction is found in the wiring and voltage supply was not OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Install the engine cover with air filter. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

CAMSHAFT ADJUSTMENT ACTUATORS, INTAKE, CHECKING

The following procedure is used to diagnose Cam Adjustment Actuators -F366, F367, F368, F369- which are controlled by Engine Control Module - J623-.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Engine Control Module - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK .

Start diagnosis

Disconnect appropriate Cam Adjustment Actuator -F366, F367, F368, F369- electrical harness connectors -item 26-.

Scheme 65

Scheme 65

Checking internal resistance

Using a multimeter, check the Cam Adjustment Actuators -F366, F367, F368, F369- terminals 1 to 2 for resistance.

Specified value: 5.0 to 10.0 ohms (at approx. 20° C)

If the specified value was not obtained

Replace the appropriate Cam Adjustment Actuator -F366, F367, F368, F369-. Refer to appropriate service information.

If the specified value was obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Engine Control Module -J623-. Refer to appropriate service information.

Using a multimeter, check the Cam Adjustment Actuator -F366, F367, F368, F369- electrical harness connector to the Engine Control Module - J623- electrical harness connector for resistance.

Cam Adjustment Actuator -F366, F367, F368, F369- electrical harness connector terminalsEngine Control Module - J623- electrical harness connector T60 terminals or test box sockets
F366 1T 60- 17
F366 2Fuse SB7
F367 1T 60- 2
F367 2Fuse SB7
F368 1T 60- 20
F368 2Fuse SB7
F369 1T 60- 5
F369 2Fuse SB7

Specified value: 1.5 ohms Max.

If the specified value was not obtained

Check the wiring connection for an open circuit, short circuit to Battery (+) or Ground (GND).

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring and the resistance was OK

Replace the Engine Control Module -J623-. Refer to appropriate service information.

Assembly is performed in the reverse order of the removal, note the following

Final procedures

After repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

CAMSHAFT ADJUSTMENT ACTUATORS, EXHAUST, CHECKING

The following procedure is used to diagnose Cam Adjustment Actuators -F370, F371, F372, F373- which are controlled by Engine Control Module - J623-.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Engine Control Module - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK .

Start diagnosis

Disconnect appropriate Cam Adjustment Actuators -F370, F371, F372, F373- electrical harness connectors -item 26-.

Checking internal resistance

Using a multimeter, check the Cam Adjustment Actuators -F370, F371, F372, F373- terminals 1 to 2 for resistance.

Specified value: 5.0 to 10.0 ohms (at approx. 20° C)

If the specified value was not obtained

Replace the appropriate Cam Adjustment Actuators -F370, F371, F372, F373-. Refer to appropriate service information.

If the specified value was obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Engine Control Module -J623-. Refer to appropriate service information.

Using a multimeter, Check the Cam Adjustment Actuators -F370, F371, F372, F373- electrical harness connector to the Engine Control Module - J623- electrical harness connector for resistance.

Cam Adjustment Actuators -F370, F371, F372, F373- electrical harness connector terminalsEngine Control Module - J623- electrical harness connector T60 terminals or test box sockets
F370 1T 60- 18
F370 2Fuse SB7
F371 1T 60- 3
F371 2Fuse SB7
F372 1T 60- 19
F372 2Fuse SB7
F373 1T 60- 4
F373 2Fuse SB7

Specified value: 1.5 ohms Max.

If the specified value was not obtained

Check the wiring connection for an open circuit, short circuit to Battery (+) or Ground (GND).

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring and the resistance was OK

Replace the Engine Control Module -J623-. Refer to appropriate service information.

Assembly is performed in the reverse order of the removal, note the following

Final procedures

After repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

SPEED SIGNAL, CHECKING

The following procedure requires a test drive. Observe all safety precautions.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Speedometer -G21- OK.
  2. The Motronic Engine Control Module (ECM) -J623- fuses OK.
  3. Battery voltage at least 12.5 volts.
  4. All electrical consumers such as, lights and rear window defroster, switched off.
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Connect the scan tool.

Perform a road test with a vehicle speed greater than 5 Km/h.

Using the scan tool, Check the vehicle speed

Diagnostic textSpecified value
Vehicle SpeedApprox. Vehicle Speed

Compare the vehicle speed on the scan tool to the Speedometer -G21-.

Specified value: a difference of no greater than 10%.

If the specified value was not obtained or no speed was displayed

Check the wiring from the Motronic Engine Control Module (ECM) -J623- to the Instrument Cluster Control Module -J285- for an open circuit, Short to Battery (+), or to Ground (GND).

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

CAN BUS TERMINAL RESISTANCE, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. Multimeter
  2. Wiring diagram

Test requirement

  1. A CAN-Bus malfunction was recognized.
  2. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  3. Battery voltage at least 12.5 volts.
  4. All electrical consumers such as, lights and rear window defroster, switched off.
  5. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  6. A/C switched off.
  7. Ground (GND) connections between engine/transmission/chassis OK.
  8. Ignition switched off.

Function

The Motronic Engine Control Module (ECM) -J623- communicates with other CAN-Bus capable control modules.

The control modules are connected by two data bus wires which are twisted together (CAN_High and CAN_Low), and exchange information (messages). Missing information on the CAN-bus is recognized as a malfunction by the Motronic Engine Control Module (ECM) -J623- and the other control modules connected to the CAN-bus.

Trouble-free operation of the CAN-Bus requires that it have a terminal resistance. This central terminal resistance is located in the Motronic Engine Control Module (ECM) -J623-.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Disconnect the Data Bus On Board Diagnostic Interface -J533- electrical harness connector.

Note. The Motronic Engine Control Module (ECM) -J623- must remain connected for the following step.

Using a multimeter, check the Data Bus On Board Diagnostic Interface -J533- electrical harness connector terminals 6 to 16 for resistance.

Specified value: 60 to 72 ohms (at approx. 20° C)

If the specified value was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

If the specified value was obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Using a multimeter, check the Data Bus On Board Diagnostic Interface -J533- electrical harness connector to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T94 for resistance.

Data Bus On Board Diagnostic Interface -J533- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T94 terminals or test box sockets
6 (Can_Bus Low)67
16 (Can_Bus High)68

Specified value: 1.5 ohms Max.

If the specified value was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring

Replace the Data Bus On Board Diagnostic Interface -J533-. Refer to the appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

CATALYTIC CONVERTER, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Prior to repair work, perform a preliminary check to verify the condition. Refer to PRELIMINARY CHECK .

Special tools and workshop equipment required

  1. Generic scan tool

Test requirements

  1. Battery voltage at least 12.5 volts.
  2. Oxygen Sensors OK.
  3. No leaks or damage to exhaust system.

Function test

Perform the function test in Diagnostic Mode 06. Refer to DIAGNOSTIC MODE 06 - READ TEST RESULTS FOR SPECIFIC DIAGNOSTIC FUNCTIONS .

End diagnosis and switch the ignition off.

If the specified values are exceeded

Check the exhaust system for leaks.

If necessary, repair the leak in the exhaust system.

Erase the DTC memory. Refer to DIAGNOSTIC MODE 04 - ERASE DTC MEMORY .

Perform a road test to verify Repair.

If the DTC does not return

Generate readiness code. Refer to READINESS CODE .

If no leaks are found in the exhaust system

Replace the catalytic converter with front exhaust pipe. Refer to the appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

TURBOCHARGER, G-CHARGER

Note. Charge air system must be properly sealed. Always replace self-locking nuts. Charge air hoses and pipes as well as their connections must be free of oil and grease before re-installing. Do not assemble charge air hoses and lines with lubricants containing oils, only coat with water (without additives) if necessary. Note installation marks on hoses and components. All hose connections for charge air system are secured by spring-type clamps or by connector couplings. Install only approved clamps for securing hose connections. Pliers for spring clamps or hose clamp pliers are recommended for installing spring clamps. For connector couplings, always note the following points

Disengage connector coupling by pulling securing clip -arrow-.

Disconnect hose and pipe without the assistance of tools.

When assembling, make sure the retaining tabs -A- are engaged securely.

Scheme 66

Scheme 66: TURBOCHARGER, G-CHARGER

Before screwing on oil supply line, fill turbocharger with engine oil at filler tube.

After installing turbocharger, let engine idle for approx. 1 minute without increasing engine speed. This ensures adequate oil supply to the turbocharger.

CHARGE AIR PRESSURE SENSOR, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. Multimeter
  2. Wiring diagram

Test requirements

  1. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. On vehicles with automatic transmission, selector lever in position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to appropriate service information.

Test sequence

Disconnect the Charge Air Pressure Sensor -G31- electrical harness connector -arrow-.

Scheme 67

Scheme 67

Start engine and let it run at idle.

Using a multimeter, check the Charge Air Pressure Sensor -G31- electrical harness connector terminals 1 to 3 for voltage.

Scheme 68

Scheme 68

Specified value: min. 4.5 V

Switch the ignition off.

If the specification was obtained

Replace the Charge Air Pressure Sensor -G31-.

If the specification was not obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Charge Air Pressure Sensor -G31- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminals for an open circuit according to wiring diagram.

Charge Air Pressure Sensor -G31- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminals or test box sockets
113
327
423
Pin 2 is blank

Specified value: 1.5 ohms max.

If the specification was not obtained

Check the wiring for a short circuit to each other, Battery (+), and Ground (GND).

If necessary, repair the faulty wiring connection.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If no malfunction is detected in the wiring and if the voltage supply was OK

Replace the Charge Air Pressure Sensor -G31-. Refer to appropriate service information.

If no malfunction is detected in the wiring and if the voltage supply was not OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Install the engine cover with air filter. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

TURBOCHARGER RECIRCULATING VALVE, CHECKING

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. On vehicles with automatic transmission, selector lever in position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to the appropriate service information.

Checking internal resistance

Disconnect the Turbocharger Recirculating Valve -N249- electrical harness connector -2-.

Scheme 69

Scheme 69

Using a multimeter, check the Turbocharger Recirculating Valve -N249- terminals 1 to 2 for resistance.

Specified value: 13.6 +/- 5 ohms (at room temp.)

If the specification was not obtained

Replace the Turbocharger Recirculating Valve -N249-. Refer to the appropriate service information.

If the specification was obtained

Checking Voltage supply

Using a multimeter, check the Turbocharger Recirculating Valve -N249- electrical harness connector terminal 1 to Ground (GND).

Scheme 70

Scheme 70
Turbocharger Recirculating Valve -N249- electrical harness connector terminalMeasure to
1Engine Ground (GND)

Operate the engine briefly.

Specified value: battery voltage.

Switch the ignition off.

If the specified value was not obtained

Check the wiring for a short circuit to each other, Battery (+), and Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If no malfunctions are found in the wiring

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Using a multimeter, check the Turbocharger Recirculating Valve -N249- electrical harness connector terminal 2 to Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminal 50 for an open circuit.

Turbocharger Recirculating Valve -N249- electrical harness connector terminalMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminal or test box socket
1Fuse SB 7
250

Specified value: 1.5 ohms max.

If the specification is not obtained

Check the wiring for a short circuit to each other, Battery (+), and Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring and if the voltage supply was OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Install the engine cover with air filter. Refer to the appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

WASTEGATE BYPASS REGULATOR VALVE, CHECKING

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. On vehicles with automatic transmission, selector lever in position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to the appropriate service information.

Checking internal resistance

Disconnect the Wastegate Bypass Regulator Valve -N75- electrical harness connector -1-.

Using a multimeter, check the Wastegate Bypass Regulator Valve -N75- terminals 1 to 2 for resistance.

Specified value: 20 to 30 ohms (at room temp.)

If the specification was not obtained

Replace the Wastegate Bypass Regulator Valve -N75-. Refer to the appropriate service information.

If the specification is obtained

Checking Voltage supply

Using a multimeter, check the Wastegate Bypass Regulator Valve -N75- electrical harness connector terminal 1 to Ground (GND).

Wastegate Bypass Regulator Valve -N75- electrical harness connector terminalMeasure to
1Engine Ground (GND)

Operate the engine briefly.

Specified value: battery voltage.

Switch the ignition off.

If the specification was not obtained

Check the wiring for a short circuit to Battery positive (+) or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If no malfunction is found in the wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Using a multimeter, check the Wastegate Bypass Regulator Valve -N75- electrical harness connector terminal 2 to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminal 51 for an open circuit.

Wastegate Bypass Regulator Valve -N75- electrical harness connector terminalMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminal or test box socket
1Fuse SB 7
251

Specified value: 1.5 ohms max.

If the specification is not obtained

Check the wiring for a short circuit to each other, Battery (+), and Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring and if the voltage supply was OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Install the engine cover with air filter. Refer to the appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

ENGINE COOLANT TEMPERATURE SENSOR, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Prior to repair work, perform a preliminary check to verify the condition. Refer to PRELIMINARY CHECK .

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. Generic scan tool
  2. Multimeter
  3. Wiring diagram

Test requirements

  1. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.
  8. Engine cold.

Test procedure

Start diagnosis

Connect the scan tool.

Switch the ignition on.

Using the scan tool, check the coolant temperature

Diagnostic textSpecified value
Coolant temperatureApprox. coolant temperature

If the specified value is not obtained

Continue test according to the following table

IndicatedCauseTest
Approx. - 40.0° COpen circuit or short circuit to (B+)TESTING IF DISPLAY IS APPROX. - 40.0&DEG; C
Approx. 140.0° CShort circuit to Ground (GND)TESTING IF DISPLAY APPROX. 140.0&DEG; C

If the specified value was obtained

Start the engine and let it run at idle.

The temperature value must increase uniformly in increments of 1.0° C.

If the engine shows problems in certain temperature ranges and if the temperature does not climb uniformly, the temperature signal is intermittent.

Replace the Engine Coolant Temperature (ECT) Sensor - G62-. Refer to the appropriate service information

Checking internal resistance

Disconnect the Engine Coolant Temperature (ECT) Sensor -G62- electrical harness connector -arrow-.

Scheme 71

Scheme 71

Using a multimeter, check the Engine Coolant Temperature (ECT) Sensor -G62- terminals 1 to 2 for resistance.

Use the chart below for the specified values

Specified values

ECT Temperature vs Resistance
Temp (C)Min value ohmsMax value ohms
403681643714
352884033978
251768020530
151094012534
568977804
055356226
544434970
1529233235
2519782167
3513691486
459651039
55692738
65503533
75372392
85279292
95213223
105164172
115127134
12599106
1357884

If any of the specified values was not obtained

Replace the Engine Coolant Temperature (ECT) Sensor - G62-. Refer to appropriate service information.

TESTING IF DISPLAY IS APPROX. - 40.0&DEG; C

Disconnect the Engine Coolant Temperature (ECT) Sensor -G62- electrical harness connector -arrow-.

Using a jumper wire, connect the Engine Coolant Temperature (ECT) Sensor -G62- electrical harness connector terminals 1 to 2.

Check the value indicated on the scan tool display.

If the value jumps to approx. 140.0° C

End diagnosis and switch the ignition off.

Replace the Engine Coolant Temperature (ECT) Sensor - G62-. Refer to appropriate service information.

If indication remains at approx. -40.0° C

TESTING IF DISPLAY APPROX. 140.0&DEG; C

Disconnect the Engine Coolant Temperature (ECT) Sensor -G62- electrical harness connector -arrow-.

If indication jumps to approx. -40.0° C

End diagnosis and switch ignition off.

Replace the Engine Coolant Temperature (ECT) Sensor - G62-. Refer to appropriate service information.

If indication remains at approx. 140.0° C

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Engine Coolant Temperature (ECT) Sensor - G62- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminals for an open circuit according to the wiring diagram.

Engine Coolant Temperature (ECT) Sensor - G62- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminals or test box socket
114
257

Specified value: 1.5 ohms Max.

If the specification was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

ENGINE SPEED SENSOR, CHECKING

Note. Use only gold-plated terminals when servicing terminals in the electrical harness connector of the Engine Speed (RPM) Sensor -G28-.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Function

The Engine Speed (RPM) Sensor -G28- detects RPM and reference marks. Without an engine speed signal, the engine will not start. If the engine speed signal fails while the engine is running, the engine will stop immediately.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Connect the scan tool.

Switch the ignition on.

Using the scan tool, check the engine speed

Diagnostic textSpecified value
Engine rotations per minute (RPM)Idle speed

End diagnosis and switch ignition off.

If the specified value was not obtained

Checking internal resistance

Disconnect the Engine Speed (RPM) Sensor -G28- electrical harness connector.

Using a multimeter, check the Engine Speed (RPM) Sensor -G28- terminals 1 to 2 for resistance.

Scheme 72

Scheme 72

Specified value: 450 to 1200 ohms

If the specified value is not obtained

Replace the Engine Speed (RPM) Sensor -G28-. Refer to appropriate service information.

If the specified values are obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Engine Speed (RPM) Sensor -G28- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminals for an open circuit.

Engine Speed (RPM) Sensor -G28- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminals or test box socket
152
237

Specified value: 1.5 ohms Max.

If the specification was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring

Remove the Engine Speed (RPM) Sensor -G28- and check the sensor wheel for proper seating, damage and run-out. Refer to appropriate service information.

If the sensor wheel is OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

EVAPORATIVE PURGE REGULATOR VALVE, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. multimeter
  2. Wiring diagram.

Test requirements

  1. The Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80- fuse OK.
  2. The ignition switched off.

Note. Voltage for the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80- is supplied via the Engine Component Power Supply Relay -J757-.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to appropriate service information.

Disconnect the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80- electrical harness connector -1-.

Scheme 73

Scheme 73

Checking internal resistance

Using a multimeter, check the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80- terminals 1 and 2 for resistance.

Specified value: 22.0 to 30.0 ohms.

If the specified value is not obtained

Replace the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80-.

If the specification is obtained

Checking voltage supply

Using a multimeter, check the electrical harness connector terminal 1 to 2 for voltage.

Operate the starter briefly.

Specified value: battery voltage.

If the specified value was not obtained

Using a multimeter, check the electrical harness connector terminal 1 for voltage.

Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80- electrical harness connector terminalMeasure to
1Engine Ground (GND)

Operate the starter briefly.

Specified value: battery voltage.

If the specified value is not obtained

Check the wiring connection from the electrical harness connector terminal 1 to the Engine Component Power Supply Relay -J757- terminal 4 for an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If the specified value was obtained

Check Ground (GND) activation

Using a multimeter, check the electrical harness connector for voltage.

Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80- electrical harness connector terminalMeasure to
2Battery positive (+)

Operate the starter briefly.

Specified value: battery voltage.

Switch the ignition off.

If the specified value was not obtained

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80- electrical connector terminal 2 to Motronic Engine Control Module (ECM) -J623- electrical connector T60 terminal 35 for an open circuit.

Evaporative Emission (EVAP) Canister Purge Regulator Valve -N80- electrical harness connector terminalMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminal test box socket
235

Specified value: 1.5 ohms max.

If the specification is not obtained

Check the wiring for a short circuit to Battery positive (+) or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If the specification was obtained

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Install the engine cover with air filter. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

EVAPORATIVE SYSTEM, CHECKING FOR LEAKS

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Perform a preliminary check to verify the condition: PRELIMINARY CHECK .

Special tools and workshop equipment required

  1. Smoke tester
  2. Evaporative and fuel supply system vacuum hose and line routing diagram

Test procedure

Using a smoke tester, check the evaporative emission system for leaks.

Note. Always follow the manufacturers directions for the proper installation and operation of the smoke tester being used.

Note. Secure all hose connections using hose clamps appropriate for the model type. Replace seals and gaskets when performing repair work.

If a leak is detected

Check the fuel filler cap seal for damage and for proper installation. Replace if necessary.

Check the seals under the locking flanges and that the union nuts are properly tightened on the fuel tank.

Check all hose connections of the evaporative system and replace or repair any leaking lines.

Repair or replace any damaged component.

If no leaks are found

Erase the DTC memory if a DTC was set. Refer to DIAGNOSTIC MODE 04 - ERASE DTC MEMORY

Perform a road test to verify repair.

If a DTC was set and does not return

Repair complete, generate readiness code. Refer to READINESS CODE

If the DTC does return and no leaks are found in the evaporative and fuel supply system

Check the DTC memory for any DTC codes pertaining to the evaporative and fuel supply systems. If a DTC is stored, perform the diagnostic test procedure for the suspected component.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

EVAPORATIVE EMISSION CANISTER SYSTEM, CHECKING FOR PROPER SEAL

Special tools and workshop equipment required

  1. Smoke tester.
  2. For Evap or fuel supply system concerns, refer to the appropriate service information.

Note. Secure all hose connections using hose clamps appropriate for the model type. Replace seals and gaskets when performing repair work.

Leak checking

Using a Smoke tester, check the Evaporative Emission (EVAP) canister system for leaks.

Note. Always follow the manufacturers directions for the proper installation and operation of the Smoke tester being used.

If a leak is detected

Check the fuel filler cap seal for damage and for proper installation. Replace if necessary.

Check the seals under the locking flanges and the union nuts are properly tightened on the fuel tank.

Check all hose connections of the fuel supply system and replace or repair any leaking lines.

Check all hose connections of the EVAP system and replace or repair any leaking lines.

Repair or replace any damaged component.

If no leaks are found in the EVAP and Fuel Supply System

Erase the DTC memory if a DTC was set. Refer to DIAGNOSTIC MODE 04 - ERASE DTC MEMORY .

Perform a road test to verify repair.

If a DTC was set and does not return

Generate readiness code. Refer to READINESS CODE .

If the DTC does return and no leaks are found in the EVAP and Fuel Supply System

Check the DTC memory for any DTC codes pertaining to the EVAP and Fuel Supply Systems. If a DTC is stored, perform the diagnostic test procedure for the suspected component. Refer to DIAGNOSTIC MODE 03 - READ DTC MEMORY .

FUEL INJECTORS, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. multimeter.
  2. Diode test lamp (12V).
  3. Wiring diagram.

Test requirements

  1. The Engine Speed (RPM) Sensor -G28- OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Observe safety precautions.

Observe rules for cleanliness.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover and air intake duct. Refer to appropriate service information.

Disconnect the 8 pin connector from the fuel injector assembly harness (located just below and to the right of the electronic throttle motor assembly).

Using a multimeter connected to ground, check terminals 2, 4, 6, 8 for the correct voltage.

Specified value: 22 - 25 V.

If voltage is below specification

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Fuel Injector -- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminals for an open or short to ground circuit.

ComponentFuel Injector -- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminals or test box sockets
Cylinder 1 Fuel Injector -N30233
Cylinder 2 Fuel Injector -N31449
Cylinder 3 Fuel Injector -N32634
Cylinder 4 Fuel Injector -N33848

Specified values: 1.5 ohms max. for wire continuity, and for circuit to ground check; Infinity or "OL" is displayed

If the specification is not obtained

Check the wiring for an open, high resistance or short to ground.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If voltage is within specification

Checking internal resistance

Using a multimeter, check the Fuel Injector -- electrical terminals (1 to 2 for N30, 3-4 for N31, 5-6 for N32 or 7 to 8 for N33) for resistance.

Specified value: 1.4 - 2.6 ohms (at approx. 20° C)

If the specified value was not obtained

Replace the malfunctioning Fuel injector(s). Refer to appropriate service information.

If the specified value was obtained

Checking activation and wiring

Connect a diode test lamp (12V) from Battery + to the injector harness connector terminal (1 for N30, 3 for N31, 5 for N32 or 7 for N33) of the Fuel Injector -- to be tested.

Operate the starter and test the activation of the Fuel Injector --.

LED should flicker.

Switch the ignition off.

If LED does not flicker

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Fuel Injector -- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminals for an open circuit.

ComponentFuel Injector -- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminals or test box sockets
Cylinder 1 Fuel Injector -N30131
233
Cylinder 2 Fuel Injector -N313 (1)47
4 (2)49
Cylinder 3 Fuel Injector -N325 (1)32
6 (2)34
Cylinder 4 Fuel Injector -N337 (1)46
8 (2)48

Specified value: 1.5 ohms Max.

If the specification is not obtained

Check the wiring for an open, high resistance or short to battery or ground.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Install the engine cover with air filter. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

FUEL PRESSURE SENSOR, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. multimeter
  2. Wiring diagram.

Test requirements

  1. The Fuel Pump (FP) Control Module -J538- OK.
  2. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  3. The fuel filter OK.
  4. The battery voltage at least 12.5 V.
  5. All electrical consumers switched off (radiator fan must NOT run during test).
  6. A/C switched off.
  7. The fuel tank at least 1 / 4 filled.
  8. The ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to appropriate service information.

Checking voltage

Disconnect the Fuel Pressure Sensor -G247- electrical harness connector.

Switch the ignition on.

Using a multimeter, check the Fuel Pressure Sensor -G247- electrical harness connector terminals for voltage.

Fuel Pressure Sensor -G247- electrical harness connector terminalsSpecified value
1 to Battery positive (+)Battery voltage
3 to Ground (GND)About 5 V

Switch the ignition off.

If the specified value was obtained

Replace the Fuel Pressure Sensor -G247-. Refer to appropriate service information.

If the specified value was not obtained

Checking wiring connections

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Fuel Pressure Sensor -G247- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminals for an open circuit according to the wiring diagram.

Fuel Pressure Sensor -G247- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminals or test box socket
113
240
329

Specified value: 1.5 ohms Max.

If the specification is not obtained

Check the wiring for a short circuit to each other, Battery (+), and Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Install the engine cover with air filter. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

FUEL PRESSURE REGULATOR VALVE, CHECKING

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Engine Component Power Supply Relay -J757- OK.
  2. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  3. The fuel filter OK.
  4. The battery voltage at least 12.5 V.
  5. All electrical consumers switched off (radiator fan must NOT run during test).
  6. A/C switched off.
  7. The fuel tank at least 1 / 4 filled.
  8. The ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to appropriate service information.

Checking resistance

Disconnect the Fuel Pressure Regulator Valve -N276- electrical harness connector -2-.

Scheme 74

Scheme 74

Using a multimeter, check the Fuel Pressure Regulator Valve -N276- terminals 1 to 2 for resistance.

Scheme 75

Scheme 75

Specified value: 10 to 10.8ohms (at approx. 20° C)

If the specified value was not obtained

Replace the Fuel Pressure Regulator Valve -N276-. Refer to appropriate service information.

If the specified value was obtained

Checking voltage

Switch the ignition on.

Using a multimeter, check the Fuel Pressure Regulator Valve -N276- electrical connector terminal 1 to Ground (GND) for voltage.

Specified value: battery voltage.

If the specified value was not obtained

Check the wiring from the Fuel Pressure Regulator Valve -N276- electrical connector terminal 1 to the Engine Component Power Supply Relay -J757- terminal 8 for a short circuit to Ground (GND), or an open circuit.

Switch the ignition off.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If no malfunctions are found in the wiring

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Fuel Pressure Regulator Valve -N276- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminals for an open circuit according to the wiring diagram.

Fuel Pressure Regulator Valve -N276- electrical harness connector terminalMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminal or test box socket
215

Specified value: 1.5 ohms Max.

If the specification was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Install the engine cover with air filter. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

FUEL PUMP DELIVERY QUANTITY, CHECKING

Special tools and workshop equipment required

  1. Switched remote control (jumper).
  2. multimeter.
  3. Electrical connector test lead set.
  4. Fuel pressure test set.
  5. Measuring container, fuel-resistant.

Test conditions

  1. Battery voltage 12.5 V
  2. Fuel filter OK
  3. Fuel tank at least 1 / 4 filled.
  4. Fuel pressure regulator OK.
  5. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the fuel filler cap from fuel filler tube.

Remove rear seat bench. Refer to appropriate service information.

Remove the floor sealing cover -1-.

Scheme 76

Scheme 76

Disconnect the electrical harness connector -arrow- from the fuel delivery unit.

Scheme 77

Scheme 77

Connect a switched remote control (jumper) to terminal -1- of the fuel delivery unit and to vehicle battery (+).

Connect a jumper wire from terminal -5- of the fuel delivery unit to vehicle Ground (GND).

Scheme 78

Scheme 78
WARNINGFuel system is under pressure! Before opening the system, place rags around the connection area. Then release the pressure by carefully loosening the connection.

Disconnect the fuel return line -arrow- by pressing release buttons.

Scheme 79

Scheme 79

Connect a fuel line from the fuel pressure test set to the disconnected fuel return line and hold it in the measuring container.

Scheme 80

Scheme 80

Press the switch on the remote control (jumper) and operate the fuel pump for 15 seconds.

Compare quantity of fuel delivered with minimum delivery rate in the diagram (cm 3 /30 sec.).

Scheme 81

Scheme 81

Note. Voltage at the fuel pump with engine stopped and fuel pump running is approx. 2 volts less than battery voltage.

If minimum delivery quantity is not obtained, the following malfunctions may be present

  1. Fuel lines pinched.
  2. Fuel filter plugged.
  3. Fuel pump faulty.

If necessary, repair any pinched or plugged lines.

If the filter is restricted

Replace the fuel filter. Refer to appropriate service information.

If the fuel pump is faulty

Replace the fuel pump. Refer to appropriate service information.

Assembly is performed in reverse order of removal. Note the following

Install the rear seat bench. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

FUEL PRESSURE TEST

Special tools and workshop equipment required

  1. multimeter.
  2. fuel line adapter set V.A.G. 1318/17A. These tools may be substituted with an equivalent aftermarket tool and are also available for rental or purchase through Audi.
  3. In- line fuel pressure gauge with shutoff valve. (high pressure).

Test conditions

  1. Battery voltage 12.5 V
  2. Function and voltage supply for the Fuel Pump is OK.
  3. Fuel tank at least 1 / 4 filled.
  4. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

WARNINGFuel system is under pressure! Before opening the system, place rags around the connection area. Then release the pressure by carefully loosening the connection.

Start diagnosis

Disconnect fuel supply line -3- at the supply location and catch any fuel coming out with a shop towel

Scheme 82

Scheme 82

Note. Pull circlip upward to unlock fuel line

Install a fuel pressure gauge with appropriate adapters.

Open shut off valve on fuel gauge.

Switch ignition on and off repeatedly until fuel pressure stops increasing pressure.

Read fuel pressure on the gauge.

  1. Specified value: 3.5 to 6 bar

If specification is exceeded

Check return line between fuel filter and fuel pump for kinks or blockage.

If no malfunction in fuel return line is found

Pressure relief valve in fuel filter is malfunctioning.

Replace the fuel filter. Refer to appropriate service information.

If reading was below the specification

Check fuel pressure at the fuel filter between fuel pump and fuel filter using appropriate adapters

Open shut off valve on gauge and start the engine. Allow to idle.

Slowly close the pressure gauge shut off and note the fuel pressure.

  1. Pressure must increase to 6 bar.

When 6 bar is reached: Open shut off tap immediately!

If pressure has increased during test

Fuel pump is OK. Pressure relief valve in fuel filter is malfunctioning.

Replace the fuel filter. Refer to appropriate service information.

If pressure did not increase

Fuel pump is faulty

Replace the fuel pump. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

FUEL PUMP ELECTRICAL, TESTING

Special tools and workshop equipment required

  1. multimeter.
  2. Electrical connector test lead set.

Test conditions

Scheme 83

Scheme 83
  1. Battery voltage 12.5 V.
  2. Fuse -27- in Fuse Panel C is OK.
  3. Fuel filter OK.
  4. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove rear seat bench. Refer to appropriate service information.

Remove the Fuel Pump Control Module from the retaining clips on the floor sealing cover.

Disconnect the electrical harness connector -arrow- from the Fuel Pump Control Module.

Scheme 84

Scheme 84

Connect the multimeter ground lead to terminal -6- of the Fuel Pump Control Module harness connector.

Connect the multimeter positive lead to terminal -1- of the Fuel Pump Control Module harness connector.

Scheme 85

Scheme 85

Turn the Ignition key to the ON position.

The meter should read within 1 volt of battery voltage.

If voltage is below specification, locate wiring fault in ground or power circuit. Refer to wiring diagram for location.

If voltage is OK, connect multimeter positive lead to terminal -3- of the Fuel Pump Control Module harness connector. The ground lead remains on terminal -6

Crank the engine and note voltage displayed on multimeter during crank. Voltage should be within 2.5 volts of battery voltage.

If voltage is below specification, locate wiring fault in the power circuit. Refer to wiring diagram for location.

If voltage is OK, connect multimeter positive lead to terminal -2- of the Fuel Pump Control Module harness connector. The ground lead remains on terminal -6

Crank the engine and note voltage displayed on multimeter during crank. Voltage should be 3.2 volts (+/-.4)

If voltage is below specification, check circuit from Fuel Pump Control Module to ECM for open, short or high resistance and repair as necessary. If no circuit fault is found, replace ECM.

If voltage is OK, reconnect the wiring harness to the Fuel Pump control Module.

Test procedure for Fuel Pump Control Module

Remove the floor sealing cover to access the Fuel Delivery Unit (fuel pump).

Disconnect the harness connector from the Fuel Delivery Unit.

Connect the multimeter positive lead to terminal -1- of the Fuel Delivery Unit harness connector.

Connect the multimeter ground lead to terminal -5- of the Fuel Delivery Unit harness connector.

Crank the engine and note voltage displayed on multimeter during crank. Voltage should be within 2.5 volts of battery voltage.

If voltage is below specification, replace the Fuel Pump Control Module (J538).

If voltage is within specification, replace the Fuel Delivery Unit (Fuel Pump). Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

FUEL PUMP CONTROL MODULE, CHECKING

Special tools and workshop equipment required

  1. multimeter
  2. Wiring diagram.

Test requirements

  1. Fuse -SC3- OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, selector lever in position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customer's complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove rear seat assembly. Refer to the appropriate service information

Checking voltage

Switch the ignition on.

Using a multimeter, check the following wiring connection for voltage.

Fuel Pump (FP) Control Module J538 TerminalMeasure to
T5f/4B+
T5f/3Chassis Ground (GND)

Specified value: Battery voltage

Switch the ignition off.

If the specified value was not obtained

Check the Fuel Pump (FP) Control Module -J538- wiring harness terminal T5f/3 to the Battery -- B (+) terminal for an open circuit or short to Ground (GND).

Check the Fuel Pump (FP) Control Module -J538- wiring harness terminal T5f/4 to GND for an open circuit or short to B+.

Check the electrical harness connectors for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If no malfunctions are found in the wiring

Switch the ignition on.

Using a multimeter, check the following wiring connection for voltage.

Fuel Pump (FP) Control Module J538 TerminalMeasure to
T5f/3Chassis Ground (GND)

Specified value: about 12.5 V

Switch the ignition off.

If the specified value was not obtained

Check the Fuel Pump (FP) Control Module -J538- wiring harness terminal T5f/5 to harness connector terminal T94 /30 for an open circuit or short to Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If no malfunctions are found in the wiring

Checking Ground (GND)

Using a multimeter, check the Fuel Pump (FP) Control Module -J538- wiring harness terminal T10k/2 to chassis ground for resistance.

Fuel Pump (FP) Control Module J538 TerminalMeasure to Engine Control Module (ECM) -J623
T5f/5T94/30

Specified value: 1.5 ohms maximum.

If the specified value was not obtained

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If no malfunctions are found in the wiring and the voltage supply was OK

Replace the Fuel Pump (FP) Control Module -J538-. Refer to the appropriate service information.

Perform a road test to verify repair.

If the fault does not return

Repair complete, Generate readiness code. Refer to READINESS CODE .

End diagnosis.

If the fault does return and no malfunction is detected in the wiring and the voltage supply was OK

Replace the Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Assembly is performed in the reverse of the removal.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. multimeter.
  2. Diode test lamp.
  3. Wiring diagram.

Test requirements

  1. The Ignition Coils with Power Output Stage - N70, N127, N291, N292- fuses OK.
  2. The Motronic Engine Control Module (ECM) Power Supply Relay -J271- OK.
  3. The Engine Speed (RPM) Sensor -G28- OK.
  4. The Camshaft Position (CMP) Sensor -G40- OK.
  5. Battery voltage at least 12.5 volts.
  6. All electrical consumers such as, lights and rear window defroster, switched off.
  7. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  8. A/C switched off.
  9. Ground (GND) connections between engine/transmission/chassis OK.
  10. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to appropriate service information.

Remove the Ignition Coils with Power Output Stage -N70, N127, N291, N292- electrical harness screws -1-.

Scheme 86

Scheme 86

Disconnect the Ignition Coils with Power Output Stage -N70, N127, N291, N292- electrical harness connectors -arrows- from the Ignition Coils with Power Output Stage -N70, N127, N291, N292-.

Scheme 87

Scheme 87

Checking voltage supply

Switch the ignition on.

Using a multimeter, check the Ignition Coil -- electrical harness connector terminals 1 to 4 for voltage.

Specified value: battery voltage.

Switch the ignition off.

If the specified value was not obtained

Check the Ignition Coil -- electrical harness connector terminal 1 to the Motronic Engine Control Module (ECM) Power Supply Relay -J271 - terminal 8 for an open circuit.

Specified value: 1.5 ohms Max.

If the specified value was not obtained

Check the wiring connection for an open circuit.

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If the specified values were obtained

Checking activation

WARNINGDo not touch the Ignition Coils -- connecting parts or adapter cables during the following test.

Disable the power supply to the Fuel Injectors -N30, N31, N32, N33- by removing Fuse SB 8(on fuse panel B).

Using a diode test lamp, check the Ignition Coil -- electrical harness connector terminals 2 to 3 for voltage.

Operate the starter.

The LED should flicker.

Switch the ignition off.

If the LED flickers and the voltage was OK

Replace the faulty Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to appropriate service information.

If the LED does not flicker

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, Check the Ignition Coil -- electrical harness connector to the Motronic Engine Control Module (ECM) J623 electrical harness connector T60 for an open circuit.

Ignition Coils with Power Output Stage -N70, N127, N291, N292- electrical harness connector terminalMotronic Engine Control Module (ECM) electrical harness connector T60 terminal or test box socket
N70-37
N127-321
N291-322
N292-36

Specified value: 1.5 ohms Max.

If the specified value was not obtained

Check the wiring connection for an open circuit.

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If the specified values were obtained

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Connect the Ignition Coils with Power Output Stage -N70, N127, N291, N292- electrical harness connectors -arrows- to the Ignition Coils with Power Output Stage -N70, N127, N291, N292-.

Scheme 88

Scheme 88

Install the Ignition Coils with Power Output Stage -N70, N127, N291, N292- electrical harness screws -1-.

Install the engine cover with air filter. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

INTAKE AIR TEMPERATURE SENSOR, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK .

Start diagnosis

Connect the scan tool.

Switch the ignition on.

Using the scan tool, check the intake air temperature

Diagnostic textSpecified value
Intake Air Temperature (IAT)Approx. ambient air temperature

If the specified value is not obtained

Continue the test according to the following table

IndicatedCauseTest
Approx. -40° C or approx. -46° COpen circuit or short circuit to (B+)TESTING IF DISPLAY APPROX. -40&DEG; C OR APPROX. -46 C OR APPROX. -46&DEG; C
Approx. 140° CShort circuit to Ground (GND)TESTING IF DISPLAY APPROX. 140&DEG; C

If the specified values are obtained

Remove engine cover. Refer to the appropriate service information.

Checking internal resistance

Disconnect the Intake Air Temperature (IAT) Sensor -G42- electrical harness connector -1-.

Scheme 89

Scheme 89

Using a multimeter, check the Intake Air Temperature (IAT) Sensor -G42- terminals 1 to 2 for resistance.

Use the chart below for the specified values

Specified values

IAT Temperature vs Resistance
Temp (C)Min value ohmsMax value ohms
403181137560
352294126863
251241514289
1569587880
540364495
031203442
524222655
1515191623
259681031
35629676
45419455
55286314
65195217
75136155

If any of the specified values are not obtained

Replace the Intake Air Temperature (IAT) Sensor -G42-. Refer to the appropriate service information.

TESTING IF DISPLAY APPROX. -40&DEG; C OR APPROX. -46&DEG; C

Disconnect the Intake Air Temperature (IAT) Sensor -G42- electrical harness connector -1-.

Using a jumper wire, connect the Intake Air Temperature (IAT) Sensor -G42- electrical harness connector terminals 1 to 2.

Check the value indicated on the scan tool display.

If indication jumps to approx. 140° C

End diagnosis and switch ignition off.

Replace the Intake Air Temperature (IAT) Sensor -G42-. Refer to appropriate service information.

If indication remains at approx. -40° C or -46° C

TESTING IF DISPLAY APPROX. 140&DEG; C

Disconnect the Intake Air Temperature (IAT) Sensor -G42- electrical harness connector -1-.

If indication jumps to approx. -40° C or -46° C

End diagnosis and switch ignition off.

Replace the Intake Air Temperature (IAT) Sensor -G42 -. Refer to appropriate service information.

If the indication remains at approx. 140° C

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a Multimeter --, check the Intake Air Temperature (IAT) Sensor -G42 - electrical harness connector terminals to the Engine Control Module (ECM) -J623- electrical harness connector T60 terminals for resistance.

Intake Air Temperature (IAT) Sensor -G42 - electrical harness connector terminalsEngine Control Module (ECM) -J623- electrical harness connector T60 terminals or test box socket
142
213

Specified value: 1.5 ohms Max.

If the specification was not obtained

Check the wiring for an open circuit, a short circuit to Battery (+), or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring

Erase the DTC memory. Refer to DIAGNOSTIC MODE 04 - ERASE DTC MEMORY .

Perform a road test to verify repair.

If the DTC does not return

Generate readiness code. Refer to READINESS CODE .

If the DTC does return and no malfunction is detected in the wiring and the voltage supply was not OK

Replace the Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Final procedures

After repair work, the following work steps must be performed in the mentioned sequence

  1. Check the DTC memory. «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

INTAKE MANIFOLD RUNNER POSITION SENSOR, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. multimeter
  2. Wiring diagram.

Test requirements

  1. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to appropriate service information.

Disconnect the Intake Manifold Runner Position Sensor -G336- electrical harness connector -arrow-.

Scheme 90

Scheme 90

Switch the ignition on.

Using a multimeter, check the Intake Manifold Runner Position Sensor -G336- electrical harness connector terminals 1 to 3 for voltage.

Specified value: about 5 V

Switch ignition off.

If the specified value was not obtained

Check and/or repair wiring as required.

If the specified value was obtained

Checking internal resistance

Using a multimeter, check the Intake Manifold Runner Position Sensor -G336- electrical terminals 2 to 3 for resistance.

Specified value: 7-25 ohms (at approx. 20° C)

Using a multimeter, check the Intake Manifold Runner Position Sensor -G336- electrical terminals 1 to 3 for resistance.

Specified value: 244 [+/- 40] ohms (at approx. 20° C)

If the specified values were not obtained

Replace the Intake Manifold Runner Position Sensor -G336-. Refer to appropriate service information.

If the specified value was obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Intake Manifold Runner Position Sensor -G336- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminals for an open circuit.

Intake Manifold Runner Position Sensor -G336- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminals or test box socket
127
243
313

Specified value: 1.5 ohms Max.

If the specification was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Install the engine cover with air filter. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

INTAKE MANIFOLD RUNNER CONTROL VALVE, CHECKING

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. Fuse -SB 7- OK.
  2. The Engine Component Power Supply Relay -J757- OK.
  3. The parking brake engaged.
  4. The battery voltage at least 12.5 V.
  5. The selector lever of automatic transmission in position "P" or "N".
  6. All electrical consumers switched off (radiator fan must NOT run during test).
  7. A/C switched off.
  8. The fuel tank at least 1 / 4 filled.
  9. The ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK .

Start diagnosis

Disconnect the Intake Manifold Runner Control (IMRC) Valve -N316- electrical harness connector.

Checking internal resistance

Using a multimeter, check the Intake Manifold Runner Control (IMRC) Valve -N316- terminals 1 to 2 for resistance.

Specified value: 25ohms +/- 10 ohms.

If the specified value was not obtained

Replace the Intake Manifold Runner Control (IMRC) Valve -N316-. Refer to the appropriate service information.

If the specified value was obtained

Checking voltage

Switch the ignition on.

Using a multimeter, check the Intake Manifold Runner Control (IMRC) Valve -N316- electrical harness connector terminal 1 to ground (GND) for voltage.

Specified value: battery voltage.

Switch the ignition off.

If the specified value was not obtained

Check the wiring from the Intake Manifold Runner Control (IMRC) Valve -N316- electrical harness connector terminal 1 to fuse SB 7 on fuse panel B.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If no malfunctions are found in the wiring

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Using a multimeter, check the Intake Manifold Runner Control (IMRC) Valve -N316- electrical harness connector terminal 2 to the Engine Control Module (ECM) -J623- electrical harness connector terminal 36 for resistance.

Intake Manifold Runner Control (IMRC) Valve -N316- electrical harness connector terminalEngine Control Module (ECM) -J623- electrical harness connector terminal or test box socket
236

Specified value: 1.5 ohms Max.

If the specification was not obtained

Check the wiring for a open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring

Erase the DTC memory. Refer to DIAGNOSTIC MODE 04 - ERASE DTC MEMORY .

Perform a road test to verify repair.

If the DTC does not return

Generate readiness code. Refer to READINESS CODE .

If the DTC does return and no malfunction is detected in the wiring and the voltage supply was OK

Replace the Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

KNOCK SENSOR 1, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. Multimeter.
  2. Wiring diagram.

Test requirements

  1. The mounting bolt of Knock Sensor (KS) 1 -G61- tightened to 20 Nm.
  2. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  3. Battery voltage at least 12.5 volts.
  4. All electrical consumers such as, lights and rear window defroster, switched off.
  5. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  6. A/C switched off.
  7. Ground (GND) connections between engine/transmission/chassis OK.
  8. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the engine cover with air filter. Refer to appropriate service information.

Note. Before disconnecting the Knock Sensor -- electrical harness connectors, mark the component location.

Disconnect the Knock Sensor (KS) 1 -G61- electrical harness connector -1-.

Scheme 91

Scheme 91

Checking internal resistance

Using a multimeter, check the Knock Sensor -- terminals 1 to 2 for an internal short.

Scheme 92

Scheme 92

Specified value: infinity (Infinity).

If the specified value was not obtained

Replace the faulty Knock Sensor (KS) 1 -G61-. Refer to appropriate service information.

If the specified value was obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, Check the Knock Sensor -- electrical harness connector to the Motronic Engine Control Module (ECM)J623 electrical harness connector T60 for an open circuit.

Scheme 93

Scheme 93
Knock Sensor (KS) 1 -G61- electrical harness connector terminalsMotronic Engine Control Module (ECM) electrical harness connector T60 terminals or test box sockets
125
210
38

Specified value: 1.5 ohms Max.

If the specified value was not obtained

Check the wiring connection for an open circuit.

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring and the resistance was not OK

Replace the faulty Knock Sensor (KS) 1 -G61-. Refer to appropriate service information.

If no malfunction is found in the wiring and the resistance was OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Install the engine cover with air filter. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

LEAK DETECTION PUMP, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. multimeter
  2. Wiring diagram.

Test requirements

  1. The Leak Detection Pump (LDP) -V144- fuse OK.
  2. The ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Obtain access to the Evaporative Canister under the luggage compartment. Refer to appropriate service information.

Disconnect the Leak Detection Pump (LDP) -V144- electrical harness connector -2-.

Scheme 94

Scheme 94

Checking internal resistance

Using a multimeter, check the Leak Detection Pump (LDP) -V144- for resistance as follows

Scheme 95

Scheme 95
Leak Detection Pump (LDP) -V144- electrical harness connector terminalsSpecified values
1 + 3640 to 720 ohms
2 + 315 to 17 ohms

If any of the specifications are not obtained

Replace the Leak Detection Pump (LDP) --V144--. Refer to appropriate service information.

If the specified values are obtained

Checking voltage supply

Note. The voltage for the Leak Detection Pump (LDP) --V144-- is supplied via the Fuse 7 (on fuse panel B) -SB7-.

Check the Leak Detection Pump (LDP) --V144-- for voltage.

Using a multimeter, check the Leak Detection Pump (LDP) --V144-- electrical harness connector terminal 3 for voltage.

Scheme 96

Scheme 96
Leak Detection Pump (LDP) --V144-- electrical harness connector terminalMeasure to
3Engine Ground (GND)

Operate the starter briefly.

Specified value: battery voltage.

Switch the ignition off.

If the specified value was not obtained

Using a multimeter, check the Leak Detection Pump (LDP) --V144-- electrical harness connector terminal 3 to the Engine Component Power Supply Relay -J757- terminal 4 for an open circuit.

Specified value: Wire resistance max 1.5 ohms.

If the specification is not obtained

Check the wiring for a short circuit to Battery positive (+) or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring and if the voltage supply was OK

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Leak Detection Pump (LDP) --V144-- electrical connector terminals to Motronic Engine Control Module (ECM) -J623- electrical connector T94 terminal for an open circuit.

Leak Detection Pump (LDP) --V144-- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T94 terminals or test box socket
144
249

Specified value: 1.5 ohms max.

If the specification is not obtained

Check the wiring for a short circuit to Battery positive (+) or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in wiring

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Assembly is performed in the reverse order of the removal, note the following

Install the left rear wheel housing liner. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

MASS AIR FLOW SENSOR, CHECKING

Note. Use only gold-plated terminals when servicing terminals in harness connector of Mass Air Flow (MAF) Sensor -G70-.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Mass Air Flow (MAF) Sensor -G70- fuse OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Coolant Temperature at least 80° C.
  8. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Connect the scan tool.

Start engine and let it run at idle.

Using the scan tool, Check the air flow quantity of the Mass Air Flow (MAF) Sensor -G70- at idle

Diagnostic textSpecified value
Air flow quantity at Mass Air Flow (MAF) sensor
Engine running at idle2.00 to 5.00 g/sec

End diagnosis and switch ignition off.

If specified value is obtained, but DTC memory has a DTC concerning Mass Air Flow (MAF) Sensor -G70

Check voltage supply of Mass Air Flow (MAF) Sensor -G70- CHECKING VOLTAGE SUPPLY .

If specified value was not obtained

Check the Mass Air Flow (MAF) Sensor -G70- electrical circuit CHECKING ELECTRICAL CIRCUIT .

CHECKING VOLTAGE SUPPLY

Disconnect the Mass Air Flow (MAF) Sensor -G70- electrical harness connector -1-.

Scheme 97

Scheme 97: CHECKING VOLTAGE SUPPLY

Start the engine and let it run at idle.

Using a multimeter, check the Mass Air Flow (MAF) Sensor -G70- electrical harness connector terminal 3 to engine Ground (GND).

Scheme 98

Scheme 98

Specified value: battery voltage.

Switch the ignition off.

If specified value was not obtained

Check the Mass Air Flow (MAF) Sensor -G70- electrical harness connector terminal 3 to the Fuse SB3 (on fuse panel B) -- for an open circuit.

Specified value: 1.5 ohms max.

If no malfunction is detected in the wiring and if the voltage supply was OK

CHECKING ELECTRICAL CIRCUIT

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Using a multimeter, check the Mass Air Flow (MAF) Sensor -G70- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T94 terminals for an open circuit.

Mass Air Flow (MAF) Sensor -G70- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T94 terminals or test box socket
123
265

Specified value: 1.5 ohms max.

If the specification is not obtained

Check the wiring for a short circuit to each other, Battery (+), and Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring and if the voltage supply was OK

Replace Mass Air Flow (MAF) Sensor -G70-. Refer to appropriate service information.

If no malfunction is detected in the wiring and if the voltage supply was not OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

OXYGEN SENSOR AFTER CATALYTIC CONVERTER, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Prior to repair work, perform a preliminary check to verify the condition. Refer to PRELIMINARY CHECK .

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. Generic scan tool
  2. Multimeter
  3. Wiring diagram

Test requirements

  1. The oxygen sensor properly installed
  2. Exhaust system free of leaks
  3. The oxygen sensor fuses OK
  4. Ground connections between engine/transmission/chassis OK
  5. Battery voltage at least 12.5 volts
  6. Coolant temperature at least 80° C
  7. All electrical consumers switched off
  8. Vehicles with automatic transmission, shift selector lever in park or neutral
  9. A/C switched off
  10. Engine running

Note. The oxygen sensor compares the oxygen content of the outside air with the residual oxygen content in the exhaust gas, and generates a voltage input signal to the engine control module. If oxygen sensor voltage does not fluctuate, the sensor does not respond, or responds too slowly, the following causes are possible: Slits in the oxygen sensor tip are plugged Sensor not up to operating temperature Sensor has been thermally overloaded Transition resistance in signal wire or reference ground connection Sensor has been damaged by electrical contact cleaner or similar contaminant (drawn through signal wire by capillary action due to thermal fluctuation) Sensor has been damaged by exposure to silicone. When using silicone sprays and sealants, silicone residue is drawn into the engine where it passes unburned into the exhaust and can damage the oxygen sensor

Test procedure

Using a generic scan tool, refer to Diagnostic Mode 05 - Read Current System Data.

Note. Mode 05 may not be supported on all systems. On systems where Diagnostic Mode 05 is not supported, refer to Diagnostic Mode 6 for oxygen sensor monitoring test results.

Review the mode data test results.

If any of the test results indicate a monitor failure

Refer to the monitor support documentation as indicated in the mode test procedure to diagnose and repair the cause of the failure.

If the test results indicate no monitor failures

Checking primary voltage

Disconnect the oxygen sensor electrical harness connector. Refer to the service information for removal and installation procedures.

Switch ignition on.

Using a multimeter, measure the voltage between the sensor signal and reference ground circuits.

  1. Specification: 0.400 to 0.500 V

Switch ignition off.

If specified value is not obtained

Check the oxygen sensor wiring and connections.

If specified value is obtained

Replace the oxygen sensor. Refer to the appropriate service information for removal and installation procedures.

Checking wiring and connections

Remove the engine control module. Refer to the service information for removal and installation procedures.

Using a multimeter, measure the resistance of the signal and reference ground circuits between the oxygen sensor and the engine control module. Refer to the applicable wiring diagram.

Specified value: 1.5 ohms max.

If the specification was not obtained

Check the circuits for a short to each other, short to battery voltage, and short to ground.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

Repair the wiring or connection as necessary.

If no malfunction is detected in the wiring

Replace the engine control module. Refer to the service information for removal and installation procedures.

Final procedures

After repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

HEATED OXYGEN SENSOR HO2S, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Note. Use only gold-plated terminals when servicing terminals in the electrical harness connector of the Heated Oxygen Sensor (HO2S) -G39-.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Heated Oxygen Sensor (HO2S) -G39- fuse OK.
  2. The Oxygen Sensor (O2S) Heater -Z19- before catalytic converter OK. Refer to «OXYGEN SENSOR O2S HEATER, CHECKING»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__oxygen-sensor-o2s-heater-checking) .
  3. Battery voltage at least 12.5 volts.
  4. All electrical consumers such as, lights and rear window defroster, switched off.
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Exhaust system between catalytic converter and cylinder head properly sealed.
  8. Coolant Temperature at least 80° C.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Connect scan tool.

Start the engine and let it run at idle.

Select "Diagnostic mode 6: Check test results of components that are not continuously monitored".

Select "Test-ID 01: Oxygen sensor monitoring before catalytic converter".

Select "Test-ID 131: Dynamic test".

Check the specified values at idle.

Dynamic testSpecified value
Min.Max.
Normal operation0.35009
Reduced threshold upon suspicion of malfunction in catalytic converter0.39990

If specified values are obtained

End diagnosis and switch the ignition off.

If the specified values are not obtained

Checking primary voltage

Disconnect the Heated Oxygen Sensor (HO2S) -G39- electrical harness connector -1-.

Scheme 99

Scheme 99

Using a multimeter, check the Heated Oxygen Sensor (HO2S) -G39- electrical harness connector -1- terminals 1 to 5 for voltage.

Scheme 100

Scheme 100

Specified value: 0.400 to 0.500 Volts

Switch the ignition off.

If the specified value was not obtained

Replace the Heated Oxygen Sensor (HO2S) -G39-. Refer to the appropriate service information.

If the specified value was obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Using a multimeter, check the Heated Oxygen Sensor (HO2S) -G39- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T94 terminals for an open circuit.

Heated Oxygen Sensor (HO2S) -G39- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T94 terminals or test box sockets
178
279
556
657

Specified value: 1.5 ohms Max.

If the specification was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Note. Vehicle must be raised before the electrical connector for the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- is accessible. When servicing terminals 3 and 4 in the electrical harness connector of the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-, use only gold-plated terminals.

Special tools and workshop equipment required

  1. Generic scan tool
  2. multimeter.
  3. Wiring diagram.

Test requirements

  1. The Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- fuse Ok.
  2. Oxygen Sensor O2S Behind Three Way Catalytic Converter Heater - Z29- OK.
  3. Battery voltage at least 12.5 volts.
  4. All electrical consumers such as, lights and rear window defroster, switched off.
  5. Vehicles with automatic transmission, selector lever in position "P" or "N".
  6. A/C switched off.
  7. Ground (GND) connections between engine/transmission/chassis OK.
  8. Exhaust system between catalytic converter and cylinder head properly sealed.
  9. Coolant Temperature at least 80° C.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Connect scan tool.

Start the engine and let it run at idle.

Select "Diagnostic mode 6: Check test results of components that are not continuously monitored".

Select "Test-ID 02: Oxygen sensor monitoring behind catalytic converter".

Select following Test-IDs.

Check the specified values at idle.

Test-IDSpecified value
Min.Max.
1Rich to lean sensor barrier voltage0.6241 V
2Lean to rich sensor barrier voltage0.6241 V
7Minimum voltage at sensor for test cycle0.450 V
8Maximum voltage at sensor for test cycle0.450 V
129Sensor voltage lean00.6241 V
130Sensor voltage rich0.6241 V1.2998 V
131Deceleration test0 V0.1599 V

If the specified values are obtained

End diagnosis and switch ignition off.

If the specified values are not obtained

Remove the right vehicle floor cover -arrows-. Refer to the appropriate service information.

Scheme 101

Scheme 101

Checking primary voltage

Disconnect the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- electrical harness connector -arrow-.

Scheme 102

Scheme 102

Switch the ignition on.

Using a multimeter, check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- electrical harness connector terminals 3 to 4 for voltage.

Scheme 103

Scheme 103

Specified value: 0.400 to 0.500 Volts

Switch the ignition off.

If the specified value was not obtained

Replace the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) - G130-. Refer to the appropriate service information.

If the specified value was obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Using a multimeter, check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) - G130- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T94 terminals for an open circuit according to the wiring diagram.

Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T94 terminals or test box sockets
334
462

Specified value: 1.5 ohms Max.

If the specification was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Install the right vehicle floor cover -arrows-. Refer to the appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

OXYGEN SENSOR O2S HEATER, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Oxygen Sensor (O2S) Heater -Z19- is part of Heated Oxygen Sensor (HO2S) -G39- and cannot be replaced separately.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. Fuse -SB10- OK.
  2. Motronic Engine Control Module (ECM) Power Supply Relay -J271- OK.
  3. Battery voltage at least 12.5 volts.
  4. All electrical consumers such as, lights and rear window defroster, switched off.
  5. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  6. A/C switched off.
  7. Ground (GND) connections between engine/transmission/chassis OK.
  8. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK .

Start diagnosis

Remove the engine cover with air filter. Refer to the appropriate service information.

Checking internal resistance

Disconnect the Heated Oxygen Sensor (HO2S) -G39- electrical harness connector -1-.

Using a multimeter, check the Heated Oxygen Sensor (HO2S) -G39- terminals 3 to 4 for resistance.

Specified value: 2.5 to 10.0 ohms (at approx. 20° C)

If the specification was not obtained

Replace the Heated Oxygen Sensor (HO2S) -G39-. Refer to the appropriate service information.

If the specification was obtained

Checking voltage supply

Crank the engine (engine may run).

Using a multimeter, check the Heated Oxygen Sensor (HO2S) -G39- electrical harness connector terminal 4 to Ground (GND) for voltage.

Heated Oxygen Sensor (HO2S) -G39- electrical harness connector terminalEngine Control Module (ECM) -J623- electrical harness connector T94 terminal or test box socket
4Ground (GND)

Switch the ignition off.

Specified value: Battery voltage.

If the specification was not obtained

Check the Heated Oxygen Sensor (HO2S) -G39- electrical harness connector terminal 4 to the Motronic Engine Control Module (ECM) Power Supply Relay -J271- terminal 8 for an open circuit, a short circuit to each other, Battery (+), or Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If the specification was obtained

Checking Ground (GND) activation

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Using a multimeter, check the Heated Oxygen Sensor (HO2S) -G39- electrical harness connector terminal 3 to the Engine Control Module (ECM) -J623- electrical harness connector T94 terminal 73 for resistance.

Heated Oxygen Sensor (HO2S) -G39- electrical harness connector terminalEngine Control Module (ECM) -J623- electrical harness connector T94 terminal or test box socket
373

Specified value: 1.5 ohms max.

If the specification was not obtained

Check the wiring for a short circuit to each other, Battery (+), and Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring and if the voltage supply was OK

Erase the DTC memory. Refer to DIAGNOSTIC MODE 04 - ERASE DTC MEMORY .

Perform a road test to verify repair.

If the DTC does not return

Generate readiness code. Refer to READINESS CODE .

If the DTC does return and no malfunction is detected in the wiring and the voltage supply was OK

Replace the Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code)

OXYGEN SENSOR O2S 1 HEATER BEFORE CATALYTIC CONVERTER, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Note. Oxygen Sensor (O2S) 1 Before Catalytic Converter Heater - Z29- is part of Oxygen Sensor (O2S) Before Three Way Catalytic Converter -G130- and cannot be replaced separately.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. Fuse -SB10- OK.
  2. Motronic Engine Control Module (ECM) Power Supply Relay -J271- OK
  3. Battery voltage at least 12.5 volts.
  4. All electrical consumers such as, lights and rear window defroster, switched off.
  5. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  6. A/C switched off.
  7. Ground (GND) connections between engine/transmission/chassis OK.
  8. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK .

Start diagnosis

Remove right cover from vehicle underbody. Refer to the appropriate service information.

Checking internal resistance

Disconnect the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- electrical harness connector -1-.

Scheme 104

Scheme 104

Using a multimeter, check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- terminals 1 to 2 for resistance.

Scheme 105

Scheme 105

Specified value: 2.5 to 14.0 ohms (at approx. 20° C)

If the specification was not obtained

Replace the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130-. Refer to the appropriate service information.

If the specification was obtained

Checking voltage supply

Using a multimeter, check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- electrical harness connector terminal 1 to ground (GND) for voltage.

Specified value: Battery voltage.

If the specification was not obtained

Check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- electrical harness connector terminal 1 to the Motronic Engine Control Module (ECM) Power Supply Relay -J271- terminal 8 for an open circuit, a short circuit to each other, or Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If the specification was obtained

Checking Ground (GND) activation

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Using a multimeter, check the Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- electrical harness connector to the Engine Control Module (ECM) -J623- electrical harness connector T94 for resistance.

Oxygen Sensor (O2S) Behind Three Way Catalytic Converter (TWC) -G130- electrical harness connector terminalEngine Control Module (ECM) -J623- electrical connector T94 terminal or test box socket
229

Specified value: 1.5 ohms max.

If the specification was not obtained

Check the wiring for a open circuit or short to Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring and if the voltage supply was OK

Erase the DTC memory. Refer to DIAGNOSTIC MODE 04 - ERASE DTC MEMORY

Perform a road test to verify repair.

If the DTC does not return

Generate readiness code. Refer to READINESS CODE .

If the DTC does return and no malfunction is detected in the wiring and the voltage supply was OK

Replace the Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Final procedures

After repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

TCM TO ECM CAN BUS TERMINAL RESISTANCE, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Prior to repair work, perform a preliminary check to verify the condition. Refer to PRELIMINARY CHECK .

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. Multimeter
  2. Wiring diagram

Test requirement

  1. A CAN malfunction was recognized
  2. Battery voltage at least 12.5 volts
  3. Engine control module fuses OK
  4. Ignition switched off

Test procedure

Remove the transmission control module. Refer to the appropriate service information for removal and installation procedures.

Disconnect the transmission control module electrical harness connector.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

Repair as necessary.

Note. The ECM must remain connected for the following step. The central terminal resistor is located in the ECM.

Using a multimeter, check the Direct Shift Gearbox (DSG) Mechatronic -J743- electrical harness connector terminals 2 to 6 for resistance.

Specified value: 60 to 72 ohms (at approx. 20° C)

If the specified value was not obtained

Checking wiring

Remove the engine control module. Refer to the appropriate service information for removal and installation procedures.

Using a multimeter, check each of the CAN bus circuits between the transmission control module and the engine control module. Refer to the applicable wiring diagram.

Check each CAN circuit for a short to ground, short to voltage, open circuit or high resistance.

Repair as necessary.

If the specified resistance value was not obtained and no malfunction is found in the wiring

Replace the engine control module. Refer to the appropriate service information for removal and installation procedures.

If the specified resistance value was obtained

Remove the engine control module. Refer to the appropriate service information for removal and installation procedures.

Check each CAN circuit for a short to ground, short to voltage, open circuit or high resistance.

Repair as necessary.

If no malfunction is found in the wiring

Replace the transmission control module. Refer to the appropriate service information for removal and installation procedures.

Final procedures

After repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram

Test requirement

  1. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.

Note. Use only gold-plated terminals when servicing the electrical harness connector terminals in Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the drivers side storage compartment. Refer to the appropriate service information.

Disconnect the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185- 6-pin electrical harness connector -2-.

Scheme 106

Scheme 106

Checking voltage supply and wiring

Switch the ignition on.

Using a multimeter, check the following wiring connections for voltage.

Scheme 107

Scheme 107
Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185- electrical harness connector terminalsSpecified value
1 to Ground (GND)About 5 V
1 to 5About 5 V
2 to Ground (GND)About 5 V
2 to 3About 5 V

Switch the ignition off.

If the specification was not obtained

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Using a multimeter, check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical connector T94 for an open circuit.

Scheme 108

Scheme 108
Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T94 terminals or test box sockets
181
282
335
483
511
661

Specified value: 1.5 ohms max.

If the specification is not obtained

Check the wiring for a short circuit to each other, Battery (+), and Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is detected in the wiring and if the voltage supply was OK

Replace the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to the appropriate service information.

If no malfunction is detected in the wiring and if the voltage supply was not OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Install the drivers side storage compartment. Refer to the appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

THROTTLE VALVE CONTROL MODULE, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, shift selector lever into position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Throttle valve must not be damaged or dirty.
  8. Coolant Temperature at least 80° C.

Function

Throttle valve operation occurs by an electric motor (Throttle Drive (for Electronic Power Control (EPC)) -G186-) in the Throttle Valve Control Module - J338-. It is operated by the Motronic Engine Control Module (ECM) -J623- and the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-.

The Throttle Valve Control Module -J338- is made up of the following components

  1. Throttle Drive (for Electronic Power Control (EPC)) -G186
  2. Throttle Drive Angle Sensor 1 (for Electronic Power Control (EPC)) -G187
  3. Throttle Drive Angle Sensor 2 (for Electronic Power Control (EPC)) -G188

The Throttle Valve Control Module -J338- cannot be serviced separately and must be serviced as a unit.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Connect the scan tool.

Switch ignition on.

Using the scan tool, check the throttle valve position (absolute) at idle stop

Diagnostic textSpecified value
Throttle valve position (absolute)
Idle stop3.0 to 25.0%

Slowly depress the accelerator pedal to Wide Open Throttle (WOT) stop while observing the percentage display. The percentage display must increase uniformly.

Using the scan tool, check the throttle valve position (absolute) at Wide Open Throttle (WOT) stop

Diagnostic textSpecified value
Throttle valve position (absolute)
Wide Open Throttle (WOT) stop84.0 to 97.0%

End diagnosis and switch ignition off.

If the specified values are not obtained

Remove the Throttle Valve Control Module -J338 - far enough so that the electrical connector terminals are reached.

Disconnect the Throttle Valve Control Module -J338- electrical harness connector -arrow-.

Scheme 109

Scheme 109

Checking resistance

Using a multimeter, check the Throttle Drive (for Electronic Power Control (EPC)) -G186- at the Throttle Valve Control Module -J338- terminals 3 to 5 for resistance.

Scheme 110

Scheme 110

Specified value: 1.0 to 5.0 ohms (at 20° C)

If the specification was not obtained

Replace the Throttle Valve Control Module - J338-. Refer to appropriate service information.

If the specification was obtained

Check the voltage supply of the Throttle Valve Control Module -J338- to the Motronic Engine Control Module (ECM) -J623-.

Checking voltage supply and wiring

Switch the ignition on.

Using a multimeter, check the Throttle Drive (for Electronic Power Control (EPC)) -G186- at the Throttle Valve Control Module -J338- electrical harness connector terminals 2 to 6 for voltage.

Scheme 111

Scheme 111

Specified value: at least 4.5 V

Switch the ignition off.

If the specification was not obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Throttle Drive (for Electronic Power Control (EPC)) -G186- at Throttle Valve Control Module -J338- electrical harness connector terminals to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T60 terminals for an open circuit according to the wiring diagram.

Scheme 112

Scheme 112
Throttle Valve Control Module -J338- electrical harness connector terminalsMotronic Engine Control Module (ECM) -J623- electrical connector T60 terminals or test box socket
141
212
31
424
516
644

Specified value: 1.5 ohms max.

If the specification is not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

If necessary, repair the faulty wiring connection.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If no malfunction is detected in the wiring and if the voltage supply was not OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

VOLTAGE SUPPLY, CHECKING

Observe all safety precautions: SAFETY PRECAUTIONS

View clean working conditions: CLEAN WORKING CONDITIONS

Use only gold-plated terminals when servicing any component with gold-plated electrical harness connector terminals.

For wiring diagrams, component locations, and connector views, Refer to the applicable wiring diagram.

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. The Motronic Engine Control Module (ECM) - J623- fuses OK.
  2. Battery voltage at least 12.5 volts.
  3. All electrical consumers such as, lights and rear window defroster, switched off.
  4. Vehicles with automatic transmission, selector lever in position "P" or "N".
  5. A/C switched off.
  6. Ground (GND) connections between engine/transmission/chassis OK.
  7. Ignition switched off.

Test procedure

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK

Start diagnosis

Remove the Motronic Engine Control Module (ECM) Power Supply Relay -J271-. Refer to appropriate service information.

Checking voltage

Using a multimeter, check the Motronic Engine Control Module (ECM) Power Supply Relay -J271- socket 2 to Ground (GND).

Specified value: battery voltage.

If the specified value was not obtained

Check the wiring connections from the Battery to the Motronic Engine Control Module (ECM) Power Supply Relay -J271- socket 2 for an open circuit or a short circuit.

Check the wiring connections for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If the specified value was obtained

Switch the ignition on.

Using a multimeter, check the Motronic Engine Control Module (ECM) Power Supply Relay -J271- socket 8 to Ground (GND).

Specified value: battery voltage.

If the specified value was obtained

Checking wiring

If the manufacturers test box is being used, perform the following step.

Install the test box.

If the manufacturers test box is not being used, perform the following step.

Remove the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Using a multimeter, check the Motronic Engine Control Module (ECM) Power Supply Relay -J271- socket 6 to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T94 terminal 69 for resistance.

Motronic Engine Control Module (ECM) Power Supply Relay -J271- socket terminalMotronic Engine Control Module (ECM) -J623- electrical connector T94 terminal or test box socket
669

Specified value: 2.0 ohms Max.

If the specification was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring

Checking activation

Switch the ignition on.

Using a multimeter, check the Motronic Engine Control Module (ECM) Power Supply Relay -J271- socket 6 to the Motronic Engine Control Module (ECM) -J623- electrical harness connector T94 terminal 69 for voltage.

Motronic Engine Control Module (ECM) Power Supply Relay -J271- socket terminalMotronic Engine Control Module (ECM) -J623- electrical connector T94 terminal or test box socket
669

Specified value: 12.5 V Min.

Switch the ignition off.

If the specified value was obtained

Replace the Motronic Engine Control Module (ECM) Power Supply Relay -J271-. Refer to appropriate service information.

If the specified value was not obtained

Check the wiring for a short circuit to Battery (+), or an open circuit.

Check the wiring connection for damage, corrosion, loose or broken terminals.

If necessary, repair the faulty wiring connection.

If no malfunction is found in the wiring and voltage supply was not OK

Replace the Motronic Engine Control Module (ECM) -J623-. Refer to appropriate service information.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

ENGINE CONTROL MODULE, REPLACING

Removing

Special tools and workshop equipment required

  1. Heat gun.
  2. locking pliers

Note. When the Engine Control Module (ECM) -J623- electrical harness connectors are disconnected, the adaptation values are erased and the DTC memory content remains intact.

Work procedure

Check the identification of the previous Engine Control Module (ECM) -J623- as follows

Connect the scan tool.

Switch the ignition on.

Using the scan tool, select "Vehicle information".

Select " Calibration Identification" in vehicle information.

The electronic control module identification number will be displayed, e.g. 06A906032NA 4983

Record the electronic control module identification number.

End diagnosis and switch the ignition off.

Procedure

Refer to the appropriate service information.

ENGINE COMPONENT POWER SUPPLY RELAY, CHECKING

Special tools and workshop equipment required

  1. multimeter.
  2. Wiring diagram.

Test requirements

  1. Fuse -SA2- OK.
  2. Motronic Engine Control Module (ECM) Power Supply Relay -J271- OK
  3. Battery voltage at least 12.5 volts.
  4. All electrical consumers such as, lights and rear window defroster, switched off.
  5. Vehicles with automatic transmission, selector lever in position "P" or "N".
  6. A/C switched off.
  7. Ground (GND) connections between engine/transmission/chassis OK.
  8. Ignition switched off.

Perform a preliminary check to verify the customers complaint. Refer to PRELIMINARY CHECK .

Start diagnosis

Using a multimeter, check the following wiring connection for voltage.

Turn key on.

Engine Component Power Supply Relay -J757- socketMeasure to
4Engine Ground (GND)

Specified value: 12.5 V

If the specified value was not obtained

Using a multimeter, check the Engine Component Power Supply Relay -J757- socket 4 to the Generator (GEN) -C- B (+) terminal for an open circuit or short to Ground (GND).

Turn key off.

Check the electrical harness connectors for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If no malfunctions are found in the wiring

Checking activation

Switch the ignition on.

Using a multimeter, check the following wiring connection for voltage.

Engine Component Power Supply Relay -J757- socketMeasure to`
6Engine Ground (GND)

Switch the ignition off.

Specified value: 12.5. battery voltage.

If the specified value was not obtained

Using a multimeter, check the Engine Component Power Supply Relay -J757- socket 4 to the Motronic Engine Control Module (ECM) Power Supply Relay -J271- socket 8 for an open circuit or short to Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If no malfunctions are found in the wiring

Checking Ground (GND)

Using a multimeter, check the Engine Component Power Supply Relay -J757- socket 6 to the Engine Control Module (ECM) -J623- electrical harness connector terminal T94/28 for resistance.

Specified value: 1.5 ohms.

If the specified value was not obtained

Check the Engine Component Power Supply Relay -J757- socket 6 to the Engine Control Module (ECM) -J623- electrical harness connector terminal T94/28 for an open circuit or a short to Battery (+) or to Ground (GND).

Check the electrical harness connector for damage, corrosion, loose or broken terminals.

If necessary, repair the wiring connection.

If no malfunctions are found in the wiring and the voltage supply was OK

Replace the Engine Component Power Supply Relay -J757-.

Perform a road test to verify repair.

If the fault does not return

Generate readiness code. Refer to READINESS CODE .

If the fault does return and no malfunction is detected in the wiring and the voltage supply was OK

Replace the Engine Control Module (ECM) -J623-. Refer to the appropriate service information.

Assembly is performed in the reverse of the removal.

Final procedures

After the repair work, the following work steps must be performed in the following sequence

  1. Check the DTC memory. Refer to «DIAGNOSTIC MODE 03 - READ DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-03-read-dtc) .
  2. If necessary, erase the DTC memory. Refer to «DIAGNOSTIC MODE 04 - ERASE DTC MEMORY»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__diagnostic-mode-04-erase-dtc) .
  3. If the DTC memory was erased, generate readiness code. Refer to «READINESS CODE»(/audi/a4/b8-2007-2012/remont/engine-control-systems/#20l-generic-scan-tool-engine-mechanical-engine-codes-caeb-avant__readiness-code) .

For all Automatic Transmission - Gears, hydraulic controls, Technical Data. Refer to the appropriate service information.

For all Automatic Transmission - Gears, hydraulic controls component locations. Refer to the appropriate service information.

For all Automatic Transmission - Gears, Hydraulic controls removal/installation procedures and torque specifications. Refer to the appropriate service information.

Note. All manufacturers special tools as well as common tools may contain a manufacturer specific part number. These tools may be substituted with an equivalent aftermarket tool and are available for rental or purchase through Audi. Manufacturers special tools as well as common tools that contain a manufacturer specific part number may be referenced in the test procedure illustrations showing the tool use or installation. If the manufacturer specific tool is not being used, an equivalent aftermarket tool may be installed in the same manner as the manufacturers special tool. The manufacturers test box Test Box 105 Pin VAG 1598/42 is available for purchase or rental. Certainly you have received an electrical shock once before when touching something made out of metal. The reason for this is the electrostatic charge of the human body. This charge can lead to functional problems by touching the electrical components of the transmission and selector lever mechanism. Touch a grounded object, e.g. a water pipe or a hoist, before working on the electrical components! Do not make direct contact on electrical harness connector terminals! Always switch ignition off before disconnecting or connecting Battery -A-, failure to do so may damage the Direct Shift Gearbox (DSG) Mechatronic -J743-. If special testing equipment is required during road test, note the following

WARNINGTest equipment must always be secured to the rear seat and operated by a second person. If test and measuring equipment is operated from the passenger seat, the person seated could be injured in the event of an accident involving deployment of the passenger-side airbag. The use of nails, paper clips, or another unauthorized materials to back-probe electrical harness connectors is strictly prohibited and may cause damage to the electrical harness connectors, terminal ends or damage to a component. Use only the manufacturers test lead kit or an equivalent aftermarket test lead kit for back-probing all electrical harness connectors.

See also:
Coolant Pump and Thermostat Overview
DIAGNOSTIC MODE 04 - ERASE DTC MEMORY
READINESS CODE
MONITOR-ID 01 : OXYGEN SENSOR MONITOR BANK 1 - SENSOR 1
MONITOR-ID 02 : OXYGEN SENSOR MONITOR BANK 1- SENSOR 2
MONITOR-ID 58 : FUEL TANK EVAP SYSTEM INTEGRITY/LEAK TEST (0.90&RDQUO;)
MONITOR-ID 59 : FUEL TANK EVAP SYSTEM INTEGRITY/LEAK TEST (0.40/1.0MM)
MONITOR-ID 60 : FUEL TANK EVAP SYSTEM INTEGRITY/LEAK TEST (0.20/0.5MM)
MONITOR-ID 61 : EVAP VALVE FUNCTION CHECK
MONITOR-ID 65 : OXYGEN SENSOR HEATER MONITOR BANK 1 - SENSOR 1
MONITOR-ID A2 : MIS-FIRE CYLINDER 1 DATA
MONITOR-ID A3: MIS-FIRE CYLINDER 2 DATA
MONITOR-ID A4: MIS-FIRE CYLINDER 3 DATA
MONITOR-ID A5 : MIS-FIRE CYLINDER 4 DATA
DTC TABLES P0133
DIAGNOSTIC MODE 03 - READ DTC MEMORY
EVAPORATIVE SYSTEM, CHECKING FOR LEAKS
CAMSHAFT ADJUSTMENT VALVE 1, CHECKING
CAMSHAFT POSITION SENSOR, CHECKING
FUEL PUMP ELECTRICAL, TESTING
OXYGEN SENSOR O2S HEATER, CHECKING
OXYGEN SENSOR O2S 1 HEATER BEFORE CATALYTIC CONVERTER, CHECKING
THROTTLE VALVE CONTROL MODULE, CHECKING
MASS AIR FLOW SENSOR, CHECKING
FUEL PRESSURE SENSOR, CHECKING
CHARGE AIR PRESSURE SENSOR, CHECKING
INTAKE AIR TEMPERATURE SENSOR, CHECKING
ENGINE COOLANT TEMPERATURE SENSOR, CHECKING
THROTTLE POSITION SENSOR/ACCELERATOR PEDAL POSITION SENSOR 2, CHECKING
HEATED OXYGEN SENSOR HO2S, CHECKING
OXYGEN SENSOR O2S BEHIND THREE WAY CATALYTIC CONVERTER, CHECKING
FUEL PRESSURE TEST
FUEL INJECTORS, CHECKING
EVAPORATIVE PURGE REGULATOR VALVE, CHECKING
WASTEGATE BYPASS REGULATOR VALVE, CHECKING
IGNITION COIL WITH POWER OUTPUT STAGE, CHECKING
ENGINE SPEED SENSOR, CHECKING
KNOCK SENSOR 1, CHECKING
CATALYTIC CONVERTER, CHECKING
LEAK DETECTION PUMP, CHECKING
SPEED SIGNAL, CHECKING
VOLTAGE SUPPLY, CHECKING
INTAKE MANIFOLD RUNNER POSITION SENSOR, CHECKING
CAN BUS TERMINAL RESISTANCE, CHECKING
SAFETY PRECAUTIONS
CLEAN WORKING CONDITIONS
PRELIMINARY CHECK
DIAGNOSTIC MODE 06 - READ TEST RESULTS FOR SPECIFIC DIAGNOSTIC FUNCTIONS
TESTING IF DISPLAY IS APPROX. - 40.0&DEG; C
TESTING IF DISPLAY APPROX. 140.0&DEG; C
TESTING IF DISPLAY APPROX. -40&DEG; C OR APPROX. -46 C OR APPROX. -46&DEG; C
TESTING IF DISPLAY APPROX. 140&DEG; C
CHECKING VOLTAGE SUPPLY
CHECKING ELECTRICAL CIRCUIT