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Wireless Ignition Node (Win) - Electrical Diagnostics: Other Dodge Durango III

Door Locks & Anti-Theft Systems 15 illustrations ~5945 words

B1A08-RKE FOB 1 PERFORMANCE

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

WHEN MONITORED

Continuously.

SET CONDITION

Scrambled messages to the Wireless Ignition Node (WIN) from the FOBIK transmitter.

POSSIBLE CAUSES

Note. The most probable cause that sets this code is the RKE transmitter being pressed over 1024 times when it is out of range of the Wireless Ignition Node and it loses synchronization with the rolling code of the WIN. To correct, insert the FOBIK in the ignition and turn to the on position to synchronize the rolling code.

Possible Causes
EXCESSIVE PRESSES FROM TRANSMITTER WHEN OUT OF RANGE
FOBIK TRANSMITTER

B1A09-RKE FOB 2 PERFORMANCE

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

Continuously.

Scrambled messages to the Wireless Ignition Node (WIN) from the FOBIK transmitter.

Note. The most probable cause that sets this code is the FOBIK transmitter being pressed over 1024 times when it is out of range of the Wireless Ignition Node and it loses synchronization with the rolling code of the WIN. To correct, insert the FOBIK in the ignition and turn to the on position to synchronize the rolling code.

Possible Causes
EXCESSIVE PRESSES FROM TRANSMITTER WHEN OUT OF RANGE
FOBIK TRANSMITTER

B1A0A-RKE FOB 3 PERFORMANCE

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

Continuously.

Scrambled messages to the Wireless Ignition Node (WIN) from the FOBIK transmitter.

Note. The most probable cause that sets this code is the FOBIK transmitter being pressed over 1024 times when it is out of range of the Wireless Ignition Node and it loses synchronization with the rolling code of the WIN. To correct, insert the FOBIK in the ignition and turn to the on position to synchronize the rolling code.

Possible Causes
EXCESSIVE PRESSES FROM TRANSMITTER WHEN OUT OF RANGE
FOBIK TRANSMITTER

B1A0B-RKE FOB 4 PERFORMANCE

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

Continuously.

Scrambled messages to the Wireless Ignition Node (WIN) from the transmitter.

Note. The most probable cause that sets this code is the FOBIK transmitter being pressed over 1024 times when it is out of range of the Wireless Ignition Node and it loses synchronization with the rolling code of the WIN. To correct, insert the FOBIK in the ignition and turn to the on position to synchronize the rolling code.

Possible Causes
EXCESSIVE PRESSES FROM TRANSMITTER WHEN OUT OF RANGE
FOBIK TRANSMITTER

B1A0C-RKE FOB 5 PERFORMANCE

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

Continuously.

Scrambled messages to the Wireless Ignition Node (WIN) from the transmitter.

Note. The most probable cause that sets this code is the FOBIK transmitter being pressed over 1024 times when it is out of range of the Wireless Ignition Node and it loses synchronization with the rolling code of the WIN. To correct, insert the FOBIK in the ignition and turn to the on position to synchronize the rolling code.

Possible Causes
EXCESSIVE PRESSES FROM TRANSMITTER WHEN OUT OF RANGE
FOBIK TRANSMITTER

B1A0D-RKE FOB 6 PERFORMANCE

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

Continuously.

Scrambled messages to the Wireless Ignition Node (WIN) from the transmitter.

Note. The most probable cause that sets this code is the FOBIK transmitter being pressed over 1024 times when it is out of range of the Wireless Ignition Node and it loses synchronization with the rolling code of the WIN. To correct, insert the FOBIK in the ignition and turn to the on position to synchronize the rolling code.

Possible Causes
EXCESSIVE PRESSES FROM TRANSMITTER WHEN OUT OF RANGE
FOBIK TRANSMITTER

B1A0E-RKE FOB 7 PERFORMANCE

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

Continuously.

Scrambled messages to the Wireless Ignition Node (WIN) from the transmitter.

Note. The most probable cause that sets this code is the FOBIK transmitter being pressed over 1024 times when it is out of range of the Wireless Ignition Node and it loses synchronization with the rolling code of the WIN. To correct, insert the FOBIK in the ignition and turn to the on position to synchronize the rolling code.

Possible Causes
EXCESSIVE PRESSES FROM TRANSMITTER WHEN OUT OF RANGE
FOBIK TRANSMITTER

B1A0F-RKE FOB 8 PERFORMANCE

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

Continuously.

Scrambled messages to the Wireless Ignition Node (WIN) from the transmitter.

Note. The most probable cause that sets this code is the FOBIK transmitter being pressed over 1024 times when it is out of range of the Wireless Ignition Node and it loses synchronization with the rolling code of the WIN. To correct, insert the FOBIK in the ignition and turn to the on position to synchronize the rolling code.

Possible Causes
EXCESSIVE PRESSES FROM TRANSMITTER WHEN OUT OF RANGE
FOBIK TRANSMITTER

B1A10-RKE FOB 1 BATTERY LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During key interrogation and when a valid RKE transmission is read.

If the battery in the Fob-Integrated-Key (FOBIK) is low during key interrogation, with a valid key, this code will set. It may also set during a valid RKE button press.

Possible Causes
LOW BATTERY
FOBIK TRANSMITTER

B1A11-RKE FOB 2 BATTERY LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During key interrogation and when a valid RKE transmission is read.

If the battery in the Fob-Integrated-Key (FOBIK) is low during key interrogation, with a valid key, this code will set. It may also set during a valid RKE button press.

Possible Causes
LOW BATTERY
FOBIK TRANSMITTER

B1A12-RKE FOB 3 BATTERY LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During key interrogation and when a valid RKE transmission is read.

If the battery in the Fob-Integrated-Key (FOBIK) is low during key interrogation, with a valid key, this code will set. It may also set during a valid RKE button press.

Possible Causes
LOW BATTERY
FOBIK TRANSMITTER

B1A13-RKE FOB 4 BATTERY LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During key interrogation and when a valid RKE transmission is read.

If the battery in the Fob-Integrated-Key (FOBIK) is low during key interrogation, with a valid key, this code will set. It may also set during a valid RKE button press.

Possible Causes
LOW BATTERY
FOBIK TRANSMITTER

B1A14-RKE FOB 5 BATTERY LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During key interrogation and when a valid RKE transmission is read.

If the battery in the Fob-Integrated-Key (FOBIK) is low during key interrogation, with a valid key, this code will set. It may also set during a valid RKE button press.

Possible Causes
LOW BATTERY
FOBIK TRANSMITTER

B1A15-RKE FOB 6 BATTERY LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During key interrogation and when a valid RKE transmission is read.

If the battery in the Fob-Integrated-Key (FOBIK) is low during key interrogation, with a valid key, this code will set. It may also set during a valid RKE button press.

Possible Causes
LOW BATTERY
FOBIK TRANSMITTER

B1A16-RKE FOB 7 BATTERY LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During key interrogation and when a valid RKE transmission is read.

If the battery in the Fob-Integrated-Key (FOBIK) is low during key interrogation, with a valid key, this code will set. It may also set during a valid RKE button press.

Possible Causes
LOW BATTERY
FOBIK TRANSMITTER

B1A17-RKE FOB 8 BATTERY LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During key interrogation and when a valid RKE transmission is read.

If the battery in the Fob-Integrated-Key (FOBIK) is low during key interrogation, with a valid key, this code will set. It may also set during a valid RKE button press.

Possible Causes
LOW BATTERY
FOBIK TRANSMITTER

B1A24-KEY NOT PROGRAMMED

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During interrogation, the FOBIK sends a low frequency (LF) signal to the WIN that includes the FOBIK identification information.

This DTC sets if the WIN receives the default, secret key status from a FOBIK. Once set, this DTC will remain active until a valid, programmed FOBIK is inserted in the basestation and rotated through the ON position.

Possible Causes
FOBIK
WIRELESS IGNITION NODE (WIN)

Always perform the Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

B1A25-INVALID KEY

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During interrogation, the FOBIK sends a low frequency (LF) signal to the WIN that includes the inserted FOBIK ID.

This DTC sets if the WIN receives an ID from the FOBIK that does not match any of the eight possible FOBIK IDs currently programmed in the WIN. This DTC will remain active until a valid, programmed FOBIK is inserted in the basestation and rotated through the ON position.

Possible Causes
FOBIK
WIRELESS IGNITION NODE (WIN)

Always perform the Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

B1A26-MAXIMUM NUMBER OF KEYS PROGRAMMED

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

When the WIN is placed into FOBIK programming mode, the module references the number of unique FOBIK identifications stored in its memory.

In the event the WIN detects the user is attempting to program a 9th FOBIK, this DTC will be set as active.

Possible Causes
MAXIMUM NUMBER OF FOBIKS (8) HAVE BEEN PROGRAMMED
WIRELESS IGNITION NODE (WIN)

Always perform the Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

B1A27-SKREEM PROGRAMMING PERFORMANCE

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During FOBIK programming mode when the FOBIK and the WIN module are communicating over LF (low frequency) communication.

The WIN will set this DTC if one or more of the three FOBIK transmissions, during FOBIK programming, failed to be properly received by the WIN. The FOBIK may still get programmed because the transmission was successful on one of the other attempts.

Possible Causes
FOBIK
WIRELESS IGNITION NODE (WIN)

Always perform the Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

Note. All FOBIKs programmed to this vehicle should be present before continuing.

B1A28-ECM MISMATCH WITH SKIM

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

Whenever a valid FOBIK is inserted in the basestation and turned to the ON position, the WIN/PCM handshake takes place. The WIN validates that the message is sent to, and received by the PCM.

When a valid FOBIK is used and the WIN receives a mismatching cryptology code from the PCM as part of the routine, the WIN will send the command to flash the Security warning lamp and set this DTC as active. The engine will not start and the DTC will remain active until the WIN and PCM complete a successful handshake.

Possible Causes
WIRELESS IGNITION NODE (WIN)
POWERTRAIN CONTROL MODULE (PCM)

Always perform the Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

B1A29-SKIM BASESTATION MISMATCH

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

Whenever a FOBIK is inserted in the basestation, the WIN determines its validity status. If determined valid, the WIN allows rotation to the ON position and the WIN/PCM handshake takes place.

When an invalid FOBIK is used and the WIN receives a mismatching or no secret key data from the FOBIK, the WIN will send the command to illuminate the Security warning lamp, send an invalid key status in the handshake with the PCM, and set this DTC as active. The "B1A28 ECM/PCM Mismatch with SKIM" DTC will probably be accompanied along with this B1A29.

Possible Causes
WIRELESS IGNITION NODE (WIN)
FOBIK

Always perform the WIN Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

Note. When diagnosing any WIN system DTCs, all FOBIK used on the vehicle should be present.

B1A35-UNIDENTIFIED KEY COMMUNICATION ERROR

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During interrogation, the FOBIK sends an LF (Low frequency) signal to the WIN that includes the programmed FOBIK ID.

This Diagnostic Trouble Code (DTC) sets if a FOBIK is inserted in the WIN basestation but the WIN does not receive or is unable to read an ID from the FOBIK. This DTC will remain active until a valid programmed FOBIK is inserted in the WIN and its ID is received.

Possible Causes
FOBIK
WIRELESS IGNITION NODE (WIN)

Always perform the Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

B1A6C-SECRET KEY MISMATCH

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During interrogation, the FOBIK sends a low frequency (LF) signal to the WIN that includes the current secret key.

This Diagnostic Trouble Code (DTC) sets if the WIN receives a secret key ID from the FOBIK that is not the correct secret key value stored in the WIN. This DTC will remain active until a valid, programmed FOBIK, with the correct secret key is inserted in the basestation and rotated through the ON position.

Possible Causes
FOBIK
WIRELESS IGNITION NODE (WIN)

Always perform the Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

B1A77- REMOTE START ANTENNA CIRCUIT LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

With the ignition on. Remote start present and configured.

Short to ground detected on the Remote Start Antenna.

Possible Causes
REMOTE START ANTENNA
WIRELESS IGNITION NODE (WIN)

Always perform the Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

B1A79- REMOTE START ANTENNA CIRCUIT OPEN OR NOT CONNECTED

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

With the ignition on. Remote start present and configured.

No Remote Start Antenna detected by the Wireless Ignition Node (WIN).

Possible Causes
REMOTE START ANTENNA NOT CONNECTED
REMOTE START ANTENNA
WIRELESS IGNITION NODE (WIN)

B210A-SYSTEM VOLTAGE LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

At all times.

This is a CAN message that the battery voltage was below 10.0 volts for over 15 seconds.

POSSIBLE CAUSES
LOW SYSTEM VOLTAGE
BATTERY OR CHARGING SYSTEM

B210B-SYSTEM VOLTAGE HIGH

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

At all times.

This is a CAN message that the system voltage was above 16.0 volts for over 15 seconds.

POSSIBLE CAUSES
HIGH BATTERY SYSTEM VOLTAGE
CHARGING SYSTEM

B210D-BATTERY VOLTAGE LOW

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

With the ignition switch on.

The Wireless Ignition Node (WIN) has detected the Fused (B+) input voltage was below 10.5 volts for over 15 seconds except during cranking or when the FOBIK removal inhibit feature is engaged.

Possible Causes
RESISTANCE IN THE BATTERY POSITIVE CIRCUIT
RESISTANCE IN THE GENERATOR CASE GROUND
GENERATOR OPERATION
(K20) GENERATOR FIELD CONTROL CIRCUIT OPEN
(K20) GENERATOR FIELD CONTROL CIRCUIT SHORTED TO GROUND
(Z912) GROUND CIRCUIT RESISTED
(A106) FUSED (B+) CIRCUIT RESISTED
POWERTRAIN CONTROL MODULE (PCM)
WIRELESS IGNITION NODE (WIN)

Scheme 41

Scheme 41: DIAGNOSTIC TEST
  1. CHECK PCM FOR CHARGING SYSTEM DTCs NOTE: Make sure the battery is fully charged before proceeding. With a scan tool, read the Powertrain Control Module (PCM) DTCs. Are there any Charging or Starting System DTCs set in the PCM? Yes Refer to «DIAGNOSTIC CODE INDEX»(ref-466007) and perform the appropriate diagnostic procedure. No Go To 2 .
  2. VERIFY THAT DTC B210D-BATTERY VOLTAGE LOW IS ACTIVE With the scan tool, record and erase the DTCs. Cycle the ignition switch to the OFF position then start the engine and let run for one minute. With the scan tool, read the WIN active DTCs. Does the scan tool display: B210D-BATTERY VOLTAGE LOW active? Yes Go To 3 . No Test complete, the condition or conditions that originally set this DTC are not present at this time. Using the wiring diagrams as a guide, check all related splices and connectors for signs of water intrusion, corrosion, pushed out or bent terminals and poor pin fit. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST.
  3. (A106) FUSED (B+) CIRCUIT OR (Z912) GROUND CIRCUIT HAS HIGH RESISTANCE NOTE: Check the related fuses to the Fused (B+) circuit. If the fuse is found to be open, repair the circuit for a shorted condition. Turn the ignition off. Disconnect the WIN harness connector. Turn the ignition on. Using a 12-volt test light, connect it between the (A106) Fused (B+) circuit and the (Z912) Ground circuit in the WIN harness connector. The test light must illuminate brightly. Compare the brightness to that of a direct connection to the battery. Is the test light as bright at the module as it is at the battery? Yes Replace and program the Wireless Ignition Node (WIN) in accordance with the Service Information. Refer to «RECEIVER, WIRELESS IGNITION NODE , REMOVAL»(ref-465939-S00176466422012042300000) . Refer to «STANDARD PROCEDURE»(ref-465979-S32701532692012042300000) and perform the WIN VERIFICATION TEST. No Test the (A106) Fused B(+) circuit and the Ground circuit to determine which one has the high resistance. Repair the Fused B(+) circuit or the Ground circuit for high resistance. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST.

B210E-BATTERY VOLTAGE HIGH

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

With the ignition switch on.

The Wireless Ignition Node (WIN) has detected the Fused (B+) input voltage to be above 15.5 volts for over 15 seconds.

Possible Causes
(K20) GENERATOR FIELD CONTROL CIRCUIT SHORTED TO BATTERY VOLTAGE
(Z912) GROUND CIRCUIT RESISTED
GENERATOR
POWERTRAIN CONTROL MODULE (PCM)
WIRELESS IGNITION NODE (WIN)

The WIN checks the feature configuration at power up during the initialization process, and continuously through the ignition cycle.

This DTC sets when the WIN detects a mismatch of Model Year, vehicle line, body style or market country between the current vehicle configuration of the module and the information sent out on the CAN bus. Once set, this DTC is latched for the entire ignition cycle.

Possible Causes
WIRELESS IGNITION NODE

Always perform the Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

The WIN monitors the VIN broadcast on the CAN C bus three times, when the ignition is turned to the RUN position. When the full VIN has been received by the WIN, all further broadcasts of the VIN are ignored for that ignition cycle.

When the VIN received from the CAN C bus does not match the VIN stored in the memory of the Wireless Ignition Node, the WIN will send the command to flash the Security warning lamp and set this DTC as active and the vehicle will immobilize. The DTC will remain active until a VIN matching the one stored in WIN memory is received by the module from the bus.

Possible Causes
WIRELESS IGNITION NODE (WIN)
POWERTRAIN CONTROL MODULE (PCM)

Always perform the Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

With the ignition on.

This DTC is set when the internal initialization state machine is set to FAIL or the (D508) LIN Bus circuit is shorted.

Possible Causes
(D508) LIN BUS CIRCUIT SHORTED TO GROUND
(D508) LIN BUS CIRCUIT SHORTED TO VOLTAGE
WINDSHIELD
WIRELESS IGNITION NODE (WIN)
RAIN SENSING MODULE (RSM)

Scheme 42

Scheme 42: DIAGNOSTIC TEST

Scheme 43

Scheme 43
  1. CHECK FOR DELAMINATION ON THE WINDSHIELD Check the contact surface of the Rain Sensing Module to the windshield for delamination (this will resemble air bubbles in the contact area). Refer to «DIAGNOSIS AND TESTING»(ref-465980-S36448220212012042300000) . Is delamination present on the windshield? Yes Replace the windshield in accordance with the Service Information Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST. No Go To 2 .
  2. TEST FOR INTERMITTENT CONDITION Turn the ignition on. With the scan tool, erase the DTCs. Cycle the ignition from on to off three times. Turn the ignition on and wait 30 seconds. With the scan tool, read the DTCs. NOTE: If the D508 LIN Bus circuit is shorted to Ground or Battery voltage, this code may appear as Stored and when erased may return as Stored. Does the scan tool display: B2211-RAIN SENSOR MODULE INITIALIZATION PERFORMANCE either Active or Stored? Yes Go To 3 . No Refer to «STANDARD PROCEDURE»(ref-465979-S32701532692012042300000) and perform the WIRELESS IGNITION NODE (WIN) INTERMITTENT TEST.
  3. (D508) LIN BUS CIRCUIT SHORTED TO GROUND Turn the ignition off. Disconnect the Rain Sensor harness connector. Measure the resistance between ground and the (D508) LIN Bus circuit in the rain sensor connector. Is the resistance below 20, 000 Ohms? Yes Go To 5 . No Go To 4 .
  4. (D508) LIN BUS CIRCUIT SHORTED TO BATTERY Turn the ignition on. Measure the voltage between the (D508) LIN Bus circuit and ground. NOTE: The voltage should fluctuate between approximately 7.0 and 9.8 volts. Is the voltage above 10.0 volts? Yes Go To 6 . No Replace the Rain Sensor in accordance with the Service Information. Replace and program the Rain Sensor. Refer to «MODULE, LIGHT RAIN SENSOR (LRSM) , REMOVAL»(ref-465980-S02010436822012042300000) . Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST.
  5. (D508) LIN BUS WIRE SHORTED TO GROUND Disconnect the Wireless Ignition Node (WIN) harness connector. Measure the resistance between ground and the (D508) LIN Bus circuit in the rain sensor connector. Is the resistance below 20, 000 Ohms? Yes Repair the (D508) LIN Bus circuit for a short to ground. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST. No Replace the Rain Sensor in accordance with the Service Information. Replace and program the Rain Sensor. Refer to «MODULE, LIGHT RAIN SENSOR (LRSM) , REMOVAL»(ref-465980-S02010436822012042300000) . Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST.
  6. (D508) LIN BUS WIRE SHORTED TO BATTERY Turn the ignition off. Disconnect the Wireless Ignition Node (WIN) harness connector. Turn the ignition on. Measure the voltage between the (D508) LIN Bus circuit and ground. Is there any voltage present? Yes Repair the LIN Bus wire for a short to voltage. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST. No Replace and program the Wireless Ignition Node (WIN) in accordance with the Service Information. Refer to «RECEIVER, WIRELESS IGNITION NODE , REMOVAL»(ref-465939-S00176466422012042300000) . Refer to «STANDARD PROCEDURE»(ref-465979-S32701532692012042300000) and perform the WIN VERIFICATION TEST.

B221D-RAIN SENSOR MODULE INTERNAL

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

With the ignition on.

The Rain Sensing Module detects an internal failure.

Possible Causes
RAIN SENSING MODULE

During key insertion and removal and at module power up.

When the internal memory is corrupted. This DTC can also set if the vehicle is equipped with a Steering Column Lock module (BUX). If after any three consecutive unsuccessful Steering Column Lock and/or Unlock (ELV) attempts, which could be caused by an encoded data mismatch or the bolt did not reach the intended position when requested.

Possible Causes
WIRELESS IGNITION NODE (WIN)

Continuously.

A low pressure condition will exist when the tire pressure falls below or is equal to the low pressure threshold value as specified for the vehicle.

Possible Causes
INCORRECT TIRE PRESSURE
INCORRECT PLACARD VALUES
TIRE PRESSURE MONITORING (TPM) SENSOR
WIRELESS IGNITION NODE (WIN)

With vehicle speed greater than 24 km/h (15 mph).

The Wireless Ignition Node (WIN) will monitor the signals from the four active road tire sensors. A loss of signal error is detected when eight consecutive blocks of data are not received or cannot be accurately decoded. An internal sensor hardware error condition will be set when an error in the accelerometer, pressure sensor, or temperature sensor is detected.

Possible Causes
INCORRECT SENSORS
TIRE PRESSURE MONITORING (TPM) SENSOR
WIRELESS IGNITION NODE (WIN)

With vehicle speed greater than 24 km/h (15 mph).

The Wireless Ignition Node (WIN) will monitor the signals from the four active road tire sensors. A loss of signal error is detected when eight consecutive blocks of data are not received or cannot be accurately decoded. An internal sensor hardware error condition will be set when an error in the accelerometer, pressure sensor, or temperature sensor is detected.

Possible Causes
INCORRECT SENSORS
TIRE PRESSURE MONITORING (TPM) SENSOR
WIRELESS IGNITION NODE (WIN)

With vehicle speed greater than 24 km/h (15 mph).

The Wireless Ignition Node (WIN) will monitor the signals from the four active road tire sensors. A loss of signal error is detected when eight consecutive blocks of data are not received or cannot be accurately decoded. An internal sensor hardware error condition will be set when an error in the accelerometer, pressure sensor, or temperature sensor is detected.

Possible Causes
INCORRECT SENSORS
TIRE PRESSURE MONITORING (TPM) SENSOR
WIRELESS IGNITION NODE (WIN)

With vehicle speed greater than 15 m.p.h. (24 km/h).

The Wireless Ignition Node (WIN) will monitor the signals from the four active road tire sensors. A loss of signal error is detected when eight consecutive blocks of data are not received or cannot be accurately decoded. An internal sensor hardware error condition will be set when an error in the accelerometer, pressure sensor, or temperature sensor is detected.

Possible Causes
INCORRECT SENSORS
TIRE PRESSURE MONITORING (TPM) SENSOR
WIRELESS IGNITION NODE (WIN)

C151C-TIRE PRESSURE MONITORING (TPM) SENSORS MISSING

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

During vehicle TPM Sensor ID locate process.

When installing a new Wireless Ignition Node (WIN).

Possible Causes
INCORRECT TIRE PRESSURE MONITORING (TPM) SENSOR ID(S)
TIRE PRESSURE MONITORING (TPM) SENSOR
WIRELESS IGNITION NODE (WIN)

Continuously with the ignition on.

The Diagnostic Trouble Code (DTC) will set if the WIN detects a short to ground, open or disconnected (K321) BTSI Control circuit, for more than 10 seconds.

Possible Causes
ENGINE BRAKE DTCS PRESENT
(K321) BRAKE TRANSMISSION SHIFT INTERLOCK (BTSI) CONTROL CIRCUIT SHORTED TO GROUND
(K321) BTSI CONTROL CIRCUIT OPEN
(K321) BTSI CONTROL CIRCUIT SHORTED TO VOLTAGE
SHIFTER LEVER ASSEMBLY
WIRELESS IGNITION NODE (WIN)

Always perform the NAG1 Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to STANDARD PROCEDURE .

Scheme 44

Scheme 44: DIAGNOSTIC TEST

Scheme 45

Scheme 45

Scheme 46

Scheme 46

Scheme 47

Scheme 47
  1. ENGINE DTCS PRESENT With the scan tool, read the PCM DTCs. Are there any Powertrain Control Module (PCM) brake related DTCs present? Yes Refer to «DIAGNOSTIC CODE INDEX»(ref-466007) and perform the appropriate diagnostic procedure. No Go To 2 .
  2. CHECK THE (K321) BTSI CONTROL CIRCUIT Turn the ignition off to the lock position. Disconnect the Shifter Lever Assembly harness connector. NOTE: Check connectors - Clean/repair as necessary. Turn the ignition on, engine not running. Using a 12-volt test light connected to ground, check the (K321) BTSI Control circuit in the Shifter Lever Assembly connector. With the scan tool under WIN, actuate the BTSI. Does the test light illuminate brightly on and off while cycling the (K321) BTSI Control circuit? Yes Replace the Shifter Lever Assembly in accordance with the Service Information. Refer to «SHIFTER, TRANSMISSION , REMOVAL»(ref-465982-S33736510492012042300000) . Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST. No Go To 3 .
  3. (K321) BTSI CONTROL CIRCUIT SHORTED TO GROUND Turn the ignition off to the lock position. Disconnect the WIN harness connector. NOTE: Check connectors - Clean/repair as necessary. Measure the resistance between ground and the (K321) BTSI Control circuit in the Shifter Lever harness connector. Measure the resistance between ground and the (K321) BTSI Control circuit in the WIN harness connector. Is the resistance below 10K Ohms in either connector? Yes Repair the (K321) BTSI Control circuit for a short to ground. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST. No Go To 4 .
  4. (K321) BTSI CONTROL CIRCUIT OPEN Measure the resistance of the (K321) BTSI Control circuit between the Shifter Lever Assembly harness connector and the WIN harness connector. Is the resistance above 2.0 Ohms? Yes Repair the (K321) BTSI Control circuit for an open. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST. No Go To 5 .
  5. (K321) BTSI CONTROL CIRCUIT SHORTED TO VOLTAGE Turn the ignition on. Measure the voltage between ground and the (K321) BTSI Control circuit. Is there any voltage present? Yes Repair the (K321) BTSI Control circuit for a short to voltage. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST. No Replace and program the Wireless Ignition Node (WIN) in accordance with the Service Information. Refer to «RECEIVER, WIRELESS IGNITION NODE , REMOVAL»(ref-465939-S00176466422012042300000) . Refer to «STANDARD PROCEDURE»(ref-465979-S32701532692012042300000) and perform the WIN VERIFICATION TEST.

With the ignition on.

Whenever the CAN C Bus (+) or CAN C Bus (-) circuit is open, shorted to voltage or shorted to ground.

Possible Causes
CAN C BUS CIRCUITS OPEN OR SHORTED
DIAGNOSTIC TROUBLE CODES (DTC) RELATED TO BATTERY VOLTAGE, IGNITION, OR VIN MESSAGES PRESENT
TOTALLY INTEGRATED POWER MODULE (TIPM) NOT CONFIGURED CORRECTLY
TOTALLY INTEGRATED POWER MODULE (TIPM) POWER AND GROUND
TOTALLY INTEGRATED POWER MODULE (TIPM)
ANY CAN C MODULE SHORTED

Continuously when the ignition is on.

The module detects a short to ground, voltage or an open circuit on the Com-LIN Tire Pressure Monitor Lan (LIN Bus) circuit.

Possible Causes
(D508) COM-LIN TIRE PRESSURE MONITOR LAN (LIN BUS) CIRCUIT SHORTED TO THE (Z912) GROUND CIRCUIT
(D508) LIN BUS CIRCUIT SHORTED TO VOLTAGE
(D508) LIN BUS CIRCUIT OPEN
RAIN SENSOR
WIRELESS IGNITION NODE (WIN)

Scheme 48

Scheme 48: DIAGNOSTIC TEST

Scheme 49

Scheme 49

Scheme 50

Scheme 50

Scheme 51

Scheme 51
  1. VERIFY DTC IS ACTIVE Turn the ignition on. With the scan tool, record and erase the Wireless Ignition Node (WIN) DTCs. Cycle the ignition from on to off to on three times. Wait 30 seconds. With the scan tool, read the active Wireless Ignition Node (WIN) DTCs. Does the scan tool display: U0037-LIN BUS as active? Yes Go To 2 . No Test complete, the condition or conditions that originally set this DTC are not present at this time. Using the wiring diagrams as a guide, check all related splices and connectors for signs of water intrusion, corrosion, pushed out or bent terminals and poor pin fit. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST.
  2. CHECK THE RAIN SENSOR Turn the ignition off. Disconnect the Rain Sensor harness connector. Turn the ignition on. With the scan tool, erase the Wireless Ignition Node (WIN) DTCs. Cycle the ignition from on to off to on three times. Wait 30 seconds. With the scan tool, read the active Wireless Ignition Node (WIN) DTCs. Does the scan tool display active: U0037-LIN BUS? yes Go To 3 . No Replace the Rain Sensor in accordance with the Service Information. Refer to «MODULE, LIGHT RAIN SENSOR (LRSM) , REMOVAL»(ref-465980-S02010436822012042300000) . Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST.
  3. (D508) LIN BUS CIRCUIT SHORTED TO THE (Z912) GROUND CIRCUIT Turn the ignition off. Disconnect the Wireless Ignition Node harness connector. Measure the resistance between the (D508) LIN Bus circuit and the (Z912) Ground circuit in the WIN connector. Is the resistance below 10K Ohms? Yes Repair the (D508) LIN Bus circuit for a short to the (Z912) Ground circuit. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST. No Go To 4 .
  4. (D508) LIN BUS CIRCUIT SHORTED TO VOLTAGE Turn the ignition on. Measure the voltage between ground and the (D508) LIN Bus circuit in the WIN connector. Is there any voltage present? Yes Repair the short to voltage in the (D508) LIN Bus circuit. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST. No Go To 5 .
  5. (D508) LIN BUS CIRCUIT OPEN Turn the ignition off. Measure the resistance of the (D508) LIN Bus circuit between the WIN connector and the Rain Sensor connector. Is the resistance below 5.0 Ohms? Yes Replace and program the Wireless Ignition Node (WIN) in accordance with the Service Information. Refer to «RECEIVER, WIRELESS IGNITION NODE , REMOVAL»(ref-465939-S00176466422012042300000) . Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST. No Repair the open in the (D508) LIN Bus circuit. Refer to «STANDARD PROCEDURE»(ref-465979-S32701532692012042300000) and perform the WIN VERIFICATION TEST.

Ignition run time is greater than one second.

Battery voltage between 9 and 16 volts.

Engine run time greater than three seconds.

Bus messages not received from the Powertrain Control Module (PCM/ECM) for approximately two to five seconds.

Possible Causes
CAN BUS CIRCUITS OPEN OR SHORTED
DTCS RELATED TO BATTERY VOLTAGE, IGNITION, OR VIN MESSAGES
POWERTRAIN CONTROL MODULE POWER AND GROUND
TIPM NOT CONFIGURED CORRECTLY
POWERTRAIN CONTROL MODULE (PCM/ECM)
MODULE THAT SET THIS DTC

Ignition run time is greater than one second.

Battery voltage between 9 and 16 volts.

Engine run time greater than three seconds.

Bus messages not received from the Anti Lock Brake Module (ABS) for approximately two to five seconds.

Possible Causes
CAN BUS CIRCUITS OPEN OR SHORTED
ABS MODULE
DTCS RELATED TO BATTERY VOLTAGE, IGNITION, OR VIN MESSAGES
TOTALLY INTEGRATED POWER MODULE POWER AND GROUND
TIPM NOT CONFIGURED CORRECTLY
TOTALLY INTEGRATED POWER MODULE (TIPM)
MODULE THAT SET THIS DTC

Continuously when the ignition is on.

The battery voltage between 10.0 and 16.0 Volts.

Ignition Off Draw (IOD) fuse installed.

Totally Integrated Power Module (TIPM) is configured correctly.

Bus messages not received from the Totally Integrated Power Module (TIPM) for approximately two to five seconds.

Possible Causes
CAN BUS CIRCUITS OPEN OR SHORTED
DTCS RELATED TO BATTERY VOLTAGE, IGNITION, OR VIN MESSAGES
TOTALLY INTEGRATED POWER MODULE POWER AND GROUND
TIPM NOT CONFIGURED CORRECTLY
TOTALLY INTEGRATED POWER MODULE (TIPM)
MODULE THAT SET THIS DTC

Continuously when the ignition is on.

Ignition Off Draw (IOD) fused installed.

Bus messages not received from the Rain Sensing Module for approximately two to five seconds.

Possible Causes
(F981) FUSED IGNITION SWITCH OUTPUT OPEN
(Z919) GROUND CIRCUIT OPEN
(D508) COM-LIN TIRE PRESSURE MONITOR LAN CIRCUIT OPEN
RAIN SENSOR MODULE
WIRELESS IGNITION NODE (WIN)

Scheme 52

Scheme 52: DIAGNOSTIC TEST

Scheme 53

Scheme 53

Scheme 54

Scheme 54

Scheme 55

Scheme 55
  1. VERIFY DTC IS ACTIVE NOTE: Make sure the IOD fuse is installed and the battery is fully charged before proceeding. With the scan tool, record and erase the WIN DTCs. Cycle the ignition switch from on to off three times then back to on. Start the engine and run for two minutes. With the scan tool, read the active WIN DTCs. Does the scan tool display: U0231-LOST COMMUNICATION WITH LIGHT RAIN SENSING MODULE? Yes Go To 2 . No Refer to «DIAGNOSIS AND TESTING»(ref-465945-S21111524872012042300000) and perform the Stored Lost Communication DTCs diagnostic procedure.
  2. (F981) FUSED IGNITION SWITCH OUTPUT OPEN NOTE: Be sure the battery is fully charged before proceeding. Turn the ignition off. Disconnect the Rain Sensor harness connector. Turn the ignition on. Measure the voltage between ground and the (F981) Fused Ignition Switch Output circuit in the Rain Sensor harness connector. Is the voltage above 12.0 volts? Yes Go To 3 . No Repair the (F981) Fused Ignition Switch Output circuit for an open. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST.
  3. (Z919) GROUND CIRCUIT OPEN Using the a 12 volt test light connected to 12 volts, check the (Z919) Ground circuit. NOTE: The test light must illuminate brightly. Compare the brightness to that of a direct connection to the battery. Does the test light illuminate brightly? Yes Go To 4 . No Repair the (Z919) Ground circuit for an open. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST.
  4. CHECK THE VOLTAGE OF THE (D508) COM-LIN TIRE PRESSURE MONITOR LANCIRCUIT Measure the voltage between the (D508) COM-Lin Tire Pressure Monitor LAN circuit and ground in the Rain Sensor connector. Is the voltage below 7.0 volts? Yes Go To 5 . No Replace the Rain Sensor in accordance with the Service Information. Refer to «MODULE, LIGHT RAIN SENSOR (LRSM) , REMOVAL»(ref-465980-S02010436822012042300000) . Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST.
  5. (D508) COM-LIN TIRE PRESSURE MONITOR LAN CIRCUIT OPEN Turn the ignition off. Disconnect the WIN Module harness connector. Measure the resistance of the (D508) COM-Lin Tire Pressure Monitor LAN circuit between the WIN Module harness connector and the Rain Sensor harness connector. Is the resistance below 2.0 Ohms? Yes Replace and program the Wireless Ignition Node (WIN) in accordance with the Service Information. Refer to «RECEIVER, WIRELESS IGNITION NODE , REMOVAL»(ref-465939-S00176466422012042300000) . Refer to «STANDARD PROCEDURE»(ref-465979-S32701532692012042300000) and perform the WIN VERIFICATION TEST. No Repair the (D508) COM-Lin Tire Pressure Monitor LAN circuit for an open. Refer to «STANDARD PROCEDURE»(ref-465990-S29694203322012042300000) and perform the BODY VERIFICATION TEST.

Whenever a FOBIK is rotated to the Run position.

This DTC sets if the WIN does not receive a CAN Bus message from the ECM/PCM. This code will set on the 20th start attempt.

Possible Causes
PCM PROGRAMMING

WIRELESS IGNITION NODE (WIN) VERIFICATION

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .

Perform the following after completion of a diagnostic repair

Note. When entering the Personal Identification Number (PIN), care should be taken because the WIN will only allow three consecutive attempts to enter the correct PIN. If three consecutive incorrect PINs are entered the WIN will Lock Out the scan tool. To exit Lock Mode, the ignition key must remain in the Run position for one hour. All accessories must be off. A battery charger connected to the battery during this time period is recommended.

Note. On vehicles equipped with a Base Tire Pressure Monitoring (TPM) system, when the WIN and/or the spare tire pressure sensor is replaced with a new unit, a diagnostic scan tool MUST be used to run a routine that allows the WIN to be programmed with the ID number and location of the spare tire pressure sensor mounted in the wheel of the spare tire. Follow the programming steps outlined in the diagnostic scan tool for "Learn Spare Tire Sensor ID" under "Miscellaneous Functions" for the "WIN" menu item as appropriate. In addition, if the WIN is replaced, the spare tire must be dismounted from its wheel to access and note the ID number on the spare tire pressure sensor so that the ID code for that sensor can be programmed into the new WIN.

  1. Reconnect the previously disconnected components and connectors.
  2. Obtain the vehicle's unique Personal Identification Number (PIN) assigned to it's original WIN. This number can be obtained from the original vehicle invoice or from your Service Manager or Parts Manager.

Note. If the Powertrain Control Module (PCM) and the WIN are replaced at the same time, program the PCM VIN into the PCM first.

Note. The PCM stores the secret key information. If the WIN ever needs to be replaced, the secret key information can be retrieved from the PCM and then transferred to the WIN for security use.

During PCM/ECM replacement, use the following steps to verify the transfer of the secret key information from the WIN to the new PCM

  1. If the PCM is to be replaced, first, replace the PCM/ECM with the original WIN still connected to the vehicle. If the PCM is not being replaced, go to 3 .
  2. Using the appropriate Service Information to program the new PCM/ECM. (This will verify the Secret Key Transfer from the original WIN into the new PCM/ECM).
  3. Now replace and program (WIN Replaced) the WIN (if necessary). This will cause the WIN to receive the Secret Key from the PCM/ECM back into the new WIN. NOTE: If this vehicle is equipped with a Steering Column Lock Module, it must be replaced along with the WIN. Whenever a WIN is replaced the Steering Wheel Lock Module MUST also be replaced.
  4. Using the scan tool, select Miscellaneous Functions, WIN. Then select the desired procedure and follow the display on the scan tool.
  5. If the vehicle is equipped with the Base Tire Pressure Monitoring System, program the Placard Pressure Values into the WIN.
  6. Make sure all the customer's keys have been programmed into the new module if necessary. NOTE: If the WIN module was replaced and the vehicle is equipped with the Passive Entry System (PEM), with the scan tool, perform the "PEM Replace" routine in the PEM after the FOBIKS have been programmed.
  7. Using the scan tool, erase all DTCs. Perform five ignition key cycles, leaving the key on for at least 90 seconds per cycle.
  8. Using the scan tool, read WIN DTCs.

TPM VERIFICATION

For a complete wiring diagram, refer to appropriate SYSTEM WIRING DIAGRAMS article .