Saturday, November 30, 2019

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 238

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 238



If the DTC is set, replace the appropriate K96L left mirror control module or the S79P passenger window switch.



Repair Instructions



Perform the Diagnostic Repair Verification (See: Verification Tests) after completing the diagnostic procedure.



Control Module References (See: Testing and Inspection/Programming and Relearning)for left mirror control module or passenger window switch



replacement, setup, and programming



B0158



DTC B0158



Diagnostic Instructions



* Perform the Diagnostic System Check - Vehicle (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic System



Check - Vehicle) prior to using this diagnostic procedure.



* Review Strategy Based Diagnosis (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Strategy Based Diagnosis) for an



overview of the diagnostic approach.



* Diagnostic Procedure Instructions (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic Procedure



Instructions) provides an overview of each diagnostic category.



DTC Descriptors



DTC B0158 02



- Ambient Air Temperature Sensor Circuit Short to Ground



DTC B0158 05



- Ambient Air Temperature Sensor Circuit High Voltage/Open



Diagnostic Fault Information



Circuit/System Description



The instrument cluster provides the ambient air temperature sensor with a low reference circuit and 5 V signal circuit. The instrument cluster



monitors the voltage drop across the sensor, which is proportional to temperature. When the ambient air temperatures are cold, the resistance of the



sensor is high and the voltage signals are high. When the ambient air temperatures are hot, the resistance of the sensors is low and the voltage



signals are low. The instrument cluster converts the voltage value to a temperature value of Celsius or Fahrenheit that will be displayed by the



driver information center.



Conditions for Running the DTC



The system voltage is between 9-16 V



Conditions for Setting the DTC



B0158 02



The instrument cluster detects the sensor signal circuit is greater than 88掳C (190掳F).



B0158 05



The instrument cluster detects the sensor signal circuit is less than -40掳C (-40掳F).



Action Taken When the DTC Sets



The instrument cluster uses a default air temperature value for further calculations. The driver information center displays ---掳C ( ---掳F).



Conditions for Clearing the DTC



The DTC will become history if the instrument cluster no longer detects a malfunction.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 999

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 999



Circuit/System Description



The turbocharger bypass solenoid valve is used to prevent the turbo from exceeding the pump limit at low flow and high pressure. This occurs



when the engine is running with a load and the throttle suddenly closes. In this case, flow is almost null and pressure is very high. This not only is



damaging to the turbocharger, but also generates noise and decelerates turbine speed. Ignition voltage is supplied directly to the bypass solenoid



valve and the engine control module (ECM) controls the valve by grounding the control circuit with a solid state device called a driver. The driver



is equipped with a feedback circuit that is pulled-up to a voltage. The ECM can determine if the control circuit is open, shorted to ground, or



shorted to a voltage by monitoring the feedback voltage.



Conditions for Running the DTC



* The engine speed is greater than 80 RPM.



* The ignition voltage is between 10-18 V.



* The ECM has commanded the bypass solenoid valve ON and OFF at least once during the ignition cycle.



* The DTCs run continuously once the above conditions are met.



Conditions for Setting the DTC



P0033



The ECM detects the bypass solenoid valve control circuit is open.



P0034



The ECM detects the bypass solenoid valve control circuit is shorted to ground.



P0035



The ECM detects the bypass solenoid valve control circuit is shorted to voltage.



Action Taken When the DTC Sets



DTC P0033, P0034, and P0035 are Type B DTCs.



Conditions for Clearing the DTC



DTC P0033, P0034, and P0035 are Type B DTCs.



Diagnostic Aids



If the condition is intermittent, move the related harnesses and connectors, with the engine operating, while monitoring the circuit status for the



component with a scan tool. The circuit status parameter changes from OK or Not Run to Malfunction if there is a condition with the circuit or a



connection.



Reference Information



Schematic Reference



Engine Controls Schematics (LAU) (See: Diagrams/Electrical Diagrams/Powertrain Management/System Diagram)Engine Controls Schematics



(LF1) (See: Diagrams/Electrical Diagrams/Powertrain Management/System Diagram)



Connector End View Reference



Component Connector End Views (See: Diagrams/Connector Views/Connector End Views By Name)



Description and Operation



Turbocharger System Description (See: Powertrain Management/Fuel Delivery and Air Induction/Turbocharger/Description and Operation)



Electrical Information Reference



* Circuit Testing (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Circuit



Testing/Circuit Testing)

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 69

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 69



* Perform the Diagnostic System Check - Vehicle (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic System



Check - Vehicle) prior to using this diagnostic procedure.



* Review Strategy Based Diagnosis (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Strategy Based Diagnosis) for an



overview of the diagnostic approach.



* Diagnostic Procedure Instructions (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic Procedure



Instructions) provides an overview of each diagnostic category.



DTC Descriptors



DTC B0014 01



- Driver Seat Side Air Bag Deployment Loop Short to Battery



DTC B0014 02



- Driver Seat Side Air Bag Deployment Loop Short to Ground



DTC B0014 04



- Driver Seat Side Air Bag Deployment Loop Open



DTC B0014 0D



- Driver Seat Side Air Bag Deployment Loop High Resistance



DTC B0014 0E



- Driver Seat Side Air Bag Deployment Loop Low Resistance



DTC B0015 01



- Driver Seat Belt Retractor Pretensioner Deployment Loop Short to Battery



DTC B0015 02



- Driver Seat Belt Retractor Pretensioner Deployment Loop Short to Ground



DTC B0015 04



- Driver Seat Belt Retractor Pretensioner Deployment Loop Open



DTC B0015 0D



- Driver Seat Belt Retractor Pretensioner Deployment Loop High Resistance



DTC B0015 0E



- Driver Seat Belt Retractor Pretensioner Deployment Loop Low Resistance



DTC B0016 01



- Left Roof Rail Air Bag Deployment Loop Short to Battery



DTC B0016 02



- Left Roof Rail Air Bag Deployment Loop Short to Ground



DTC B0016 04



- Left Roof Rail Air Bag Deployment Loop Open



DTC B0016 0D



- Left Roof Rail Air Bag Deployment Loop High Resistance



DTC B0016 0E



- Left Roof Rail Air Bag Deployment Loop Low Resistance



DTC B0019 01



- Passenger Instrument Panel Air Bag Deployment Loop Stage 1 Short to Battery



DTC B0019 02



- Passenger Instrument Panel Air Bag Deployment Loop Stage 1 Short to Ground



DTC B0019 04



- Passenger Instrument Panel Air Bag Deployment Loop Stage 1 Open



DTC B0019 0D



- Passenger Instrument Panel Air Bag Deployment Loop Stage 1 High Resistance



DTC B0019 0E



- Passenger Instrument Panel Air Bag Deployment Loop Stage 1 Low Resistance

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 11-06-04-007C Date: 121108

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 11-06-04-007C Date: 121108



Engine Controls - MIL ON/DTC P2135 Set



TECHNICAL



Bulletin No.: 11-06-04-007C



Date: November 08, 2012



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 14



Subject: Diagnosis and Repair - Malfunction Indicator Lamp (MIL) Illuminated, Reduced Engine Power Message Displayed, DTC P2135 Set



Models:



2008-2011 Cadillac Escalade Models



2009-2011 Cadillac Escalade Two-Mode Hybrid



2008-2009 Chevrolet TrailBlazer



2008-2011 Chevrolet Avalanche, Colorado, Express, Silverado, Suburban, Tahoe



2008-2011 Chevrolet Tahoe Two-Mode Hybrid



2009-2011 Chevrolet Silverado Two-Mode Hybrid



2008-2009 GMC Envoy



2008-2011 GMC Canyon, Savana, Sierra, Sierra Denali, Yukon Models



2008-2011 GMC Yukon Two-Mode Hybrid



2009-2011 GMC Sierra Two-Mode Hybrid



2008-2009 HUMMER H2



2008-2010 HUMMER H3



Equipped with Engine RPO LFA, LY2, L20, LMG, LC9, LH6, LMF, LH8, LH9, L76, LS2, LY5, LY6, L92, L96, LZ1, L94 or L9H



Attention:



If a vehicle is encountered with this condition, DO NOT replace the throttle body. Instead follow this procedure below. ALL Model Year



2008-2011 vehicles MUST have the engine control module (ECM) reprogrammed with the latest software calibration as indicated in Step 35 of the



procedure AFTER the installation of the throttle position (TP) sensor cover. ALL 2011 Model Year vehicles will receive the enhanced oil life



monitor (OLM) algorithm as part of the new ECM calibration. The enhanced OLM algorithm will provide a maximum mileage of 7,500 miles



(12,000 km) between oil changes.



Supercede:



This bulletin is being revised to add 2011 Model Year vehicles to the reprogramming statement in the Attention and to identify that the 2011 ECM



calibration includes the enhanced oil life monitor (OLM) algorithm that has a maximum of 7,500 miles (12,000 km) between oil changes. Please



discard Corporate Bulletin Number 11-06-04-007B (Section 06 - Engine/Propulsion System).



Condition



Some customers may comment on an illuminated malfunction indicator lamp (MIL), with a Reduced Engine Power message displayed.



The technician may observe on a scan tool DTC P2135: Throttle Position (TP) Sensor 1-2 Correlation set as Current or in History.



Cause



This condition may be caused by the difference between the TP Sensor 1 and TP Sensor 2 exceeding a calibrated value for more than 2 seconds.



Correction



Caution



Handle the electronic throttle control components carefully. Use cleanliness in order to prevent damage. Do not drop the electronic throttle



control components. Do not roughly handle the electronic throttle control components. Do not immerse the electronic throttle control



components in cleaning solvents of any type.



Warning



Approved safety glasses and gloves should be worn when performing this procedure to reduce the chance of personal injury.



1. With a scan tool, verify that DTC P2135 is set as Current or in History.



瀚慖f DTC P2135 is set as Current or in History, proceed to Step 2.



瀚慖f DTC P2135 is not set as Current or in History, refer to Diagnostic Trouble Code (DTC) List - Vehicle or Symptoms - Engine Controls



in SI.



2. Turn OFF the ignition.



3. Open the hood.



Important



If at any time during this procedure the throttle body is dropped, abort this procedure and REPLACE it with a new throttle body



assembly.



4. Remove the throttle body and discard the throttle body gasket. Refer to Throttle Body Assembly Replacement in SI.



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 15



5. Remove any loose debris and dirt from the throttle body assembly and the TP sensor cover. Inspect the throttle body for damage.



Caution



Do not use any solvent that contains Methyl Ethyl Ketone (MEK). This solvent may damage fuel system components.



6. Clean the throttle body bore and the throttle plate using a clean shop towel with GM Top Engine Cleaner, P/N 1052626 (in Canada, P/N



993026), or ACDelco Upper Engine and Fuel Injector Cleaner, P/N 88861803, or an equivalent product.



Notice



DO NOT mount the throttle body in a vise. The throttle body can be set on the top of a soft protected workbench area.



7. Hold the throttle body with your hand, so that the throttle position (TP) sensor cover is facing upward as shown.



8. Secure a rubber band around the throttle body and TP sensor cover as shown.



9. Turn over the throttle body and use a flathead screwdriver to remove the two clips (1, 2) as shown. Discard the clips.



Notice



DO NOT PRY ON THE MACHINED SEALING SURFACE OF THE THROTTLE BODY INLET DUCT.



10. Turn over the throttle body and use a flathead screwdriver to remove the four remaining clips from the TP sensor cover. Discard the clips.



11. Hold the throttle body with your hand, so that the TP sensor cover is facing upward. Grasp the TP sensor cover and carefully lift it up and



separate it from the throttle body.



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 16



Notice



DO NOT allow the intermediate gear to fall out.



12. Maintain the throttle body in an upward position. Use your thumb to maintain contact with the intermediate gear. => If the intermediate gear



falls out and impacts a hard workbench surface or the floor, abort this procedure and REPLACE with a new throttle body assembly.



13. Verify that the TP sensor cover gasket HAS REMAINED in the TP sensor cover as shown. Ensure that the gasket is accounted for and



remains with the old TP sensor cover.



14. Observe the TP sensor cover for missing female throttle actuator motor terminals (1). Verify that the female throttle actuator motor terminals



HAVE REMAINED in the TP sensor cover and HAVE NOT been retained on the throttle actuator motor male terminals (2). Discard the old



TP sensor cover, gasket and terminals.



瀚?If one or both of the TP sensor cover female throttle actuator motor terminals HAVE BEEN retained on the throttle actuator motor male



terminals (2), remove and discard those female terminals.



15. Remove the new TP sensor cover from the protective shipping wrapper.



16. Place the TP sensor cover in the position as shown. Confirm the TP sensor drive slot orientation is aligned in the TP sensor cover as shown.



瀚慖f the TP sensor drive slot orientation is not aligned as shown, use a small flathead screwdriver to gently rotate the TP sensor drive slot



clockwise to the wide open throttle (WOT) position as shown.



17. Verify that the TP sensor cover gasket is secure and properly positioned.



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 17



Notice



The three TP sensor cover alignment tabs are highlighted in white for identification purposes only.



18. Verify that all three of the TP sensor cover alignment tabs are present and are not damaged.



19. Grasp and hold the throttle body in the previously hand held upward position. Lightly depress the intermediate gear to verify that it is fully



seated and the gears are engaged.



20. Rotate the throttle body plate to the WOT position (1).



21. Position and install the TP sensor cover to the throttle body. Hold the TP sensor cover in position. If necessary for ease of the clip



installation, secure a rubber band around the throttle body and TP sensor cover.



22. Install the first TP sensor cover clip (1) in the position shown.



23. Install the remaining TP sensor cover clips in the sequence shown.



24. Install a NEW throttle body gasket to the intake manifold.



25. Install the throttle body, bolts and nuts. DO NOT tighten the fasteners yet.



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 18



26. Connect the electrical connector to the throttle body.



27. Turn ON the ignition. Clear the DTC with a scan tool.



28. Observe the scan tool TP Sensor 1 and 2 Agree/Disagree parameter while slowly depressing the accelerator pedal to WOT and then slowly



returning the pedal to closed throttle. Repeat the procedure several times. Rapidly depress the accelerator pedal from the rest position to the



wide open throttle position (WOT) and release pedal. Repeat the procedure several times. The TP Sensor 1 and 2 Agree/Disagree parameter



should display Agree.



瀚慖f TP Sensor 1 and 2 Agree/Disagree parameter displays Agree, proceed to Step 29.



瀚慖f TP Sensor 1 and 2 Agree/Disagree parameter displays Disagree, replace the throttle body assembly.



29. Observe the ECM module DTC information. Are DTC P1516, P2101 and/or P2176 set?



瀚慖f DTC P1516, P2101 and/or P2176 are set, replace the throttle body.



瀚?If DTC P1516, P2101 and/or P2176 are not set, proceed to Step 30.



30. Tighten the throttle body fasteners.



Tighten



Tighten the fasteners to 10 Nm (89 lb in).



31. Install any remaining components that were removed during this procedure.



32. Verify the battery voltage is more than 12 volts but less than 16 volts before proceeding with ECM reprogramming.



33. During reprogramming, the battery voltage must be maintained within the proper range of 12-15 volts. Connect the approved Midtronics(R)



PSC 550 Battery Maintainer (SPS Programming Support Tool EL-49642) to the vehicle.



瀚慖f the above recommended tool is not available, DO NOT connect a battery charger to the vehicle. Connect a fully charged 12V jumper or



booster pack that is disconnected from the AC voltage supply.



34. Use a Tech 2(R) or a multiple diagnostic interface (MDI) module for reprogramming. Ensure that either device is updated with the latest



available software version before performing the reprogramming event.



Notice



Customers that own 2011 Model Year vehicles should be advised of the enhanced OLM algorithm that has a maximum of 7,500 miles



(12,000 km) between oil changes.



35. Reprogram the ECM using the Service Programming System (SPS) with the latest calibration available on TIS2WEB. Refer to the SPS



procedures in SI.



36. Perform the Throttle Learn Reset Procedure. Refer to Throttle/Idle Learn > Throttle Learn > Reset Procedure in SI.



MIDTRONICS is a registered trademark of MIDTRONICS, INC.



Tech 2 is a registered trademark of General Motors LLC



ACDELCO is a registered trademark of General Motors LLC



Part Information



Important



The initial inventory for P/N 19259452 (Sensor Kit) will be distributed via RIM through a special stocking policy. The dealership parts



department personnel will need to approve the stocking policy in order to receive the initial shipment. Subsequent replenishment will also



be via RIM. If the parts department is out of inventory of P/N 19259452 (Sensor Kit), then to complete the repair utilize the throttle body



assembly.



Warranty Information



- For 2008-2009 vehicles repaired under the 5 year/100,000 mile (160,000 km) Powertrain Coverage (Code P) warranty, use:



- For 2010-2011 Cadillac vehicles repaired under the 4 year/50,000 mile (80,000 km) Bumper-to-Bumper warranty (in Canada, Base Warranty



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 19



Coverage), use:



- For 2010-2011 Chevrolet, GMC or HUMMER vehicles repaired under the 3 year/36,000 mile (60,000 km) Bumper-to-Bumper warranty (in



Canada, Base Warranty Coverage), use:



- For 2010-2011 Chevrolet, GMC or HUMMER vehicles repaired under the 3 year/50,000 mile (80,000 km) California Emission Coverage



(Code E) warranty, use:

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 05-08-46-009C Date: 120319

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 05-08-46-009C Date: 120319



OnStar(R) - Language Change Information (U.S. and Canada Only)



INFORMATION



Bulletin No.: 05-08-46-009C



Date: March 19, 2012



Subject: (R)Language Change for OnStar System (U.S. and Canada Only)



Models:



2006-2013 GM Passenger Cars and Light Duty Trucks



Equipped with OnStar(R) (RPO UE1)



Built After and Including VIN Breakpoints Listed Below (2006 MY Only)



Attention:



This bulletin only applies to vehicles equipped with OnStar(R) Generation 6.1 or later with a Station Identification (STID) Number in the following



range: 16,000,000-17,000,000 or 20,000,000-21,999,999 or 23,500,001-26,000,000



Supercede:



This bulletin is being revised to add 2009-2013 model years. Please discard Corporate Bulletin Number 05-08-46-009B (Section 08 - Body and



Accessories).



Built After and Including the Following VIN Breakpoints:



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 96



The Generation (Gen) 6.1 OnStar(R) system found in these vehicles has the capability to change the default English voice recognition to French or



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 97



Spanish.



Changing the language of the OnStar(R) system will change the following features to the language you select:



- Voice recognition command prompts will be played in the language selected.



- The voice recognition system will only recognize commands given in the selected language.



Once completed, this process completely changes all voice recognition and voice commands of the OnStar(R) system. The process will need to be



repeated in its entirety to change to a different language, including English.



The Gen 6.1 version of OnStar(R) does not require the use of the Service Programming System (SPS) to change the voice recognition system.



However, there are three ways to change the language.



Method 1



Method 2



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 98

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 68

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 68



Electrical Information Reference



* Circuit Testing (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Circuit



Testing/Circuit Testing)



* Testing for Intermittent Conditions and Poor Connections (See: Testing and Inspection/Component Tests and General Diagnostics/General



Electrical Diagnostic Procedures/Circuit Testing/Testing for Intermittent Conditions and Poor Connections)



* Wiring Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Wiring



Repairs/Wiring Repairs)



* Connector Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic



Procedures/Connector Repairs/Connector Repairs)



Scan Tool Reference



Control Module References (See: Testing and Inspection/Programming and Relearning) for scan tool information



Circuit/System Verification



Ignition ON, observe the appropriate scan tool Deployment Loop Resistance parameter. The reading should be between 1.8-5.12 ohm.



Note: When removing connectors, inspect for damage or corrosion. Damage or corrosion in the following requires repair or replacement of the



affected component/connector:



* Driver steering wheel air bag



* SDM module



* Driver steering wheel air bag wiring harness connector



* SDM wiring harness connector



Circuit/System Testing



1. Ignition OFF, disconnect the harness connector at the F107 driver steering wheel air bag.



2. Ignition OFF, disconnect the scan tool, wait 120 seconds, test for less than 1.0 ohm between the following control circuit terminals and



ground:



* circuit terminal 2 X1



* circuit terminal 4 X1



瀚慖f greater than the specified range, test the control circuit for an open/high resistance. If the circuit tests normal, replace the K36 SDM.



3. Ignition ON, verify the scan tool Deployment Loop Resistance parameter is greater than 5.12 ohm.



瀚慖f less than the specified range, test control circuit terminals for a short to ground. If the circuit tests normal, replace the K36 SDM.



4. Install a 3 A fused jumper wire between the following control circuit terminals. Verify the scan tool Deployment Loop Resistance parameter



is less than 1.8 ohm.



* circuit terminal 1 X1 and terminal 2 X1



* circuit terminal 4 X1 and terminal 3 X1



瀚慖f greater than the specified range, test the signal circuit for a short to voltage or an open/high resistance. If the circuit tests normal,



replace the K36 SDM.



5. If all circuits test normal, test or replace the F107 driver steering wheel air bag.



Repair Instructions



Perform the Diagnostic Repair Verification (See: Verification Tests) after completing the diagnostic procedure.



* Steering Wheel Inflatable Restraint Module Replacement (See: Restraints and Safety Systems/Air Bag Systems/Air Bag/Service and



Repair/Removal and Replacement/Steering Wheel Inflatable Restraint Module Replacement)



* SIR/SRS Wiring Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic



Procedures/Wiring Repairs/SIR/SRS Wiring Repairs)



* Control Module References (See: Testing and Inspection/Programming and Relearning) for SDM replacement, setup, and programming



B0014



DTC B0014-B0045



Diagnostic Instructions

Friday, November 29, 2019

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 439

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 439



* signal terminal 2



瀚慖f less than the specified value, test the circuit for a short to ground. If the circuit tests normal, replace the multimedia player interface



module.



4. If all of the circuits test normal, replace the auxiliary audio jack.



Repair Instructions



Perform the Diagnostic Repair Verification (See: Verification Tests) after completing the diagnostic procedure.



Control Module References (See: Testing and Inspection/Programming and Relearning) multimedia player interface module replacement, setup,



and programming



B1279



DTC B1278 or B1279



Diagnostic Instructions



* Perform the Diagnostic System Check - Vehicle (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic System



Check - Vehicle) prior to using this diagnostic procedure.



* Review Strategy Based Diagnosis (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Strategy Based Diagnosis) for an



overview of the diagnostic approach.



* Diagnostic Procedure Instructions (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic Procedure



Instructions) provides an overview of each diagnostic category.



DTC Descriptors



DTC B1278 01



- Left Auxiliary Input Signal Circuit Short to Battery



DTC B1278 02



- Left Auxiliary Input Signal Circuit Short to Ground



DTC B1279 01



- Right Auxiliary Input Signal Circuit Short to Battery



DTC B1279 02



- Right Auxiliary Input Signal Circuit Short to Ground



Diagnostic Fault Information



Circuit/System Description



A remote 3.5 mm auxiliary stereo jack allows playback of audio signals from remote devices (e.g., laptop computer, IPOD, MP3 player, etc.).



When a remote device audio mini-plug is inserted in the remote auxiliary jack, an internal mechanical switch closes completing the aux jack detect



circuit to the radio. The radio automatically detects the input through the circuit and the device begins playing. The radio receives the devices audio



signals on the auxiliary input 1 (left) signal circuit and auxiliary input 2 (right) signal circuit. If equipped with a multimedia player interface



module, the auxiliary inputs that would normally connect directly to the radio will have the multimedia player interface module inline of those



connections. This means that the auxiliary inputs for the radio connect to the multimedia player interface module, and the multimedia player



interface module connects to the radio, passing along the audio signals. Only the multimedia player interface module can set these DTCs.



The auxiliary audio jack has an internal mechanical detection switch that will connect the detection signal on the auxiliary audio jack to ground



when an auxiliary mini-plug is inserted.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 294

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 294



Scan Tool Reference



Control Module References (See: Testing and Inspection/Programming and Relearning) for scan tool information



Circuit/System Verification



Ignition ON, observe the scan tool Headlamps On Switch, Park Lamps Switch and Automatic Headlamps Disable Switch parameters while



selecting the headlamp control switch between the Off, park lamps and headlamps settings. Each parameter should be Inactive and change to Active



as each setting is selected.



Circuit/System Testing



1. Ignition OFF, disconnect the harness connector at the S30 headlamp switch.



2. Ignition OFF, test for less than 30 ohm between the ground circuit terminal 6 and ground.



瀚慖f greater than the specified range, test the ground circuit for an open/high resistance.



3. Ignition ON, verify the scan tool Park Lamps Switch parameter is Inactive.



瀚慖f not the specified value, test the signal circuit terminal 3 for a short to ground. If the circuit tests normal, replace the K9 BCM.



4. Install a 3 A fused jumper wire between the signal circuit terminal 3 and the ground circuit terminal 6. Verify the scan tool Park Lamps



Switch parameter is Active.



瀚慖f not the specified value, test the signal circuit for a short to voltage or an open/high resistance. If the circuit tests normal, replace the K9



BCM.



5. Verify the scan tool Headlamps On Switch parameter is Inactive.



瀚慖f not the specified value, test the signal circuit terminal 4 for a short to ground. If the circuit tests normal, replace the K9 BCM.



6. Install a 3 A fused jumper wire between the signal circuit terminal 4 and the ground circuit terminal 6. Verify the scan tool Headlamps On



Switch parameter is Active.



瀚慖f not the specified value, test the signal circuit for a short to voltage or an open/high resistance. If the circuit tests normal, replace the K9



BCM.



7. Verify the scan tool Automatic Headlamps Disable Switch parameter is Inactive.



瀚慖f not the specified value, test the signal circuit terminal 5 for a short to ground. If the circuit tests normal, replace the K9 BCM.



8. Install a 3 A fused jumper wire between the signal circuit terminal 5 and the ground circuit terminal 6. Verify the scan tool Automatic



Headlamps Disable Switch parameter is Active.



瀚慖f not the specified value, test the signal circuit for a short to voltage or an open/high resistance. If the circuit tests normal, replace the K9



BCM.



9. If all circuits test normal, test or replace the S30 headlamp switch.



Repair Instructions



Perform the Diagnostic Repair Verification (See: Verification Tests) after completing the diagnostic procedure.



* Headlamp Switch Replacement (See: Lighting and Horns/Headlamp/Headlamp Switch/Service and Repair)



* Control Module References (See: Testing and Inspection/Programming and Relearning) for BCM replacement, programming and setup



B257C



DTC B257C or B257D



Diagnostic Instructions



* Perform the Diagnostic System Check - Vehicle (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic System



Check - Vehicle) prior to using this diagnostic procedure.



* Review Strategy Based Diagnosis (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Strategy Based Diagnosis) for an



overview of the diagnostic approach.



* Diagnostic Procedure Instructions (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic Procedure



Instructions) provides an overview of each diagnostic category.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 314

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 314



* The engine is running.



* Headlamp switch in AUTO position.



* The ambient light is day.



Conditions for Setting the DTC



B260D 01 or B260E 01



The BCM detects a short to voltage on the daytime running lamp control circuit



B260D 02 or B260E 02



The BCM detects a short to ground on the daytime running lamp control circuit



B260D 04 or B260E 04



The BCM detects an open/high resistance on the daytime running lamp control circuit



Action Taken When the DTC Sets



B260D 01 or B260E 01



The daytime running lamp will be continuously illuminated.



B260D 02, B260D 04, B260E 02 or B260E 04



The daytime running lamp will be inoperative



Conditions for Clearing the DTC



* The DTC will be current for as long as the fault is present.



* When the fault is no longer present, the DTC will be a history DTC.



* A history DTC will clear after 50 ignition cycles.



Reference Information



Schematic Reference



Exterior Lights Schematics (See: Diagrams/Electrical Diagrams/Lighting and Horns/System Diagram/Exterior Lights Schematics)



Connector End View Reference



Component Connector End Views (See: Diagrams/Connector Views/Connector End Views By Name)



Description and Operation



Exterior Lighting Systems Description and Operation (See: Lighting and Horns/Description and Operation/Exterior Lighting Systems)



Electrical Information Reference



* Circuit Testing (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Circuit



Testing/Circuit Testing)



* Connector Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic



Procedures/Connector Repairs/Connector Repairs)



* Testing for Intermittent Conditions and Poor Connections (See: Testing and Inspection/Component Tests and General Diagnostics/General



Electrical Diagnostic Procedures/Circuit Testing/Testing for Intermittent Conditions and Poor Connections)



* Wiring Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Wiring



Repairs/Wiring Repairs)



Scan Tool Reference



Control Module References (See: Testing and Inspection/Programming and Relearning)



Circuit/System Verification



Ignition ON, command the Left Dedicated Daytime Running Lamp and the Right Dedicated Daytime Running Lamp ON and OFF with a scan tool.



The E4C daytime running lamp - left and the E4D daytime running lamp - right should turn ON and OFF while changing between the commanded



states.



Circuit/System Testing



1. Ignition OFF, disconnect the X1 harness connector K9 BCM.



2. Ignition ON, verify that a test lamp illuminates between the B+ circuit terminal 3 and ground.

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 08-07-30-020E Date: 100303

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 08-07-30-020E Date: 100303



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 284



A/T Controls - DTC P1825/P182E or P1915/MIL ON



INFORMATION



Bulletin No.: 08-07-30-020E



Date: March 03, 2010



Subject: Diagnostic Information for MIL Illuminated with DTC P1825, P182E or P1915 Found Current or as History Code in TCM, No PRNDL



Display, Potential No Engine Crank



Models:



2006-2009 Cadillac XLR-V



2006-2010 Cadillac STS-V



2007-2009 Cadillac SRX, XLR



2007-2010 Cadillac Escalade, Escalade ESV, Escalade EXT, STS



2008-2010 Cadillac CTS



2009-2010 Cadillac CTS-V



2006-2010 Chevrolet Corvette



2007-2010 Chevrolet Silverado



2008-2010 Chevrolet Suburban



2009-2010 Chevrolet Avalanche, Tahoe



2010 Chevrolet Camaro, Express



2007-2010 GMC Sierra, Yukon Denali, Yukon XL Denali



2008-2010 GMC Yukon XL



2009-2010 GMC Yukon



2010 GMC Savana



2008-2009 Pontiac G8



2008-2009 HUMMER H2



with 6L50 RPO MYB, 6L80 RPO MYC or 6L90 RPO MYD Automatic Transmission



Supercede:



This bulletin is being revised to remove the contact information in Step 4 under HISTORY DTC heading and update the models and model years.



Please discard Corporate Bulletin Number 08-07-30-020D (Section 07 - Transmission).



The following diagnostic information will aid the technician if the MIL is illuminated with DTC P1825, P182E or P1915. The DTC may be found



current or as a history code in the TCM along with a no PRNDL display and the potential for no engine crank.



1. Use the Tech 2(R) to capture and record Freeze Frame/Failure Data for all DTCs set. Review the data to determine:



- Vehicle speed, commanded gear, transmission temperature, throttle position, transmission ratio, transmission input and output speed



sensor RPM when DTC set (use to attempt to duplicate failure)



- IMS A/B/C/P and IMS state



2. Using the Tech 2(R), navigate to transmission data and scroll down to IMS. With the ignition ON and the engine OFF, observe the IMS



A/B/C/P switch states and IMS states for each shift lever detent position. The chart following this list shows the correct states.



3. If all IMS readings are normal, monitor the PNP status in the engine data list during DTC setting to isolate a possible open or short to ground



on the dedicated PNP signal between the TEHCM and the ECM.



4. If the vehicle is a 2009 CTS, STS or SRX, proceed to Step 5 in the History DTC section below before continuing with any additional



evaluations.



5. If all IMS and PNP readings are normal, the condition is intermittent in nature and determination of the defective component will be made



based on freeze frame data and previous repair history or warranty data. Proceed to History DTC below. If the readings are not as specified



above, the fault is still active. Proceed to the Active DTC section below to determine which component(s) is defective.



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 285



HISTORY DTC



If all readings are normal per Step 2 above, capture and record Freeze Frame/Failure Data, clear DTCs and attempt to duplicate the fail conditions.



1. If the DTC does not reset and the original freeze frame data reports an IMS A/B/C/P code of "HLLL" and the IMS state of "Neutral/Drive 6",



complete the following:



Important



Typical Freeze Frame operating conditions: ISS >500 RPM, OSS =0 RPM or low value, Engine Torque >30 Nm.



Important



There is no calibration update for vehicles equipped with a 6L90 RPO MYD transmission or 2008 model year vehicles. These



calibrations were updated before production began.



- Update the TCM calibration file to the latest released on TIS2WEB.



- Inspect the shift cable for incorrect routing, kinks, severe bends and/or a damaged or twisted rubber boot at the transmission end of the



cable.



- Check and ensure proper cable adjustment.



- Determine if the shift lever can be hung-up between Neutral and Drive 6. If so, there may be excessive drag in the system.



- Move the shift lever through each detent position, ensuring positive detent feel. If any concern is noted, remove the transmission oil pan



and repeat the shift lever movement. Ensure that the detent spring roller moves to the bottom of the valley on the detent plate for each



shift lever position. Inspect the detent spring roller and ensure it is centered on the detent plate. The spring arms should not be rubbing on



either the IMS arm or detent plate.



- After completing the above steps, test drive the vehicle, moving the shifter through all detent positions. If no issues are found, ensure all



DTC codes are cleared from history and return the vehicle to the customer. If the vehicle has been returned to the dealer with this Freeze



Frame bit codes after repairs, contact the person(s) below in Step 4.



2. If the DTC does not reset and original freeze frame data reports an IMS A/B/C/P code of "HHLH" and IMS state of "Blank", complete the



following:



Important



Typical Freeze Frame operating conditions: ISS >500 RPM, OSS >0 RPM, Vehicle Speed >0 MPH



- Replace the Internal Mode Switch (IMS) if the Vehicle Build Date is prior to March 31, 2007. If not, continue with this bulletin.



Important



There is no calibration update for vehicles equipped with a 6L90 RPO MYD transmission or 2008 model year vehicles. These



calibrations were updated before production began.



- Update the TCM calibration file to the latest released on TIS2WEB.



- After completing the above steps, test drive the vehicle, moving the shifter through all detent positions. If no issues are found, ensure all



DTC codes are cleared from history and return the vehicle to the customer.



3. If the DTC does not reset and original freeze frame data reports an IMS A/B/C/P code of "HHHL" and IMS state of "Invalid", complete the



following:



Important



Typical Freeze Frame operating conditions: ISS >500 RPM, OSS =0 RPM, Vehicle Speed >0 MPH



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 286



- Replace the Internal Mode Switch (IMS) if the Vehicle Build Date is prior to March 31, 2007. If not, continue with this bulletin.



Important



There is no calibration update for vehicles equipped with a 6L90 RPO MYD transmission or 2008 model year vehicles. These



calibrations were updated before production began.



- Update the TCM calibration file to the latest released on TIS2WEB.



- After completing the above steps, test drive the vehicle, moving the shifter through all detent positions. If no issues are found, ensure all



DTC codes are cleared from history and return the vehicle to the customer.



4. If the DTC does not reset and original freeze frame data reports an IMS A/B/C/P code of LLLH, LLHL, LHLL or PNP Switch is P/N in all



gears, failure is a short to ground condition and is most likely in the Control Solenoid (with body and TCM) Valve Assembly (TEHCM),



complete the following:



- Obtain the following data and contact the PQC as the Control Solenoid (with body and TCM) Valve Assembly (TEHCM) is currently on



restriction. The PQC will engage engineering for additional diagnostic support.



- Capture or record freeze frame or fail records if a DTC is set.



- Document the diagnostics completed leading to the decision to replace the control solenoid valve and transmission control module.



Important



There is no calibration update for vehicles equipped with a 6L90 RPO MYD transmission or 2008 model year vehicles. These



calibrations were updated before production began.



- Update the TCM calibration file to the latest released on TIS2WEB.



- After completing the above steps, test drive the vehicle, moving the shifter through all detent positions. If no issues are found, ensure all



DTC codes are cleared from history and return the vehicle to the customer.



5. If the DTC does not reset and the original freeze frame data reports an IMS A/B/C/P code of LLLH and the vehicle is a 2009 CTS, STS or



SRX, the condition is most likely caused by an incorrectly adjusted shift linkage.



Important



Typical Freeze Frame operating conditions: ISS and OSS both =0 RPM or ISS and OSS both >0 RPM and/or vehicle is in some



drive gear (transmission gear ratio matches one of the forward gear ratios).



- Using a Tech 2(R), pull backward firmly/hard on the shifter to verify that the IMS A/B/C/P code remains at the correct HLLH reading. If



it toggles to LLLH or LLLL, the linkage is not adjusted properly.



- Perform the Shift Control Linkage Adjustment as detailed in SI.



- After adjustment, using a Tech 2(R), pull backward firmly/hard on the shifter to verify that the IMS A/B/C/P code remains at the correct



HLLH reading. If it toggles to LLLH or LLLL, the linkage is not adjusted properly. Repeat the adjustment.



- If no shifter adjustment issues are found, return to Step 4.



ACTIVE DTC/FAULT ACTIVE



If the fault is still active per Step 2 above, or after a test drive, continue with component tests defined below:



1. Ensure proper system performance:



- Inspect the shift cable for incorrect routing, kinks, severe bends and/or a damaged or twisted rubber boot at the transmission end of the



cable.



- Check and ensure proper cable adjustment.



- Remove the transmission oil pan and repeat the shift lever movement, ensuring that the detent spring roller moves to the bottom of the



valley on the detent plate for each shift lever position. Inspect the detent spring roller and ensure it is centered on the detent plate. The



spring arms should not be rubbing on either the IMS arm or detent plate.



2. Disconnect the IMS connector at the Control Solenoid (w/body and TCM) Valve Assembly (TEHCM). With the Tech 2(R) connected and



the ignition ON and engine OFF, the Tech 2(R) should report all IMS states A/B/C/P as high (H) and the PNP Switch should display "In



Gear".



- If any of the A/B/C/P circuits displays low (L), the TEHCM is faulty and should be replaced. If the Vehicle Build Date is prior to March



31, 2007, also replace the IMS.



- If the PNP Switch Circuit (Tech 2(R) Engine data) displays "Park/Neutral", a short exists in the TEHCM or the wiring connecting it to



the ECM. Disconnect the transmission pass-through connector. Check for continuity between the pass-through P/N Signal pin 3 (refer to



Automatic Transmission Inline 16-Way Connector End View in SI) and the valve body assembly. If continuity exists, a short to ground is



present in the TEHCM and it should be replaced. If the Vehicle Build Date is prior to March 31, 2007, also replace the IMS. If there is no



continuity, the problem is outside the transmission.



Important



The bad bit should be consistent with the bad bit identified in Step 2.



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 287



3. Connect a 3-amp fused jumper wire between the common pin (Pin A) and pins B, C, D & F in the TEHCM IMS connector (refer to



Automatic Transmission Internal Connector End Views in SI). As each circuit (B, C, D & F) is grounded with ignition ON, engine OFF, the



Tech 2(R) should display low (L) for the IMS bit.



- If any of the A/B/C/P circuits displays high (H) when grounded, the TEHCM is faulty and should be replaced. If the Vehicle Build Date



is prior to March 31, 2007, also replace the IMS.



- If Pin F in the PNP Switch Circuit (Tech 2(R) Engine data) displays "In Gear" when grounded, an open exist in the TEHCM or the wiring



connecting it to the ECM. Disconnect the transmission pass-through connector. Check for continuity between the pass-through P/N



Signal Pin 3 (refer to Automatic Transmission Inline 16-Way Connector End View in SI) and TEHCM IMS connection Pin F (refer to



Automatic Transmission Internal Connector End Views in SI). If there is continuity, the problem is outside the transmission. If there is no



continuity, replace the TEHCM. If the Vehicle Build Date is prior to March 31, 2007, also replace the IMS.



Important



The bad bit should be consistent with the bad bit identified in Step 2.



4. If the two tests above indicate correct TEHCM operation and the condition still exists, the IMS is faulty and should be replaced.



Important



There is no calibration update for vehicles equipped with a 6L90 RPO MYD transmission or 2008 model year vehicles. These



calibrations were updated before production began.



5. Update the TCM calibration file to the latest released on TIS2WEB.

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 06-08-64-035G Date: 100601

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 06-08-64-035G Date: 100601



Body - Squeak/Itching Noise in Upper Door Area



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 308



TECHNICAL



Bulletin No.: 06-08-64-035G



Date: June 01, 2010



Subject: Squeak/Itching Noise in Upper Door Area (Replace Weatherstrip Assembly)



Models:



2007-2010 Cadillac Escalade, Escalade ESV, Escalade EXT



2007-2010 Chevrolet Avalanche, Silverado, Suburban, Tahoe



2007-2010 GMC Sierra, Yukon, Yukon XL, Yukon Denali, Yukon Denali XL



Supercede:



This bulletin is being revised to update parts description information. Please discard Corporate Bulletin Number 06-08-64-035F (Section 08 - Body



and Accessories).



Condition



Some customers may comment on a squeaking or itching noise in the upper door area when driving.



Cause



This condition may be caused by the roof drip weatherstrip to door frame contact. This could occur at any or all of the doors.



Correction



Replace the weatherstrip assembly. Refer to Door Opening Weatherstrip Replacement in SI.



Parts Information



Warranty Information



For vehicles repaired under warranty, use the appropriate labor operation from the Labor Time Guide.

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 99-08-51-001C Date: 130225

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 99-08-51-001C Date: 130225



Body - Paint-less Dent Repair Process



INFORMATION



Bulletin No.: 99-08-51-001C



Date: February 25, 2013



Subject: Paint-less Dent Repair Process



Models:



2014 and Prior GM Passenger Cars and Light Duty Trucks



with Steel Outer Body Panels



Supercede:



This bulletin is being revised to add the 2013 and 2014 model years. Please discard Corporate Bulletin Number 99-08-51-001B (Section 08 - Body



and Accessories).



The process of removing dents from vehicles without painting has been around for many years. General Motors has evaluated many versions of this



process. A process using special tools that allow shallow dents to be removed without drilling holes in the body, by removing components like hood



insulators, tail lamps, and headlamps is recommended. This process is appropriate for the majority of panels with reasonable access to the back side



of the damaged area. The special tools and procedures used with paint-less dent repair that have been developed will remove the dents while



eliminating the need to fill, paint, or replace the panel.



New developments in this technology have also made dent removal possible in areas where there is minimal or zero access to the back side of the



panel by use of "glue stick" dent removal. From the outside of the panel, adhesive material is placed over the dent, allowed to cool and the dent can



be pulled back to its original contour without paint damage. Common areas for "Glue Stick" dent removal are roof rails, pickup box bed rails, roof



skin near stationary glass, etc. This process requires no drilling of holes or removal of vehicle components for access. These type of repairs will



eliminate concerns about paint and factory corrosion durability and significantly reduce repair and disclosure amounts. This type of procedure has



been thoroughly evaluated and the repaired parts were tested for negative impact. No negative impact was found.



Important



The removal of structural components or drilling of holes in any panel is not recommended and may void the General Motors Corrosion



Warranty.



Evaluating Damage



Note



Paint-less dent repair should be used for both warranty "out dent" repair and transportation damage where damage type code "14- dented no paint



damage" is used on the delivery receipt. Dents which exceed severity code 3-Damage over 3 inches (8 cm) up to and including 6 inches (15 cm) in



length/diameter may still require conventional paint repairs.



Appropriate uses for paint-less dent repair include the following conditions:



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 383



- Repair of minor transportation damage dents.



- Dents with no broken paint on the surface. Be sure to inspect the paint for cracks, a magnifying glass may be helpful; GM suggests using a 4x



magnifying glass.



- Large or small dents, soft dents in body lines and contoured areas that allow reasonable access to the back side of the damaged area.



- Dents that do not require structural part removal, and where "glue stick" dent removal is successful.



Inappropriate uses for paint-less dent repair include the following situations:



- Dents that include cracked paint.



- Dents that require holes to be drilled.



- Dents that require structural parts to be removed.



- Sharp dents in contoured areas, dents on the edge of panels, or dents in zero-clearance areas where glue stick dent removal has been



unsuccessful.



Tools



Use tools that are high-quality, tempered steel with smooth polished, rounded tips. These will not damage the back side of the dented area.



Typically, these tools are shaped and bent in order to allow access to most areas of the vehicle without drilling holes in the body as well as provide



a clear view of the work area. Specialty lights are also used to highlight damaged areas.

Thursday, November 28, 2019

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 816

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 816



C0402 04



The ignition is ON.



C0402 61



* Engine running.



* When requested torque is less than 25 Nm (18 lb ft) and the calculated temperature is in the range of 0-90掳C (32-194掳F).



Conditions for Setting the DTC



C0402 02



Voltage is applied to the rear drive clutch solenoid valve. An error is detected if the current is greater than the current which corresponds to less



than 2 ohm resistance in the solenoid valve.



C0402 04



The measured current deviates from the nominal value with more than 200 mA for more than 100 ms.



C0402 42 and C0402 43



The solenoid valve calibration values stored in the rear differential clutch control module EEPROM are invalid or out of range.



C0402 4B



There are no solenoid valve calibration values stored in the differential clutch control module EEPROM.



C0402 61



An error is detected if the solenoid valve is not engaging adequately over a predetermined test sequence.



Action Taken When the DTC Sets



C0402 02, C0402 04 and C0402 61



One or more of the following actions may occur:



* All-wheel drive (AWD) is disabled.



* Service Rear Axle is displayed on the driver information center.



C0402 42, C0402 43 and C0402 4B



An error record is stored in the rear differential clutch control module. No action will be performed.



Conditions for Clearing the DTC



* The condition for setting the DTC is no longer present.



* The DTC is not detected in 40 consecutive ignition cycles.



Reference Information



Schematic Reference



Rear Axle Schematics (See: Transmission and Drivetrain/Differential Assembly/Diagrams/Electrical Diagrams)



Connector End View Reference



Component Connector End Views (See: Diagrams/Connector Views/Connector End Views By Name)



Description and Operation



Rear Drive Axle Description and Operation (See: Transmission and Drivetrain/Differential Assembly/Description and Operation)



Electrical Information Reference



* Circuit Testing (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Circuit



Testing/Circuit Testing)



* Connector Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic



Procedures/Connector Repairs/Connector Repairs)



* Testing for Intermittent Conditions and Poor Connections (See: Testing and Inspection/Component Tests and General Diagnostics/General



Electrical Diagnostic Procedures/Circuit Testing/Testing for Intermittent Conditions and Poor Connections)



* Wiring Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Wiring



Repairs/Wiring Repairs)

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 346

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 346



B319A 02



The BCM has detected the right rear window switch is active for greater than 60 seconds



B316B 39, B317A 39, B318A 39, B319A 39



The BCM has detected an internal failure within the affected door switch



Action Taken When the DTC Sets



The affected power window will malfunction.



Conditions for Clearing the DTC



B316B 00, B316B 02, B317A 02, B318A 02, B319A 02



* The DTC will be current for as long as the fault is present.



* The DTC will change from current to history when the fault is no longer present.



* A history DTC will clear after 100 consecutive ignition cycles if the condition for the malfunction is no longer present.



B316B 39, B317A 39, B318A 39, B319A 39



If the DTC is current, the affected window switch must be replaced before the DTC can be cleared.



Reference Information



Schematic Reference



Moveable Window Schematics (See: Windows and Glass/Windows/Diagrams/Electrical Diagrams)



Connector End View Reference



Component Connector End Views (See: Diagrams/Connector Views/Connector End Views By Name)



Description and Operation



Power Windows Description and Operation (See: Windows and Glass/Windows/Description and Operation/Power Windows)



Electrical Information Reference



* Circuit Testing (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Circuit



Testing/Circuit Testing)



* Connector Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic



Procedures/Connector Repairs/Connector Repairs)



* Testing for Intermittent Conditions and Poor Connections (See: Testing and Inspection/Component Tests and General Diagnostics/General



Electrical Diagnostic Procedures/Circuit Testing/Testing for Intermittent Conditions and Poor Connections)



* Wiring Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Wiring



Repairs/Wiring Repairs)



Scan Tool Reference



Control Module References (See: Testing and Inspection/Programming and Relearning) for scan tool information



Circuit/System Verification



1. Ignition ON, verify that each of the scan tool parameters listed below are Inactive:



* Front Passenger Main Control Down Switch



* Front Passenger Main Control Express Switch



* Front Passenger Main Control Up Switch



* Left Rear Window Main Control Down Switch



* Left Rear Window Main Control Express Switch



* Left Rear Window Main Control Up Switch



* Right Rear Window Main Control Down Switch



* Right Rear Window Main Control Express Switch



* Right Rear Window Main Control Up Switch



瀚慖f any of the parameters are always Active, replace the S79D window switch-driver.



2. Verify that the scan tool Left Rear Window Switch at Door parameter is Inactive.



瀚慖f not the specified value, replace the S79LR window switch-left rear.



3. Verify that the scan tool Right Rear Window Switch at Door parameter is Inactive.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 229

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 229



Circuit/System Description



The ratchet, pawl, and sector switches are part of the liftgate latch assembly and are used by the liftgate control module to determine the state of the



latch during the process of cinching or unlatching. The ratchet and pawl switches will be inactive when the primary and secondary latches are



latched, and the sector switch will be active during the power cinch function. Each of the latch switch signal circuits are supplied signal through a



resistor and monitored within the liftgate control module. The latch switches share a common low reference circuit from the liftgate control module



and when the switch contacts close the signal circuit goes low and the liftgate control module determines the switch to be active.



Conditions for Running the DTC



The system voltage is 9-16 V.



Conditions for Setting the DTC



When the liftgate control module detects an open/high resistance in the ratchet, pawl, and/or the sector signal circuit, an open/high resistance in the



liftgate latch low reference circuit, or any incorrect combination of signals from the following switch inputs:



* Ratchet switch



* Sector switch



* Pawl switch



Action Taken When the DTC Sets



* The liftgate may not power open or power close.



* The latch may be inoperative or not function normally.



Conditions for Clearing the DTC



* The DTC will be current for as long as the fault is present.



* When the fault is no longer present, the DTC will be a history DTC.



* A history DTC will clear after 50 ignition cycles.



Diagnostic Aids



* If the liftgate will not release from the closed position, refer to Opening the Liftgate Without Electrical Power (See: Body and Frame/Doors,



Hood and Trunk/Trunk / Liftgate/Service and Repair/Procedures) for the appropriate procedure



* Whenever the liftgate control module loses power or is disconnected, the ignition must be cycled OFF then ON in order to reactivate the



liftgate control module.



* DTC B153A may be set when the vehicle is driven while the liftgate is open, as when the owner transports a large package in the rear of the



vehicle. The DTC will become history after the liftgate is closed and does not affect normal liftgate operation



Reference Information



Schematic Reference



Liftgate Schematics (See: Body and Frame/Locks/Diagrams/Electrical Diagrams/Liftgate Schematics)



Connector End View Reference



Component Connector End Views (See: Diagrams/Connector Views/Connector End Views By Name)



Description and Operation



Liftgate Description and Operation (See: Body and Frame/Doors, Hood and Trunk/Trunk / Liftgate/Description and Operation/Liftgate)



Electrical Information Reference



* Testing for Intermittent Conditions and Poor Connections (See: Testing and Inspection/Component Tests and General Diagnostics/General



Electrical Diagnostic Procedures/Circuit Testing/Testing for Intermittent Conditions and Poor Connections)



* Circuit Testing (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Circuit



Testing/Circuit Testing)



* Wiring Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Wiring



Repairs/Wiring Repairs)



* Connector Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic



Procedures/Connector Repairs/Connector Repairs)

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 03-08-48-006H Date: 110411

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 03-08-48-006H Date: 110411



A/C - Window Defroster Contact/Tab Repair Information



INFORMATION



Bulletin No.: 03-08-48-006H



Date: April 11, 2011



Subject: Repair Information for Reconnection of Rear Window Defroster Contact or Tab



Models:



2000-2012 GM Passenger Cars and Trucks



2003-2009 HUMMER H2



2006-2010 HUMMER H3



2005-2009 Saab 9-7X



2007-2010 Opel GT



2007-2008 Daewoo G2X



Equipped With Electric Rear Window Defroster - RPO C49



Supercede:



This bulletin is being revised to add the 2012 model year. Please discard Corporate Bulletin Number 03-08-48-006G (Section 08 - Body and



Accessories).



Repair Suggestions



Soldering Defroster Contact Tabs



In many cases the terminal tab will still be in the connector when you examine the vehicle. For Chevrolet Tahoe, Suburban, GMC Yukon, and



Cadillac Escalade vehicles (with moveable glass), always replace the defroster tab (GM P/N 25916031) and the defroster electrical power connector



(P/N 12034110). For all other vehicles, reconnect the original defroster tab.



In most applications it is preferable to create a new solder connection to reattach a separated rear defroster tab. If you take note of the steps below,



it is possible to create a new solder joint that is equal to, or stronger than, the original. The generic procedure below is not very time intensive, but



does include minor preparation work to create a good bonding surface. Be sure to follow each of the steps, as combined they will produce the



strongest bond possible. Please consider the following before attempting the repair:



- Soldering introduces significant heat to the glass window of the vehicle. When performing the re-connection of the tab, use only the heat



required to do the job. Pre-heat the soldering iron and have the solder in your other hand, ready to go, the moment you have enough heat to



melt the solder.



- If it is winter, bring the vehicle into the service garage and remove any snow from the back window area. Allow time for the glass to warm to



the temperature inside the building. Soldering creates a "hot spot" in the glass. DO NOT solder on cold glass.



Caution



Heating the glass excessively, or repeatedly without time to cool, may result in glass breakage. ALWAYS wear safety glasses when



performing this repair!



- You MUST use a silver-bearing solder to make the connection. DO NOT attempt this repair with conventional tin/lead alloy solders. Silver



bearing solder will adhere to the electrical buss bar, making a strong and lasting repair.



- Protect surfaces under the area to be soldered. It is very easy to drip solder when performing this repair. Placing a shop towel under the



soldering area is sufficient protection.



Soldering Procedure



1. It is imperative to remove and replace the rear defroster electrical power connector by crimping a new connector to the feed wire. The proper



connector P/N 12034110 can be found in the Packard Electrical Assortment, Tray 18, Position 5.



- Insert Delphi pick 12094430 to depress the locking tab on the terminal.



- Insert Delphi pick 12094429 to release the secondary lock tab.



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 188



Important



DO NOT re-use the existing defroster tab on new-style full-size utility vehicles with moveable glass.



2. Connect the electrical connector to the defroster tab. Fully engage the connector. An improperly seated connector may cause excessive



resistance and impede the proper operation of the defroster. Add a small bead of solder to mate the electrical connector tab to the defroster



tab.



3. Prepare the surface of the used defroster tab (not required for new tabs on new-style full-size utility models) and the defroster buss bar with



fine grain (500 grit) sandpaper or Emery cloth. It is not necessary to remove all of the original solder, but it should be scuffed sufficiently so



that no oxidation is present. The photo above shows a close up of a properly prepared surface.



Tip



You may want to mask the glass around the contact area with tape. This is easy to do and will allow you to safely prepare the contact surface



without the risk of scratching the glass or the black painted shading.



Important



Most rear glass has a black painted masking around the edge of the glass. When cleaning up the connection surface, be very careful



not to damage the surface of the black shading or the surface of the glass.



4. Wipe the newly prepared contact area with Kent Automotive* Acrysol(TM) (or equivalent) to remove any residual oil or dirt.



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 189



Important



You MUST use a silver-bearing solder to make the solder joint. DO NOT attempt this repair with conventional tin/lead alloy solders.



Most suppliers have this type of solder available and it is available nationally at Radio Shack(R)*. It is sold in several diameters and either



are acceptable for this repair.



5. For this step, it is permitted that two technicians be used if required. Heat the new connector on the surface of the buss bar that is to be



soldered. Long nose pliers are suggested to hold the electrical connector and the defroster tab in place. Keep the solder ready and begin



flowing out the solder as soon as the melting temperature has been reached.



Tip



If a single technician is attempting this repair, it is beneficial to wrap one turn of the solder around the new contacts base. In this manner, as



the melting point of the solder is reached, a layer is deposited on the bottom side of the contact.



Important



Try to align the new contact so that it is positioned with the same orientation as the original contact.



6. The above illustrates an ideal finished solder joint. Additional stray solder will not harm the performance of the bond; however, while it is



unlikely that customers may refer to the appearance of the rear window defroster and its components as a positive styling feature of the



vehicle interior, it is easy to elicit the opposite reaction due to a poor cosmetic application.



*We believe this source and their products to be reliable. There may be additional manufacturers of such products/materials. General Motors does



not endorse, indicate any preference for, or assume any responsibility for the products or material from this firm or for any such items that may be



available from other sources.



Parts Information



Acrysol(TM) can be ordered directly from Kent Automotive at 1-800-654-6333 (in Canada, 1-800-563-1717).



Radio Shack(R) products can be found nationally at retail locations, www.radioshack.com, or at 1-800-843-7422.



All other parts can be ordered through GMSPO or SSPO.



Warranty Information (excluding Saab U.S. Models)



For vehicles repaired under warranty, use:



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 190



Warranty Information (Saab U.S. Models)



For vehicles repaired under warranty, use the table.

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2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 149



Check - Vehicle) prior to using this diagnostic procedure.



* Review Strategy Based Diagnosis (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Strategy Based Diagnosis) for an



overview of the diagnostic approach.



* Diagnostic Procedure Instructions (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic Procedure



Instructions) provides an overview of each diagnostic category.



DTC Descriptors



DTC B018A 02



- Windshield Temperature Sensor Circuit Short to Ground



DTC B018A 05



- Windshield Temperature Sensor Circuit High Voltage/Open



DTC B048C 02



- Humidity Sensor Humidity Circuit Short to Ground



DTC B048C 05



- Humidity Sensor Humidity Circuit High Voltage/Open



DTC B048F 02



- Humidity Sensor Temperature Circuit Short to Ground



DTC B048F 05



- Humidity Sensor Temperature Circuit High Voltage/Open



DTC B1395 03



- Control Module Voltage Reference Output Circuit Low Voltage



DTC B1395 07



- Control Module Voltage Reference Output Circuit High Voltage



Circuit/System Description



The windshield temperature and inside moisture sensor includes the relative humidity sensor, windshield temperature sensor and humidity sensing



element temperature sensor.



This sensor assembly provides information about:



* Relative humidity level at windshield inside



* Temperature of the windshield inside



* Temperature of the humidity sensor element



The relative humidity sensor measures the relative humidity of the compartment side of the windshield. It also detects the temperature of the



windshield surface on the compartment side. Both values are used as control inputs for the HVAC control module application to calculate the fog



risk on windshield compartment side and ability to reduce fuel consumption by decreasing A/C compressor power to a minimum without causing



any fog. The sensor will also enable partial recirculation mode in order to improve heat-up performance of the passenger compartment under cold



ambient temperature conditions without the risk of mist build-up on the windshield. The humidity sensor element temperature sensor supplies the



temperature of the humidity sensor element. It is only needed if the thermal contact between the humidity sensing element and the inside windshield



surface is not sufficient.



Conditions for Running the DTC



* Ignition ON.



* The HVAC control module is ON.



Conditions for Setting the DTC



B018A 02, B048C 02, B048C 02 or B1395 03



The HVAC control module detects the sensor signal out of range. The signal voltage is less than 0.1 V for more than 50 ms.



B018A 05, B048C 05, B048C 05 or B1395 07



The HVAC control module detects the sensor signal out of range. The signal voltage is greater than 4.9 V for more than 50 ms.



Action Taken When the DTC Sets



* The system will use the last valid values as default.



* If no value is read at the time of fault, the HVAC control module uses 60% for humidity.

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2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 252



DTC B022A 06



- Recirculate Position Command 2 Circuit Low Voltage/Open



DTC B0233 01



- Air Flow Control Circuit Short to Battery



DTC B0233 06



- Air Flow Control Circuit Low Voltage/Open



DTC B023A 02



- HVAC Actuators Supply Voltage Short to Ground



DTC B0408 01



- Main Temperature Control Circuit Short to Battery



DTC B0408 06



- Main Temperature Control Circuit Low Voltage/Open



DTC B0418 01



- Right Temperature Control Circuit Short to Battery



DTC B0418 06



- Right Temperature Control Circuit Low Voltage/Open



DTC B0428 01



- Rear Temperature Control Circuit Short to Battery



DTC B0428 06



- Rear Temperature Control Circuit Low Voltage/Open



DTC B3531 01



- Rear Air Flow Control Circuit Short to Battery



DTC B3531 06



- Rear Air Flow Control Circuit Low Voltage/Open



Circuit/System Description



Stepper motors are used for temperature regulation, air distribution control and recirculation door control.



With the appropriate switches at the Radio/HVAC control, the desired air temperature door position, air distribution door position and recirculation



door position can be put in. The selected values are passed to the HVAC control module via the LIN-Bus. The HVAC control module supplies a 12



V reference voltage to the stepper motors and energizes the 4 stepper motor coils with a pulsed ground signal. The stepper motors put the



appropriate door into the calculated position, in order to reach the put in temperature/position.



Conditions for Running the DTC



* Ignition ON.



* The HVAC control module is ON.



Conditions for Setting the DTC



B023A 02



The stepper motors supply output is shorted to ground.



B0223 01, B022A 01, B0233 01, B0408 01, B0418 01, B0428 01 or B3531 01



At least one control output (of four possible outputs) of the appropriate stepper motor is shorted to voltage when motor starts moving. Faults are not



detected when motor is already running or target position is already reached.



B0223 06, B022A 06, B0233 06, B0408 06, B0418 06, B0428 06 or B3531 06



At least one control output (of four possible outputs) of the appropriate stepper motor is shorted to ground or open when motor starts moving.



Faults are not detected when motor is already running or target position is already reached.



Action Taken When the DTC Sets

Wednesday, November 27, 2019

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 3046

2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 3046



3. Ignition OFF, test for less than 5 ohms between the module ground circuits and ground.



瀚慖f greater than the specified value, test the ground circuit for an open/high resistance. If the circuit tests normal, replace the EBCM.



4. If all circuits test normal, replace the yaw rate sensor.



Repair Instructions



Perform the Diagnostic Repair Verification (See: Verification Tests) after completing the diagnostic procedure.



* GMLAN Wiring Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic



Procedures/Wiring Repairs/GMLAN Wiring Repairs)



* ABS Description and Operation (See: Brakes and Traction Control/Antilock Brakes / Traction Control Systems/Description and



Operation/ABS Description and Operation) for the ABS - Hybrid



* Vehicle Yaw Sensor with Vehicle Lateral Accelerometer Replacement (See: Brakes and Traction Control/Antilock Brakes / Traction



Control Systems/Yaw Rate Sensor/Service and Repair/Less than 3900 kg (8600 lb) GVW) for the ABS - Non-Hybrid Less than 3900 kg



(8600 lb) GVW



* Vehicle Yaw Sensor with Vehicle Lateral Accelerometer Replacement (See: Brakes and Traction Control/Antilock Brakes / Traction



Control Systems/Yaw Rate Sensor/Service and Repair/Less than 3900 kg (8600 lb) GVW) for the ABS - Non-Hybrid Greater than/Equal to



3900 kg (8600 lb) GVW



* Control Module References (See: Testing and Inspection/Programming and Relearning) for module replacement, setup, and programming



Verification Tests



Diagnostic Repair Verification



1. Install any components or connectors that have been removed or replaced during diagnosis.



2. Perform any adjustment, programming or setup procedures that are required when a component or module is removed or replaced.



3. Clear the DTCs.



4. Ignition OFF, all vehicle systems OFF, this may take up to 2 minutes.



5. If the repair was related to a DTC, duplicate the Conditions for Running the DTC and use the Freeze Frame/Failure Records, if applicable, in



order to verify the DTC does not reset. If the DTC resets or another DTC is present, refer to the Diagnostic Trouble Code (DTC) List -



Vehicle (See: Diagnostic Trouble Code Descriptions/Diagnostic Trouble Code (DTC) List - Vehicle) and perform the appropriate diagnostic



procedure.



Or



If the repair was symptom related, duplicate the conditions under which the customer concern occurred to verify the repair. If the customer



concern reoccurs or another symptom is present, return to Symptoms - Vehicle (See: Testing and Inspection/Symptom Related Diagnostic



Procedures/Symptoms - Vehicle) and perform the appropriate symptom diagnostic.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 321

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 321



The content theft deterrent intrusion/inclination sensor is a multifunction sensor which detects motion inside the vehicle (intrusion), as well as



change in the vehicle level (inclination). The intrusion/inclination sensor is supplied power and ground for operation and communicates with the



body control module (BCM) via a dedicated LAN circuit. The sensor may be turned on or off using the disable switch and will display its status



through the status LED.



Conditions for Running the DTC



* The ignition is OFF.



* The vehicle is in Park.



Conditions for Setting the DTC



The BCM detects a malfunction within the content theft sensor.



Action Taken When the DTC Sets



The intrusion and inclination output is disabled.



Conditions for Clearing the DTC



* A current DTC is cleared when the conditions for setting the DTC are no longer present.



* A history DTC will clear after 40 malfunction-free ignition cycles.



Reference Information



Schematic Reference



Theft Deterrent System Schematics (See: Accessories and Optional Equipment/Antitheft and Alarm Systems/Diagrams/Electrical Diagrams/Theft



Deterrent System Schematics)



Connector End View Reference



Component Connector End Views (See: Diagrams/Connector Views/Connector End Views By Name)



Description and Operation



Content Theft Deterrent (CTD) Description and Operation (See: Accessories and Optional Equipment/Antitheft and Alarm Systems/Description



and Operation/Content Theft Deterrent (CTD))



Electrical Information Reference



* Circuit Testing (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Circuit



Testing/Circuit Testing)



* Connector Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic



Procedures/Connector Repairs/Connector Repairs)



* Testing for Intermittent Conditions and Poor Connections (See: Testing and Inspection/Component Tests and General Diagnostics/General



Electrical Diagnostic Procedures/Circuit Testing/Testing for Intermittent Conditions and Poor Connections)



* Wiring Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Wiring



Repairs/Wiring Repairs)



Scan Tool Reference



Control Module References (See: Testing and Inspection/Programming and Relearning) for scan tool information



Circuit/System Verification



Verify that DTC B291B 39 or B291B 42 is not set.



If the DTC is set, program the K9 BCM. If the DTC resets, replace the B67 ultrasonic intrusion sensor.



Circuit/System Testing



1. Ignition OFF, disconnect the harness connector at the S43 ultrasonic intrusion sensor disable switch.



2. Test for less than 10ohm between the ground circuit terminal 2 and ground.



瀚慖f greater than the specified range, test the ground circuit for an open/high resistance.



3. Ignition OFF, connect the harness connector at the S43 ultrasonic intrusion sensor disable switch. Disconnect the harness connector at the



B67 ultrasonic intrusion sensor.



4. Test for less than 10ohm between the ground circuit terminal 5 and ground.



瀚慖f greater than the specified range, test the ground circuit for an open/high resistance.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 826

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 826



Scan Tool Reference



Control Module References (See: Testing and Inspection/Programming and Relearning)



Circuit/System Testing



Note: It is recommended that Component Testing is performed before Circuit/System Testing when diagnosing the actuator because the module



will default and does not supply voltage to the sensor when the DTC is set.



1. Ignition OFF, disconnect the harness connector at the M72 Variable Power Steering Solenoid Valve.



2. Ignition ON, verify that a test lamp illuminates between the control circuit terminal A and ground.



瀚慖f the test lamp does not illuminate, test the control circuit for a short to ground or an open/high resistance.



3. Ignition OFF, connect the test lamp between the control circuit terminal A and the control circuit terminal B.



4. Ignition ON, verify the test lamp briefly illuminates for approximately 1 second, then turns OFF.



瀚慖f the test lamp is always ON, test the control circuit terminal B for a short to ground. If the circuit tests normal, replace the K17



Electronic Brake Control Module (EBCM).



瀚慖f the test lamp is always OFF, test the control circuit terminal B for a short to voltage or an open/high resistance. If the circuit tests



normal, replace the K17 Electronic Brake Control Module (EBCM).



5. If all circuits test normal, test or replace the M72 Variable Power Steering Solenoid Valve.



Component Testing



Static Test



1. Ignition OFF, disconnect the harness connector at the M72 Variable Power Steering Solenoid Valve.



2. Test for 2.5-10 ohm between the control terminals A and B.



瀚慖f not within the specified range, replace the M72 Variable Power Steering Solenoid Valve.



3. Test for infinite resistance between each terminal and the M72 Variable Power Steering Solenoid Valve housing/case.



瀚慖f not the specified value, replace the M72 Variable Power Steering Solenoid Valve.



Repair Instructions



Perform the Diagnostic Repair Verification (See: Verification Tests)



* Steering Gear Valve Solenoid Replacement (See: Steering and Suspension/Steering/Steering Gear)



* Steering Gear Replacement (See: Steering and Suspension/Steering/Steering Gear)



* Control Module References (See: Testing and Inspection/Programming and Relearning)



C0460



DTC C0460 or C0710



Diagnostic Instructions



* Perform the Diagnostic System Check - Vehicle (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic System



Check - Vehicle) prior to using this diagnostic procedure.



* Review Strategy Based Diagnosis (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Strategy Based Diagnosis) for an



overview of the diagnostic approach.



* Diagnostic Procedure Instructions (See: Testing and Inspection/Initial Inspection and Diagnostic Overview/Diagnostic Procedure



Instructions)provides an overview of each diagnostic category.



DTC Descriptors



DTC C0460 71



- Steering Position Sensor Invalid Data



DTC C0710 42



- Steering Position Signal Calibration Not Programmed



DTC C0710 5A



- Steering Position Signal Not Plausible

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 90

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 90



* The SDM requests the instrument cluster to illuminate the AIR BAG indicator.



* The SDM will store a DTC, however if an event occurs the system will still attempt deployments.



Conditions for Clearing the DTC



* The condition for setting the DTC no longer exists.



* A history DTC will clear once 100 malfunction-free ignition cycles have occurred.



Diagnostic Aid



Note: The following diagnostic aids apply for both current and history DTCs.



An incorrectly installed CPA or incorrectly seated connector can cause a shorting bar to short both control circuits together. Check the connectors



and CPAs if a DTC with symptom byte 02 or 0E is set, to ensure the shorting bars are not causing the circuits to be shorted together. Shorting bars



are used in the locations listed below:



* Passenger instrument panel air bag



* Driver and passenger seat side air bags



* Left and right roof rail air bags



* Driver and passenger seat belt retractor pretensioners



* SDM



* Inline connectors - on the side of the harness connector



* Harness side of the SDM connector



Terminal fretting or incorrectly seated connector can cause an open/high resistance condition. Check the circuit terminals for fretting or incorrectly



seated connector if a DTC with symptom byte 04 or 0D is set. If DTCs of deployment loops which are in the seat DTC B0014 and B0021, can



occur because of stress or damage to the harness due to seat movement. Move the seat to the full extend of travel while using the scan tool to



observe deployment type loop parameters.



If the pretensioner, passenger instrument panel or side air bag has inflated under unexpected conditions and/or DTC with symptom byte 01 is set,



check both control circuits for a short to voltage.



Reference Information



Schematic Reference



SIR Schematics (See: Diagrams/Electrical Diagrams/Air Bag Systems)



Connector End View Reference



Component Connector End Views (See: Diagrams/Connector Views/Connector End Views By Name)



Description and Operation



SIR System Description and Operation (See: Restraints and Safety Systems/Air Bag Systems/Description and Operation/SIR System)



Electrical Information Reference



* Circuit Testing (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Circuit



Testing/Circuit Testing)



* Testing for Intermittent Conditions and Poor Connections (See: Testing and Inspection/Component Tests and General Diagnostics/General



Electrical Diagnostic Procedures/Circuit Testing/Testing for Intermittent Conditions and Poor Connections)



* Wiring Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic Procedures/Wiring



Repairs/Wiring Repairs)



* Connector Repairs (See: Testing and Inspection/Component Tests and General Diagnostics/General Electrical Diagnostic



Procedures/Connector Repairs/Connector Repairs)



Scan Tool Reference



Control Module References (See: Testing and Inspection/Programming and Relearning) for scan tool information



Circuit/System Verification



Note:



* Refer to SIR Service Precautions (See: Restraints and Safety Systems/Air Bag Systems/Service Precautions/Technician Safety Information).



* Inspect all terminals for damage or corrosion when disconnecting connectors. Damage or corrosion in the following requires repair or



replacement of the affected component/connector.



- Seat belt retractor pretensioner



- Passenger instrument panel air bag