Saturday, March 19, 2022

2010 Cadillac Truck SRX FWD V6-3.0L Page 1100

2010 Cadillac Truck SRX FWD V6-3.0L Page 1100



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)



DTC Type Reference



Powertrain Diagnostic Trouble Code (DTC) Type Definitions (See: Diagnostic Trouble Code Descriptions/Powertrain Diagnostic Trouble Code



(DTC) Type Definitions)



Scan Tool Reference



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



Circuit/System Verification



1. Observe the DTC information with a scan tool. DTC P0627, P0628, P0629, P069E, or U0109 should not set.



瀚慖f a DTC is set refer to Diagnostic Trouble Code (DTC) List - Vehicle (See: Diagnostic Trouble Code Descriptions/Diagnostic Trouble



Code (DTC) List - Vehicle).



2. Attempt to start and idle the engine.



3. Observe the DTC information with a scan tool. DTCs P0089, P00C6, P228C, and P228D should not set.



4. Engine idling, observe the Fuel Rail Pressure Sensor parameter with a scan tool. The pressure should be approximately 1.9-2.1 Mpa (279-305



psi).



5. Command an increase and decrease in Fuel Pressure with a scan tool. Observe the scan tool Fuel Rail Pressure Sensor parameter. The Fuel



Rail Pressure Sensor parameter should increase or decrease with each commanded state.



6. Operate the vehicle within the Conditions for Running the DTC to verify the DTC does not reset. You may also operate the vehicle within the



conditions that you observed from the Freeze Frame/Failure Records data.



Circuit/System Testing



Note: Circuit/System Verification must be performed first or misdiagnosis may result.



1. Ignition ON, observe the scan tool Fuel Pump Control Module Fuel Pressure Sensor parameter. Command an increase in Fuel Pressure with a



scan tool. Verify the Fuel Pressure Sensor parameter increases to greater than 414 kPa (60 psi) as commanded.



瀚慖f less than the specified range, refer to Fuel System Diagnosis (LF1 China) (See: Powertrain Management/Fuel Delivery and Air



Induction/Fuel Pump/Testing and Inspection/Fuel System Diagnosis (China))Fuel System Diagnosis (LF1 Except China) (See:



Powertrain Management/Fuel Delivery and Air Induction/Fuel Pump/Testing and Inspection/Fuel System Diagnosis (Except China))Fuel



System Diagnosis (LAU China) (See: Powertrain Management/Fuel Delivery and Air Induction/Fuel Pump/Testing and Inspection/Fuel



System Diagnosis (China))Fuel System Diagnosis (LAU Except China) (See: Powertrain Management/Fuel Delivery and Air



Induction/Fuel Pump/Testing and Inspection/Fuel System Diagnosis (Except China)).



Note: As little as 2 ohm on either circuit of the high pressure fuel pump actuator will cause these DTCs to set. Test the circuits of the high



pressure fuel pump actuator for a high resistance if you suspect a condition.



2. Remove the G18 high pressure fuel pump and visually inspect the lobes on the camshaft for unusual wear.



瀚慖f the lobes appear normal, replace the G18 high pressure fuel pump.



瀚慖f the lobes are worn, replace the camshaft.



Component Testing



Static Test



1. Ignition OFF, disconnect the harness connector at the G18 high pressure fuel pump.



Note: The DMM and test leads must be calibrated to 0 ohm in order to prevent misdiagnosis.



2. Test for 10 ohm plus/minus 1 ohm at 25掳C (77掳F) between the low control circuit terminal 1 and the high control circuit terminal 2.



瀚慖f not within the specified range, replace the G18 high pressure fuel pump.



3. Test for infinite resistance between each terminal and the G18 high pressure fuel pump housing.



瀚慖f not the specified value, replace the G18 high pressure fuel pump.



Repair Instructions



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



* Camshaft Replacement - Right Side (See: Engine, Cooling and Exhaust/Engine/Camshaft, Lifters and Push Rods/Camshaft/Service and

2010 Cadillac Truck SRX FWD V6-3.0L Technical Service Bulletin # 10-06-01-006 Date: 100726

2010 Cadillac Truck SRX FWD V6-3.0L Technical Service Bulletin # 10-06-01-006 Date: 100726



Engine - Drive Belt Noise Inspect Pulley



TECHNICAL



Bulletin No.: 10-06-01-006



Date: July 26, 2010



Subject: Intermittent or Continuous Drive Belt Noise (Inspect for Pulley Damage, Misalignment and/or Replace Drive Belt)



Models:



2010 Buick LaCrosse



2010 Cadillac SRX



2010 Chevrolet Equinox



2010 GMC Terrain



Equipped with 3.0L (RPO LF1) or 3.6L (RPO LLT) V6 Engine



Built Prior to February 27, 2010



Condition



Some customers may comment on an intermittent or continuous drive belt noise.



Cause



2010 Cadillac Truck SRX FWD V6-3.0L Page 237



This condition may be caused by any of the following:



- One or more of the accessory drive pulleys may be misaligned, bent or damaged.



- The power steering (PS) pump pulley may be misaligned due to improper mounting on the PS pump.



- The drive belt may need to be replaced.



Correction



1. Verify the intermittent or continuous drive belt noise condition exists.



瀚慖f the condition exists, proceed to Step 2.



瀚慖f the condition does not exist, then this bulletin does not apply.



2. Perform a visual inspection for damage to any accessory drive pulley or to the drive belt. Refer to Drive Belt Chirping, Squeal and Whine



Diagnosis in SI.



瀚慖f the diagnosis reveals a condition, then repair as needed.



瀚慖f the diagnosis does not reveal a condition, proceed to Step 3.



3. Remove the drive belt. Refer to Drive Belt Replacement in SI.



Important



To properly perform Step 4, you MUST refer to and follow the referenced procedure.



4. Inspect the PS pump pulley and determine if it is flush with the PS pump shaft on the FRONT side. Refer to Corporate Bulletin Number



08-06-01-008A, Diagnosing Accessory Drive Belt/Serpentine Belt Noise and Use of Laser Alignment Tool in SI.



瀚慖f the inspection reveals that the PS pump pulley is properly aligned, then replace the drive belt. Refer to Drive Belt Replacement in SI.



Parts Information



Warranty Information



For vehicles repaired under warranty, use the table.

2010 Cadillac Truck SRX FWD V6-3.0L Page 1918

2010 Cadillac Truck SRX FWD V6-3.0L Page 1918



DTC P0461



- Fuel Level Sensor 1 Performance



DTC P0462



- Fuel Level Sensor 1 Circuit Low Voltage



DTC P0463



- Fuel Level Sensor 1 Circuit High Voltage



DTC P0464



- Fuel Level Sensor Circuit Intermittent



DTC P2066



- Fuel Level Sensor 2 Performance



DTC P2067



- Fuel Level Sensor 2 Circuit Low Voltage



DTC P2068



- Fuel Level Sensor 2 Circuit High Voltage



Diagnostic Fault Information



Circuit/System Description



The primary fuel level sensor and the secondary fuel level sensor change resistance based on fuel level. The engine control module (ECM) monitors



the signal circuits of the primary fuel level sensor and the secondary fuel level sensor in order to determine the fuel level. When the fuel tank is full,



the resistances of both fuel level sensors are low and the ECM senses a low signal voltage on both the signal circuits of the primary fuel level



sensor and the secondary fuel level sensor. When the fuel tank is empty, the resistances of the fuel level sensors are high and the ECM senses a high



signal voltage. The ECM uses the signal circuits of the primary fuel level sensor and the secondary fuel level sensor in order to calculate the



percentage of remaining fuel in the tank. The ECM sends the fuel level percentage via High Speed CAN-Bus to the body control module (BCM).



The BCM then sends the fuel level percentage via Low Speed CAN-Bus to the instrument cluster in order to control the fuel gauge.



Conditions for Running the DTC



* The engine is running



* The system voltage is between 11-16 V



Conditions for Setting the DTC



P0461 or P2066



* The ECM detects a difference between the fuel consumed by the engine and change of the fuel level signal of less than 1 L (0.26 gal) over a



range of 30 L (7.92 gal) or 45.6% of the primary fuel tank.



* The above condition is present for about 300 seconds.



P0462 or P2067



* The signal voltage is less than 0.25 V.



* The above conditions must be met for 5 seconds.



P0463 or P2068



* The signal voltage is greater than 4.7 V.



* The above conditions must be met for 5 seconds.



P0464



* The fuel level change is greater than 10%.



* The above conditions must be met for 30 seconds.



* DTC P0464 runs and fails 2 out of 3 test cycles.



Action Taken When the DTC Sets



* P0461, P0462, P0463, P0464, P2066, P2067 and P2068 are Type B DTCs

Friday, March 18, 2022

2010 Cadillac Truck SRX FWD V6-3.0L Page 862

2010 Cadillac Truck SRX FWD V6-3.0L Page 862



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



Circuit/System Testing



1. Verify that no DTCs are present in the ECM.



瀚慖f any DTC is present, refer to Diagnostic Trouble Code (DTC) List - Vehicle (See: Diagnostic Trouble Code Descriptions/Diagnostic



Trouble Code (DTC) List - Vehicle) to diagnose that DTC prior to this diagnostic.



2. Replace the K19 suspension control module and verify the DTC does not reset.



瀚慖f the DTC resets replace the K20 engine control module (ECM).



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 control module replacement, setup and programming



C0750



DTC C0750, C0755, C0760, or C0765



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 Descriptor



DTC C0750 03



- Left Front Tire Pressure Sensor Low Voltage



DTC C0750 29



- Left Front Tire Pressure Sensor Too Few Pulses



DTC C0750 39



- Left Front Tire Pressure Sensor Internal Malfunction



DTC C0755 03



- Right Front Tire Pressure Sensor Low Voltage



DTC C0755 29



- Right Front Tire Pressure Sensor Too Few Pulses



DTC C0755 39



- Right Front Tire Pressure Sensor Internal Malfunction



DTC C0760 03



- Left Rear Tire Pressure Sensor Low Voltage



DTC C0760 29



- Left Rear Tire Pressure Sensor Too Few Pulses



DTC C0760 39



- Left Rear Tire Pressure Sensor Internal Malfunction



DTC C0765 03



- Right Rear Tire Pressure Sensor Low Voltage



DTC C0765 29



- Right Rear Tire Pressure Sensor Too Few Pulses



DTC C0765 39



- Right Rear Tire Pressure Sensor Internal Malfunction

2010 Cadillac Truck SRX FWD V6-3.0L Page 2123

2010 Cadillac Truck SRX FWD V6-3.0L Page 2123



* TCM communication is normal.



* The automatic transmission fluid temperature is more than 20掳C (68掳F).



* SLB1 current is more than 0.85 A.



* SLB1 current is not changed.



P2729



* The ignition voltage is 10.2-15.5 V.



* The engine speed is greater than 400 RPM for 2 s.



* The transmission is not in emergency mode.



* Driving in D range.



* TCM communication is normal.



* DTC P2730 is not set.



P2730



* The ignition voltage is 10.2-15.5 V.



* The engine speed is greater than 400 RPM for 2 s.



* The transmission is not in emergency mode.



* Driving in D range.



* TCM communication is normal.



* DTC P2729 is not set.



Conditions for Setting the DTC



P2725



Deviation between commanded current and feedback current.



P2728



The TCM detects the error current more than 80 mA for 2.75 ms.



P2729



The TCM detects at least 5 times less than 23 mA current consumption of the SLB1 control circuit for 100 ms.



P2730



The TCM detects at least 5 times more than 1.333 A current consumption of the SLB1 control circuit for 100 ms.



Action Taken When the DTC Sets



P2725, P2728



* DTC P2725 and P2728 are Type B DTC.



* The TCM turns OFF all solenoids.



* The TCM allows the vehicle to operate only in the second gear and "R" range after a stop.



P2729, P2730



* DTCs P2729 and P2730 are Type B DTCs.



* No self learning function.



* The TCM turns OFF all solenoids.



* The TCM allows the vehicle to operate only in the second gear and "R" range after a stop.



Conditions for Clearing the DTC



P2725, P2728



* DTC P2725 and P2728 are Type B DTC.



* The TCM detects the error current less than 50 mA for 2.75 ms.



P2729, P2730



* DTCs P2729 and P2730 are Type B DTCs.



* The current consumption of the SLB1 control circuit is 0.1-1.1 A for 500 ms.



Diagnostic Aids



When attempting to set solenoid electrical DTCs, ensure the TCM is warmed up and the transmission is operated in 2nd gear long enough to ensure



a 3掳C (5掳F) increase in TCM substrate temperature. This will place the TCM in the optimal condition to test solenoid electrical DTCs.

2010 Cadillac Truck SRX FWD V6-3.0L Page 2114

2010 Cadillac Truck SRX FWD V6-3.0L Page 2114



- Clutch Pressure Control (PC) Solenoid 5 Control Circuit Low Voltage



DTC P2730



- Clutch Pressure Control (PC) Solenoid 5 Control Circuit High Voltage



Diagnostic Fault Information



Circuit/System Description



The clutch pressure control (PC) solenoid 5 is part of the control solenoid valve assembly which has no serviceable components. The normally low



PC solenoid 5 regulates and directs oil pressure to the 1-2-3-4 clutch regulator valve and 1-2-3-4 clutch boost valve. Increasing PC solenoid 5



pressure increases pressure to the 1-2-3-4 clutch. The TCM varies the current to the PC solenoid 5 through a low side driver. Increasing the current



to PC solenoid 5 increases oil pressure by closing OFF the solenoid exhaust port. Decreasing the current to PC solenoid 5 decreases oil pressure by



opening the exhaust port. PC solenoid 5 power is supplied by the TCM through a high side driver (HSD). The HSD protects the circuit and



components from excessive current flow. If excessive current flow is detected, the HSD will turn OFF. When the fault is corrected, the HSD will



reset.



Conditions for Running the DTC



P2728



* DTC P2728 has not set this ignition cycle.



* The engine speed is 400 RPM or greater for 5 seconds.



* The ignition voltage is 8.6 volts or greater.



P2729



* DTC P2729 has not set this ignition cycle.



* The engine speed is 400 RPM or greater for 5 seconds.



* The ignition voltage is 8.6 volts or greater.



P2730



* DTC P2730 has not set this ignition cycle.



* The engine speed is 400 RPM or greater for 5 seconds.



* The ignition voltage is 8.6 volts or greater.



Conditions for Setting the DTC



P2728



The TCM detects an internal electrical performance malfunction of the clutch PC solenoid 5 control circuit where the measured clutch PC solenoid



5 current does not equal the commanded clutch PC solenoid 5 current for 5 seconds.



P2729



The TCM detects a short to ground on the clutch PC solenoid 5 control circuit for 1 second.



P2730



The TCM detects an open or short to voltage on the clutch PC solenoid 5 control circuit for 1 second.



Action Taken When the DTC Sets



P2728



* DTC P2728 is a Type C DTC.



* The TCM freezes transmission adaptive functions on the 1-2-3-4 clutch.



P2729



* DTC P2729 is a Type A DTC.



* The TCM commands maximum line pressure.



* The TCM freezes transmission adaptive functions.



* The TCM inhibits Tap Up/Down function.



* The TCM inhibits manual shifting of forward gears.



* The TCM limits then the transmission to reverse, 1st and 3rd gear.



P2730



* DTC P2730 is a Type A DTC.



* The TCM inhibits the TCC.

2010 Cadillac Truck SRX FWD V6-3.0L Page 758

2010 Cadillac Truck SRX FWD V6-3.0L Page 758



Conditions for Clearing the DTC



* A current DTC clears when the diagnostic runs and passes.



* The EBCM will turn OFF the indicator in the next ignition cycle.



Reference Information



Schematic Reference



Hydraulic Brake Schematics (See: Brakes and Traction Control/Hydraulic System/Diagrams/Electrical Diagrams)



Connector End View Reference



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



Description and Operation



Brake Assist System Description and Operation (See: Brakes and Traction Control/Hydraulic System/Description and Operation/Brake Assist



System)



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 OFF, apply and release the brake pedal several times to ventilate the brake booster.



2. Engine running, the M9 Brake Booster Pump Motor should turn ON for a short time.



Circuit/System Testing



1. Inspect the brake booster vacuum system for damage, leakage and correct installation. Refer to Brake Assist System Diagnosis (See: Brakes



and Traction Control/Hydraulic System/Testing and Inspection/Component Tests and General Diagnostics/Brake Assist System Diagnosis).



2. If the brake booster vacuum systems diagnoses normal, disconnect the harness connector at the M9 Brake Booster Pump Motor.



3. Ignition OFF, test for less than 5 ohm between the ground circuit terminal 2 and ground.



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



4. Disconnect the KR28 Vacuum Pump Relay.



5. Ignition ON, verify that a test lamp illuminates between the circuit terminals listed below and ground.



* Relay coil ignition terminal 86



* Relay switch ignition terminal 87



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



6. Verify that a test lamp does not illuminate between the relay controlled output circuit terminal 30 and ground.



瀚慖f the test lamp illuminates, test the controlled output circuit for a short to voltage.



7. Verify that a test lamp does not illuminate between the relay control circuit terminal 85 and ground.



瀚慖f the test lamp illuminates, test the control circuit for a short to voltage. If the circuit tests normal, replace the K17 Electronic Brake



Control Module (EBCM).



8. Ignition OFF, connect the harness connector at the M9 Brake Booster Pump Motor.



9. Momentarily connect a 20 A fused jumper wire between the vacuum pump relay controlled output circuit terminal 30 and B+. Verify the M9



Brake Booster Pump Motor activates.



瀚慖f the M9 Brake Booster Pump Motor does not activate and the vacuum pump motor fuse is open, test the controlled output circuit for a



short to ground or an open/high resistance. If the circuit tests normal, test or replace the M9 Brake Booster Pump Motor.

Disclaimer2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 08-08-46-004A Date: 121130

Disclaimer2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Technical Service Bulletin # 08-08-46-004A Date: 121130



Electrical - Aftermarket Devices May Interfere With OnStar(R)



INFORMATION



Bulletin No.: 08-08-46-004A



Date: November 30, 2012



Subject: (R)Information on Aftermarket Device Interference with OnStar Diagnostic Services



Models:



2013 and Prior GM Passenger Cars and Trucks



Equipped with OnStar(R) (RPO UE1)



Supercede:



This bulletin is being revised to add the 2010-2013 model years. Please discard Corporate Bulletin Number 08-08-46-004 (Section 08 - Body and



Accessories).



This bulletin is being issued to provide dealer service personnel with information regarding aftermarket devices connected to the Diagnostic Link



Connector (DLC) and the impact to OnStar(R) diagnostic probes and Vehicle Diagnostic e-mails.



Certain aftermarket devices, when connected to the Diagnostic Link Connector, such as, but not limited to, Scan Tools, Trip Computers, Fuel



Economy Analyzers and Insurance Tracking Devices, interfere with OnStar's ability to perform a diagnostic probe when requested (via a blue



button call) by a subscriber. These devices also prohibit the ability to gather diagnostic and tire pressure data for a subscriber's scheduled OnStar(R)



Vehicle Diagnostic (OVD) e-mail.



These aftermarket devices utilize the Vehicle's serial data bus to perform data requests and/or information gathering. When these devices are



requesting data, OnStar(R) is designed not to interfere with any data request being made by these devices as required by OBD II regulations.



The OnStar(R) advisor is unable to definitively detect the presence of these devices and will only be able to inform the caller or requester of the



unsuccessful or incomplete probe and may in some cases refer the subscriber/requester to take the vehicle to a dealer for diagnosis of the concern.



When performing a diagnostic check for an unsuccessful or incomplete OnStar(R) diagnostic probe, or for concerns regarding completeness of the



OnStar(R) Vehicle Diagnostic (OVD) e-mail, verify that an aftermarket device was not present at the time of the requested probe. Regarding the



OVD e-mail, if an aftermarket device is interfering (including a Scan Tool of any type), the e-mail will consistently display a "yellow" indication in



diagnostics section for all vehicle systems except the OnStar(R) System and Tire Pressure data (not available on all vehicles) will not be displayed



(i.e. section is collapsed). Successful diagnostic probes and complete OVD e-mails will resume following the removal or disconnecting of the



off-board device.



2010 Cadillac Truck Escalade/ESV RWD V8-6.2L Page 3

2010 Cadillac Truck SRX FWD V6-3.0L Technical Service Bulletin # 07-03-16-004C Date: 100426

2010 Cadillac Truck SRX FWD V6-3.0L Technical Service Bulletin # 07-03-16-004C Date: 100426



2010 Cadillac Truck SRX FWD V6-3.0L Page 213



Tire Pressure Monitor - TPM System Overview



INFORMATION



Bulletin No.: 07-03-16-004C



Date: April 26, 2010



Subject: TPM System Overview, Diagnosing Tire Pressure Monitor System (TPM) Concerns and TPM Frequently Asked Questions (FAQ)



Models:



2007 Buick Lucerne, Rainier



2006-2007 Cadillac DTS, Escalade Models



2007 Cadillac SRX



2006-2007 Chevrolet Avalanche, Impala, Monte Carlo, Suburban, Tahoe



2007 Chevrolet Equinox, Silverado, TrailBlazer



2006-2007 GMC Yukon Models



2007 GMC Acadia, Envoy, Sierra



2007 Pontiac Torrent



2007 Saturn AURA, OUTLOOK



2007-2009 Saab 9-7X



2008-2010 Saturn Models (except ASTRA)



2008-2010 HUMMER H2, H3



2008-2011 GM Passenger Cars and Trucks



Attention:



The information found in this bulletin is designed to be a single source for the majority of questions you may have about the Tire Pressure



Monitoring (TPM) Systems found on General Motors Vehicles. While comprehensive, the bulletin is divided into sections, so after reviewing the



whole document, you can reference just the section you need when further questions arise. A copy of this information may also be given to your



customer as the "FAQs" section is written to assist you in explaining the most common misconceptions about the system in an easy to understand



way. This bulletin does not apply to the Saturn Astra and does not apply to vehicles in Canada that are not equipped with Tire Pressure Monitoring.



Supercede:



This bulletin is being revised to add the 2011 model year. Please discard Corporate Bulletin Number 07-03-16-004B (Section 03 - Suspension).



Customer Concerns and Confusion



When a customer comments on a condition related to tire pressure monitoring, it is very important to distinguish between Check Tire Pressure /



Low Tire Pressure conditions and Service Tire Monitor system issues. Understanding the difference between the two distinct conditions will help



you distinguish between normal system operation (tire needs air) and a system malfunction.



There are two important differences between a Check Tire Pressure / Low Tire Pressure message/light and a Service Tire Monitor message



light:



- A Check Tire Pressure / Low Tire Pressure message/light will stay on solid and no system codes are set. The TPM system is operating as



designed. Correcting the tire pressure will resolve the issue.



- A Service Tire Monitor message/light will blink and system codes WILL set. There is a condition that should be diagnosed and corrected.



Tire Pressure Light



2010 Cadillac Truck SRX FWD V6-3.0L Page 214



Service Tire Monitor System (light blinks, then stays on)



The Tire Pressure Light will blink for about one minute and a Service Tire Monitor message will be displayed when a system malfunction occurs.



For example: If one or more tire pressure sensors does not transmit information for 18 minutes of driving, the TPM system WILL set a code,



display a message, and BLINK the light for about a minute, after which the light will stay on solid for the remainder of the ignition cycle. If the



system fault is intermittent, the message/light may also be intermittent - on during some ignition cycles, off during others.



Low Tire Pressure Warning (light stays on solid)



If the TPM system detects a tire pressure below the threshold, the Check Tire Pressure message and the Tire Pressure Light will come on and stay



on. The message and light may be intermittent in nature, especially during cold weather.



Conditions That Will Cause the Low Tire Pressure Warning Message/Light to Display:



- The tire may have picked up a road hazard and/or have a slow leak.



- The tire pressure may not have been checked in the past six months.



- The air pressure in a cold tire may be at the pressure where the system is required to warn the driver. However, that same tire will rise in



temperature and pressure as the customer drives, causing the message and light to go out.



- The tires may have been rotated, pressures adjusted, and the new tire positions were NOT re-learned into the vehicle. This can occur on



vehicles that have two different placard pressures for front and rear tires.



- There may be a slow leak in one of the wheel and tire assemblies (Valve Stem, Wheel Rim, or Aluminum Wheel Porosity Leak). If this



condition is found, please refer to bulletin:



- #05-03-10-003F - Low Tire Pressure, Leaking Cast Aluminum Wheels (Repair with Adhesive Sealant)



- #04-03-10-001F - Info - Tire Puncture Repair Procedures for all Cars and Light Duty Trucks



The Effect of Outside Temperatures on Tire Pressures



Important



As a rule of thumb, tire pressure will change about 7 kPa (1 psi) for every 6掳C (10掳F) decrease in temperature - dropping when it gets



colder outside, rising when it gets warmer.



Tire pressure should be set to the specified placard pressure at the lowest seasonal temperature the vehicle will encounter during



operation.



2010 Cadillac Truck SRX FWD V6-3.0L Page 215



The correct action to avoid a Check Tire Pressure message due to extreme temperature changes is to do the following:



- Use an accurate, high quality tire pressure gauge.



- Re-learn the TPM sensors and adjust the tire pressure to the placard values after every tire rotation.



- Let the vehicle sit and adjust the tire pressure to the specified value when the tire temperature is at the lowest expected temperature.



- Never set the tire pressure below the placard value regardless of tire temperature or ambient temperature.



Important



On extremely cold days, if setting the tire pressure when the vehicle has been indoors, it may be necessary to compensate for the low



outside temperature by adding 21-27 kPa (3-4 psi) more than the placard pressure. At some later time, when convenient and when the tires



are cold (outdoors), the pressure should be re-checked and adjusted to the placard pressures if necessary.



Using the TPM Tool



TPM Tool J 46079 Software Updates and Hardware Update Kit



The J 46079 TPM tool is a valuable aid in diagnosing system faults with TPM systems. It is a software-driven tool that REQUIRES periodic



updates in order to work on new model cars and trucks. Failure to update the tool with the latest software version may result in possible



misdiagnosis.



TPM Software Version 3.5 has recently been shipped to each GM dealership in the J 46079-30 TPM update kit. All future TPM software updates



will be posted in GM DealerWorld (U.S) or the GMinfoNET (Canada) as needed. Under the Support tab, access "TPM Downloads."



This update consists of two parts:



- A hardware update kit that consists of a custom rechargeable battery pack, battery cover with charging terminals, and a charging cradle with



a smart charger where the whole tool will fit into the cradle for charging (same concept as a cordless phone). This hardware update



substantially increases the life of the batteries and will assure that the TPM Tester always has full battery capacity.



- The software update will add new vehicles and also improve the speed of the tool's read-back ability and accuracy.



Sensor transmission signal strength is displayed in the upper left corner of the main display next to the tool's battery level display. When the tool is



used in both activate or scan mode, it will receive the sensor's transmission and indicate its signal strength. It is important to note the sensor's



transmission signal strength since it is a good indication of an accurate diagnostic.



TPM Tool J 46079 User Tips



Diagnostic Tip



The placement of the TPM Tester's antenna when activating a sensor is critical, especially with the latest software update. When activating a sensor,



the antenna tip of the TPM Test J 46079 must be placed on the sidewall, perpendicular to the tire, and close to the valve stem (see photo above).



This will assure proper activation of the sensor. If the antenna of the TPM Tester is placed either on the valve stem or on the wheel itself, the tool



may not properly activate the sensor, causing improper diagnosis.



Diagnostic Tip



If you encounter a sensor that does not respond when activated by the tool, try activating another sensor that responded previously. This will help



you determine if the tool is able to activate the sensor or if you have a problem with one particular sensor.



Diagnostic Tip



When using the tool during a sensor learn procedure, use the "Activate" soft key on the tool. Press the key for one second then release and the tool



will perform an LF (low frequency - 125 kHz) activation cycle. You do not have to hold the key until the vehicle acknowledges. Holding the key



will just reduce battery life. The LF activation of the sensors wakes them up and forces them to transmit their IDs immediately. This allows a much



shorter sensor learn procedure than using the Delta P method.



Warranty Information



GM is very concerned about customer safety and tire performance. Anytime a customer brings a GM vehicle in for a tire or tire pressure monitoring



2010 Cadillac Truck SRX FWD V6-3.0L Page 216



concern, we encourage our dealers to perform a complete check of tire conditions, pressures, and the TPM system if necessary. Under normal



circumstances, the condition of tires, TPM reprogramming during tire rotation, road hazard repairs, and checking/maintaining tire pressure are the



responsibility of the vehicle owner. GM Dealers should encourage customers to inspect/check and maintain their tires and tire pressure on a regular



monthly basis.



The tires and the tire pressure monitoring system are covered by the vehicle bumper to bumper warranty for manufacturing defects. It is GM's



responsibility to perform repairs when a defect exists. If no defect exists, the customer should be responsible for the tire/system check.



GM does not cover the normal inspection and maintenance of tires and tire pressure. The use of this labor operation E0716 is intended to identify



system defects and verify proper operation.



Warranty Information (excluding Saab U.S. Models)



E0716 - Diagnostic System Check - Tire Pressure Monitoring This labor operation should be used to check proper TPM system operation when



a customer brings their vehicle into the dealership with a Service Tire Monitor System message/light (blinks on startup, codes in system).



If a customer comments on a Check Tire Pressure / Low Tire Pressure message/light (light was on steady - no flashing), the tires should simply be



inflated to the proper pressure - this is not a warrantable repair.



E0719 - Washer, Lower Tire Pressure Warning Sensor Replacement This labor operation should be used whenever the rubber grommet is



replaced.



E0722 - Tire Pressure Indicator Sensor Replacement This labor operation should only be used when a System Malfunction has been confirmed



(by labor operation E0716) and the Diagnostic Trouble Code (DTC) corresponds to a Sensor Fault (DTCs C0750, C0755, C0760 and C0765).



For vehicles repaired under warranty, use:



Warranty Information (Saab U.S. Models)



For vehicles repaired under warranty, use the table above.



Disclaimer



TMP Frequently Asked Questions (FAQs)



TPM Frequently Asked Questions (FAQs)



The following are some of the most asked questions:



Q: What is a Tire Pressure Monitoring System?



A: The TPM system consists of four sensors (one in each wheel), which transmit wireless (RF) signals to a vehicle receiver (typically, the same



receiver that performs the keyless entry function), the Low Tire telltale, and the Driver Information Center (if equipped).



Q: Do all Vehicles Have Tire Pressure Monitoring?



A: Starting with the 2008 MY, all GM vehicles sold in the United States are equipped with tire pressure monitoring, to meet the mandates of



FMVSS 138. Some vehicles built prior to the 2008 model year or sold in Canada have tire pressure monitoring; check vehicle build and RPO



information to be sure.



Q: What does the Low Tire Telltale Look Like?



2010 Cadillac Truck SRX FWD V6-3.0L Page 217



A: The Low Tire telltale is a yellow telltale that looks like an exclamation point inside of a horseshoe:



Q: When does the Low Tire Telltale Come On?



A: The Low Tire telltale MUST come on when a tire's pressure drops to 75% of the Recommended Cold Inflation pressure (the pressure value



printed on the vehicle placard - the yellow and white sticker in the driver door opening.)



There are several events that may cause a Low Tire warning:



- The tire may have picked up a road hazard and/or have a slow leak.



- The tire pressure may not have been checked in the past six months.



- The air pressure in a cold tire may be at the pressure where the system is required to warn the driver. However, that same tire will rise in



temperature and pressure as the customer drives, causing the message and light to go out.



- On vehicles where a different placard pressure is required between the front and the rear axles, the tires may have been rotated, pressures



adjusted, and the new tire positions were NOT re-learned into the vehicle.



- There may be a slow leak in one of the wheel and tire assemblies (Valve Stem, Wheel Rim, or Aluminum Wheel Porosity Leak). If this



condition is found, please refer to bulletin:



- #05-03-10-003E - Low Tire Pressure, Leaking Cast Aluminum Wheels (Repair with Adhesive Sealant)



- #04-03-10-001E - Info - Tire Puncture Repair Procedures for all Cars and Light Duty Trucks



Q: What does the TPMS Malfunction Warning Look Like?



A: The TPMS Malfunction indicator uses the same telltale as the Low Tire warning. The telltale will flash for the first 60 seconds of a KEY ON



event, and then go on solid.



Q: How can I tell the difference between a Low Tire and a system malfunction?



A:



- A Low Tire telltale will be on solid immediately after KEY ON, and will be accompanied by a CHECK TIRE PRESSURE message in the



Driver Information Center (if equipped).



- A system malfunction causes the telltale to flash for the first 60 seconds of a KEY ON event, and then go solid.



Tip



2010 Cadillac Truck SRX FWD V6-3.0L Page 218



These behaviors repeat at each KEY ON cycle. The best way to diagnose the vehicle (if you're not sure which warning is being displayed) is



to KEY OFF and KEY ON again while watching the telltale and DIC messages.



Q: When are Diagnostic Trouble Codes Reported?



A: DTC's are reported ONLY when there is a system malfunction (flashing telltale). When a Low Tire (solid telltale) is displayed, that means that



the system is working exactly as it's designed to do - since there's no malfunction, there is no need for a DTC.



Q: What service is needed if the Low Tire telltale is on?



A: When a vehicle comes in with a Low Tire warning, the tires should be checked for any leaks or damage (from road hazards). After those have



been repaired (or if none are found), the tires should be inflated to the pressure shown on the Vehicle Placard - the yellow and white sticker in the



driver door opening. It is not necessary to relearn the sensors after correcting the pressure.



Q: Can Tire Pressure Monitoring be turned off?



A: Tire Pressure Monitoring is now a mandated safety system in the United States and cannot knowingly be disabled by an OEM nor an



aftermarket service provider (49 USC 30101).



Q: Can the Tire Type and/or Placard Value be changed, if aftermarket tires or wheels are installed?



A: The Tire Type (P Metric, LT Load Range C/D/E) and the Placard Value (Front Placard and Rear Placard, individually) are stored in the receiver



as calibrations and CAN be revised at a GM Dealership with a Tech 2. (The RCDLR Setup screens allow this.) Since the under-inflation threshold



is calculated as a percentage of the placard; correcting the placard values when different tires are installed will bring the vehicle back into



compliance.



Q: What is Sensor Learning (Sensor Re-Learning, Sensor Training, Sensor Matching)?



A: Each sensor has its own unique identification code (ID) that is transmitted as part of its wireless signal. The receiver stores and uses these IDs



to determine which sensors are installed on the vehicle, and in which corner of the vehicle the sensor resides in (so that both the pressure



information provided in the Driver Information Center and the diagnostics are correct). Sensor Learning is the process that puts sensor ID



information into the receiver.



Q: When is Sensor Learning required?



A: Sensor Learning should be done when the vehicle's tires are rotated (since sensor position on the vehicle has changed) or when a sensor is



replaced/a new sensor is installed (since a new ID has been introduced to the vehicle). Sensor Learning is not required when simply correcting the



tire pressure resolves the vehicle problem.



Q: Why are dashes (" - - "), or a pressure value of 148 PSI (1020 kPa), sometimes displayed after a battery disconnect?



A: These displays come up after a battery disconnect/reconnect because the system is waiting for updated pressure information to be sent from the



tire pressure sensors. As each sensor transmits its information, the display is updated appropriately. Note that when dashes or 148 PSI (1020 kPa)



are displayed after a battery disconnect/reconnect, the System Malfunction warning is NOT displayed - because the system is still working



properly, and simply waiting for updated information from the sensors. Driving the vehicle above 20 mph (32 km/h) for 2 minutes gets the sensors



talking, and restores the correct pressure values to the display. It is also possible to restore the values by using the J-46079 TPM tool, using the



"Activate" function at each tire to activate the sensor (it is NOT necessary to put the system into Learn mode, in this special case).



Q: Is there a sensor installed in the spare tire?



A: No - a sensor is not installed in the spare tire.



Q: Are all of the sensors the same?



A: All of the sensors are not the same. They are supplied by different manufacturers, and send different RF signals to the vehicle. SOME of the



sensors are interchangeable, though - while they may look different, they DO send the same RF signal to the vehicle and MAY be used in place of



one another on a vehicle. See the Sensor Information Guide for more details about which parts are interchangeable.



Q: What size is the sensor nut?



A: The sensor uses an 11 mm hex nut for attachment.



Q: Will a tire pressure sensor fit in every wheel?



A: GM wheels (including Accessory Wheels available from GM SPO) are designed to accommodate tire pressure sensors. Many aftermarket



wheels also accommodate tire pressure sensors, but not all do. In some, the valve stem hole is placed in such a way (pointing straight into the



middle of the wheel, for example) that the motion detection components inside the sensor will not work correctly.



Q: Can the valve core be replaced?



2010 Cadillac Truck SRX FWD V6-3.0L Page 219



A: The valve core can and should be replaced if it is removed from the sensor, but the replacement part depends on the material of the valve stem



(Refer to Service Bulletin # 08-03-10-005). Sensors with a rubber valve stem may use a standard brass valve core for replacement. Sensors with an



aluminum valve stem CANNOT use a brass core; instead, they require a nickel-plated valve core to protect against the corrosion that forms when



dissimilar metals come in contact. See the service parts guide for the correct GM part numbers to order and use.



Q: Can the grommet (and washer) be replaced?



A: The grommet (and washer) can and should be replaced if the sensor is removed from the wheel. The rubber grommet provides the air seal in the



valve stem opening, and a new one should be used to ensure a fresh seal after each service. See the service parts guide for the correct GM part



numbers to order and use.



Q: Can the rubber valve stem be replaced by itself?



A: The rubber valve stem is attached to the sensor electronics by a TORX screw. The valve can and should be replaced whenever the sensor is



removed from the wheel. See the service parts guide for the correct GM part numbers to use.



Q: Can the sensor be cleaned with a sharp pin?



A: NEVER use a sharp object to clean the pressure port of the sensor; it can be damaged and lead to part failure. If the dirt/grime/obstruction



cannot be removed with a cloth, replace the sensor.



Q: How long will the sensor's battery work?



A: The sensor is designed to last for 10 years or 150,000 miles (240,000 kilometers).



Q: Are tire pressure sensors compatible with aftermarket tire sealants?



A: Tire pressure sensors are not compatible with commercially-available tire sealants. Tire sealant materials can clog the pressure port of the



sensor, and lead to inaccurate pressure readings and improper Low Tire warnings. Additionally, some sealant products use materials that can



degrade the protective potting material that covers the sensor's electronics.



Q: Are tire pressure sensors compatible with GM Inflator Kits?



A: While tire pressure sensors are NOT compatible with commercially-available sealants, they HAVE been tested and ARE compatible with GM



Inflator Kits and the sealant that they use. After inflator kit use, the sensor should be inspected for any damage, and replaced/cleaned as needed.



Q: Are tire pressure sensors compatible with nitrogen inflation?



A: Tire pressure sensors are compatible with nitrogen inflation (normal air is already 78% nitrogen).



Q: How do changing outside temperatures affect tire pressure?



A: All gases change pressure as their temperature changes, and air or nitrogen are no exceptions. A good rule of thumb is that tire pressure will



change by about 1 psi (7 kPa) when temperature changes by 10掳 F (6掳C). Customers may experience this as temperatures change from summer to



fall and into winter - tire pressures will drop as the outside temperature gets colder. Customers may also experience this as temperatures change



between mid-day and overnight.



Q: How should tire pressures be set at PDI?



A: Tire pressure should be set to the specified placard pressure at the lowest seasonal temperature the vehicle will see during operation. The correct



action to avoid a CHECK TIRE PRESSURE message due to extreme temperature changes is to: Use an accurate high quality tire pressure gauge.



Let the vehicle sit and adjust tire pressure to the specified value when tire temperature is at the lowest expected temperature. Never set tire pressure



below the placard value regardless of tire temperature or ambient temperature On extremely cold days, if setting tire pressure when the vehicle has



been indoors, it may be necessary to compensate for the low external temperature by adding 3-4 psi (21-27 kPa) more than the placard pressure.



When convenient, at some later time, when the tires are cold (outdoors), the pressure should be re-checked and adjusted to placard if necessary.



Q: When will the J-46079 tool be updated?



A: TPM Software Version 3.5 has recently been shipped to each GM dealership in the J 46079-30 TPM update kit. This update consists of two



parts:



- A hardware update kit which consists of a custom rechargeable battery pack, battery cover with charging terminals, and a charging cradle



with a smart charger where the whole tool will fit into the cradle for charging (same concept as a cordless phone). This hardware update



substantially increases the life of the batteries and will assure that the TPM Tester always has full battery capacity.



- The software update will add new vehicles and also improve the speed of the tool's read-back ability and accuracy. Sensor transmission



signal strength is displayed in the upper left corner of the main display next to the tool's battery level display. When the tool is used in both



activate or scan mode, it will receive the sensor's transmission and indicate its signal strength. It is important to note the sensor's transmission



signal strength since it is a good indication of an accurate diagnostic.



2010 Cadillac Truck SRX FWD V6-3.0L Page 220



Q: Where should the J-46079 tool be positioned when it is being used?



A: Tool User Tip: The placement of the TPM Tester's antenna when activating a sensor is critical, especially with the latest software update. When



activating a sensor, the antenna tip of the TPM Test J 46079 must be placed on the sidewall, perpendicular to the tire, and close to the valve stem.



This will assure proper activation of the sensor. If the antenna of the TPM Tester is placed either on the valve stem or on the wheel itself, the tool



may not properly activate the sensor, causing improper diagnosis.

2010 Cadillac Truck SRX FWD V6-3.0L Page 1897

2010 Cadillac Truck SRX FWD V6-3.0L Page 1897



* The transmission is not in emergency mode.



* Driving in D range.



* Transmission control module (TCM) communication is normal.



* Transmission fluid temperature is more than 10掳C (50掳F).



Conditions for Setting the DTC



P1702



* Clutch C1 hydraulic pressure is less than 26 kPa (3.8 PSI).



* Input revolution is less than 400 RPM for more than 5 s.



P1703



* Clutch C1 in neutral control



* Clutch C1 hydraulic pressure is more than 350 kPa (51 PSI).



* Input revolution is more than 400 RPM for more than 0.6 s.



P1704



* Clutch C1 apply control



* C1 hydraulic pressure command value is more than 300 kPa (44 PSI).



* Determined after 1 time lasting more than 0.3 s.



Action Taken When the DTC Sets



P1702, P1703



* DTCs P1702, P1703 are Type C DTC.



* No self learning function



* No Neutral control



* No adaptive shift



* Inhibit of Neutral control and garage shift control (N-D, D-N, N-R, R-N)



P1704



* DTC P1704 is Type B DTC.



* Torque limitation



* The TCM turns OFF all solenoids.



* The TCM allows the vehicle to operate only in second gear and "R" range after a stop.



Conditions for Clearing the DTC



P1702



* DTC P1702 is Type C DTC.



* Clutch C1 in neutral control



* Clutch C1 pressure is more than 26 kPa (3.8 PSI).



P1703



* DTC P1703 is Type C DTC.



* Clutch C1 in neutral control



* Clutch C1 hydraulic pressure is less than 350 kPa (51 PSI).



P1704



* DTC P1704 is Type B DTC.



* C1 hydraulic pressure command value is less than 300 kPa (44 PSI).



Diagnostic Aids



When attempting to set solenoid electrical DTCs, ensure the TCM is warmed up and the transmission is operated in 2nd gear long enough to ensure



a 3掳C (5掳F) increase in TCM substrate temperature. This will place the TCM under the optimal conditions to test solenoid electrical DTCs.



Reference Information



Schematic Reference



Automatic Transmission Controls Schematics (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Diagrams/Electrical



Diagrams)



Connector End View Reference



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



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

Thursday, March 17, 2022

Disclaimer2010 Cadillac Truck Escalade RWD V8-6.2L Technical Service Bulletin # 00-06-01-012D Date: 111025

Disclaimer2010 Cadillac Truck Escalade RWD V8-6.2L Technical Service Bulletin # 00-06-01-012D Date: 111025



Engine - Use of 'Surface Conditioning Disks'



INFORMATION



Bulletin No.: 00-06-01-012D



Date: October 25, 2011



Subject: Use of "Surface Conditioning Disks" When Cleaning Engine Gasket Sealing Surfaces and/or Reused Engine Parts



Models:



2013 and Prior GM Passenger Cars and Trucks



Supercede:



This bulletin is being revised to add the 2010-2013 model years and add Alternative Cleaning Method. Please discard Corporate Bulletin Number



00-06-01-012C (Section 06 - Engine/Propulsion System).



2010 Cadillac Truck Escalade RWD V8-6.2L Page 127



The Use of "Surface Conditioning Disks"



Notice



Do not use abrasive pad/bristle devices to clean the gasket surfaces of engine components. Abrasive pads should not be used for the following



reasons:



- Abrasive pads will produce fine grit that the oil filter will not be able to remove from the oil. THIS GRIT IS ABRASIVE AND HAS BEEN



KNOWN TO CAUSE INTERNAL ENGINE DAMAGE. Abrasive pads can easily remove enough material to round cylinder head surfaces.



This has been known to affect the gasket's ability to seal, especially in the narrow seal areas between the combustion chambers and coolant



jackets.



- Abrasive pads, wire and abrasive rubber finger wheels can also remove enough metal to affect cylinder head, block, oil pan rail, and intake



manifold runner flatness, which can cause coolant and oil leaks and air leaks. It takes about 15 seconds to remove 0.203 mm (0.008 in) of



metal with an abrasive pad.



- Abrasive pads, Abrasive rubber fingers wheels & wire wheels with high speeds grinders produce air bourn debris that can travel throughout



the shop contaminating other work being performed outside of the immediate work area.



When cleaning engine gasket sealing surfaces and/or cleaning parts from an engine that are to be reused, surface conditioning disks (typically



constructed of woven fiber or molded bristles) that contain abrasives, such as a high amount of Aluminum Oxide, should NOT be used.



The use of such surface conditioning disks dislodges Aluminum Oxide (from the disk) and metal particles, which can lead to premature engine



bearing failure.



The presence of Aluminum Oxide in engine oil has been shown to cause premature engine bearing failure. In some cases, this failure occurs in as



little as 2,200 km (1,000 mi) or less after the repair has been made.



Surface conditioning disks may grind the component material and imbed it into the disk. This can result when more aggressive grinding of the



gasket surface takes place.



Recommended Cleaning Procedure



General Motors recommends the use of a razor blade or plastic gasket scraper to clean the gasket surface on engine components that are to be



reused. When cleaning gasket surfaces, please note the following:



- When using a razor blade type gasket scraper, use a new razor blade for each cylinder head and corresponding block surface. Hold the blade



as parallel to the gasket surface as possible. This will ensure that the razor blade does not gouge or scratch the gasket surfaces.



- Do not gouge or scrape the combustion chamber surfaces.



- Do not gouge or scratch any engine-sealing surface during the cleaning process.



Alternative Cleaning Method:



To properly clean the sealing surface prior to reassembly, GM Low VOC Cleaner, P/N 19287401 (in Canada, PN 88901247), should be sprayed on



the mating surface. Use care to avoid getting solvent in any area other than the mating surface to be cleaned. Allow it to soak in for several minutes



to loosen the old RTV sealer/gasket material. GM strongly recommends using a plastic razor blade or non- metallic scraper to remove all loose



sealer/gasket material.



Important



The appearance of the gasket surface is not critical - the feel is. There will be indentations from the gasket left in the cylinder head after all



the gasket material is removed. The new gasket will fill these small indentations when it is installed.



2010 Cadillac Truck Escalade RWD V8-6.2L Page 128

2010 Cadillac Truck SRX FWD V6-3.0L Technical Service Bulletin # 08-07-30-035B Date: 101101

2010 Cadillac Truck SRX FWD V6-3.0L Technical Service Bulletin # 08-07-30-035B Date: 101101



A/T - Water Or Coolant Contamination Information



INFORMATION



Bulletin No.: 08-07-30-035B



Date: November 01, 2010



Subject: Information on Water or Ethylene Glycol in Transmission Fluid



Models:



2011 and Prior GM Passenger Cars and Light Duty Trucks



with Automatic Transmission



Supercede:



This bulletin is being revised to update model years. Please discard Corporate Bulletin Number 08-07-30-035A (Section 07 -



Transmission/Transaxle).



Water or ethylene glycol in automatic transmission fluid (ATF) is harmful to internal transmission components and will have a negative effect on



reliability and durability of these parts. Water or ethylene glycol in ATF will also change the friction of the clutches, frequently resulting in shudder



during engagement or gear changes, especially during torque converter clutch engagement.



Indications of water in the ATF may include:



- ATF blowing out of the transmission vent tube.



- ATF may appear cloudy or, in cases of extreme contamination, have the appearance of a strawberry milkshake.



- Visible water in the oil pan.



- A milky white substance inside the pan area.



- Spacer plate gaskets that appear to be glued to the valve body face or case.



- Spacer plate gaskets that appear to be swollen or wrinkled in areas where they are not compressed.



- Rust on internal transmission iron/steel components.



If water in the ATF has been found and the source of the water entry has not been identified, or if a leaking in-radiator transmission oil cooler is



suspected (with no evidence of cross-contamination in the coolant recovery reservoir), a simple and quick test kit is available that detects the



presence of ethylene glycol in ATF. The "Gly-Tek" test kit, available from the Nelco Company, should be obtained and the ATF tested to make an



accurate decision on the need for radiator replacement. This can help to prevent customer comebacks if the in-radiator transmission oil cooler is



leaking and reduce repair expenses by avoiding radiator replacement if the cooler is not leaking. These test kits can be obtained from:



Nelco Company



Test kits can be ordered by phone or through the website listed above. Orders are shipped standard delivery time but can be shipped on a next day



delivery basis for an extra charge. One test kit will complete 10 individual fluid sample tests. For vehicles repaired under warranty, the cost of the



complete test kit plus shipping charges should be divided by 10 and submitted on the warranty claim as a net item.



The transmission should be repaired or replaced based on the normal cost comparison procedure.



Important



If water or coolant is found in the transmission, the following components MUST be replaced.



- Replace all of the rubber-type seals.



- Replace all of the composition-faced clutch plates and/or bands.



- Replace all of the nylon parts.



- Replace the torque converter.



- Thoroughly clean and rebuild the transmission, using new gaskets and oil filter.



Important



The following steps must be completed when repairing or replacing.



- Flush and flow check the transmission oil cooler using J 45096. Refer to Corporate Bulletin Number 02-07-30-052F- Automatic



2010 Cadillac Truck SRX FWD V6-3.0L Page 245



Transmission Oil Cooler Flush and Flow Test Essential Tool J 45096 TransFlow.



- Thoroughly inspect the engine cooling system and hoses and clean/repair as necessary.

2010 Cadillac Truck SRX FWD V6-3.0L Page 1305

2010 Cadillac Truck SRX FWD V6-3.0L Page 1305



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)



DTC Type Reference



Powertrain Diagnostic Trouble Code (DTC) Type Definitions (See: Diagnostic Trouble Code Descriptions/Powertrain Diagnostic Trouble Code



(DTC) Type Definitions)



Scan Tool Reference



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



Circuit/System Verification



1. Ignition ON, observe the DTC information with a scan tool. Verify DTC P06A3 is not set.



瀚慖f the DTC is set, refer to DTC P0641, P0651, P0697, or P06A3 (LF1) (See: P Code Charts/P0641/ECM).



2. Ignition ON, observe both Throttle Position Sensor voltage parameters with a scan tool. Verify the scan tool Throttle Position Sensor 1 and 2



parameters are between 1.0-4.0 V.



3. Perform the scan tool Throttle Sweep Test while observing the Throttle Position Sensors 1 and 2 Agree/Disagree parameter. The parameter



should display Agree.



4. Observe the DTC Information with a scan tool. DTCs P0121, P0122, P0123, P0222, P0223, and P2135 should not set.



5. Operate the vehicle within the Conditions for Running the DTC to verify the DTC does not reset. You may also operate the vehicle within the



conditions that you observed from the Freeze Frame/Failure Records data.



Circuit/System Testing



1. Ignition OFF, disconnect the harness connector at the Q38 throttle body assembly.



2. Ignition OFF and all vehicle systems OFF. It may take up to 2 minutes for all vehicle systems to power down. Test for less than 5 ohm



between the low reference circuit terminal C and ground.



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



normal, replace the K20 ECM.



3. Ignition ON, test for 4.8-5.2 V between the 5 V reference circuit terminal E and ground.



瀚慖f less than the specified range, test the 5 V reference circuit for a short to ground or open/high resistance. If the circuit tests normal,



replace the K20 ECM.



瀚慖f greater than the specified range, test the 5 V reference circuit for a short to voltage. If the circuit tests normal, replace the K20 ECM.



4. Test for less than 1 V between the TP sensor 1 signal circuit terminal D and ground.



瀚慖f greater than specified range, test the signal circuit for a short to voltage. If the circuit tests normal, replace the K20 ECM.



5. Test for 4.8-5.2 V between the TP sensor 2 signal circuit terminal F and ground.



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



K20 ECM.



瀚慖f greater than specified range, test the signal circuit for a short to voltage. If the circuit tests normal, replace the K20 ECM.



6. Install a 3 A fused jumper wire between TP sensor 1 signal circuit terminal D and the 5 V reference circuit terminal E. Verify the scan tool



TP sensor 1 voltage parameter is greater than 4.8 V.



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



the K20 ECM.



7. If all circuits test normal, test or replace the Q38 throttle body assembly.



Repair Instructions



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



* Throttle Body Assembly Replacement (LF1) (See: Powertrain Management/Fuel Delivery and Air Induction/Throttle Body/Service and



Repair/Removal and Replacement)Throttle Body Assembly Replacement (LAU) (See: Powertrain Management/Fuel Delivery and Air



Induction/Throttle Body/Service and Repair/Removal and Replacement)



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

2010 Cadillac Truck SRX FWD V6-3.0L Page 793

2010 Cadillac Truck SRX FWD V6-3.0L Page 793



Repair Instructions



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



* Brake Pedal Position Sensor Replacement ()



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



programming



C0186



DTC C0186, C0196, C019B, or C0287



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 Descriptor



DTC C0186 5A



- Lateral Acceleration Sensor Circuit Not Plausible



DTC C0186 71



- Lateral Acceleration Sensor Circuit Invalid Data



DTC C0196 00



- Yaw Rate Circuit Malfunction



DTC C0196 5A



- Yaw Rate Signal Not Plausible



DTC C019B 5A



- Yaw Rate Signal Not Plausible



DTC C0287 4B



- Longitudinal Acceleration Sensor Circuit Calibration Not Learned



DTC C0287 5A



- Longitudinal Acceleration Sensor Circuit Not Plausible



DTC C0287 71



- Longitudinal Acceleration Sensor Circuit Invalid Data



Diagnostic Fault Information



Circuit/System Description



The yaw rate, lateral acceleration and longitudinal acceleration sensors are combined into one multi-axis acceleration sensor, external to the



electronic brake control module (EBCM). The EBCM supplies a 12 V reference voltage to the multi-axis acceleration sensor. The multi-axis



acceleration sensor communicates with the EBCM via the high speed controller area network (CAN) serial data circuit. The EBCM activates the



stability control function depending on multi-axis acceleration sensor input.



Conditions for Running the DTC

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2010 Cadillac Truck SRX FWD V6-3.0L Page 1717



P0741



* DTC P0741 is a Type B DTC.



* Deviation between Engine speed and output speed is less than 30 RPM during lockup control is turned on.



* DTC P0742 is a Type B DTC.



* Deviation between Engine speed and output speed is more than 100 RPM during lockup control is turned off.



Diagnostic Aids



Ensure the transmission fluid level, color and odor is correct and there are no leaks. If there are any other transmission DTCs set, diagnose those



first.



Reference Information



Schematic Reference



Automatic Transmission Controls Schematics (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Diagrams/Electrical



Diagrams)



Connector End View Reference



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



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)



Description and Operation



Transmission Component and System Description (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Description and



Operation/AF40-6 - Automatic Transmission/Transmission Component and System Description)



DTC Type Reference



Powertrain Diagnostic Trouble Code (DTC) Type Definitions (See: Diagnostic Trouble Code Descriptions/Powertrain Diagnostic Trouble Code



(DTC) Type Definitions)



Scan Tool Reference



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



Circuit/System Verification



Operate the vehicle in drive with the calculated throttle position greater than 8% and ensure TCC is commanded ON and OFF a minimum of 5



times.



Verify the DTC does not reset. If the DTC resets and no other DTC is set, go to Circuit/System Testing.



If any other DTC is set, diagnose that DTC first.



Circuit/System Testing



Dynamic Test



1. Perform the line pressure check. Refer to Line Pressure Check (See: Transmission and Drivetrain/Automatic



Transmission/Transaxle/Testing and Inspection/Symptom Related Diagnostic Procedures/AF40-6 - Automatic Transmission/Line Pressure



Check).



2. Perform the transmission fluid check. Refer to Transmission Fluid Level and Condition Check (See: Transmission and Drivetrain/Automatic



Transmission/Transaxle/Testing and Inspection/Symptom Related Diagnostic Procedures/AF40-6 - Automatic Transmission/Transmission



Fluid Level and Condition Check).



3. If all circuits test normal, replace the K71 Transmission Control Module. Verify the DTC does not reset.



瀚慖f the DTC resets, go to Component Testing.



Component Testing



Static Test



1. Inspect the valve body assembly for a stuck valve, debris, or damage.



瀚慖f a stuck open or closed valve is found, replace the valve body assembly.

2010 Cadillac Truck SRX FWD V6-3.0L Page 1579

2010 Cadillac Truck SRX FWD V6-3.0L Page 1579



The control solenoid (w/body and TCM) valve assembly has detected an internal malfunction.



Action Taken When the DTC Sets



* DTCs P0601, P0602, P0603, P0604, and P062F are Type A DTCs.



* The TCM shifts to a default gear, shuts down, and turns OFF.



Conditions for Clearing the DTC



DTCs P0601, P0602, P0603, P0604, and P062F are Type A DTCs.



Reference Information



Description and Operation



Electronic Component Description (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Description and Operation/6T70/6T75 -



Automatic Transmission/Electronic Component Description) for control solenoid (w/body and TCM) valve assembly



DTC Type Reference



Powertrain Diagnostic Trouble Code (DTC) Type Definitions (See: Diagnostic Trouble Code Descriptions/Powertrain Diagnostic Trouble Code



(DTC) Type Definitions)



Scan Tool Reference



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



Circuit/System Verification



1. Engine running for at least 1 minute.



2. Ignition OFF for 30 seconds.



3. Ignition ON, verify that DTC P0602 is not set.



瀚慖f the DTC is set, program the transmission control module (TCM). If the DTC resets, replace the control solenoid (w/body and TCM)



valve assembly.



4. Observe the DTC information with a scan tool. DTCs P0601, P0603, P0604, and P062F should not set.



瀚慖f a DTC sets, replace the control solenoid (w/body and TCM) valve assembly.



5. Operate the vehicle within the Conditions for Running the DTC to verify the DTC does not reset. You may also operate the vehicle within the



conditions that you observed from the Freeze Frame/Failure Records data.



Repair Instructions



Important: Perform the Service Fast Learn Adapts (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Testing and



Inspection/Programming and Relearning) any time a transmission related component is serviced.



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



Control Module References (See: Testing and Inspection/Programming and Relearning) for control solenoid (w/body and TCM) valve assembly



replacement, setup, and programming



AF40-6 - Automatic Transmission



DTC P0601, P0602, P0603, or P0604



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 P0601



- Control Module Read Only Memory Performance

Wednesday, March 16, 2022

2010 Cadillac Truck SRX FWD V6-3.0L Page 941

2010 Cadillac Truck SRX FWD V6-3.0L Page 941



- Transmission Control Module (TCM) Power Up Temperature Sensor Performance



DTC P06AD



- Transmission Control Module (TCM) Power Up Temperature Sensor Circuit Low Voltage



DTC P06AE



- Transmission Control Module (TCM) Power Up Temperature Sensor Circuit High Voltage



Circuit/System Description



The transmission control module (TCM) power up temperature sensor is located inside of the control solenoid valve assembly, which has no



serviceable components. The TCM power up temperature sensor provides the temperature of the TCM when the TCM power is on. This



temperature reading is used in various shifting and diagnostic routines and also to protect the control solenoid valve assembly and TCM. This fault



is handled inside the TCM and no external circuits are involved.



Conditions for Running the DTC



P06AC



* No DTCs P0101, P0102, P0103, P0106, P0107, P0108, P0171, P0172, P0174, P0175, P0201, P0202, P0203, P0204, P0205, P0206, P0207,



P0208, P0300, P0301, P0302, P0303, P0304, P0305, P0306, P0307, P0308, P0401, P042E, P0658, P0668, P0669, P06AC, P06AD, P06AE,



P0712, P0713, P0716, P0717, P0722, P0723, P0962, P0963, P0966, P0967, P0970, P0971, P215C, P2720, P2721, P2729, or P2730.



* The engine speed is 400 RPM or greater for 5 seconds.



* The ignition voltage is 8.6 volts or greater.



* Brake torque is not active.



* The torque signal is valid.



* The throttle position signal is valid.



P06AD



* No DTCs P06AD, P0716, P0717, P0722, or P0723.



* The engine speed is 400 RPM or greater for 5 seconds.



* The ignition voltage is 8.6 volts or greater.



P06AE



* The engine speed is 400 RPM or greater for 5 seconds.



* The ignition voltage is 8.6 volts or greater.



* DTC P06AE has not set this ignition cycle.



Conditions for Setting the DTC



P06AC



* The difference between the transmission fluid temperature (TFT) and TCM power up temperature is greater than 20-50掳C (36-90掳F),



depending on the average of the TFT, TCM substrate, and TCM power up temperatures.



* The difference between the TCM substrate temperature and TCM power up temperature is greater than 8-10掳C (14-18掳F) depending on the



average of the TFT, TCM substrate, and TCM power up temperatures.



* The above conditions have to be met for 5 minutes within a 6 minute period.



P06AD



The TCM power up temperature is -59掳C (-74掳F) or less for 1 minute.



P06AE



The TCM power up temperature is 165掳C (329掳F) or greater for 1 minute.



Action Taken When the DTC Sets



* DTC P06AC, P06AD, P06AE are Type B DTCs.



* The TCM defaults the TCM power up temperature to the TCM substrate temperature.



Conditions for Clearing the DTC



DTC P06AC, P06AD, P06AE are Type B DTCs.



Reference Information



Connector End View Reference



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



Description and Operation



* Transmission General Description (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Description and

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2010 Cadillac Truck SRX FWD V6-3.0L Page 1238



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



Control Module References (See: Testing and Inspection/Programming and Relearning) for vehicle communication interface module and ECM



replacement, setup, and programming



P0171



DTC P0171, P0172, P0174, or P0175 (LF1)



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 P0171



- Fuel Trim System Lean Bank 1



DTC P0172



- Fuel Trim System Rich Bank 1



DTC P0174



- Fuel Trim System Lean Bank 2



DTC P0175



- Fuel Trim System Rich Bank 2



Circuit/System Description



The engine control module (ECM) controls a Closed Loop air/fuel metering system in order to provide the best possible combination of



driveability, fuel economy, and emission control. The ECM monitors the heated oxygen sensor (HO2S) signal voltage, and adjusts the fuel delivery



based on the signal voltage while in Closed Loop. A change made to the fuel delivery changes the long and short term fuel trim values. The short



term fuel trim values change rapidly in response to the HO2S signal voltages. These changes fine tune the engine fueling. The long term fuel trim



values change in response to trends in the short term fuel trim The long term fuel trim makes coarse adjustments to fueling in order to re-center and



restore control to short term fuel trim. The ideal fuel trim values are around 0 %. A positive fuel trim value indicates that the ECM is adding fuel in



order to compensate for a lean condition. A negative fuel trim value indicates that the ECM is reducing the amount of fuel in order to compensate



for a rich condition.



Conditions for Running the DTC



* DTCs P0101, P0102, P0103, P0106, P0107, P0108, P0201-P0206, P0300-P0306, P0442, P0443, P0446, P0449, P0451-P0455, P0496,



P0506, P0507, P2227-P2230, P2269 are not set.



* The engine is in Closed Loop status.



* The engine coolant temperature (ECT) is between -38 and +150掳C (-36 and +302掳F).



* The intake air temperature (IAT) is between -38 and +150掳C (-36 and +302掳F).



* The manifold absolute pressure (MAP) is between 5-255 kPa (1.45-37 psi).



* The vehicle speed is less than 134 km/h (83 mph).



* The engine speed is between 400-6,600 RPM.



* The mass air flow (MAF) is between 0.5-510 g/s.



* The barometric pressure (BARO) is greater than 70 kPa (10.2 psi).



* The fuel level is greater than 10 %.



* This diagnostic runs continuously when the above conditions have been met.



Conditions for Setting the DTC



* The average long term FT weighted average value is greater or less than a calibrated value.



* The above condition is present for approximately 3 min after the Conditions for Running the DTC have been met.



Action Taken When the DTC Sets



DTCs P0171, P0172, P0174, and P0175 are Type B DTCs.



Conditions for Clearing the MIL/DTC

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2010 Cadillac Truck SRX FWD V6-3.0L Page 1822



DTC P0966



- Pressure Control Solenoid Valve 1 Control Circuit Low Voltage



DTC P0967



- Pressure Control Solenoid Valve 1 Control Circuit High Voltage



Diagnostic Fault Information



Typical Scan Tool Data



Circuit/System Description



The shift control solenoid (SLC1) is installed on the front valve body. The solenoid linearly control hydraulic pressure in response to signals output



from the transmission control module TCM. Through this, the SLC1 controls operating hydraulic pressure to the clutch 1 for smooth shifting.



According to each shift control solenoid assembly, the transmission shifts from 1st gear into 6th gear and vice versa. As a fail-safe function, if any



shift control solenoid assembly abnormality occurs, the TCM will disable the current to the solenoids.



Conditions for Running the DTC



P0778



* The ignition voltage is between 10.2-15.5 V.



* The engine speed is greater than 400 RPM for 2 s.



* The transmission is not in emergency mode.



* Driving in D range.



* TCM communication is normal.



* DTCs P0966 and P0967 are not set.



P0965



* The ignition voltage is between 10.2-15.5 V.



* The engine speed is greater than 400 RPM for 2 s.



* The transmission is not in emergency mode.



* Driving in D range.



* TCM communication is normal.



* The automatic transmission fluid temperature is more than 20掳C (68掳F).



* SLC1 current is more than 0.85 A.



* SLC1 target current is not changed.



P0966



* The ignition voltage is between 10.2-15.5 V.



* The engine speed is greater than 400 RPM for 2 s.



* The transmission is not in emergency mode.



* Driving in D range.



* TCM communication is normal.



* DTC P0967 is not set.



P0967



* The ignition voltage is between 10.2-15.5 V.



* The engine speed is greater than 400 RPM for 2 s.



* The transmission is not in emergency mode.



* Driving in D range.



* TCM communication is normal.



* DTC P0966 is not set.



Conditions for Setting the DTC

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2010 Cadillac Truck SRX FWD V6-3.0L Page 1833



DTC P0798 or P0969-P0971



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 P0798



- Pressure Control Solenoid Valve 2 System Performance



DTC P0969



- Pressure Control Solenoid Valve 2 System Performance



DTC P0970



- Pressure Control Solenoid Valve 2 Control Circuit Low Voltage



DTC P0971



- Pressure Control Solenoid Valve 2 Control Circuit High Voltage



Diagnostic Fault Information



Typical Scan Tool Data



Circuit/System Description



The shift control solenoid (SLC2) is installed on the front valve body. The solenoid linearly control hydraulic pressure in response to signals output



from the transmission control module TCM. Through this, the SLC2 controls operating hydraulic pressure to the clutch 2 for smooth shifting.



According to each shift control solenoid assembly, the transmission shifts from 1st gear into 6th gear and vice versa. As a fail-safe function, if any



shift control solenoid assembly abnormality occurs, the TCM will disable the current to the solenoids.



Conditions for Running the DTC



P0798



* The ignition voltage is between 10.2-15.5 V.



* The engine speed is greater than 400 RPM for 2 s.



* The transmission is not in emergency mode.



* Driving in D range.



* TCM communication is normal.



* DTCs P0970 and P0971 are not set.



P0969



* The ignition voltage is between 10.2-15.5 V.



* The engine speed is greater than 400 RPM for 2 s.



* The transmission is not in emergency mode.



* Driving in D range.



* TCM communication is normal.



* The automatic transmission fluid temperature is more than 20掳C (68掳F)



* SLC2 current is more than 0.85 A.

2010 Cadillac Truck SRX FWD V6-3.0L Page 1408

2010 Cadillac Truck SRX FWD V6-3.0L Page 1408



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 Views



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



DTC Type Reference



Powertrain Diagnostic Trouble Code (DTC) Type Definitions (See: Diagnostic Trouble Code Descriptions/Powertrain Diagnostic Trouble Code



(DTC) Type Definitions)



Scan Tool Reference



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



Circuit/System Testing



Note: The Crankshaft Position System Variation Learn Procedure may have to be repeated up to 5 times before the procedure is successful.



1. Perform the Crankshaft Position System Variation Learn (LF1) (See: Powertrain Management/Computers and Control Systems/Crankshaft



Position Sensor/Testing and Inspection) procedure. The scan tool should display Learned Successful.



瀚慖f the Crankshaft Position System Variation Learn Procedure cannot be performed successfully, inspect for the following conditions:



* Worn crankshaft main bearings



* A damaged or misaligned reluctor wheel



* Excessive crankshaft runout



* A damaged crankshaft-Refer to Crankshaft and Bearing Cleaning and Inspection (See: Engine, Cooling and Exhaust/Engine/Service and



Repair/Overhaul/66. Crankshaft and Bearing Cleaning and Inspection).



* Interference in the signal circuit of the crankshaft position sensor



* The ignition switch is in the ON position until there is insufficient system voltage.



* An ECM power disconnect with the ignition ON that may have erased the crankshaft position system variation values and set DTC P0315



* Debris between the crankshaft position sensor and the reluctor wheel



2. Verify the Learn Procedure is successful.



瀚慖f the K20 ECM is unable to complete the learn procedure, replace the K20 ECM.



Repair Instructions



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



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



P0324



DTC P0324-P0328, P0330-P0333, P06B6, or P06B7 (LF1)



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 P0324



- Knock Sensor System Performance



DTC P0325



- Knock Sensor Circuit Bank 1



DTC P0326



- Knock Sensor Performance Bank 1