Friday, January 31, 2020

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1530

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1530



Note: If you were sent here from Engine Cranks But Does Not Run proceed to Circuit/System Testing.



1. Engine running, command the Engine Controls (EC) Ignition Relay ON and OFF with a scan tool while observing the following EC Ignition



Relay control circuit status parameters:



* Engine Controls Ignition Relay Control Circuit Low Voltage Test Status



* Engine Controls Ignition Relay Control Circuit Open Test Status



* Engine Controls Ignition Relay Control Circuit High Voltage Test Status



Each parameter should display OK or Not Run.



2. Ignition ON, you should be able to communicate with the ECM using a scan tool.



3. Ignition ON, view the DTC information with a scan tool. DTC P0685, P0686, P0687, P0689, or P0690 should not set.



4. 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 KR75 powertrain relay.



2. Ignition ON, verify a test lamp illuminates between both of the following relay battery voltage circuit terminals and ground.



* Terminal 86



* Terminal 87



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



Note: The ignition voltage circuit is between the powertrain relay and the ECM. The ignition voltage circuit is a feedback circuit.



3. Ignition OFF, verify that a test lamp does not illuminate between the ignition voltage circuit terminal 30 and ground.



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



4. Connect a 20 A fused jumper wire between the relay switch B+ circuit terminal 87 and the relay switch ignition voltage circuit terminal 30.



5. Ignition ON, observe the scan tool EC Ignition Relay Feedback Signal parameter. The ECM should communicate, and the parameter should



display 9-14 V.



瀚慖f not the specified range, or the ECM does not communicate, test the ignition voltage circuit between the powertrain relay and the ECM



for a short to ground or for an open/high resistance. If the circuit/connections test normal, replace the K20 ECM.



6. Ignition OFF, verify that a test lamp does not illuminate between the control circuit terminal 85 and B+.



瀚慖f the test lamp illuminates, test the control circuit for a short to ground. If the circuit tests normal, replace the K20 ECM.



7. Connect a DMM set to the diode setting between the control circuit terminal 85 and ground.



8. Ignition ON, verify the DMM does not display OL.



瀚慖f the DMM displays OL, test the control circuit for a short to voltage, or an open/high resistance. If the circuit tests normal, replace the



K20 ECM.



9. If all circuits test normal, replace the KR75 powertrain relay.



Component Testing



Note: Depending on the application, the relay coil resistance will be within one of the following ranges.



1. Test for one of the following resistance specifications between terminals 85 and 86 of the KR75 powertrain relay:



* 70-110 ohm



* 200-250 ohm



瀚慖f not within the specified range, replace the KR75 powertrain relay.



2. Measure for infinite resistance between the following terminals of the KR75 powertrain relay:



* 30 and 86



* 30 and 87



* 30 and 85



* 85 and 87



瀚慖f continuity is detected, replace the KR75 powertrain relay.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Technical Service Bulletin # 03-07-29-004H Date: 120530

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Technical Service Bulletin # 03-07-29-004H Date: 120530



M/T - Operating Characteristics Information



INFORMATION



Bulletin No.: 03-07-29-004H



Date: May 30, 2012



Subject: Manual Transmission Operating Characteristics



Models:



2013 and Prior GM Passenger Cars and Light Duty Trucks



2009 and Prior Chevrolet and GMC Medium Duty Trucks



Equipped with Manual Transmission



Supercede:



This bulletin is being revised to add model years. Please discard Corporate Bulletin Number 03-07-29-004G (Section 07 - Transmission/Transaxle).



Important:



Even though this bulletin attempts to cover operating characteristics of manual transmissions, it cannot be all inclusive. Be sure to compare any



questionable concerns to a similar vehicle and if possible, with similar mileage. Even though many of the conditions are described as characteristics



and may not be durability issues, GM may attempt to improve specific issues for customer satisfaction.



2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 40



The purpose of this bulletin is to assist in identifying characteristics of manual transmissions that repair attempts will not change. The following are



explanations and examples of conditions that will generally occur in all manual transmissions. All noises will vary between transmissions due to



build variation, type of transmission (usually the more heavy duty, the more noise), type of flywheel and clutch, level of insulation, etc.



Basic Information



Many transmission noises are created by the firing pulses of the engine. Each firing pulse creates a sudden change in angular acceleration at the



crankshaft. These changes in speed can be reduced with clutch damper springs and dual mass flywheels. However, some speed variation will make



it through to the transmission. This can create noise as the various gears will accel and decel against each other because of required clearances.



Cold Operation



Manual transmission operation will be affected by temperature because the transmission fluid will be thicker when cold. The thicker fluid will



increase the amount of force needed to shift the transmission when cold. The likelihood of gear clash will also increase due to the greater time



needed for the synchronizer assembly to perform its function. Therefore when the transmission is cold, or before it has reached operating



temperature, quick, hard shifts should be avoided to prevent damage to the transmission.



Gear Rattle



Rattling (not to be confused with a missed shift type of grinding, also described as a combustion knock type of noise) type noises usually occur



while operating the engine at low RPMs (lugging the engine). This can occur while accelerating from a stop (for example, a Corvette) or while



operating at low RPMs while under a load (for example, Kodiak in a lower gear and at low engine speed). Vehicles equipped with a dual-mass



flywheel (for example, a 3500 HD Sierra with the 6-speed manual and Duramax) will have reduced noise levels as compared to vehicles without



(for example, a 4500 Kodiak with the 6-speed manual and Duramax). However, dual-mass flywheels do not eliminate all noise.



Neutral Rattle



There are often concerns of rattle while idling in neutral with the clutch engaged. This is related to the changes in angular acceleration described



earlier. This is a light rattle, and once again, vehicles with dual mass flywheels will have reduced noise. If the engine is shut off while idling in



neutral with the clutch engaged, the sudden stop of the engine will create a rapid change in angular acceleration that even dual mass flywheels



cannot compensate. Because of the mass of all the components, this will create a noise. This type of noise should not be heard if the clutch is



released (pedal pushed to the floor).



Backlash



Backlash noise is created when changing engine or driveline loading. This can occur when accelerating from a stop, coming to a stop, or applying



and releasing the throttle (loading and unloading the driveline). This will vary based on vehicle type, build variations, driver input, vehicle loading,



etc. and is created from the necessary clearance between all of the mating gears in the transmission, axle(s) and transfer case (if equipped).



Shift Effort



Shift effort will vary among different style transmissions and synchronizer designs. Usually the more heavy duty the transmission, the higher the



shift effort because of the increased mass of the components. Shift effort can also be higher in cold weather because the fluid will be thicker.



Medium duty transmissions will not shift as quickly as a Corvette transmission. To reduce shift effort, do not attempt to rush the shift - allow the



synchronizers to work as designed. Shifting harder will only increase the chance of rushing past the synchronizer leading to grinding while shifting.



Non-Synchronized Gears



Some light duty truck transmissions in 1st gear (creeper-gear) and reverse gears in various transmissions, along with all gears in some medium duty



transmissions, may be non-synchronized. This means there is not a mechanism to match input and output shaft speeds to allow for a smooth shift.



This function is left up to the driver. This can be noticed if a shift into 1st or reverse is attempted while the vehicle is rolling or before the input



shaft stops rotating leading to a gear grind. The grinding can be reduced by coming to a complete stop and pausing for a moment before shifting



into the 1st or reverse gear. Some slight grinding can be expected. In medium duty non-synchronized transmissions, the driver must match input



shaft (engine) speed to output shaft (driveshaft) speed with every shift. This can be accomplished by double clutching, or by using other methods. If



the driver is not able to perform this function properly, there will be gear grinding with each improperly completed shift. Driver training may be



required to correct this condition. Clutch brakes are used in medium duty non-synchronized transmissions to allow a shift into gear at a stop. The



clutch brake is used to stop the input shaft from spinning, allowing a shift into gear at a stop without grinding. The clutch brake is activated by



pressing the clutch pedal all the way to the floor. When the clutch brake is used, it is possible to have a blocked shift with the vehicle stationary. If



this occurs, engage the clutch slightly to rotate the input gear to allow the shift. The clutch brake is intended to only be used while at a stop. Care



must be taken to not activate the clutch brake while shifting between gears. This could lead to excessive grinding or a blocked or missed shift.



Skip Shift



Currently, the Cadillac CTS-V, Pontiac GTO, Chevrolet Corvette and Camaro SS (other models may follow) equipped with the 6-speed manual



transmission have a feature referred to as a "skip-shift." This feature only allows a shift from 1st to 4th gear when the indicator lamp is illuminated



on the dash. Dealers cannot disable this feature as it was established to help meet fuel economy standards. The conditions for this feature are:



engine coolant at normal operating temperature, vehicle speed of 24-31 km/h (15-19 mph), 21% or less throttle being used (refer to Service

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Technical Service Bulletin # 05-08-46-009C Date: 120319

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



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 SRX AWD V6-2.8L Turbo Page 69



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 SRX AWD V6-2.8L Turbo Page 70

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1317

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1317



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. Operate the engine for 30 seconds. Observe the DTC information with a scan tool. DTC P0351, P0352, P0353, P0354, P0355, P0356, P2300,



P2301, P2303, P2304, P2306, P2307, P2309, P2310, P2312, P2313, P2315, or P2316 should not set.



2. 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 appropriate T8 ignition coil.



2. Ignition OFF, all vehicle systems OFF, it may take up to 2 minutes for all the systems to power down, test for less than 5 ohm between the



ground circuit terminal A and ground.



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



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



瀚慖f greater than the specified range, test the low reference circuit for an open/high resistance. If the circuit tests normal, replace the ECM.



4. Ignition ON, verify that a test lamp illuminates between ignition voltage circuit terminal D and ground.



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



normal and the ignition voltage circuit fuse is open, test all the components connected to the ignition voltage circuit and replace as



necessary.



5. Engine running, observe the Ignition Coil 1-6 Control Circuit Low Voltage Test Status on the scan tool. Test Status should be Ok or Not



Run.



瀚慖f test status is Malfunction test for open or short to ground.



6. Engine running, observe the Ignition Coil 1-6 Control Circuit Open Test Status on the scan tool. Test Status should be Ok or Not Run.



瀚慖f test status is Malfunction test for open circuit.



7. Engine running, observe the Ignition Coil 1-6 Control Circuit High Voltage Test Status on the scan tool. Test Status should be Ok or Not



Run.



瀚慖f test status is Malfunction test for short to voltage.



8. If all circuits test normal, test or replace the appropriate T8 ignition coil.



Repair Instructions



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



* Ignition Coil Replacement - Bank 1 (See: Powertrain Management/Ignition System/Ignition Coil/Service and Repair/Ignition Coil



Replacement - Bank 1)



* Ignition Coil Replacement - Bank 2 (See: Powertrain Management/Ignition System/Ignition Coil/Service and Repair/Ignition Coil



Replacement - Bank 2)



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



programming



P0356



DTC P0351-P0356, P2300, P2301, P2303, P2304, P2306, P2307, P2309, P2310, P2312, P2313, P2315, or P2316 (LAU)



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

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1675

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1675



IMS ground and the ECM PNP Switch parameter displays Park/Neutral when terminal F is connected to ground.



* Switch Signal A terminal E



* Switch Signal B terminal D



* Switch Signal C terminal C



* Switch Signal P terminal B



* PNP Switch Signal terminal F



瀚慖f not the specified value, replace the control solenoid valve assembly.



12. If all circuits test normal, replace the IMS.



Repair Instructions



Important:



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



Inspection/Programming and Relearning) following all transmission related repairs.



* Before replacing the TCM, perform the Control Solenoid Valve and Transmission Control Module Assembly Inspection (See:



Transmission and Drivetrain/Automatic Transmission/Transaxle/Testing and Inspection/Component Tests and General



Diagnostics/6T70/6T75 - Automatic Transmission/Control Solenoid Valve and Transmission Control Module Assembly Inspection).



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



* Control Module References (See: Testing and Inspection/Programming and Relearning) for ECM or control solenoid valve assembly



replacement, setup, and programming



* Range Selector Lever Cable Adjustment (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Shift Linkage/Shift



Cable/Adjustments)



* Control Valve Body Cover Replacement (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Valve Body/Service and



Repair/6T70/6T75 - Automatic Transmission/Control Valve Body Cover Replacement)



* Manual Shift Detent Lever with Shaft Position Switch Assembly Replacement (See: Powertrain Management/Computers and Control



Systems/Sensors and Switches - Computers and Control Systems/Transmission Position Sensor/Switch/Service and Repair)



Antilock Brake System



DTC P0856



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 P0856 00



- Traction Control Torque Request Circuit Malfunction



Circuit/System Description



When traction control is active, the electronic brake control module (EBCM) sends a serial data message to the engine control module (ECM)



requesting torque reduction. When certain ECM DTCs are set, the ECM will not be able to perform the torque reduction for traction control. A



serial data message is sent to the EBCM indicating that traction control is not allowed.



Conditions for Running the DTC



Engine running



Conditions for Setting the DTC



The ECM detects a fault that prevents it from performing a traction control function and sends a serial data message to the EBCM indicating that



torque reduction is not allowed.



Action Taken When the DTC Sets



* The EBCM disables the traction control and stability control for the duration of the ignition cycle.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1298

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1298



3. 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, remove the fuse that supplies B+ to terminal 56-X2 of the ECM.



2. Disconnect the harness connector at the appropriate camshaft position sensor.



Note: The control module or the sensor may be damaged if the circuit is shorted to B+ voltage.



3. Test for 5 ohm or less between the low reference circuit terminal 1 and ground.



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



circuit/connections test normal, replace the ECM.



4. Install the fuse that supplies B+ to terminal 56-X2 of the ECM.



5. Ignition ON, test for greater than 4.8 V between the 5-volt reference circuit terminal 3 and ground.



瀚慖f less than the specified value, test the 5-volt reference circuit for an open/high resistance. If the circuits/connections test normal, replace



the ECM.



6. Test for 4.8-5.2 V between the signal circuit terminal 2 and ground.



瀚慖f the voltage is greater than specified range, test for a short to voltage in the signal circuit. If circuit/connections test normal, replace the



ECM.



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



circuit/connections test normal, replace the ECM.



7. If all circuits/connections test normal, replace the camshaft position sensor.



Repair Instructions



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



* Camshaft Position Sensor Replacement - Bank 2 (Left Side) Exhaust (See: Powertrain Management/Computers and Control



Systems/Camshaft Position Sensor/Service and Repair/Camshaft Position Sensor Replacement - Bank 2 (Left Side) Exhaust)



* Camshaft Position Sensor Replacement - Bank 2 (Left Side) Intake (See: Powertrain Management/Computers and Control



Systems/Camshaft Position Sensor/Service and Repair/Camshaft Position Sensor Replacement - Bank 2 (Left Side) Intake)



* Camshaft Position Sensor Replacement - Bank 1 (Right Side) Exhaust (See: Powertrain Management/Computers and Control



Systems/Camshaft Position Sensor/Service and Repair/Camshaft Position Sensor Replacement - Bank 1 (Right Side) Exhaust)



* Camshaft Position Sensor Replacement - Bank 1 (Right Side) Intake (See: Powertrain Management/Computers and Control



Systems/Camshaft Position Sensor/Service and Repair/Camshaft Position Sensor Replacement - Bank 1 (Right Side) Intake)



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



programming



P0348



DTC P0341, P0342, P0343, P0346, P0347, P0348, P0366, P0367, P0368, P0391, P0392, or P0393 (LAU)



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 P0341



- Intake Camshaft Position Sensor Performance Bank 1



DTC P0342



- Intake Camshaft Position Sensor Circuit Low Voltage Bank 1



DTC P0343



- Intake Camshaft Position Sensor Circuit High Voltage Bank 1

Thursday, January 30, 2020

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1934

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1934



* DTC P0111, P0112, P0113, P0116, P0117, P0118, P0119, P2600, P2602, or P2603 is not set.



* The ignition is OFF.



* The engine coolant temperature (ECT) at engine shut down is warmer than 110 掳C (230 掳F).



* The auxiliary coolant pump is enabled.



* The DTC runs continuously once the conditions above are met for greater than 30 S.



Conditions for Setting the DTC



P2600



The ECM detects the pump control circuit is open. The condition exists for 4 S or a cumulative of 30 S.



P2601



The ECM detects that the ECT decreases less than 2 掳C (4 掳F) within 60 seconds. The condition exists for 4 S or a cumulative of 30 S.



P2602



The ECM detects the pump control circuit is shorted to ground. The condition exists for 4 seconds or a cumulative of 30 seconds.



P2603



The ECM detects the pump control circuit is shorted to voltage. The condition exists for 4 seconds or a cumulative of 30 seconds.



Action Taken When the DTC Sets



The DTCs are Type C DTCs.



Conditions for Clearing the DTC



The DTCs are Type C DTCs.



Diagnostic Aids



* This diagnostic uses a comprehensive approach to the diagnosis of the KR31 auxiliary coolant pump relay and its related circuits. The



auxiliary coolant pump relay is a printed circuit board (PCB) relay. The relay is an integral component to the underhood bussed electrical



center (UBEC). It cannot be removed and it is not visible.



* Much of the diagnosis is performed at the ECM connectors. Great care should be taken to ensure that the correct terminals are tested and the



proper test probes are utilized when performing this diagnostic.



* The test lamp is used to provide a visual aid to observe the integrity of the KR31 relay, the UBEC and the relay control circuit.



* Grounding terminal X2-58 activates the powertrain relay, which will supply power through KR31 relay coil and the relay control circuit.



Under normal circumstances the test lamp will illuminate with dim intensity due to the load created by the KR31 relay coil. If the test lamp



does not illuminate, or illuminates brightly a condition exists in the KR31 relay control circuit or the UBEC.



Reference Information



Schematic Reference



* Engine Cooling Schematics (See: Engine, Cooling and Exhaust/Cooling System/Diagrams)



* 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)



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)



DTC Type Reference



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



(DTC) Type Definitions)

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1125

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1125



* 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 P162B



- Remote Vehicle Speed Limiting Signal Message Counter Incorrect



Circuit/System Description



When a remote slow-down request is sent from OnStar, the vehicle communication interface module sends a serial data message to the engine



control module (ECM) indicating that reduced vehicle speed has been requested. Once the request is active, the ECM begins reducing engine torque



to match requested vehicle speed and the REDUCED ENGINE POWER message is displayed.



Conditions for Running the DTC



* The engine run time is greater than 5 seconds.



* A remote slow-down request is sent from OnStar



Conditions for Setting the DTC



* The VIN embedded in the slow-down request does not match the VIN stored in the ECM.



* The rolling code counter embedded in the slow-down request does not increment for ten consecutive messages.



Action Taken When the DTC Sets



* ECM ignores all reduced vehicle speed request messages from the vehicle communication interface module.



* The ECM stores DTC P162B in history.



Conditions for Clearing the DTC



* The condition responsible for setting the DTC no longer exists.



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



Reference Information



Schematic Reference



OnStar Schematics (See: Accessories and Optional Equipment/Diagrams/Electrical Diagrams/OnStar Schematics)



Connector End View Reference



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



Description and Operation



Remote Vehicle Speed Limiting Description and Operation (See: Accessories and Optional Equipment/Antitheft and Alarm Systems/Description



and Operation/Remote Vehicle Speed Limiting)



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



Perform the scan tool Stolen Vehicle Slow-Down Clear. Verify DTC P162B is not set.



If the DTC is set, replace the vehicle communication interface module and retest. If the DTC sets again, replace the ECM.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1039

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1039



DTC P0100



- Mass Air Flow (MAF) Sensor Circuit



DTC P0102



- Mass Air Flow (MAF) Sensor Circuit Low Frequency



DTC P0103



- Mass Air Flow (MAF) Sensor Circuit High Frequency



Diagnostic Fault Information



Circuit/System Description



The mass air flow (MAF) sensor is located in the air intake duct. The MAF sensor is an airflow meter that measures the amount of air that enters the



engine. The MAF sensor uses a hot film that is cooled by air flowing past the sensing film as air enters the engine. The amount of cooling is



proportional to the amount of the air flow. As the air flow increases, more current is required in order to maintain the hot film at a constant



temperature. The engine control module (ECM) uses the MAF sensor in order to provide the correct fuel delivery for all operating conditions.



Conditions for Running the DTC



* The ignition is ON, or the engine is operating.



* The ignition voltage is greater than 10 V.



* DTC P0100, P0102 and P0103 run continuously once the above conditions are met for 1 s.



Conditions for Setting the DTC



P0100



The ECM detects that the MAF sensor signal is 0.0 Hz.



P0102



The ECM detects that the MAF sensor signal is less than 1135 Hz.



P0103



The ECM detects that the MAF sensor signal is greater than 15,152 Hz.



Action Taken When the DTC Sets



DTCs P0100, P0102, and P0103 are Type B DTCs.



Conditions for Clearing the DTC



DTCs P0100, P0102, and P0103 are Type B DTCs.



Diagnostic Aids



* Inspect the harness of the MAF sensor to verify that it is not routed too close to the following components:



- The secondary ignition wires or coils



- Any solenoids



- Any relays



- Any motors



* Inspect the hydro-carbon (HC) absorber, if equipped, in the air cleaner assembly for ruptures that would leak charcoal into the air intake,



contaminating the sensing element.



* Inspect for any contamination, water intrusion, or debris on the sensing elements of the MAF sensor. If debris is present, clean the sensor. If



the sensor cannot be cleaned, replace the sensor.



* A high resistance may cause a driveability concern before this DTC sets.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Technical Service Bulletin # 10-07-30-002B Date: 110609

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Technical Service Bulletin # 10-07-30-002B Date: 110609



Computers/Controls - CANCELLATION OF BULLETIN



INFORMATION



Bulletin No.: 10-07-30-002B



Date: June 09, 2011



Subject: Navigation Procedure for Snapshot Data Using Global Diagnostic System (GDS), Uploading Snapshot Data to Computer and E-mailing



Models:



2010-2011 Buick LaCrosse



2011 Buick Regal



2010-2011 Cadillac SRX



2010-2011 Chevrolet Camaro, Equinox



2010-2011 GMC Terrain



..........................................................................................................................................................................................................................................



Supercede:



This bulletin is being canceled because the information no longer applies. Please discard Corporate Bulletin Number 10-07-30-002A



(Section 07 - Transmission/Transaxle).



..........................................................................................................................................................................................................................................



- The original Global Diagnostic System (GDS) has been replaced with Global Diagnostic System 2 (GDS2).



- For step by step information regarding the navigation procedure for snapshot data using GDS2, uploading the snapshot data to the computer



2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 133



and e-mailing the session data to The Technical Assistance Center (TAC), please refer to the latest version of PIP4902A.



- For additional information about GDS2, in the U.S. please go to the GM Training Website: www.gmtraining.com and in Canada go to:

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1185

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1185



Circuit/System Description



The engine control module (ECM) controls boost using the turbocharger wastegate solenoid valve. The wastegate valve is actuated by a rod from



the diaphragm box located at the housing. A spiral spring in the diaphragm box works in the closing direction while the pressure in the diaphragm



works in the opening direction. The ECM supplies a pulse width modulation (PWM) signal to a solenoid valve, which then allows pressure from



the turbo to come through. When the pressure overcomes the spring force in the diaphragm box, the rod begins to move, opening the wastegate



valve to a corresponding degree. The ECM changes wastegate valve opening by varying the PWM signal, which regulates the turbine speed.



Ignition voltage is supplied directly to the wastegate solenoid valve. The ECM controls the solenoid 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 DTCs



* The engine speed is greater than 80 RPM.



* The battery voltage is between 10-18 V.



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



* The DTCs run continuously within the enabling conditions.



Conditions for Setting the DTCs



P0244



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



P0245



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



P0246



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



Action Taken When the DTCs Set



DTCs P0244, P0245, P0246 are Type B DTCs.



Conditions for Clearing the MIL/DTCs



DTCs P0244, P0245, P0246 are Type B DTCs.



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)



* 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

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1901

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1901



4. Ignition ON, verify that a test lamp illuminates between ignition voltage circuit terminal D and ground.



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



normal and the ignition voltage circuit fuse is open, test all the components connected to the ignition voltage circuit and replace as



necessary.



5. Engine running, observe the Ignition Coil 1-6 Control Circuit Low Voltage Test Status on the scan tool. Test Status should be Ok or Not



Run.



瀚慖f test status is Malfunction test for open or short to ground.



6. Engine running, observe the Ignition Coil 1-6 Control Circuit Open Test Status on the scan tool. Test Status should be Ok or Not Run.



瀚慖f test status is Malfunction test for open circuit.



7. Engine running, observe the Ignition Coil 1-6 Control Circuit High Voltage Test Status on the scan tool. Test Status should be Ok or Not



Run.



瀚慖f test status is Malfunction test for short to voltage.



8. If all circuits test normal, test or replace the appropriate T8 ignition coil.



Repair Instructions



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



* Ignition Coil Replacement - Bank 1 (See: Powertrain Management/Ignition System/Ignition Coil/Service and Repair/Ignition Coil



Replacement - Bank 1)



* Ignition Coil Replacement - Bank 2 (See: Powertrain Management/Ignition System/Ignition Coil/Service and Repair/Ignition Coil



Replacement - Bank 2)



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



programming



P2313



DTC P0351-P0356, P2300, P2301, P2303, P2304, P2306, P2307, P2309, P2310, P2312, P2313, P2315, or P2316 (LAU)



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 P0351



- Ignition Coil 1 Control Circuit



DTC P0352



- Ignition Coil 2 Control Circuit



DTC P0353



- Ignition Coil 3 Control Circuit



DTC P0354



- Ignition Coil 4 Control Circuit



DTC P0355



- Ignition Coil 5 Control Circuit



DTC P0356



- Ignition Coil 6 Control Circuit



DTC P2300



- Ignition Coil 1 Control Circuit Low Voltage

Wednesday, January 29, 2020

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Technical Service Bulletin # 10236A Date: 101202

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Technical Service Bulletin # 10236A Date: 101202



Campaign - Front Fender Molding May Be Detached



SERVICE UPDATE



Bulletin No.: 10236A



Date: December 02, 2010



Subject: 10236A - Service Update for Inventory and Customer Vehicles - Front Fender Molding May Partially or Fully Detach - Expires with Base



Warranty



Models:



2010 Cadillac SRX



Supercede:



2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 152



The Part Information section in this bulletin has been revised. A retainer part number has been added for vehicles that are equipped with the revised



lower chrome trim. The retainers will be required to reinstall the trim. Please discard all copies of bulletin 10236, issued October 2010.



This service update includes vehicles in dealer inventory and customer vehicles that return to the dealership for any reason. It will expire



at the end of the involved vehicle's New Vehicle Limited Warranty period.



If a vehicle outside of the VIN breakpoints exhibits this condition, repair the vehicle according to the instructions contained in Technical



Service Bulletin 10-08-111-001.



Purpose



This bulletin provides a service procedure to install a new lower chrome trim molding kit on the front fender inner panel access opening covers on



certain 2010 Cadillac SRX vehicles. On these vehicles, the lower chrome trim molding may partially or fully detach.



This service procedure should be completed as soon as possible on involved vehicles currently in dealer inventory and customer vehicles



that return to the dealer for any type of service during the New Vehicle Limited Warranty coverage period.



Vehicles Involved



A list of involved vehicles currently in dealer inventory is available on the "Service Update Bulletin Information" link under the "Service" tab in



GM GlobalConnect (US) or attached to the GlobalConnect message (Canada) used to release this bulletin. Customer vehicles that return for service,



for any reason, and are still covered under the vehicle's base warranty, and are within the VIN breakpoints provided below, should be checked for



vehicle eligibility.



Important



Dealers are to confirm vehicle eligibility prior to beginning repairs by using the Required Field Actions section in the Global Warranty



system. Not all vehicles within the above breakpoints may be involved.



Parts Information



Parts required to complete this service update are to be obtained from General Motors Customer Care and Aftersales (GMCC&A). Please refer to



your "involved vehicles listing" before ordering parts. Normal orders should be placed on a DRO = Daily Replenishment Order. In an emergency



situation, parts should be ordered on a CSO = Customer Special Order.



Service Procedure



1. Remove the front fender inner panel access opening cover using a plastic body trim tool. Begin removing the cover from the upper corner



first, and then work down to the lower corners of the cover.



2. Determine if the lower chrome trim on the front fender inner panel access opening cover has four tabs.



2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 153



Note



Put the patch assembly on a non-scratching surface. Pull back on the rubber seal (1) of the cover to view the back side of the lower chrome



trim. Determine if the lower chrome trim has four tabs (2).



- If the lower chrome cover trim does NOT have four tabs, REPLACE it with front fender lower molding kit, P/N 22777275. Proceed to



Step 3.



- If the lower chrome cover trim does have the four tabs (2), do NOT replace it. The lower chrome trim is the revised version of the trim.



Proceed to Step 14.



3. Put the patch assembly on a non-scratching surface. Use a small flat blade screw driver to disengage the two tabs. Pry upward on the tabs to



disengage them from the front fender inner panel access opening cover channel tab slots.



4. Remove and discard the lower chrome cover trim.



5. Clean the front side of the front fender inner panel access opening cover channel using a clean shop towel and Kent Automotive Acrysol P/N



20005 or equivalent.



6. Ensure that the old tape and glue have been removed from the front fender inner panel access opening cover channel.



2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 154



7. Remove the tape liner from the new second design lower chrome cover trim.



8. Install the revised lower chrome cover trim to the front side of the front fender inner panel access opening cover channel.



9. Ensure that the lower chrome cover trim tabs are inserted into the front fender inner panel access opening cover channel tab slots that are



located on the back side of the cover.



Note



Side by side gap specification: 0.25 mm +/- 0.25 mm; depth gap specification: -0.5 mm +0.5 mm.



10. Wet out the revised lower chrome cover trim over the channel of the cover as shown in the illustration.



11. Put the patch assembly on a non-scratching surface. Turn the front fender inner panel access opening cover over on its back side.



12. Using a small flat blade screw driver, ensure the four tabs (1) are bent flush to the cover channel as shown in the illustration.



2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 155



13. Peel off the protective wrap that is covering revised design lower chrome cover trim.



14. Install three new cover retainers (1). Insert the retainers into the three doghouses of the front fender inner panel access opening cover. The



doghouses are located on the back side of the cover.



15. Install the front fender inner panel access opening cover.



1. Engage the lower retention clips of the cover.



2. Engage the upper retention clips of the cover.



3. Ensure that the front fender inner panel access opening cover rubber seal is not protruding from the lower chrome cover trim.



- If the rubber seal is not protruding from the lower chrome trim on the cover, no further action is required.



2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 156



- If the rubber seal is protruding from the lower chrome trim on the cover, push it under the lower chrome trim on the cover using a



plastic body trim tool as shown in the illustration.



Warranty Transaction Information



Submit a claim using the table above.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1597

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1597



The shift control solenoid assembly (SLC1, SLC2, SLC3, SLB1) and the line pressure control solenoid (SLT) are installed on the front valve body.



The solenoids linearly control hydraulic pressure in response to signals output from the transmission control module (TCM). SLC1, SLC2, SLC3,



SLB1 controls hydraulic pressure to the clutches (C1, C2, C3) and brake (B1) for smooth shifting. According to each shift control solenoid



assembly, the transmission shifts from 1st gear to 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



* 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.



* TCM communication is normal.



* Transmission fluid temperature is higher than 20掳C (68掳F).



* DTCs P0716, P0717, P0721 and P0722 are not set.



Conditions for Setting the DTC



* Driving in D range, 2nd gear.



* Output speed more than 500 RPM.



* Throttle position more than 10%.



* Measured gear ratio deviates more than 20% from expected ratio.



* Measured gear ratio deviates within 4% from 1st, 3rd, 4th or 6th gear ratio.



* Determined after 12 times lasting 1 s or more.



Action Taken When the DTC Sets



* DTC P0732 is a Type C DTC.



* Torque limitation in "D" range 150 Nm (110 lb ft), in "R" range 170 Nm (125 lb ft).



* The TCM freezes transmission adaptive functions.



* The TCM turns OFF all solenoids.



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



Conditions for Clearing the DTC



* DTC P0732 is a Type C DTC.



* Measured gear ratio deviates less than 4% from expected ratio.



Diagnostic Aids



When attempting to set transmission performance DTCs, observe the Freeze Frame/Failure Records to assist in duplicating the inoperative or



affected conditions. 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

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1241

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1241



* 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



Special Tools



J 26792 HEI Spark Tester



Circuit/System Verification



1. Engine idling at the normal operating temperature, there should be no abnormal engine noise.



瀚慖f there is an abnormal engine noise, refer to Symptoms - Engine Mechanical (See: Engine, Cooling and Exhaust/Engine/Testing and



Inspection/Symptom Related Diagnostic Procedures/Symptoms - Engine Mechanical).



2. Verify that no other DTCs are 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).



3. Observe the scan tool Misfire Current Cyl. 1-6 parameters. The Misfire Current Counters should not be incriminating.



4. Observe the scan tool Circuit Test Status parameters for the various components that may cause a misfire. Verify the Circuit Test Status



parameters for the components that may cause a misfire display OK or Not Run.



5. Engine idling, perform the cylinder power balance test with a scan tool to isolate the misfiring cylinder. The engine speed should change



when each injector is disabled.



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



1. Verify that the following conditions do not exist:



* Vacuum hose splits, kinks, and incorrect connections



* Engine vacuum leaks



* Crankcase ventilation system for vacuum leaks



* Fuel pressure that is too low or too high-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)).



* Contaminated Fuel-Refer to Alcohol/Contaminants-in-Fuel Diagnosis (Special Tool) (See: Powertrain Management/Fuel Delivery and



Air Induction/Fuel/Testing and Inspection/Alcohol/Contaminants-in-Fuel Diagnosis (Special Tool))Alcohol/Contaminants-in-Fuel



Diagnosis (Without Special Tool) (See: Powertrain Management/Computers and Control Systems/Testing and Inspection/Component



Tests and General Diagnostics/Alcohol/Contaminants-in-Fuel Diagnosis (Without Special Tool)).



* Exhaust system restrictions



瀚慖f you find any of the above conditions, repair as necessary.



2. Ignition OFF, remove the appropriate T8 ignition coil of the misfiring cylinder, but leave the electrical connector connected.



3. Inspect the ignition coil boot for the following conditions:



* Holes



* Tears



* Carbon tracking



* Oil contamination



* water intrusion



瀚慖f you find any of the above conditions, repair as necessary.



4. Remove the fuel pump fuse from the fuse block.



5. Install the J 26792 to the boot of the appropriate T8 ignition coil and ground.



Note: An erratic or weak spark is considered a no spark condition.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1709

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1709



3. Test for infinite resistance between each terminal and the low reference circuit terminal 10 X2 and also to the voltage supply circuit terminal



11 X2.



瀚慖f less than the specified range, replace the wiring harness.



4. If all circuit test normal, perform the Control Solenoid Valve Inspection (M36 and MXE) (See: Transmission and Drivetrain/Automatic



Transmission/Transaxle/Testing and Inspection/Component Tests and General Diagnostics/AF40-6 - Automatic Transmission).



瀚慖f the inspection test normal, replace the control valve body.



Repair Instructions



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



* Control valve body replacement-Refer to Control Valve Body Replacement (See: Transmission and Drivetrain/Automatic



Transmission/Transaxle/Valve Body/Service and Repair/AF40-6 - Automatic Transmission/Control Valve Body Replacement) for



replacement, setup and programming.



* TCM-Refer to Control Module References (See: Testing and Inspection/Programming and Relearning) for replacement, setup and



programming.



* Perform the Transmission Adaptive Functions (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Description and



Operation/AF40-6 - Automatic Transmission/Transmission Adaptive Functions).



* Wiring harness-Refer to Automatic Transmission Wiring Harness Replacement (See: Transmission and Drivetrain/Automatic



Transmission/Transaxle/Wiring Harness/Service and Repair) for replacement.



6T70/6T75 - Automatic Transmission



DTC P0965-P0967



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 P0965



- Clutch Pressure Control (PC) Solenoid 2 System Performance



DTC P0966



- Clutch Pressure Control (PC) Solenoid 2 Control Circuit Low Voltage



DTC P0967



- Clutch Pressure Control (PC) Solenoid 2 Control Circuit High Voltage



Diagnostic Fault Information



Circuit/System Description



The clutch pressure (PC) solenoid 2 is part of the control solenoid valve assembly, which has no serviceable components. The normally high clutch



PC solenoid 2 regulates and directs the clutch PC solenoid 2 oil pressure to the 3-5 reverse clutch regulator valve and 3-5 reverse clutch boost



valve. Increasing clutch PC solenoid 2 pressure increases pressure to the 3-5 reverse clutch. The TCM varies the current to the PC solenoid 2



through a low side driver. Decreasing the current to the clutch PC solenoid 2 increases clutch PC solenoid 2 oil pressure by closing OFF the



solenoid exhaust port. Increasing the current to the clutch PC solenoid 2, decreases clutch PC solenoid 2 oil pressure by opening the solenoid



exhaust port. Clutch PC solenoid 2 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



P0965



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



* The ignition voltage is 8.6 volts or greater.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1052

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1052



DTC P0111-P0114 (LAU)



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 P0111



- Intake Air Temperature (IAT) Sensor Circuit Performance



DTC P0112



- Intake Air Temperature (IAT) Sensor Circuit Low Voltage



DTC P0113



- Intake Air Temperature (IAT) Sensor Circuit High Voltage



DTC P0114



- Intake Air Temperature (IAT) Sensor Intermittent



Diagnostic Fault Information



Typical Scan Tool Data



Circuit Description



The intake air temperature (IAT) sensor is an integral part of the Intake Manifold Pressure and Air Temperature sensor. The IAT sensor is a



variable resistor that measures the temperature of the intake air. The engine control module (ECM) supplies 5 V to the IAT signal circuit and



supplies a ground to the low reference circuit.



The following table illustrates the difference between temperature, resistance, and voltage:



Conditions for Running the DTC



P0111 Idle Test



* Before the ECM can report DTC P0111 failed, DTC P0101 must run and pass.



* DTC P0112, P0113, P0116, P0117, P0118, P0119, P0125, or P0128 is not set.



* The engine coolant temperature (ECT) at engine start is colder than 120掳C (248掳F).



* The ECT is warmer than 60掳C (140掳F).



* The vehicle speed is less than 3 km/h (2 mph).



* DTC P0111 runs continuously when the above conditions are met for greater than 2 s.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1617

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1617



Repair Instructions



Important:



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



Inspection/Programming and Relearning) following all transmission related repairs.



* Before replacing the TCM, perform the Control Solenoid Valve and Transmission Control Module Assembly Inspection (See:



Transmission and Drivetrain/Automatic Transmission/Transaxle/Testing and Inspection/Component Tests and General



Diagnostics/6T70/6T75 - Automatic Transmission/Control Solenoid Valve and Transmission Control Module Assembly Inspection).



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



* Control Valve Lower Body and Upper Body Replacement (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Valve



Body/Service and Repair/6T70/6T75 - Automatic Transmission/Control Valve Lower Body and Upper Body Replacement)



* Torque Converter Removal (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Service and Repair/Overhaul/2. Torque



Converter Removal)



* Torque Converter Installation (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Service and Repair/Overhaul/54.



Torque Converter Installation)



* Torque Converter and Differential Housing, Front Differential Transfer Drive Gear, and Front Differential Carrier Removal (See:



Transmission and Drivetrain/Automatic Transmission/Transaxle/Service and Repair/Overhaul/9. Torque Converter and Differential Housing,



Front Differential Transfer Drive Gear, and Front Differential Carrier Removal) and Torque Converter and Differential Housing Installation



(See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Service and Repair/Overhaul/34. Torque Converter and Differential



Housing Installation)



* Control Module References (See: Testing and Inspection/Programming and Relearning) for control solenoid valve assembly replacement,



setup, and programming



AF40-6 - Automatic Transmission



DTC P0741 or P0742



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 P0741



- Torque Converter Clutch (TCC) System Stuck Off

Tuesday, January 28, 2020

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1658

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1658



Inspection/Programming and Relearning) following all transmission related repairs.



* Before replacing the TCM, perform the Control Solenoid Valve and Transmission Control Module Assembly Inspection (See:



Transmission and Drivetrain/Automatic Transmission/Transaxle/Testing and Inspection/Component Tests and General



Diagnostics/6T70/6T75 - Automatic Transmission/Control Solenoid Valve and Transmission Control Module Assembly Inspection)



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



* Control Module References (See: Testing and Inspection/Programming and Relearning) for body control module (BCM) or control solenoid



valve assembly replacement, setup and programming



* Transmission Control Replacement (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Shifter A/T/Service and



Repair/6T70/6T75 - Automatic Transmission/Transmission Control Replacement)



P0817



DTC P0817



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 P0817



- Brake Transmission Shift Interlock Solenoid Actuator



Diagnostic Fault Information



Circuit/System Description



The transmission range switch is an integral part of the transmission control module (TCM). As the gear range selector lever is moved, the state of



the starter inhibit circuit may change, causing the circuit to open or close. An open circuit indicates a drive range and a low voltage signal, 0 V, at



the body control module (BCM). A closed circuit indicates PARK or NEUTRAL and a high voltage, 12 V, signal at the BCM. The BCM uses the



starter inhibit circuit status from the TCM in order to enable starter operation.



Conditions for Running the DTC



P0817



* The ignition voltage is 6.0-16.0 V.



* The transmission is not in emergency mode.



Conditions for Setting the DTC



P0817



* Start lock is output as "On" and start lock monitor signal indicates "Off" for more than 100 ms.



* After consecutive 2 times of above detection.



Action Taken When the DTC Sets



P0817



* DTCs P0817 is Type D DTC.



* No engine start possible.



Conditions for Clearing the DTC



P0817



* DTC P0817 is Type D DTC.



* Start lock is output as "On" and start lock monitor signal indicates "On" and start lock is output as "Off" and start lock monitor signal



indicates "Off" for more than 1 s.

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2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1732



* Perform the Transmission Adaptive Functions (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Description and



Operation/AF40-6 - Automatic Transmission/Transmission Adaptive Functions).



* Wiring harness-Refer to Automatic Transmission Wiring Harness Replacement (See: Transmission and Drivetrain/Automatic



Transmission/Transaxle/Wiring Harness/Service and Repair) for replacement.



6T70/6T75 - Automatic Transmission



DTC 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 P0969



- Clutch Pressure Control (PC) Solenoid 3 System Performance



DTC P0970



- Clutch Pressure Control (PC) Solenoid 3 Control Circuit Low Voltage



DTC P0971



- Clutch Pressure Control (PC) Solenoid 3 Control Circuit High Voltage



Diagnostic Fault Information



Circuit/System Description



The clutch pressure (PC) solenoid 3 is part of the control solenoid valve assembly, which has no serviceable components. The normally high clutch



PC solenoid 3 regulates and directs the clutch PC solenoid 3 oil pressure to the R1/4-5-6 clutch regulator valve and 4-5-6 clutch boost valve.



Increasing clutch PC solenoid 3 oil pressure increases oil pressure to the low and reverse clutch or the 4-5-6 clutch, depending on the position of



the clutch select valve 2. The TCM varies the current to the PC solenoid 3 through a low side driver. Decreasing the current to the clutch PC



solenoid 3 increases clutch PC solenoid 3 oil pressure by closing OFF the solenoid exhaust port. Increasing the current to the clutch PC solenoid 3,



decreases clutch PC solenoid 3 oil pressure by opening the solenoid exhaust port. Clutch PC solenoid 3 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



P0969



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



* The ignition voltage is 8.6 volts or greater.



* DTC P0969 has not set this ignition cycle.



P0970



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



* The ignition voltage is 8.6 volts or greater.



* DTC P0970 has not set this ignition cycle.



P0971



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



* The ignition voltage is 8.6 volts or greater.



* DTC P0971 has not set this ignition cycle.



Conditions for Setting the DTC



P0969



The TCM detects an internal electrical performance malfunction of the clutch PC solenoid 3 control circuit where the measured clutch PC solenoid



3 currents does not equal the commanded clutch PC solenoid 3 current for 5 seconds.

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1536

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1536



* 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



Special Tools



J 35616 - Connector Test Adapter Kit



Circuit/System Verification



Note: If you were sent here from Engine Cranks But Does Not Run proceed to Circuit/System Testing.



1. Engine running, command the Engine Controls (EC) Ignition Relay ON and OFF with a scan tool while observing the following EC Ignition



Relay control circuit status parameters:



* Engine Controls Ignition Relay Control Circuit Low Voltage Test Status



* Engine Controls Ignition Relay Control Circuit Open Test Status



* Engine Controls Ignition Relay Control Circuit High Voltage Test Status



Each parameter should display OK or Not Run.



2. Ignition ON, you should be able to communicate with the ECM using a scan tool.



3. Ignition ON, view the DTC information with a scan tool. DTC P0685, P0686, P0687, P0689, or P0690 should not set.



4. 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 KR75 powertrain relay.



2. Ignition ON, verify a test lamp illuminates between both of the following relay battery voltage circuit terminals and ground.



* Terminal 86



* Terminal 87



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



Note: The ignition voltage circuit is between the powertrain relay and the ECM. The ignition voltage circuit is a feedback circuit.



3. Ignition OFF, verify that a test lamp does not illuminate between the ignition voltage circuit terminal 30 and ground.



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



4. Connect a 20 A fused jumper wire between the relay switch B+ circuit terminal 87 and the relay switch ignition voltage circuit terminal 30.



5. Ignition ON, observe the scan tool EC Ignition Relay Feedback Signal parameter. The ECM should communicate, and the parameter should



display 9-14 V.



瀚慖f not the specified range, or the ECM does not communicate, test the ignition voltage circuit between the powertrain relay and the ECM



for a short to ground or for an open/high resistance. If the circuit/connections test normal, replace the K20 ECM.



6. Ignition OFF, verify that a test lamp does not illuminate between the control circuit terminal 85 and B+.



瀚慖f the test lamp illuminates, test the control circuit for a short to ground. If the circuit tests normal, replace the K20 ECM.



7. Connect a DMM set to the diode setting between the control circuit terminal 85 and ground.



8. Ignition ON, verify the DMM does not display OL.



瀚慖f the DMM displays OL, test the control circuit for a short to voltage, or an open/high resistance. If the circuit tests normal, replace the



K20 ECM.



9. If all circuits test normal, replace the KR75 powertrain relay.

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2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1111



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



programming



P0140



DTC P0137, P0138, or P0140 (Without 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 P0137



- HO2S Circuit Low Voltage Sensor 2



DTC P0138



- HO2S Circuit High Voltage Sensor 2



DTC P0140



- HO2S Circuit Insufficient Activity Sensor 2



Diagnostic Fault Information



Typical Scan Tool Data



Circuit Description



The heated oxygen sensors (HO2S) are used for fuel control and catalyst monitoring. Each HO2S compares the oxygen content of the surrounding



air with the oxygen content of the exhaust stream. When the engine is started, the control module operates in an Open Loop mode, ignoring the



HO2S signal voltage while calculating the air-to-fuel ratio. The control module supplies the HO2S with a reference, or bias voltage of about 450



mV. While the engine runs, the HO2S heats up and begins to generate a voltage within a range of 0-1,000 mV. This voltage will fluctuate above



and below the bias voltage. Once sufficient HO2S voltage fluctuation is observed by the control module, Closed Loop is entered. The control



module uses the HO2S voltage to determine the air-to-fuel ratio. An HO2S voltage that increases above bias voltage toward 1,000 mV indicates a



rich fuel mixture. An HO2S voltage that decreases below bias voltage toward 0 mV indicates a lean fuel mixture.



The heating elements inside each HO2S heat the sensor to bring the sensor up to operating conditions faster. This allows the system to enter Closed



Loop earlier and the control module to calculate the air-to-fuel ratio sooner.



Conditions for Running the DTCs



P0137



* DTC P0117 or P0118 is not set.



* The HO2S 2 is at operating temperature for greater than 90 seconds.



* The engine is operating for greater than 5 seconds.



* The ignition voltage is greater than 10 volts.



* The engine coolant temperature is less than 40掳C (104掳F) at start-up and the engine coolant temperature was greater than 60掳C (140掳F) when

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1682

2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1682



1. Ignition OFF. Remove the control solenoid valve assembly. Refer to Control Solenoid Valve and Transmission Control Module Assembly



Replacement (See: Powertrain Management/Transmission Control Systems/Actuators and Solenoids - Transmission and



Drivetrain/Actuators and Solenoids - A/T/Shift Solenoid/Service and Repair).



2. Perform the Control Solenoid Valve and Transmission Control Module Assembly Inspection (See: Transmission and Drivetrain/Automatic



Transmission/Transaxle/Testing and Inspection/Component Tests and General Diagnostics/6T70/6T75 - Automatic Transmission/Control



Solenoid Valve and Transmission Control Module Assembly Inspection).



3. Place the control solenoid valve assembly on a clean work surface near the transmission assembly.



4. Connect DT-47825-20 - jumper harness between the vehicle wire harness electrical connector, and the control solenoid valve assembly



electrical connector.



5. Ignition ON, verify with a scan tool that the TFP Switch 1, TFP Switch 3, TFP Switch 4, and TFP Switch 5 parameters changes states when



gently pushing on each TFP switch with the eraser end of a pencil.



瀚慖f any TFP Switch parameter does not change states, replace the control solenoid valve assembly.



Repair Instructions



Note:



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



Inspection/Programming and Relearning) following all transmission related repairs.



* Before replacing the TCM, perform the Control Solenoid Valve and Transmission Control Module Assembly Inspection (See: Transmission



and Drivetrain/Automatic Transmission/Transaxle/Testing and Inspection/Component Tests and General Diagnostics/6T70/6T75 - Automatic



Transmission/Control Solenoid Valve and Transmission Control Module Assembly Inspection).



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 valve assembly replacement, setup, or



programming



P0877



DTC P0877 or P0878



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 P0877



- Transmission Fluid Pressure (TFP) Switch 4 Circuit Low Voltage



DTC P0878



- Transmission Fluid Pressure (TFP) Switch 4 Circuit High Voltage



Diagnostic Fault Information



Circuit/System Description



The transmission fluid pressure (TFP) switch 4 is part of the control solenoid valve assembly which has no serviceable parts. The TCM supplies a



signal circuit to the TFP switch 4. The TFP switch 4 has an internal case ground. TFP switch 4 is normally closed or LOW. When oil pressure is



present at the TFP switch 4, the switch is open or HIGH. The normally LOW pressure control solenoid 5 controls pressure to the 1-2-3-4 clutch



regulator valve. The TCM monitors the TFP switch 4 to determine the position of the 1-2-3-4 clutch regulator valve. When the 1-2-3-4 clutch is



commanded OFF, pressure is present on the TFP switch 4. When the 1-2-3-4 clutch is commanded ON, the 1-2-3-4 clutch regulator valve moves



and pressure to the TFP switch 4 is exhausted through the 1-2-3-4 clutch regulator valve.



Conditions for Running the DTC

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2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1944



Conditions for Running the DTC



P2714



* 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, P0716, P0717, P0722, P0723, or P182E.



* The ignition voltage is 8.6 volts or greater.



* The output speed is 16 RPM or greater, or the throttle position is 0.4 percent or greater.



* The throttle position signal is valid.



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



* The transmission fluid temperature is 0掳C (32掳F) or greater.



* 2-6 clutch is commanded ON.



* The high side driver is enabled.



P2715



* 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, P0716, P0717, P0722, P0723, or P182E.



* The ignition voltage is 8.6 volts or greater.



* The high side driver is enabled.



* The transmission fluid temperature is 0掳C (32掳F) or greater.



* The transmission output shaft speed is 350 RPM or greater.



* The transmission input shaft speed is 200 RPM or greater.



* The 2-6 clutch is commanded OFF.



Conditions for Setting the DTC



P2714



The TCM detects an incorrect on-coming clutch gear ratio, or flare, when the 2-6 clutch is commanded ON and the transmission input shaft speed is



200 RPM or greater from the anticipated input shaft speed for 2 seconds, a total of 3 times in second gear, or a total of 3 times in sixth gear.



P2715



The TCM detects an incorrect off-going clutch gear ratio, or tie-up, when the 2-6 clutch is commanded OFF and the transmission input shaft speed



is 40 RPM or less from the anticipated input shaft speed for 1.2 seconds, a total of 3 times from second gear or a total of 3 times from sixth gear.



Action Taken When the DTC Sets



P2714



* DTC P2714 is a Type A DTC.



* The TCM commands maximum line pressure.



* The TCM inhibits Tap Up/Down function.



* The TCM inhibits manual shifting of forward gears.



* The TCM freezes transmission adaptive functions.



* The TCM limits the transmission to first, third, or reverse operation.



P2715



* DTC P2715 is a Type A DTC.



* The TCM commands maximum line pressure.



* The TCM inhibits Tap Up/Down function.



* The TCM inhibits manual shifting of forward gears.



* The TCM freezes transmission adaptive functions.



* The TCM limits the transmission to second gear operation.



Conditions for Clearing the DIC/DTC



DTCs P2714 and P2715 are Type A DTCs.



Diagnostic Aids



Before performing a road test, configure and setup the scan tool for snapshot mode. This will allow you to display, monitor, and verify multiple



transmission data parameters at one time, after the road test.



Reference Information



Connector End View Reference



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



* Inline Harness Connector End Views (See: Diagrams/Connector Views/Multiple Junction Connector/Connector End Views By Number)



Description and Operation

Monday, January 27, 2020

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2010 Cadillac Truck SRX AWD V6-2.8L Turbo Page 1633



* The TCM commands maximum line pressure.



* The TCM inhibits Tap Up/Down function.



* The TCM inhibits manual shifting of forward gears.



* The TCM freezes transmission adaptive functions.



* The TCM limits the transmission to 3rd and reverse operation.



Conditions for Clearing the DIC/DTC



DTCs P0776 and P0777 are Type A DTCs.



Diagnostic Aids



Before performing a road test, configure and setup the scan tool for snapshot mode. This will allow you to display, monitor, and verify multiple



transmission data parameters at one time, after the road test.



Reference Information



Schematic Reference



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



Connector End View Reference



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



* Inline Harness Connector End Views (See: Diagrams/Connector Views/Multiple Junction Connector/Connector End Views By Number)



Description and Operation



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



Automatic Transmission/Transmission General Description)



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)



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)



Circuit/System Verification



1. Engine idling in Park, with parking brake applied and drive wheels chocked.



2. Perform the Transmission Fluid Level and Condition Check (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Testing



and Inspection/Component Tests and General Diagnostics/6T70/6T75 - Automatic Transmission/Transmission Fluid Level and Condition



Check) to verify correct fluid level and condition.



3. Monitor the Transmission Fluid Pressure (TFP) Switch 1 with a scan tool. Place the gear select lever in Park, Reverse, and Neutral range.



Verify the TFP Switch 1 parameter states are correct for Park, Reverse, and Neutral. Refer to Transmission Fluid Pressure Switch Logic (



See: Specifications/Mechanical Specifications/Automatic Transmission/Transaxle/System Specifications/6T70/6T75 - Automatic



Transmission/Transmission Fluid Pressure Switch Logic).



4. Place the gear select lever in Drive range. Command the shift transmission with a scan tool through all forward ranges. Verify the TFP



Switch 1 parameter states are correct for all forward ranges. Refer to Transmission Fluid Pressure Switch Logic (See:



Specifications/Mechanical Specifications/Automatic Transmission/Transaxle/System Specifications/6T70/6T75 - Automatic



Transmission/Transmission Fluid Pressure Switch Logic).



5. Engine idling in Park, verify with a scan tool the Transmission ISS/OSS Supply Voltage parameter displays OK.



6. Engine idling in Park. Observe the Transmission ISS parameter on the scan tool, while varying the engine speed. The Transmission ISS



parameter should vary with engine speed and not drop out.



7. Operate the vehicle at 16-32 km/h (10-20 mph) while observing the Transmission OSS parameter on the scan tool. The Transmission OSS



parameter should vary with the vehicle speed and not drop out.



Note: Perform a scan tool snapshot, during the road test.



8. Perform the Road Test (See: Transmission and Drivetrain/Automatic Transmission/Transaxle/Testing and Inspection/Initial Inspection and