P0101

DTC P0101 or P1101 (LS9)

Diagnostic Instructions

* Perform the Diagnostic System Check - Vehicle (Diagnostic System Check - Vehicle) prior to using this diagnostic procedure.
* Review Strategy Based Diagnosis (Strategy Based Diagnosis) for an overview of the diagnostic approach.
* Diagnostic Procedure Instructions (Diagnostic Procedure Instructions) provides an overview of each diagnostic category.

DTC Descriptors
DTC P0101
- Mass Air Flow (MAF) Sensor Performance

DTC P1101
- Intake Air Flow System Performance

Diagnostic Fault Information





Typical Scan Tool Data





Circuit Description

Note: The following applies to the intake airflow system performance diagnostic that is used in this supercharged engine:

* When referring to the supercharger intake manifold models, the plenum volume between the throttle body and the supercharger is considered to be the intake manifold.
* When referring to engine pumping, the supercharger and the intercooler plenum are considered to be part of the engine.
* The manifold absolute pressure (MAP) estimates are used in the engine air flow estimates. Air flow into the intake system must be the same as the air flow out of the intake system, the Intake Airflow Rationality Diagnostics (IFRD) calculates air flowing out of the engine based on MAP estimates, volumetric efficiency, and RPM.

The intake airflow system performance diagnostic provides the within-range rationality check for the mass air flow (MAF), supercharger inlet absolute pressure (SCIAP), MAP, by-pass valve stuck, and the throttle position (TP) sensors. This is an explicit model-based diagnostic containing 4 separate models for the intake system.

* The throttle model describes the flow through the throttle body and is used to estimate the MAF through the throttle body as a function of barometric pressure (BARO), throttle position, intake air temperature (IAT), and estimated SCIAP. The information from this model is displayed on the scan tool as the MAF Performance Test parameter.
* The first supercharger intake manifold model describes the pressure at the supercharger intake manifold and is used to estimate SCIAP as a function of the MAF into the intake manifold from the throttle body and the MAF out of the intake manifold caused by engine pumping. The flow into the supercharger intake manifold from the throttle uses the MAF estimate calculated from the above throttle model. The information from this model is displayed on the scan tool as the MAP Performance Test 1 parameter.
* The second supercharger intake manifold model is identical to the first supercharger intake manifold model except that the MAF sensor measurement is used instead of the throttle model estimate for the throttle air input. The information from this model is displayed on the scan tool as the MAP Performance Test 2 parameter.
* A fourth model is created from the combination and additional calculations of the throttle model and the first supercharger intake manifold model. The information from this model is displayed on the scan tool as the TP Performance Test parameter.
* In addition 5 models run in the background.

The estimates of MAF, SCIAP, and TP that are obtained from this system of models and calculations are then compared to the actual measured values from the MAF, SCIAP, and the TP sensors and to each other to determine the appropriate DTC to fail. The following table illustrates the possible failure combinations and the resulting DTC or DTCs.





Conditions for Running the DTC

* DTCs P0096, P0097, P0098, P0102, P0103, P0107, P0108, P0111, P0112, P0113, P0116, P0117, P0118, P012C, P012D, P0335, P0336, P0401, P0405, P1404, P2226, P2227, P2228 are not set.
* The engine speed is between 450-6,500 RPM.
* The intake air temperature is between -20 and +125°C (-4 and +257°F).
* The engine coolant temperature is between 70-125°C (158-257°F).
* This DTC runs continuously when the above enabling conditions are met.

Conditions for Setting the DTC

The engine control module (ECM) detects that the actual measured airflow from the MAF, MAP, SC Inlet Pressure, and the TP sensors are not within a range of the calculated airflow that are derived from the system of models by greater than a calibrated threshold for greater than 10 s.

Action Taken When the DTC Sets

DTCs P0101 and P1101 are Type B DTCs.

Conditions for Clearing the MIL/DTC

DTCs P0101 and P1101 are Type B DTCs.

Diagnostic Aids

Inspect for the following conditions that may set this DTC:

* Any condition that can cause the MAF, MAP, SCIAP, and TP sensors to be shifted in value.
* A steady or intermittent high resistance of 15 ohm or greater on the ignition voltage circuit will cause the MAF sensor signal to be increased by as much as 60 g/s. To pinpoint this condition perform a voltage drop test on the circuit.
* Any type of contamination on the MAF sensor heating elements will degrade the proper operation of the sensor. Certain types of contaminants act as a heat insulator, which will impair the response of the sensor to airflow changes. Water or snow can create the opposite effect, and cause the signal to increase rapidly.
* Depending on the current ambient temperature, and the vehicle operating conditions, a MAF sensor signal circuit that is shorted to the IAT signal circuit will increase or decrease the MAF sensor signal that is interpreted by the ECM. Additionally it may cause a rapid fluctuation in the IAT Sensor parameter.
* A skewed or stuck engine coolant temperature (ECT) or IAT sensor will cause the calculated models to be inaccurate and may cause this DTC to run when it should not. Refer to Temperature Versus Resistance (Temperature Versus Resistance).
* Certain aftermarket air filters may cause this DTC to set.
* Certain aftermarket air induction systems may cause this DTC to set.
* Modifications to the air induction system may cause this DTC to set.

Reference Information
Schematic Reference

Engine Controls Schematics (LS3) ([1][2]Electrical Diagrams)Engine Controls Schematics (LS7) ([1][2]Electrical Diagrams)Engine Controls Schematics (LS9) ([1][2]Electrical Diagrams)
Connector End View Reference

Component Connector End Views (Connector End Views By Name)
Electrical Information Reference

* Circuit Testing (Circuit Testing)
* Connector Repairs (Connector Repairs)
* Testing for Intermittent Conditions and Poor Connections (Testing for Intermittent Conditions and Poor Connections)
* Wiring Repairs (Wiring Repairs)

Scan Tool Reference

Control Module References (Programming and Relearning) for scan tool information
DTC Type Reference

Powertrain Diagnostic Trouble Code (DTC) Type Definitions (Powertrain Diagnostic Trouble Code (DTC) Type Definitions)
Special Tools

J 38522 - Variable Signal Generator

Circuit/System Verification

1. Ignition ON, observe the scan tool DTC information. DTC P0641 or P0651 should not be set.

• If a DTC is set, refer to Diagnostic Trouble Code (DTC) List - Vehicle (Diagnostic Trouble Code (DTC) List - Vehicle) for DTC P0641 or P0651 for further diagnosis.

2. Verify restrictions do not exist in the exhaust system-Refer to Restricted Exhaust (Restricted Exhaust).
3. Ignition ON, observe the MAP Sensor and SC Inlet Pressure Sensor kPa parameters with a scan tool. Start the engine and let it idle. The MAP and SC Inlet Pressure Sensor kPa parameters should decrease and closely match each other.

• If the MAP Sensor kPa parameter does not decrease and closely match the SC Inlet Pressure kPa parameter, refer to DTC P0106 (P0106).
• If the SC Inlet Pressure kPa parameter does not decrease and closely match the MAP Sensor kPa parameter, refer to DTC P012B (P012B).

4. Ignition ON, depress the accelerator pedal completely to wide open throttle (WOT) and observe the TP Indicated Angle parameter with a scan tool. The TP Indicated Angle parameter should read 98-100 percent.

• If the TP Indicated Angle parameter is not within the specified range, refer to DTC P1516, P2101, P2119, or P2176 (P1516).

5. Ignition ON, engine OFF, perform a snapshot of the throttle actuator control (TAC) data while performing the following actions. Refer to Scan Tool Snapshot Procedure (Scan Tool Snapshot Procedure).

1. Slowly depress the accelerator pedal to WOT position and then slowly release the pedal. Exit from the snapshot and review the data.
2. Compare the TP Sensor 1 Indicated Position and the TP Sensor 2 Indicated Position parameters, frame by frame. The difference between the values should be less than 4 percent.

• If the difference is greater than 4 percent, refer to DTC P0120, P0122, P0123, P0220, P0222, P0223, or P2135 (P0120).

6. Road test the vehicle and perform a brief wide open throttle (WOT) acceleration from 48 km/h (30 mph). The MAP sensor kPa parameter on the scan tool should increase rapidly. This increase should be from approximately 35 kPa at idle to greater than 135 kPa.

• If the MAP Sensor kPa parameter does not increase to greater than the specified range, refer to Boost Control System Diagnosis (Boost Control System Diagnosis).

7. Road test the vehicle and verify that the MAF sensor calculated g/s and the actual MAF g/s parameters are near or equal to each other.
8. A skewed or stuck ECT, BARO, MAP, MAF/IAT, or IAT sensor 2 will cause the calculated models to be inaccurate and may cause this DTC to run when it should not. Refer to Temperature Versus Resistance (Temperature Versus Resistance) and Altitude Versus Barometric Pressure (Altitude Versus Barometric Pressure).
9. 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: You must perform the Circuit/System Verification before proceeding with Circuit/System Testing.

1. Visually and physically inspect the by-pass valve and image for a binding or sticking when opening or closing.

• If any of the above conditions are found, refer to Supercharger Cleaning and Inspection (64. Supercharger Cleaning and Inspection).

2. Verify the integrity of the entire supercharger air induction system by inspecting for the following conditions:

* A restricted or collapsed air intake duct
* A misaligned or damaged air intake duct
* A dirty or deteriorating air filter element
* Any objects blocking the air inlet probe of the MAF/IAT sensor
* Any contamination or debris on the sensing elements in the probe of the MAF/IAT sensor
* Any water intrusion in the induction system
* Any unmetered air downstream of the MAF/IAT sensor
* An intake manifold leak
* Any snow or ice build up at the air cleaner or MAF/IAT sensor
* A SCIAP sensor vacuum hose that is missing or damaged
* A MAP sensor vacuum hose that is missing or damaged

3. Ignition OFF and scan tool disconnected, disconnect the harness connector at the MAF/IAT sensor.
4. Ignition OFF, all vehicles systems OFF, this may take up to for 2 min, test for less than 5 ohm between the ground circuit terminal B and ground.

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

5. Ignition ON, verify that a test lamp illuminates between ignition circuit terminal C and ground.

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

6. Ignition ON, test for 4.8-5.2 V between the signal circuit terminal A and ground.

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

7. Ignition OFF, connect the red lead of J 38522 - Signal Generator to the signal circuit terminal A at the MAF/IAT sensor harness connector. Connect the battery voltage supply to B+, and the black lead to ground.
8. Set the J 38522 Signal switch to 5 V, the Frequency switch to 5K, and the Duty Cycle switch to Normal.
9. Engine idling, observe the scan tool MAF Sensor parameter. The scan tool MAF Sensor parameter should be between 4,950-5,050 Hz.

• If not within the specified range, replace the ECM.

10. If all circuits test normal, test or replace the MAF Sensor.

Repair Instructions

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

* Mass Airflow Sensor with Intake Air Temperature Sensor Replacement (Mass Airflow Sensor With Intake Air Temperature Sensor Replacement)
* Control Module References (Programming and Relearning) for ECM replacement, setup, and programming