The Mass Air Flow (MAF) sensor measures the amount of air which passes through it into the engine during a given time. The PCM uses the mass air flow information to monitor engine operating conditions for fuel delivery calculations. A large quantity of air entering the engine indicates an acceleration or high load situation, while a small quantity of air indicates deceleration or idle.
The MAF sensor produces a frequency signal which can be monitored using a scan tool. The frequency will vary within a range of around 2000 Hertz at idle to near 8000 Hertz at maximum engine load. DTC P0101 will be set if the signal from the MAF sensor does not match a predicted value based on barometric pressure, throttle position and engine RPM.
• | The engine is running. |
• | Ignition Voltage between 9.0 and 16.0 volts. |
• | Throttle angle less than 50%. |
• | MAP and TP steady for more than 10 seconds. |
• | EGR duty cycle is below 50%. |
• | EGR pintle position is below 50%. |
A difference of 6 to 30 g/s between actual and predicted air flows.
• | The PCM will illuminate the malfunction indicator lamp (MIL) during the second consecuitive trip in which the diagnostic has been run and failed. |
• | If equipped with traction control, the PCM will command the EBTCM via the serial data circuit to turn OFF traction control, and the EBTCM will illuminate the TRACTION OFF lamp. |
• | The PCM will store conditions which were present when the DTC set as Freeze Frame and Failure Records data. |
• | The PCM will turn OFF the MIL during the third consecutive trip in which the diagnostic has been run and passed. |
• | The History DTC will clear after 40 consecutive warm-up cycles have occurred without a malfunction. |
• | The DTC can be cleared by using the scan tool. |
Check for the following conditions:
• | Skewed or stuck TP sensor. A faulty TP sensor or TP sensor circuit can cause the PCM to incorrectly calculate the predicted mass air flow value. Observe Throttle Angle with the throttle closed. If the Throttle Angle reading is not 0%, check for the following conditions and repair as necessary: |
- | TP sensor signal circuit shorted to voltage. |
- | Poor connection or high resistance in the TP sensor ground circuit. Refer to Intermittents and Poor Connections Diagnosis in Wiring Systems. |
• | If none of the above conditions are noted and the Throttle Angle reading at closed throttle is not 0%, replace the TP sensor. |
• | Skewed MAP sensor. A skewed MAP sensor can cause the BARO reading to be incorrectly calculated. To check the MAP sensor, compare the MAP/BARO reading on the vehicle being diagnosed to the MAP/BARO reading on a normally operating vehicle. If a large difference is noted replace the MAP sensor. |
• | Poor connection at PCM. Inspect harness connectors for backed out terminals, improper mating, broken locks, improperly formed or damaged terminals, and poor terminal to wire connection. Refer to Intermittents and Poor Connections Diagnosis in Wiring Systems. |
• | Misrouted harness. Inspect the MAF sensor harness to ensure that it is not routed too close to high voltage wires such as spark plug leads. |
• | Damaged harness. Inspect the wiring harness for damage. If the harness appears to be OK, observe the scan tool while moving connectors and wiring harnesses related to the MAF sensor. A change in the display will indicate the location of the fault. Refer to Wiring Repairs in Wiring Systems. |
• | Plugged intake air duct or dirty air filter element. |
• | The actual Mass Air Flow is compared to a calculated Mass Air Flow based on the MAP, TP, and engine RPM readings (speed density). A skewed/unresponsive MAP sensor at key ON will cause the calculated Mass Air Flow value to be inaccurate. When the engine is started a calculated difference between actual Mass Air Flow and Calculated Mass Air Flow occurs. DTC P0101 will set, the vehicle will stall, a default Mass Air Flow based on the MAP sensor will occur. Because the MAP sensor is skewed/unresponsive the default Mass Air Flow values are incorrect and vehicle may not restart. If a fault occurs which causes the MAP sensor value to be incorrect (poor vacuum connections, damaged vacuum source, or defective vacuum hose(s), unmetered air into the manifold), DTC P0101 will set and the default mass airflow value will be substituted. Because the MAP sensor value is incorrect the vehicle may not start and run. |
If DTC P0101 cannot be duplicated, the information included in the Fail Records data can be useful in determining vehicle mileage since the DTC was last set. This may assist in determining how often the DTC sets.
The numbers below refer to the step numbers on the Diagnostic Table:
Only, if sent here from Engine Cranks But Will Not Run, continue to follow diagnostic table even if DTC P0101 has NOT failed this ignition.
This step checks the MAP sensor. By disconnecting the MAF sensor, the vehicle is forced into speed density; Speed density is based on the MAP, TP, and engine RPM readings. With a skewed/unresponsive MAP sensor, the speed density calculation is incorrect and vehicle may not start. For further information refer to diagnostic aids.
This step checks for skewed or sticking MAP sensor. MAP sensor should respond smoothly and gradually as RPM is increased. Compare MAP sensor of affected vehicle to that of a normally operating vehicle if a large difference is noted replace MAP sensor.
Verifies that ignition feed voltage and a good ground are available at the MAF sensor.
Step | Action | Value(s) | Yes | No | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | Was the Powertrain OBD System Check performed? | -- | ||||||||||
2 | Is DTC P1374, P1635 set? | -- | Go to applicable DTC Table | |||||||||
Does scan tool indicate DTC P0101 failed this ignition? | -- | Go to Diagnostic Aids | ||||||||||
Important: : DO NOT CLEAR DTCs.
Does engine start and continue to run? | -- | |||||||||||
Does the MAP sensor value change as engine speed increases? | -- | |||||||||||
6 | Refer to Manifold Absolute Pressure Sensor Circuit Diagnosis to diagnose MAP sensor circuit. Is the action complete? | -- | -- | |||||||||
7 |
Does the scan tool display YES? | -- | ||||||||||
8 |
Is the voltage near the specified value? | 5.0V | ||||||||||
Connect a J 35616-200 test lamp between the MAF sensor ignition feed and ground circuits at the MAF sensor harness connector. Is the J 35616-200 test lamp on? | -- | |||||||||||
10 | Is the voltage less than the specified value? | 4.5V | ||||||||||
11 |
Does the voltage measure near the specified value? | 0.0V | ||||||||||
12 | Connect a J 35616-200 test lamp between MAF sensor ignition feed circuit and chassis ground. Is the J 35616-200 test lamp on? | -- | ||||||||||
13 |
Was a poor connection found? | -- | ||||||||||
14 |
Was a problem found? | -- | ||||||||||
15 | Locate and repair the open in the ground circuit to the MAF sensor. Refer to Wiring Repairs . Is the action complete? | -- | -- | |||||||||
16 | Locate and repair the open, or excessive resistance in the ignition feed circuit to the MAF sensor. Refer to Testing for Continuity and Wiring Repairs in Wiring Systems.. Is the action complete? | -- | -- | |||||||||
17 | Locate and repair the short to voltage in the MAF signal circuit. Refer to Wiring Repairs in Wiring Systems.. Is the action complete? | -- | -- | |||||||||
18 | Replace the MAF sensor. Refer to MAF Sensor Replacement . Is the action complete? | -- | -- | |||||||||
19 |
Important: : The replacement PCM must be programmed. Refer to Powertrain Control Module Replacement/Programming . Replace the PCM. Is the action complete? | -- | -- | |||||||||
20 |
Does scan tool indicate DTC P0101 failed this ignition? | -- | System OK |