The manifold absolute pressure (MAP) sensor is a pressure sensor. The control module supplies the MAP sensor a reference voltage, signal, and ground circuits. When manifold vacuum is low, the MAP sensor signal voltage rises to a value near the reference voltage, and the MAP sensor signal voltage decreases when the manifold vacuum increases. The control module monitors the MAP sensor signal circuit voltage in order to calculate the vacuum within the intake manifold.
Certain vehicle models will also use the MAP sensor in order to calculate the barometric pressure (BARO) when the ignition switch is turned ON and the engine is NOT cranked. This BARO reading may also be updated whenever the engine is operated at wide open throttle (WOT).
This DTC determines if the MAP sensor signal input to the VCM does not closely match what the predicted value for the MAP sensor should be. The VCM calculates what the MAP signal voltage should be, based on engine RPM. If the MAP sensor voltage and the predicted MAP sensor values do not closely match, this DTC will be set.
• | No TP sensor DTCs |
• | No EGR DTCs |
• | Engine running |
• | Engine speed changes less than 75 RPM |
• | Throttle position changes less than 1.5% |
• | EGR flow changes less than 2% |
• | Idle air changes less than 4 steps |
• | No change in brake switch status |
• | No change in the clutch status (manual transmission) |
• | No change in A/C status |
• | The above conditions have stabilized for a period of 2 seconds |
• | A substantial change in MAP has occurred and a change in throttle position or engine speed did not precede the throttle position change |
• | The control module illuminates the malfunction indicator lamp (MIL) if a failure is detected during 2 consecutive key cycles. |
• | The control module sets the DTC and records the operating conditions at the time the diagnostic failed. The failure information is stored in the scan tool Freeze Frame/Failure Records. |
• | The control module turns OFF the MIL after 3 consecutive drive trips when the test has run and passed. |
• | A history DTC will clear if no fault conditions have been detected for 40 warm-up cycles. A warm-up cycle occurs when the coolant temperature has risen 22°C (40°F) from the startup coolant temperature and the engine coolant reaches a temperature that is more than 70°C (158°F) during the same ignition cycle. |
• | Use a scan tool in order to clear the DTCs. |
Check the MAP sensor vacuum source for leaks, restrictions or poor connections.
Important: The electrical connector must remain securely fastened.
Important: After removing the MAP Sensor from the intake manifold, replace the MAP Sensor to intake manifold seal.
Disconnect the MAP Sensor from the intake manifold and gently twist the sensor in order to check for intermittent connections. Output changes greater than 0.1 volt indicate a bad connector or connection.
An intermittent may be caused by any of the following conditions:
• | A poor connection |
• | Rubbed through wire insulation |
• | A broken wire inside the insulation |
Thoroughly check any circuitry that is suspected of causing the intermittent complaint. Refer to Intermittents and Poor Connections Diagnosis in Wiring Systems.
If a repair is necessary, refer to Wiring Repairs or Connector Repairs in Wiring Systems.
The numbers below refer to the step numbers on the diagnostic table.
This step checks the MAP sensor's ability to correctly indicate barometric pressure.
In order to determine the correct MAP sensor display of barometric pressure for any elevation perform either of the following:
• | Compare the recorded MAP sensor display value to the BARO display on a known good vehicle. |
• | Obtain the local weather service barometer reading (in Hg). Multiply the barometer reading by 3.4. The result indicates the correct BARO value in kPa for your area. |
This step checks the MAP sensor's ability to correctly indicate engine vacuum.
The MAP sensor display is only active while the engine is operating.
Step | Action | Value(s) | Yes | No |
---|---|---|---|---|
1 |
Important: Before clearing the DTCs, use the scan tool Capture Info to save the Freeze Frame and Failure Records for reference. The control module's data is deleted once the Clear Info function is used. Did you perform the Powertrain On-Board Diagnostic (OBD) system Check? | -- | ||
Important: Other DTCs may set when performing the following steps. Is the value more than the value shown? | 75 kPa@altitude 95 kPa@sea level | |||
Important: The engine must remain operating during all steps that observe the MAP sensor display. Slightly raise idle during testing in order to prevent engine stalling. Each inch of vacuum should result in a 3-4 kPa drop in the MAP sensor display. Observe the MAP sensor display for a skip or jump while increasing vacuum up to 20 in Hg. Did you observe a skip or jump in the scan tool's pressure? | -- | |||
4 | Observe the MAP sensor kPa display with 20 in Hg of vacuum applied to the MAP sensor. Is the value less than the value shown? | 34 kPa | ||
5 | Slightly raise the idle in order to prevent the engine from stalling. Disconnect the MAP sensor from the J 23738-A hand vacuum pump. The MAP sensor display should return to the value recorded in Step 2. Does the MAP sensor display return the recorded value? | -- | Go to Diagnostic Aids | |
6 | Check the MAP sensor connections. Did you find a problem? | -- | Go to Step 8 | |
7 | Repair the connections as necessary. Refer to Connector Repairs in Wiring Systems. Is the action complete? | -- | -- | |
8 | Replace the MAP sensor. Refer to Manifold Absolute Pressure Sensor Replacement . Is the action complete? | -- | -- | |
9 |
Does the scan tool indicate the diagnostic Passed? | -- | ||
10 | Does the scan tool display any additional undiagnosed DTCs? | -- | Go to the applicable DTC table | System OK |