Orlando

DTC P0107 or P0108 - LNP or LNQ

The turbocharger pressure sensor measures the pressure inside the inlet manifold. Pressure in the inlet manifold is affected by turbocharger output, engine speed, accelerator pedal input, air temperature, and barometric pressure (BARO). A diaphragm within the turbocharger pressure sensor is displaced by the pressure changes that occur from the varying load and operating conditions of the engine. The engine control module (ECM) supplies a regulated 5 V to the sensor on the 5 V reference circuit. The ECM supplies an ground on the low reference circuit. The turbocharger pressure sensor provides a signal voltage to the ECM, relative to the pressure changes, on signal circuit. The ECM converts the signal voltage input to a pressure value. Under normal operation, the lowest pressure that can exist in the inlet manifold is equal to the BARO. This occurs when the engine is operating at idle or when the ignition is ON and the engine is OFF. The ECM uses the turbocharger pressure sensor to aid in diagnosis of the turbocharger performance.

The ECM detects the manifold absolute pressure (MAP) sensor signal circuit is open, shorted to ground, or shorted to a voltage for greater than 1 s.

DTCs P0107 00, and P0108 00 are Type B DTCs.

DTCs P0107 00, and P0108 00 are Type B DTCs.

If a shared 5 V reference circuit is shorted to ground or shorted to a voltage, other 5 V reference circuits may be affected.

Schematic Reference

Engine Controls Schematics

Connector End View Reference

Component Connector End Views

Electrical Information Reference

DTC Type Reference

Powertrain Diagnostic Trouble Code (DTC) Type Definitions

Scan Tool Reference

Control Module References for scan tool information

Special Tools

EN 23738-A Mityvac

For equivalent regional tools, refer to Special Tools .

1. Ignition On, observe the DTC information with a scan tool. Verify that DTCs P0651 00 is not set.

⇒	If any DTCs are set, refer to Control Module References for further diagnosis.

2. Determine the current vehicle testing altitude. Ignition ON, observe the scan tool BARO Sensor parameter.
3. Ignition ON, observe the scan tool Boost Pressure Sensor parameter. The Boost Pressure Sensor parameter should match the BARO Sensor parameter.

⇒	If the BARO Sensor parameter not matches the Boost Pressure Sensor parameter, refer to Circuit/System Testing.

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.

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

•	Damaged components

•	Loose or improper installation

•	Any vacuum leak

•	Verify there are no restrictions in the turbocharger pressure sensor port or vacuum source.

2. Ignition OFF, disconnect the harness connector at the B65 Intake Manifold Pressure and Air Temperature Sensor.
3. Test for less than 5 Ω between the low reference circuit terminal 1 and ground.

⇒	If greater than the specified range, test the low reference circuit for an open/high resistance. If the circuit tests normal, replace the K20 Engine Control Module.

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

⇒	If less than the specified range, test the 5 V reference circuit for a short to ground or open/high resistance. If the circuit tests normal, replace the K20 Engine Control Module.

⇒	If greater than the specified range, test the 5 V reference circuit for a short to voltage. If the circuit tests normal, replace the K20 Engine Control Module.

5. Verify the scan tool Boost Pressure Sensor parameter is less than 0.3 V.

⇒	If greater than the specified range, test the signal circuit for a short to voltage. If the circuit tests normal, replace the K20 Engine Control Module.

6. Install a 3 A fused jumper wire between the signal circuit terminal 4 and the low reference circuit terminal 3. Verify the Boost Pressure Sensor sensor parameter is at 4.8-5.2 V.

⇒	If less than the specified range, test the signal circuit for an open/high resistance or a short to ground. If the circuit tests normal, replace the K20 Engine Control Module.

7. If all circuits test normal, test or replace the B65 Intake Manifold Pressure and Air Temperature Sensor.

Static Test

1. Ignition OFF, remove the turbocharger boost pressure sensor from the inlet manifold.
2. Ignition ON, observe and record the scan tool Boost Pressure Sensor parameter. This is the first Boost Pressure Sensor parameter reading.
3. With the EN 23738-A mityvac apply 30 kPa (4.35 PSI) of pressure to the B65 Inlet manifold Pressure and Air Temperature Sensor. Observe and record the scan tool Boost Pressure Sensor parameter. This is the second Boost Pressure Sensor parameter reading.
4. Subtract the second Boost Pressure Sensor parameter reading from the first Boost Pressure Sensor parameter reading. Verify that the pressure difference is within 4 kPa (0.58 PSI) of the applied pressure.

⇒	If not within the specified range, replace the B65 Inlet manifold Pressure and Air Temperature Sensor.

5. With the EN 23738-A mityvac apply 100 kPa (14.5 PSI) of pressure to the B65 Inlet manifold Pressure and Air Temperature Sensor. Observe and record the scan tool Boost Pressure Sensor parameter. This is the third Boost Pressure Sensor parameter reading.
6. Subtract the third Boost Pressure Sensor parameter reading from the first Boost Pressure Sensor parameter reading. Verify that the pressure difference is within 4 kPa (0.58 PSI) of the applied pressure.

⇒	If not within the specified range, replace the B65 Inlet manifold Pressure and Air Temperature Sensor.

Perform the Diagnostic Repair Verification after completing the diagnostic procedure.