СИСТЕМА ВПУСКА ПРОВЕРКА БЕЗ СНЯТИЯ С АВТОМОБИЛЯ

CHECK INTAKE AIR PIPE

Check for leakage or clogging between the air cleaner housing and turbocharger inlet, and between the turbocharger outlet and cylinder head.

Condition	Operation
Clogged air cleaner	Clean or replace
Collapsed or deformed hoses	Repair or replace
Leakage from connections	Check each connection and repair
Cracks in components	Check and replace

CHECK EXHAUST SYSTEM

Check for leakage or clogging between the cylinder head and turbocharger inlet, and between the turbocharger outlet and exhaust pipe.

Condition	Operation
Deformed components	Repair or replace
Foreign matter in passages	Remove
Leakage from components	Repair or replace
Cracks in components	Check and replace

CHECK BOOST PRESSURE

Warm up the engine.

Tech Tips

Be sure to perform the inspection when the engine coolant temperature is between 75 and 90°C (167 and 194°F).
Using a 3-way connector, connect SST (turbocharger pressure gauge) to the hose between the manifold absolute pressure sensor and gas filter leading to the intake air connector.

SST

09992-00242
Fully apply the parking brake and chock the 4 wheels.
for Manual Transmission:

While depressing the clutch pedal, fully depress the accelerator pedal. Measure the boost pressure at maximum engine speed (approximately 4600 rpm).
for Automatic Transmission:

Move the shift lever to P or N, and then fully depress the accelerator pedal. Measure the boost pressure at maximum engine speed (approximately 4600 rpm).

Standard pressure

58.5 to 78.9 kPa (0.60 to 0.80 kgf/cm², 8.5 to 11.4 psi)

If the pressure is lower than the standard, the following problems may be present.
- The intake system or exhaust system has leakage or blockage.
- The turbocharger sub-assembly is malfunctioning.
- The EGR valve does not close.
- The diesel throttle body does not open.
- The vacuum hose connected to the diesel turbo pressure sensor (manifold absolute pressure sensor) is cracked or disconnected.
- A fuel injector is malfunctioning.
If the pressure is higher than the standard, check the turbocharger and/or boost control components (pressure sensor, vacuum hose, etc.).

Standard pressure
58.5 to 78.9 kPa (0.60 to 0.80 kgf/cm², 8.5 to 11.4 psi)

Chart showing the suspected trouble areas when the pressure is lower than the standard.

Tech Tips

○: If a problem listed in the leftmost column of the chart exists, or if the part in the leftmost column of the chart has a malfunction, the value of the Data List item in the uppermost row of the chart will meet the conditions shown in the row labeled "Value which represents a malfunction".
The values in the chart are applicable when the engine coolant temperature is between 75 and 90°C (167 and 194°F).
The values in the chart are for vehicles equipped with a manual transmission. For vehicles with an automatic transmission, use these values as a reference only as they may differ from the actual values.
The values in the chart are valid in an area with an absolute atmospheric pressure higher than 95 kPa. (Standard atmospheric pressure is 101 kPa. Atmospheric pressure decreases by 1 kPa for every 100 m increase in altitude, and is also affected by the current weather conditions.)
When the altitude increases, atmospheric pressure and MAP decrease.

Item	MAP (Absolute pressure inside intake manifold)	MAF (Intake air flow rate)	Accel Position	Actual Throttle Position	EGR Lift Sensor Volt %	EGR Close Lrn. Status (EGR valve fully closed position learning status)	Fuel Pressure	Injection Feedback Val #1 (to #4)
Values taken from an actual normal vehicle ^*1	-	99 g/sec.	99 % or more	0%	Valve fully closed position calculated from EGR Close Lrn. Val.	OK	-	-3 to +3 mm³/st
Values which represent a malfunction ^*1	None	MAF is less than 89 g/sec.	Accel Position is not fully depressed position ^*2	Actual Throttle Position is not fully open position	EGR Valve Lift Sensor Volt % is not valve fully closed position ^*3	NG (Determined after performing learning)	Fuel Pressure is below Target Common Rail Pressure by 10 MPa or more (Check while condition steady)	Outside of above range
Turbocharger	○	○	-	-	-	-	-	-
EGR valve does not close or has problem with movement	○	○	-	-	○ (Problem with EGR valve movement) ^*4	○ (EGR valve does not close) ^*4	-	-
Problem with diesel throttle movement	○ (Intake airflow decreases)	○	-	○	-	-	-	-
Accelerator pedal cannot be fully depressed or problem with accelerator pedal position sensor exists	-	○	○	-	-	-	-	-
Intake air system leakage or blockage	○	○	-	-	-	-	-	-
Exhaust gas leakage before turbocharger or blockage	○	○	-	-	-	-	-	-
Manifold absolute pressure sensor	○	○	-	-	-	-	-	-
Manifold absolute pressure sensor hose is disconnected	○	○	-	-	-	-	-	-
Mass air flow meter sub-assembly	-	○	-	-	-	-	-	-
Fuel system (injector, supply pump or common rail)	○	○	-	-	-	-	○ (Fuel injector leakage, decrease in pressure discharge valve relief pressure or valve is stuck)	○ ^*5

Tech Tips

^*1: These values are measured when the transmission is in 2nd gear, the accelerator pedal is fully depressed, the vehicle is accelerating, and the engine speed is 3000 rpm.
^*2: The Accel Position is the accelerator opening angle (%) for engine control use. The value indicates around 100 % when the accelerator pedal fully depressed. If the value does not indicate around 100 % when the accelerator pedal fully depressed, the accelerator pedal position sensor circuit or the pedal itself is malfunctioning. When the MIL is illuminated, even with the accelerator pedal fully depressed and an Accel Position of below 70%, it means the fail-safe is restricting the accelerator.
^*3: Check that the EGR Lift Sensor Volt %^*6is always following the Target EGR Position value (e.g. the EGR Lift Sensor Volt % is around fully closed position when the Target EGR Position value indicates 0%^*7). The EGR valve may be malfunctioning if the value is stuck or does not fluctuate smoothly. However, in some cases the EGR valve may be malfunctioning even if the EGR Lift Sensor Volt % value is normal. Inspect the EGR valve for any defects (deposits, valve stuck, poor movement, etc.) if necessary.
^*4: DTC P0400 may be stored at this time. If the actual EGR valve position follows the target EGR valve position slowly, a feeling of hesitation may occur.
^*5: If Injection Feedback Val # of a cylinder is not within -3 to +3 mm³/st, the corresponding cylinder may have a malfunction (injector or compression). However, in some cases the cylinder may be malfunctioning even if the value is within -3 to +3 mm³/st because these values are injection volume correction values calculated by the ECM at the engine idling and not correction values for the high engine load condition related to the boost pressure control and engine output performance.
^*6: The Data List item EGR Lift Sensor Volt % is calculated from the EGR valve position sensor output voltage. Value is 0 to 5 V converted to 0 to 100%.

Reference:

Fully closed: around 15%

Fully open: around 80%
^*7: The EGR valve fully closed position value for comparing the EGR Lift Sensor Volt % value during EGR cut can be calculated from the EGR Close Lrn. Val.

Compare the EGR Lift Sensor Volt % with the calculated EGR valve fully closed position value. If the great difference between the values, the EGR valve may have a malfunction.

EGR valve fully closed position (%) = EGR Close Lrn. Val. / 5 V (sensor power source voltage) x 100

The EGR Close Lrn. Status must be OK when applying the values to the formula above.

INSPECT DIESEL TURBO PRESSURE SENSOR

Inspect the power source voltage.
1. Disconnect the pressure sensor connector.
2. Turn the ignition switch ON.
3. Using a voltmeter, measure the voltage between terminals 3(VC) and 1(E2) of the wiring harness side connector.
  
  Standard voltage
  
  4.5 to 5.5 V
  
  If the result is not as specified, inspect the wire harness or ECM.
4. Turn the ignition switch off.
5. Connect the pressure sensor connector.
  
  Note
  
  Clear the DTCs after inspection is completed.

Standard voltage
4.5 to 5.5 V

Check the power supply.

Turn the ignition switch ON.
Disconnect the vacuum hose from the pressure sensor.
Connect a voltmeter to terminals D3-28 (PIM) and D1-28 (E2) of the ECM connectors, and measure the output voltage under ambient atmospheric pressure.
Apply a vacuum to the pressure sensor in 13.3 kPa (100 mmHg, 3.94 in.Hg) increments until the pressure reaches 40.0 kPa (300 mmHg, 11.81 in.Hg).

Measure the decrease in voltage from step (3) for each increment.

Standard voltage

Applied Vacuum	Voltage Decrease
13.3 kPa (100 mmHg, 3.94 in.Hg)	0.1 to 0.4 V
26.6 kPa (199 mmHg, 7.85 in.Hg)	0.2 to 0.6 V
40 kPa (300 mmHg, 11.81 in.Hg)	0.4 to 0.8 V

If the result is not as specified, replace the diesel turbo pressure sensor.

Using SST (turbocharger pressure gauge), apply pressure to the pressure sensor in 19.6 kPa (0.20 kgf/cm², 2.84 psi) increments until the pressure reaches 98.0 kPa (1.00 kgf/cm², 14.2 psi).

SST

09992-00242

Measure the increase in voltage from step (6) for each increment.

Standard voltage

Applied Pressure	Voltage Increase
19.6 kPa (0.20 kgf/cm², 2.84 psi)	0.1 to 0.4 V
39.2 kPa (0.40 kgf/cm², 5.69 psi)	0.4 to 0.7 V
58.8 kPa (0.60 kgf/cm², 8.53 psi)	0.7 to 1.0 V
78.5 kPa (0.80 kgf/cm², 11.4 psi)	1.0 to 1.3 V
98.0 kPa (1.00 kgf/cm², 14.2 psi)	1.3 to 1.6 V

If the result is not as specified, replace the diesel turbo pressure sensor.