13A-INSPECTION PROCEDURE USING AN OSCILLOSCOPE

INSPECTION PROCEDURE USING AN OSCILLOSCOPE

CAMSHAFT POSITION SENSOR AND CRANKSHAFT POSITION SENSOR

Required Special Tools:

MB991709: Test Harness
MB992110: Power Plant ECU Check Harness

Measurement Method

1. Disconnect the camshaft position sensor connector, and connect the test harness special tool MB991709 between the separated connector (All terminals should be connected).

2. Connect the oscilloscope probe to intake camshaft position sensor connector terminal No. 3.

3. Disconnect the crankshaft position sensor connector, and connect the test harness special tool MB991709 between the separated connector (All terminals should be connected).

4. Connect the oscilloscope probe to crankshaft position sensor connector terminal No. 3.

Alternate method

1. Disconnect all ECM connectors. Connect the check harness special tool MB992110 between the separated connectors.

2. Connect the oscilloscope to check harness terminal CPI. (Check the camshaft position sensor signal wave pattern.)

3. Connect the oscilloscope to check harness terminal SGT. (Check the crankshaft position sensor signal wave pattern.)

Standard Wave Pattern

Observation condition
Function	Special pattern
Pattern height	Low
Pattern selector	Display
Engine condition	Continuous idling mode

Wave Pattern Observation Points

Check that cycle time becomes shorter when the engine speed increased.

Examples of Abnormal Wave Patterns

Example 1

Cause of problem

Sensor interface malfunction.

Wave pattern characteristics

Rectangular wave pattern is output even when the engine is not started.

Example 2

Cause of problem

Loose timing chain.
Abnormality in sensor disc.

Wave pattern characteristics

Wave pattern is displaced to the left or right.

INJECTOR

Required Special Tools:

MB991658: Test Harness
MB992110: Power Plant ECU Check Harness

Measurement Method

Disconnect the injector connector, and connect the test harness special tool MB991658 between the separated connector. (All terminals should be connected.)
Connect the oscilloscope probe to injector connector terminal No. 2.

Alternate method

Disconnect all ECM connectors. Connect the check harness special tool MB992110 between the separated connectors.
Connect the oscilloscope probe to each check harness connector terminal to analyze each cylinder:

Terminal INJ1 for the number 1 cylinder.
Terminal INJ2 for the number 2 cylinder.
Terminal INJ3 for the number 3 cylinder.
Terminal INJ4 for the number 4 cylinder.

Standard Wave Pattern

Observation conditions
Function	Special pattern
Pattern height	Variable
Variable knob	Adjust while viewing the wave pattern
Pattern selector	Display
Engine condition	Continuous idling mode

Wave Pattern Observation Points

Point A: Height of injector coil induced voltage.

CONTRAST WITH STANDARD WAVE PATTERN	PROBABLE CAUSE
Injector coil induced voltage is low or doesn't appear at all	Short in the injector solenoid

Point B: Injector drive time

The injector drive time should be synchronized with the scan tool tester display.
When the engine is suddenly revved, the drive time will be greatly extended at first, but the drive time will soon return to original length.

IGNITION COIL AND IGNITION POWER TRANSISTOR

Required Special Tools:

MB991658: Test Harness
MB992110: Power Plant ECU Check Harness

Measurement Method

Disconnect the ignition coil connector, and connect test harness special tool MB991658 between the separated connector. (All terminals should be connected.)
Connect the oscilloscope probe to ignition coil connector terminal No. 1.

Alternate method

Disconnect all ECM connectors. Connect the check harness special tool MB992110 between the separated connectors.
Connect the oscilloscope probe to each check harness connector terminal to analyze each cylinder:

Terminal CIL1 for the number 1 cylinder.
Terminal CIL2 for the number 2 cylinder.
Terminal CIL3 for the number 3 cylinder.
Terminal CIL4 for the number 4 cylinder.

Standard Wave Pattern

Observation condition
Function	Special pattern
Pattern height	Low
Pattern selector	Display
Engine condition	Continuous idling mode

Wave Pattern Observation Points

Point: The power transistor control signal (ignition timing) is advanced when the engine speed is increased.

CONDITION OF WAVE PATTERN BUILD-UP SECTION AND MAXIMUM VOLTAGE	PROBABLE CAUSE
Voltage value is too low	Open-circuit in ignition primary circuit

Examples of Abnormal Wave Patterns

Example 1 (Wave pattern during engine cranking)

Cause of problem
Open-circuit in ignition primary circuit
Wave pattern characteristics
Voltage value is too low.

EGR VALVE (STEPPER MOTOR)

Required Special Tools:

MB991658: Test Harness
MB992110: Power Plant ECU Check Harness

Measurement Method

1. Disconnect the EGR valve connector, and connect the test harness special tool MB991658 between the separated connector (All terminals should be connected).

2. Connect the oscilloscope probe to the EGR valve connector terminal No. 1, terminal No. 3, terminal No. 4, terminal No. 6 respectively.

Alternate method

1. Disconnect all ECM connectors. Connect the check harness special tool MB992110 between the separated connectors.

2. Connect the oscilloscope probe to check harness terminal EGRA, EGRB, EGRC and EGRD.

Standard Wave Pattern

Observation condition
Function	Special pattern
Pattern height	High
Pattern selector	Display
Engine condition	Power supply mode of electric motor switch: OFF → ON

Wave Pattern Observation Points

Check that the standard wave pattern appears when the EGR valve is operating.

Point A: Presence or absence of induced electromotive force from the motor turning. (Refer to abnormal wave pattern.)

CONTRAST WITH STANDARD WAVE PATTERN	PROBABLE CAUSE
Induced electromotive force does not appear or is extremely small	Malfunction of motor

Point B: Height of coil back electromotive force

CONTRAST WITH STANDARD WAVE PATTERN	PROBABLE CAUSE
Coil reverse electromotive force does not appear or is extremely small	Short in the coil

Examples of Abnormal Wave Patterns

Example 1

Cause of problem

Malfunction of motor. (Motor is not operating.)

Wave pattern characteristics

Induced electromotive force from the motor turning does not appear.

Example 2

Cause of problem

Open circuit in the line between the EGR valve and the ECM.

Wave pattern characteristics

Current is not supplied to the motor coil on the open circuit side. (Voltage does not drop to 0 volt.) Furthermore, the induced electromotive force wave pattern at the normal side is slightly different from the normal wave pattern.