Isuzu Amigo / Axiom / Trooper / Rodeo / VehiCross. Manual - part 1405

6E2–71

RODEO 6VD1 3.2L ENGINE DRIVEABILITY AND EMISSIONS

Injector Coil Test Procedure (Steps 1-6) and Injector Balance Test Procedure

(Steps 7-11)

  (Cont'd)

Step

No

Yes

Value(s)

Action

5

1. Set injector switch box injector #1.
2. Press the “Push to Start Test” button on the fuel

injector tester.

3. Observe the voltage reading on the DVM.

IMPORTANT: The voltage reading may rise during the
test.

4. Record the lowest voltage observed after the first

second of the test.

5. Set the injector switch box to the next injector and

repeat steps 2, 3, and 4.

Did any fuel injector have an erratic voltage reading
(large fluctuations in voltage that did not stabilize) or a
voltage reading above the specified value?

9.5 V

Go to 

Step 4

Go to 

Step 6

6

1. Identify the highest voltage reading recorded (other

than those above 9.5 V).

2. Subtract the voltage reading of each injector from

the highest voltage selected in step 1.  Repeat until
you have a subtracted value for each injector.

For any injector, is the subtracted Value in step 2
greater than the specified value?

0.6 V

Go to 

Step 4

Go to 

Step 7

7

CAUTION: In order to reduce the risk of fire and
personal injury, wrap a shop towel around the
fuel pressure connection.  The towel will absorb
any fuel leakage that occurs during the
connection of the fuel pressure gauge.  Place the
towel in an approved container when the
connection of the fuel pressure gauge is
complete.

1. Connect the J 34730-1 Fuel Pressure Gauge to the

fuel pressure test port.

2. Energize the fuel pump using the Tech 2.
3. Place the bleed hose of the fuel pressure gauge into

an approved gasoline container.

4. Bleed the air out of the fuel pressure gauge.
5. With the fuel pump running, observe the reading on

the fuel pressure gauge.

Is the fuel pressure within the specified values?

296-376 kPa

(43-55 psi)

Go to 

Step 8

Go to 

Fuel

System

Diagnosis

8

Turn the fuel pump “OFF”.

Does the fuel pressure remain constant?

—

Go to 

Step 9

Go to 

Fuel

System

Diagnosis

6E2–72

RODEO 6VD1 3.2L ENGINE DRIVEABILITY AND EMISSIONS

Injector Coil Test Procedure (Steps 1-6) and Injector Balance Test Procedure

(Steps 7-11)

  (Cont'd)

Step

No

Yes

Value(s)

Action

9

1. Connect the J 39021-5V Fuel Injector Tester and J

39021-90 Injector Switch Box the fuel injector
harness connector.

2. Set the amperage supply selector switch on the fuel

injector tester to the “Balance Test” 0.5–2.5 amp
position.

3. Using the Tech 2 turn the fuel pump “ON” then

“OFF” in order to pressurize the fuel system.

4. Record the fuel pressure indicated by the fuel

pressure gauge after the fuel pressure stabilizes.
This is the first pressure reading.

5. Energize the fuel injector by depressing the “Push

to Start Test” button on the fuel injector tester.

6. Record the fuel pressure indicated by the fuel

pressure gauge after the fuel pressure gauge
needle has stopped moving.  This is the second
pressure reading.

7. Repeat steps 1 through 6 for each fuel injector.
8. Subtract the second pressure reading from the first

pressure reading for one fuel injector.  The result is
the pressure drop value.

9. Obtain a pressure drop value for each fuel injector.
10.Add all of the individual pressure drop values.  This

is the total pressure drop.

11. Divide the total pressure drop by the number of fuel

injectors.  This is the average pressure drop.

Does any fuel injector have a pressure drop value that
is either higher than the average pressure drop or lower
than the average pressure drop by the specified value?

10 kPa

(1.5 psi)

Go to 

Step 10

Go to 

OBD

System

Check

10

Re-test any fuel injector that does not meet the
specification. Refer to the procedure in step 9.

NOTE: Do not repeat any portion of this test before
running the engine in order to prevent the engine from
flooding.

Does any fuel injector still have a pressure drop value
that is either higher than the average pressure drop or
lower than the average pressure drop by the specified
value?

10 kPa

(1.5 psi)

Go to 

Step 11

Go to

Symptoms

11

Replace the faulty fuel injector(s).  Refer to 

Fuel

Injector.

Is the action complete?

—

Verify repair

—

6E2–73

RODEO 6VD1 3.2L ENGINE DRIVEABILITY AND EMISSIONS

Powertrain Control Module (PCM)

Diagnosis

To read and clear diagnostic trouble codes, use a Tech 2.
IMPORTANT:

Use of a Tech 2 is recommended to clear

diagnostic trouble codes from the PCM memory.
Diagnostic trouble codes can also be cleared by turning
the ignition “OFF” and disconnecting the battery power
from the PCM for 30 seconds.  Turning off the ignition and
disconnecting the battery power from the PCM will cause
all diagnostic information in the PCM memory to be
cleared.  Therefore, all the diagnostic tests will have to be
re-run.
Since the PCM can have a failure which may affect only
one circuit, following the diagnostic procedures in this
section will determine which circuit has a problem and
where it is.
If a diagnostic chart indicates that the PCM connections
or the PCM is the cause of a problem, and the PCM is
replaced, but this does not correct the problem, one of the
following may be the reason:

D

There is a problem with the PCM terminal
connections.  The terminals may have to be removed
from the connector in order to check them properly.

D

EEPROM program is not correct for the application.
Incorrect components or reprogramming the PCM
with the wrong EEPROM program may cause a
malfunction and may or may not set a DTC.

D

The problem is intermittent.  This means that the
problem is not present at the time the system is being
checked.  In this case, refer to the 

Symptoms portion

of the manual and make a careful physical inspection
of  all component and wiring associated with the
affected system.

D

There is a shorted solenoid, relay coil, or harness.
Solenoids and relays are turned “ON” and “OFF” by
the PCM using internal electronic switches called
drivers.  A shorted solenoid, relay coil, or harness will
not damage the PCM but will cause the solenoid or
relay to be inoperative.

Multiple PCM Information Sensor

DTCs Set

Circuit Description

The powertrain control module (PCM) monitors various
sensors to determine the engine operating conditions.
The PCM controls fuel delivery, spark advance,
transmission operation, and emission control device
operation based on the sensor inputs.
The PCM provides a sensor ground to all of the sensors.
The PCM applies 5 volts through a pull–up resistor, and
determines the status of the following sensors by
monitoring the voltage present between the 5–volt supply
and the resistor:

D

The engine coolant temperature (ECT) sensor

D

The intake air temperature (IAT) sensor

D

The transmission fluid temperature (TFT) sensor

The PCM provides the following sensors with a 5–volt
reference and a sensor ground signal:

1

D

The exhaust gas recirculating (EGR) pintle position
sensor

D

The manifold absolute pressure (MAP) sensor

D

The throttle position (TP) sensor 1

D

The acceleration position (AP) sensor 1

D

The acceleration position (AP) sensor 3

D

The Vapor Pressure Sensor

2

D

The Crank position (CKP) sensor

D

The throttle position (TP) sensor 2

D

The acceleration position (AP) sensor 2

The PCM monitors the separate feedback signals from
these sensors in order to determine their operating
status.

Diagnostic Aids

IMPORTANT:

Be sure to inspect PCM and engine

grounds for being secure and clean.
A short to voltage in one of the sensor input circuits may
cause one or more of the following DTCs to be set:

D

P0425

D

P0108, P1106

D

P0406

D

P1120, P1515, P1221, P1516, P1635

D

P1275, P1639, P1271, P1273

D

P1285, P1272, P1273

D

P0336, P0337

D

P1220, P1515, P1221, P1515, P1516

D

P1280, P1271, P1272

IMPORTANT:

If a sensor input circuit has been shorted

to voltage, ensure that the sensor is not damaged. A
damaged sensor will continue to indicate a high or low
voltage after the affected circuit has been repaired. If the
sensor has been damaged, replace it.
An open in the sensor ground circuit between the PCM
and the splice will cause one or more of the following
DTCs to be set:

D

P0425

D

P0108, P1106

D

P0406

D

P1120, P1515, P1221, P1516, P1635

D

P1275, P1639, P1271, P1273

D

P1285, P1272, P1273

D

P0336, P0337

D

P1220, P1515, P1221, P1515, P1516

D

P1280, P1271, P1272

A short to ground in the 5–volt reference A or B circuit will
cause one or more of the following DTCs to be set:

D

P0453

D

P0106, P0107, P1107

D

P0401, P1404, P0405

D

P1120, P1515, P1221, P1516, P1635

6E2–74

RODEO 6VD1 3.2L ENGINE DRIVEABILITY AND EMISSIONS

D

P1275, P1639, P1271, P1273

D

P1285, P1272, P1273

D

P0336, P0337

D

P1220, P1515, P1221, P1515, P1516

D

P1280, P1271, P1272

Check for the following conditions:

D

Poor connection at PCM. Inspect the harness
connectors for backed–out terminals, improper
mating, broken locks, improperly formed or damage
terminals, and a poor terminal–to–wire connection.

D

Damaged harness. Inspect the wiring harness for
damage. If the harness is not damaged, observe an
affected sensor fs displayed value on the Tech 2 with
the ignition “ON” and the engine “OFF” while you
move the connectors and the wiring harnesses
related to the following sensors:

D

Vapor Pressure (Fuel Tank Pressure) Sensor

D

MAP Sensor

D

EGR

D

TPS1/TPS2

D

APS1/APS2/APS3

D

CKP

Multiple PCM Information Sensor DTCs Set

 

Step

Action

Value(s)

Yes

No

1

Was the “On-Board (OBD) System Check” performed?

—

Go to 

Step 2

Go to 

OBD

System

Check

2

1.  Turn the ignition “OFF”, disconnect the PCM.
2.  Turn the ignition “ON”, check the 5 volt reference 1

and 2 circuit for the following conditions:

D

A poor connection at the PCM.

D

An open between the PCM connector and the
splice.

D

A short to ground.

D

A short to voltage.

Is there an open or short?

—

Go to 

Step 3

Go to 

Step 4

3

Repair the open or short.

Is the action complete?

—

Verify repair

—

4

Check the sensor ground circuit for the following
conditions:

D

A poor connection at the PCM or the affected
sensors.

D

An open between the PCM connector and the
affected sensors.

Is there an open or a poor connection?

—

Go to 

Step 5

Go to 

Step 6

5

Repair the open or the poor connection.

Is the action complete?

—

Verify repair

—

6

Following  below the DTCs stored:
P1635, P1639

—

Go to

applicable
DTC table

Go to 

Step 7

7

 Measure the resistance below the items:

D

Between EGR sensor supply circuit and Vapor
Pressure Sensor supply circuit.

D

Between MAP sensor supply circuit and Vapor
Pressure Sensor supply circuit.

D

Between Vapor Pressure Sensor supply circuit
and PCM harness connector. (5Volt supply
circuit)

Is the resistance near the specified value?

—

Go to 

Step 9

Go to 

Step 8