2004 ISUZU TF SERIES length

FUEL SYSTEM 6C – 17
FILLER NECK
Removal
1.
Remove the fuel tank.
NOTE: Refer to "Fuel Tank" in this section.
2.
Put a marking the following point as the filler neck assembl
y
is restored.


Each joint area of the hose (to restore axial direction and
insertion length of the hose)


Each fasten area of the clamp (to restore axial direction
and position of the clamp)


Each bolt in the clamp (to restore fasten length of bolt in
the clamp)


The band clip (to restore position and fasten length o
f
the band clip)
NOTE: Cover end of each hose and pipe to prevent any dust
entering.









Installation
1.
Align each marking and restore the following point.


Each joint area of the hose (Restore axial direction and
insertion length of the hose)


Each fasten area of the clamp (Restore axial direction
and position of the clamp)


Each bolt in the clamp (Restore fasten length of bolt in
the clamp)
Torque N·m (kg·m / lb ft)
2.5 (0.25 / 21.7)
filler neck side except flat deck model.


The band clip (Restore position and fasten length of the
band clip)
2.
Install the fuel tank.
NOTE: Refer to "Fuel Tank" in this section.

6C – 32 FUEL SYSTEM

4. Install the pin to the dial gauge.
Note:
The lengths of the pins do not include the
threaded portions.

Pin (L=100 mm): 157892-5200 (Bosch AS)
Dial gauge: 157954-3800 (Bosch AS)
185317-0150 (ISUZU)



5. Secure the dial gauge to the nozzle holder using the
nut so that the pin contacts the tip of the first spring
seat.

CAUTION:
 Secure the dial gauge so that a stroke of 2 mm can
be measured.

 Do not over-tighten the nut as the dial gauge shaft
may jam. (Confirm from the dial gauge that the
shaft moves smoothly.)




6. Set the nozzle holder to the nozzle tester and put
needle to zero on the dial gauge.
7. Operate the nozzle tester to bleed any air from inside
the retaining nut and to confirm that no fuel leaks.



040MV029.tif
040MV009.ti
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040MV030.ti
f

ENGINE ELECTRICAL 6D – 13
STATOR COIL ASSEMBLY
1. Check for continuity across the stator coils.
If there is no continuity, the stator coils must be
replaced.
Resistance Between The Terminal “N” and the Coil Ends
(Reference) ohms
Standard 0.1

066RY00022 2. Check for continuity between each stator coils and the
stator core.
If there is continuity, the stator coils must be replaced.
066RY00023


RTW46DSH004801
BRUSH
Measure the length of the brush. If abrasion has reduced
the brush length to less than 6.5 mm, the brush must be
replaced with a new one.
A wear line is inscribed in the brush. If the line is not
visible, the brush must be replaced.
Brush Length (Reference) mm (in)

Standard Limit
25 (1.0) 6.5 (0.25)



RTW46DSH001201
Rectifier


Tester wire
E BAT
U, V, and WN ⊕  U, V, and WN⊕ 
⊕ ----- Conductivity ⊕ ----- No
conductivity

No
conductivity -----
 Conductivity -----
Negative side diode check Positive side diode check

6D – 28 ENGINE ELECTRICAL
BRUSH AND BRUSH HOLDER
1. Use a vernier caliper to measure the brush length (four
brushes).
Replace the brushes as a set if one or more of the
brush lengths is less than the specified limit.
Brush Length mm (in)
Standard Limit
15 (0.59) 12 (0.47)


RTW46DSH004001













RTW46DSH004101
2. Use a circuit tester to check the brush holder
insulation.
Touch one probe to the holder plate and the other
probe to the positive brush holder.
There should be no continuity.





3. Inspect the brushes for excessive wear.
If the negative brushes have excessive wear, the
entire brush holder assembly must be replaced.
If the positive brushes have excessive wear, the entire
yoke must be replaced.

OVERRUNNING CLUTCH
1. Inspect the overrunning clutch gear teeth for
excessive wear and damage.
Replace the overrunning clutch if necessary.
2. Rotate the pinion clockwise.
It should turn smoothly.
3. Try to rotate the pinion in the opposite direction.
The pinion should lock.
065RY00035


RTW46DSH004401
BEARING
Inspect the bearings for excessive wear and damage.
Replace the bearings if necessary.

ENGINE FUEL (6VE1 3.5L) 6C-13
Filler Neck
Removal
1. Remove the fuel tank.
NOTE: Refer to "Fuel Tank" in this section.
2. Put a marking the following point as the filler neck
assembly is restored.

Each joint area of the hose (to restore axial
direction and insertion length of the hose)

Each fasten area of the clamp (to restore axial
direction and position of the clamp)

Each bolt in the clamp (to restore fasten length
of bolt in the clamp)

The band clip (to restore position and fasten
length of the band clip)
NOTE: Cover end of each hose and pipe to prevent any
dust entering.
Installation
1. Align each marking and restore the following point.

Each joint area of the hose (Restore axial
direction and insertion length of the hose)

Each fasten area of the clamp (Restore axial
direction and position of the clamp)

Each bolt in the clamp (Restore fasten length o
f
bolt in the clamp)
Torque: 2.5 N




m (0.25 kg




m / 2 lb ft) … filler neck
side except flat deck model.

The band clip (Restore position and fasten
length of the band clip)
2. Install the fuel tank.
NOTE: Refer to "Fuel Tank" in this section.


Fuel Gauge Unit
Removal and Installation
As for removal and installation of the Fuel Gauge Unit,
refer to “Fuel Tank" of this section 6C as the fuel gauge
unit is combined with the fuel pump and sende
r
assembly.

6D3-10 STARTING AND CHARGING SYSTEM (6VE1 3.5L)
Polish the commutator surface with sandpaper #500 to
#600 if it is rough.


065RW012
Measure the depth of insulator in commutator. Replace,
if it is below the limit.
Standard: 0.45 mm to 0.75 mm (0.0177 in to
0.0295 in)
Limit: 0.2 mm (0.008 in)




065RY00070
Legend
(1) Insulator
(2) Depth of Insulator
(3) Commutator Segments



Brush
Measure the length of brush.
Replace with a new one, if it is below the limit.
Standard: 15 mm (0.5906 in)
Limit: 11 mm (0.43 in)




065RW014
Brush Holder
Check for continuity between brush holder (+) (4) and
base (–). Replace, if there is continuity (i.e., insulation is
broken).




065RW015

STARTING AND CHARGING SYSTEM (6VE1 3.5L) 6D3-21
Stator Coil
1. Measure resistance between respective phases.
2. Measure insulation resistance between stator coil
and core with a mega–ohmmeter.
If less than standard, replace the coil.





066RS018
Brush
Measure the brush length.
If more than limit, replace the brush.
Standard: 10.mm (0.4134 in)
Limit: 8.4.mm (0.3307 in)






066RS019

Rectifier Assembly
Check for continuity across “P" and “E" in the
100W
range of multimeter.





066RW002
Change polarity, and make sure that there is continuity
in one direction, and not in the reverse direction. In case
of continuity in both directions, replace the rectifie
r
assembly.
IC Regulator Assembly
Check for continuity across “B" and “F" in the
100W
range of multimeter.




066RS021
Change polarity, and make sure that there is continuity
in one direction, and not in the reverse direction. In case
of continuity in both directions, replace the IC regulato
r
assembly.

3.5L ENGINE DRIVEABILITY AND EMISSIONS 6E-71
Basic Knowledge of Tools Required
Lack of basic knowledge of this powertrain when
performing diagnostic procedures could result in an
incorrect diagnosis or damage to powertrain
components. Do not attempt to diagnose a powertrain
problem without this basic knowledge.
A basic understanding of hand tools is necessary to
effectively use this section of the Service Manual.
Serial Data Communications
Class II Serial Data Communications
This vehicle utilizes the “Class II" communication
system. Each bit of information can have one of two
lengths: long or short. This allows vehicle wiring to be
reduced by transmitting and receiving multiple signals
over a single wire. The messages carried on Class II
data streams are also prioritized. If two messages
attempt to establish communications on the data line at
the same time, only the message with higher priority will
continue. The device with the lower priority message
must wait. The most significant result of this regulation
is that it provides Tech 2 manufacturers with the
capability to access data from any make or model
vehicle that is sold.
The data displayed on the other Tech 2 will appear the
same, with some exceptions. Some scan tools will only
be able to display certain vehicle parameters as values
that are a coded representation of the true or actual
value. For more information on this system of coding,
refer to Decimal/Binary/Hexadecimal Conversions.On
this vehicle the Tech 2 displays the actual values fo
r
vehicle parameters. It will not be necessary to perform
any conversions from coded values to actual values.
On-Board Diagnostic (OBD)
On-Board Diagnostic Tests
A diagnostic test is a series of steps, the result of which
is a pass or fail reported to the diagnostic executive.
When a diagnostic test reports a pass result, the
diagnostic executive records the following data:

The diagnostic test has been completed since the
last ignition cycle.

The diagnostic test has passed during the curren
t
ignition cycle.

The fault identified by the diagnostic test is no
t
currently active.
When a diagnostic test reports a fail result, the
diagnostic executive records the following data:

The diagnostic test has been completed since the
last ignition cycle.

The fault identified by the diagnostic test is currently
active.

The fault has been active during this ignition cycle.

The operating conditions at the time of the failure.
Remember, a fuel trim DTC may be triggered by a list o
f
vehicle faults. Make use of all information available
(other DTCs stored, rich or lean condition, etc.) when
diagnosing a fuel trim fault.
Comprehensive Component Monitor
Diagnostic Operation
Input Components:
Input components are monitored for circuit continuity
and out-of-range values. This includes rationality
checking. Rationality checking refers to indicating a
fault when the signal from a sensor does not seem
reasonable, i.e.throttle position sensor that indicates
high throttle position at low engine loads. Inpu
t
components may include, but are not limited to the
following sensors:

Vehicle Speed Sensor (VSS)

Inlet Air Temperature (IAT) Sensor

Crankshaft Position (CKP) Sensor

Throttle Position Sensor (TPS)

Engine Coolant Temperature (ECT) Sensor

Camshaft Position (CMP) Sensor

Mass Air Flow (MAF) Sensor
In addition to the circuit continuity and rationality check
the ECT sensor is monitored for its ability to achieve a
steady state temperature to enable closed loop fuel
control.
Output Components:
Output components are diagnosed for proper response
to control module commands. Components where
functional monitoring is not feasible will be monitored fo
r
circuit continuity and out-of-range values if applicable.
Output components to be monitored include, but are no
t
limited to, the following circuit:

Idle Air Control (IAC) Valve

Control module controlled EVAP Canister Purge
Valve

Electronic Transmission controls

A/C relays

VSS output

MIL control
Refer to ECM and Sensors in General Descriptions.