light ISUZU TF SERIES 2004 Workshop Manual

9-10 ACCESSORIES

CONNECTOR LIST
No. Connector face No. Connector face
B-10
White
Clock B-56
WhiteJ/B I4
B-14
Gray
Audio B-62
WhiteIgnition switch
B-20
White
Cigar lighter illumination B-64
SilverWeld splice 1
B-21
White
Cigar lighter B-65
SilverWeld splice 2
B-22
Black
Cigar lighter B-73
SilverWeld splice 3
B-40
Black
Acc socket relay C-2
BlackEngine room –RH ground
B-41
Natural
Acc socket C-108
White
J/B E1
B-42
White
Acc socket C-109
BlackBody –LH ground
B-43

Anti theft control unit D-3
BlackFront speaker -RH
B-55
White
J/B I3 D-8
BlackFront speaker -LH

4A-16 PROPELLER SHAFT
401RS011







Universal Joint Reassembly
1. Set the propeller shafts.

Be sure to set the propeller shaft yoke by aligning the
setting marks made during dissassembly.
2. Spider
 Be sure to install the spider by aligning the setting marks
made during disassembly.
3. Needle Roller Bearing
1) Apply a molybdenum-disulfide grease or a multi-purpose.
type grease NLGI No.2 to inside of the bearing cap.
Grease Amount g(oz)
Approx. 1.2 (0.042)

401RS012









2) Using either a mallet (or copper hammer) or a press, install
the needle roller bearing into the yoke so that snap ring can
be installed in its groove.

CAUTION:

  The needle roller bearing cannot be installed smoothly
if it is set at an incorrect angle with the flange.

  Excessive hammering will damage the needle rolle
r
bearing.

401R300003








3) Align setting marks and join the yokes.
NOTE:
Assemble the spider and spline yoke so that their grease
fittings are arranged on the same side.(4

4)
4. Snap ring
NOTE:
Discard used snap rings and install new ones.

When the bearing cap is in position, select and attach a snap
ring of suitable thickness so that the end play of the spider pin
is held within 0.1mm (0.004in).
mm(in)

Snap ring thickness Identification color
1.50 (0.059) Light Blue
1.53 (0.060) White
1.56 (0.061) Pink
1.59 (0.063) Yellow
1.62 (0.064) Green
1.65 (0.065) Brown
1.68 (0.066) Not colored
NOTE:
Be sure to use snap rings of the same thickness on both sides.

4A-26 PROPELLER SHAFT
401RS012

3. Using either a mallet (or copper hammer) or a press, install
the needle roller bearing into the yoke so that the snap ring
can be installed in its groove.
CAUTION:
The needle roller bearing cannot be installed smoothly if it
is set at an incorrect angle with the flange and excessive
hammering will damage the needle roller bearing.

401RS028

4. Align setting marks (1) and join the yokes.
5. Install snap ring.
NOTE:
Discard used snap rings and install new ones.
When the bearing cap is in position, select and attach a snap
ring of suitable thickness so that the end play of the spider pin
is held within 0.1 mm (0.004 in).
Snap ring thickness and Identification color
1.50 mm (0.059 in); Light Blue
1.56 mm (0.061 in); Prink
1.53 mm (0.060 in); White
1.59 mm (0.063 in); Yellow
1.62 mm (0.064 in); Green
1.65 mm (0.065 in); Brown
1.68 mm (0.066 in); Not colored

NOTE:
Be sure to use snap rings of the same thickness
on both sides.

REAR AXLE 4B-13

INSPECTION AND REPAIR
Make all necessary adjustments, repairs, and part
replacements if wear, damage, or other problems are
discovered during inspections.

Visual Check
Inspect the following parts for wear, damage or other
abnormal conditions.


Axle Shaft

Axle Shaft
When checking the axle shaft, pay special attention to
the splined portions and replace the shaft if distortion
or step wear is noticeable. Correct slight step wear
with a pencil grinder.




420RS008

Axle Shaft Run-Out
Check the shafts for bending with the use of a dial
indicator in contact with the shaft. Rotate the shaft
slowly and observe the dial indicator.
Limit mm(in
)
1.0 (0.039)
Note :
Never use heat to correct bending.




420RY 00019

Axle Shaft Flange Run-Out
Check the axle shaft flange for run-out. Hold the
probe of a dial indicator in contact with the flange.
Rotate the shaft slowly and observe the dial.
Limit mm(in
)
0.08 (0.003)








420RY 00018

4B-34 REAR AXLE

425R300010

Play in splines between the side gear and axle shafts.
mm(in)

Standard Limit
0.08 - 0.38
(0.003 - 0.015) 0.5 (0.02)

425L100014
Differential cage
Check the ring gear the side gear fitting faces and the
cross pin hole for scores or roughness. Correct as
necessary. Slight scores or roughness may be
corrected with an oil stone or fine sand paper.
425R300006

Ring gear replacement:
1. The ring gear should always be replaced with the
drive pinion as a set.
2. Discard use bolts and install new ones.
3.
Apply LOCTITE 271 on bolt from the end of thread
to the middle of straight portion.
4. Tighten the fixing bolts in a diagonal sequence as
illustrated.
Torque : 108 Nm (11 kgm/80 lbft)



425RW033

BRAKE CONTROL SYSTEM 5A-13

Connector List
No. Connector face No. Connector face
B-23
Green
Meter-A C-44
WhiteStop Light Switch
B-24
Green
Meter-B C-53
OrangeABS Sensor Front-RH
B-48
Black
G-sensor C-54
OrangeABS Sensor Front-LH
B-54
White
I2 C-67
BlackEHCU
B-56
White
J/B I4 C-107
WhiteJ/B E2
B-58
Black
Data Link Connector C-108
WhiteJ/B E1
B-62
White
Ignition Switch (IGSUB : G1) C-109
SilverBody-LH ; Ground
B-63
White
Ignition Switch (IGSUB : G2) F-4
Gray ABS Sensor Rear
C-2
Silver
Engine Room-RH ; ground H-6
WhiteEngine Room ~ INST
C-36
Silver
Engine Room-LH ; Ground H-7
WhiteEngine Room ~ INST

BRAKE CONTROL SYSTEM 5A-17

EHCU Pin-outs


C05L300005

EHCU Side
Pin No.
(Harness
side
Pin No.) Pin Function Wire
Color Typical Value Note
1
(C67-11) Power Supply WHT/GRN Battery Voltage Solenoid
2
(C67-10) Ground 1 BLK 0V
(Less than 0.1V) Solenoid, Control Unit
3
(C67-28) Ground 2 BLK 0V
(Less than 0.1V) Motor
4
(C67-27) Power Supply WHT/RED Battery Voltage Motor
5
(C67-9) Stop Light Switch RED Open : 0V
Close : Battery Voltage Close Condition :
Step on the Brake Pedal
6
(C67-8) Serial ORN/WHT - J1850 Class 2
Communication
7
(C67-7) Serial GRN - J1850 Class 2
Communication
8
(C67-6) Not Used - -
9
(C67-5) Not Used - -
10
(C67-4) G-Sensor Ground BLK 0V
(Less than 0.1V) 4WD Only
DTC C0276, C0285
11
(C67-3) Front Right Wheel Speed Sensor (-) GRY High Level: 1.28~2.2V
Low Level: 0.5~0.86V DTC C0221,C0222,
C0223
12
(C67-2) Front Right Wheel Speed Sensor (+) GRY/RED 12

1.5V DTC C0221,C0222,
C0223
13
(C67-1) Rear Right Wheel Speed Sensor (-) BLK High Level: 1.28~2.28V
Low Level: 0.5~0.86V DTC C0231,C0232,
C0233

BRAKE CONTROL SYSTEM 5A-19

System Components
Electronic Hydraulic Control Unit (EHCU), four Wheel
Speed Sensors, two Warning Lamps, and G-sensor.

Electronic Hydraulic Control Unit (EHCU)

The EHCU consists of ABS control circuits, fault
detector, and a fail-safe. It drives the EHCU according
to the signal from each sensor, cancelling ABS to return
to normal braking when a malfunction has occurred in
the ABS.
The EHCU has a self-diagnosing function which can
indicate faulty circuits during diagnosis.
The EHCU is mounted on the engine compartment rear
left side. It consists of a motor, solenoid valves fail safe
relay.
Solenoid Valves: Reduces or holds the caliper fluid
pressure for each front brake or both rear brakes
according to the signal sent from the EHCU.
Buffer chamber: Temporarily holds the brake fluid that
returns from the front and rear brake so that pressure
of front brake can be reduced smoothly.
Motor: Drives the pump according to the signal from
EHCU.
Fail safe Relay: When failure occurs in ABS.
The power supply to solenoid Valve is cut.

ABS Warning Lamp


825L300001
Vehicles equipped with the Anti-lock Brake System
have an amber “ABS” warning lamp in the instrument
panel. The “ABS” warning lamp will illuminate if a
malfunction in the Anti-lock Brake System is detected
by the Electronic Hydraulic Control Unit (EHCU). In
case of an electronic malfunction, the EHCU will turn
“ON” the “ABS” warning lamp and disable the anti-lock
braking function.

The “ABS” warning lamp will turn “ON” for
approximately three seconds after the ignition switch is
to the “ON” position.
If the “ABS” warning lamp stays “ON” after the ignition
switch is the “ON” position, or comes “ON” and stays
“ON” while driving, the Anti-lock Brake System should
be inspected for a malfunction according to the
diagnosis procedure.

Wheel Speed Sensor (WSS)
It consists of a sensor and a rotor. The sensor is
attached to the knuckle on the front wheels and to the
rear wheels.
The rotor is press-fit in the axle shaft.

G-Sensor
The G-sensor detects the vehicle deceleration speed
and sends a signal to the EHCU. In 4WD operation, all
four wheels may be decelerated in almost the same
phase, since all wheels are connected mechanically.
This tendency is noticeable particularly on roads with
low friction coefficient, and the ABS control is adversely
affected.
The G-sensor judges whether the friction coefficient of
road surface is low or high, and changes the EHCU's
operating system to ensure ABS and EBD control.

Normal and Anti-lock Braking
Under normal driving conditions, the Anti-lock Brake
System functions the same as a standard power
assisted brake system. However, with the detection of
wheel lock-up, a slight bump or kick-back will be felt in
the brake pedal. This pedal “bump” will be followed by a
series of short pedal pulsations which occurs in rapid
succession. The brake pedal pulsation will continue
until there is no longer a need for the anti-lock function
or until the vehicle is stopped. A slight ticking or
popping noise may be heard during brake applications
when the anti-lock features is being used.
When the anti-lock feature is being used, the brake
pedal may rise even as the brakes are being applied.
This is also normal. Maintaining a constant force on
the pedal will provide the shortest stopping distance.

BRAKE CONTROL SYSTEM 5A-21

Computer System Service Precautions
The Anti-lock Brake System and Electronic Brake-force
Distribution interfaces directly with the Electronic
Hydraulic Control Unit (EHCU) which is a control
computer that is similar in some regards to the Engine
Control Module. These modules are designed to
withstand normal current draws associated with vehicle
operation. However, care must be taken to avoid
overloading any of the EHCU circuits. In testing for
opens or shorts, do not ground or apply voltage to any
of the circuits unless instructed to do so by the
appropriate diagnostic procedure. These circuits should
only be tested with a high impedance multimeter
5-8840-0366-0 or special tools as described in this
section. Power should never be removed or applied to
any control module with the ignition in the “ON”
position.
Before removing or connecting battery cables, fuses or
connectors, always turn the ignition switch to the “OFF”
position.

General Service Precautions
The following are general precautions which should be
observed when servicing and diagnosing the Anti-lock
Brake System and/or other vehicle systems. Failure to
observe these precautions may result in Anti-lock Brake
System and Electronic Brake-force Distribution
damage.
 If welding work is to be performed on the vehicle
using an electric arc welder, the EHCU and valve
block connectors should be disconnected before
the welding operation begins.
 The EHCU and valve block connectors should
never be connected or disconnected with the
ignition “ON”.
Note:
 If only rear wheels are rotated using jacks or drum
tester, the system will diagnose a speed sensor
malfunction and the “ABS and Brake” warning lamp
will illuminate. But actually no trouble exists. When
the DTC is not detected and the ABS and BRAKE
warning lamp is on, “How to erase code” is
performed and a ABS and BRAKE warning lamp
are off.
If the battery has been discharged
The engine may stall if the battery has been completely
discharged and the engine is started via jumper cables.
This is because the Anti-lock Brake System (ABS) and
Electronic Brake-force Distribution (EBD) System
requires a large quantity of electricity. In this case, wait
until the battery is recharged, or set the ABS and EBD
to a non-operative state by removing the fuse for the
ABS. After the battery has been recharged, stop the
engine and install the ABS fuse. Start the engine again,
and confirm that the ABS warning Lamp does not light.
Note on Intermittents
As with virtually any electronic system, it is difficult to
identify an intermittent failure. In such a case
duplicating the system malfunction during a test drive or
a good description of vehicle behavior from the
customer may be helpful in locating a “most likely”
failed component or circuit. The symptom diagnosis
chart may also be useful in isolating the failure. Most
intermittent problems are caused by faulty electrical
connections or wiring. When an intermittent failure is
encountered, check suspect circuits for:
 Suspected harness damage.
 Poor mating of connector halves or terminals not
fully seated in the connector body (backed out).
 Improperly formed or damaged terminals.

Test Driving ABS Complaint Vehicles
In case that there has been an abnormality in the
lighting pattern of “ABS” warning lamp, the fault can be
located in accordance with the “DIAGNOSIS BY “ABS”
WARNING LAMP ILLUMINATION PATTERN”. In case
of such trouble as can be detected by the driver as a
vehicle symptom, however, it is necessary to give a test
drive following the test procedure mentioned below,
thereby reproducing the symptom for trouble diagnosis
on a symptom basis:
1.
Start the engine and make sure that the “ABS” W/L
goes OFF. If the W/L remains ON, it means that
the Diagnostic Trouble Code (DTC) is stored.
Therefore, read the code and locate the fault.
Note: The DTC cannot be cleared if the vehicle speed
does not exceed about 6km/h (4mph) at DTC, even
though the repair operation is completed.
2. Start the vehicle and accelerate to about 30 km/h
(19 mph) or more.
3. Slowly brake and stop the vehicle completely.
4. Then restart the vehicle and accelerate to about 40
km/h (25 mph) or more.
5. Brake at a time so as to actuate the ABS and stop
the vehicle.
6. Be cautious of abnormality during the test. If the
W/L is actuated while driving, read the DTC and
locate the fault.
7. If the abnormality is not reproduced by the test,
make best efforts to reproduce the situation
reported by the customer.
8. If the abnormality has been detected, repair in
accordance with the “SYMPTOM DIAGNOSIS” .
Note:

Be sure to give a test drive on a wide, even road
with a small traffic.
 If an abnormality is detected, be sure to suspend
the test and start trouble diagnosis at once.

BRAKE CONTROL SYSTEM 5A-27

Actuator Test (Tech 2)
There are 5 different menus available for this test. The
state of each circuit can be tested by using these
menus. Especially when DTC cannot be detected, a
faulty circuit can be diagnosed by testing each circuit by
means of these menus.
Even when DTC has been detected, the circuit tests
using these menus could help discriminate between a
mechanical trouble and an electrical trouble.
In all cases test condition; Engine stops with the key
turned to the “ON” position. To be more specific, the
test is conducted with the brake pedal stepped on after
stepping once and releasing.
 Engine: Stop
 Ignition SW: ON

060L300002

ABS Check Light Test
Test condition: Engine stops with the key turned to the
“ON” position. To be more specific, the test is
conducted with the brake pedal stepped on after
stepping once and releasing.
 The circuit is normal if the warning light (lamp) in
the meter panel comes on and goes out in
accordance with Tech2’s instruction.

060L300002

Return Pump Test
Test condition: Engine stops with the key turned to the
“ON” position. To be more specific, the test is
conducted with the brake pedal stepped on after
stepping once and releasing.
Make sure of the working sound of the return pump
relay and return pump.
The circuit is normal if the working sound of the return
pump relay and return pump are made in accordance
with Tech2’s instruction.

060L300002