Isuzu KB P190. Service manual — part 903
Starting System – V6
Page 6D1-2–4
•
Clarify a procedure,
•
Present additional information for accomplishing a procedure,
•
Give insight into the reasons for performing a procedure in the recommended manner, and / or
Present information that gives the technician the benefit of past experience in accomplishing a procedure with greater
ease.
1.2
Components
Starting System Components
The main components of the starting system are:
•
battery,
•
wiring,
•
ignition switch,
•
theft deterrent engine crank inhibitor (a function of the theft deterrent system),
•
park / neutral and back-up switch (on vehicles with 4 speed automatic transmission),
•
engine control module (ECM),
•
start relay,
•
solenoid switch, and
•
starter motor.
Starter Motor and Solenoid Switch Components
Solenoid Switch
The solenoid switch is used to activate the DC motor and has two windings; the pull-in winding and the hold-in winding.
The pull-in winding has heavier wire and is grounded through the DC motor winding and brushes. The hold-in winding is
grounded through the solenoid casing.
Planetary Drive Train
The planetary drive train consists of an internally toothed ring gear and three planetary gear wheels, which rotate on
sleeve bearings on the planetary drive shaft. The ring gear is keyed into the drive-end housing and is made from
high-grade polyamide with mineral additives.
When the starter motor operates, the armature turns the planetary gears inside the fixed planetary ring gear. This drives
the planetary shaft at a reduced speed ratio which turns the drive assembly. A fork lever in the drive-end housing forces
the drive assembly forward to engage with the flexplate / flywheel ring gear on the engine and transmit cranking torque.
An internal clutch allows the drive assembly pinion gear to rotate freely when the engine starts. This prevents the
armature from being driven at excessive speed by the engine.
Armature
The armature shaft is supported at each end by oil absorbent, sintered metal bushes; one in the commutator end shield
and one in the planetary drive shaft. The front end of the armature has a gear profile. This meshes with the three
planetary gear wheels. These in turn, mesh with the internal teeth of the ring gear.
Brushes
A brush plate supports four commutator brushes. This plate is fixed to the commutator end shield with two retaining
screws. Two negative brushes are grounded to the pole housing. The two positive brushes are insulated from the pole
housing and connected to the solenoid switch M terminal, refer to Figure 6D1-2 – 1.
Starting System – V6
Page 6D1-2–5
Figure 6D1-2 – 1
Legend
1 Solenoid
Switch
1 Starter
Motor
3
Starter Motor terminal M
4 Connector
P-4
5
Connector P-3 – pin 1
1.3 System
Operation
Operation
The ECM controls the activation of the start relay in response to inputs from:
•
ignition switch,
•
battery,
•
theft deterrent engine crank inhibitor (a function of the theft deterrent system),
•
park / neutral and back-up switch (on vehicles with 4 speed automatic transmission),
The start relay controls the operation of the start solenoid.
The start solenoid controls operation of the starter motor and the drive assembly.
Starting System – V6
Page 6D1-2–6
Sequence of Operation
1
When the ignition switch is turned to the START position, a signal is also sent to the ECM to request the engine to
crank.
•
For automatic vehicles the transmission must be in either park (P) or neutral (N) for the ECM to allow
cranking to commence.
•
The ECM will only allow cranking if the battery voltage is above the minimum battery voltage threshold value,
refer to 6C1-1 Engine Management – V6 – General Information for further information.
2
The ECM operates the start relay which provides power to the pull-in winding of the start solenoid.
3
Current flow to the pull-in winding develops powerful magnetism which pulls in the solenoid switch plunger.
4
The plunger closes the switch contacts connecting battery voltage to the DC motor and pivots the fork lever to
engage the drive assembly to the flexplate / flywheel ring gear. Closing the solenoid switch contacts deactivates the
pull-in winding, the hold-in winding remains active.
5
With the solenoid switch contacts closed, current flows from the battery through the DC motor, which rotates the
armature at high speed and provides cranking torque.
Starting System – V6
Page 6D1-2–7
2 Diagnostics
2.1
Diagnostic General Information
N O T E
There is a minimum battery voltage threshold
value. If the battery voltage is below the set value,
the ECU will inhibit cranking. Refer to 6C1-1
Engine Management – V6 – General Information
for further information.
Basic Diagnostic Tools Required
Use of incorrect electrical circuit diagnostic
tools when performing the cruise control
diagnostic procedures could result in
incorrect diagnostic results or damage to
components.
The following electrical circuit testing tools are required to perform the diagnostic procedures detailed in this Section:
•
digital multimeter with 10 meg ohms impedance, and
•
connector test adapter kit Tool No. KM609.
For further information on the use of these tools, refer to 8A Electrical Body and Chassis.
2.2
Tech 2 Data List
The Tech 2 displays the status of certain starting system parameters.
To view the data list:
1
Connect Tech 2 to the DLC.
2
On Tech 2 select:
Engine / V6 Engine / Data Display / Data List / Electrical / Theft Data.
Tech 2 Parameter
Units Displayed
Typical Display Values
Crank Request
Inactive / Active
Inactive
Starter Relay
Off / On
Off
2.3
Diagnostic Systems Check
Step Action
Yes
No
1
Is the fault specifically isolated to this system / module?
Go to Step 2
Go to 0D Vehicle
Diagnostics
2
1
Connect Tech 2 to the DLC.
2
Ignition ON, engine OFF.
3
On Tech 2 select:
Engine / V6 Engine / Diagnostic Trouble codes / Read
DTC’s.
Are there any set DTC’s?
Go to the
appropriate DTC
table in 6C1-2
Engine
Management – V6 –
Diagnostics.
Refer to 2.5
Starting
System Inoperative /
Malfunctioning
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