Timing ISUZU TF SERIES 2004 Manual PDF
[x] Cancel search | Manufacturer: ISUZU, Model Year: 2004, Model line: TF SERIES, Model: ISUZU TF SERIES 2004Pages: 4264, PDF Size: 72.63 MB
Page 1891 of 4264

ENGINE MECHANICAL (6VE1 3.5L) 6A-67
3. Measure the camshaft thrust clearance with a dial
indicator. Replace the camshaft and/or the cylinde
r
head if the camshaft thrust clearance exceeds the
specified limit.
Camshaft thrust Clearance
Standard : 0.03 mm
0.08 mm(0.0012 in
0.0031
in)
Limit : 0.12 mm (0.0047 mm)
014RW035
Reassembly
1. Install camshaft drive gear assembly and tighten
three bolts to specified torque.
Torque: 10 N
m (1.0 kg
m/7 lb ft)
2. Tighten sub gear setting bolt.
1. Use 5884024430 to turn sub gear to righ
t
direction until the M5 bolt hole aligns between
camshaft driven gear and sub gear.
2. Tighten M5 bolt suitable torque for preven
t
moving the sub gear.
014RW041
3. Install camshaft assembly and camshaft brackets,
tighten twenty bolts on one side bank to the
specified torque.
1.
Apply engine oil to camshaft journal and
bearing surface of camshaft bracket.
2.
Align timing mark on intake camshaft (one dot
for right bank, two dots for left bank) and
exhaust camshaft (one dot for right bank, two
dots for left bank) to timing mark on camshaf
t
drive gear (one dot).
014RW020
Legend
(1) Intake Camshaft Timing Gear for Right Bank
(2) Intake Camshaft Timing Gear for Left Bank
(3) Exhaust Camshaft Timing Gear
(4) Discerning Mark
LI: Left Bank Intake
RI: Right Bank Intake
LE: Left Bank Exhaust
RE: Right Bank Exhaust
Page 1892 of 4264

6A-68 ENGINE MECHANICAL (6VE1 3.5L)
014RW023
Legend
(1) Right Bank Camshaft Drive Gear
(2) Left Bank Camshaft Drive Gear
(3) Timing Mark on Drive Gear
(4) Dowel Pin
Page 1917 of 4264

ENGINE MECHANICAL (6VE1 3.5L) 6A-93
Main Data and Specification
General Specification
Item Specifications
Engine type, number of cylinders and arrangement Water cooled, four cycle V6
Form of combustion chamber Pent-roof type
Valve mechanism 4-Cams, 4-Valves, DOHC Gear & Belt Drive
Cylinder liner type Casted in cylinder block
Total piston displacement 3494 cc
Cylinder bore x stroke 93.4mm x 85.0mm
(3.6772 in 3.3465 in)
Compression ratio 8.6
Compression pressure at 300rpm 1.37 MPa (14.0 Kg/cm2)
Engine idling speed rpm Non adjustable (750)
Valve clearance Intake: 0.28 mm (0.11 in)
Exhaust: 0.30mm (0.12 in)
Oil capacity 5.3 liters
Ignition timing
Non adjustable (12 BTDC at idle rpm)
Spark plug PK16PR11, RC10PYP4, K16PR-P11
Plug gap 1.0 mm – 1.1 mm (0.0394 in – 0.0433 in)
Page 1920 of 4264

6A-96 ENGINE MECHANICAL (6VE1 3.5L)
Crankshaft main bearing, Flywheel, Crankcase, Oil pan, Timing belt tensioner, Timing pulley, timing belt
cover, Oil pump, Oil gallery, Oil strainer and water pump
N
m (kg
m/ lb ft)
RTW46ALF000701
Page 1927 of 4264

ENGINE COOLING (6VE1 3.5L) 6B-3
Water Pump
The EC pump is a centrifugal impeller type and is driven
by a timing belt.
030RS001
Thermostat
The thermostat is a wax pellet type with a air hole(1)
and is installed in the thermostat housing.
031RW002
Radiator
The radiator is a tube type with corrugated fins. In order
to raise the boiling point of the coolant, the radiator is
fitted with a cap in which the valve is operated at 93.3
122.7 kPa (13.5 17.8 psi) pressure. (No oil cooler
provided for M/T)
110RS001
Antifreeze Solution
Calculating mixing ratio
F06RW005
Page 1931 of 4264

ENGINE COOLING (6VE1 3.5L) 6B-7
Water Pump
Water Pump and Associated Parts
030RS002
Legend
(1) Timing Belt (3) Water Pump Assembly
(2) Idle Pulley (4) Gasket
Removal
1. Disconnect battery ground cable.
2. Drain coolant.
3. Radiator hose (on inlet pipe side).
4. Remove timing belt. Refer to “Timing Belt" in this
manual.
5. Remove Idle pulley.
6. Remove water pump assembly.
7. Remove gasket.
Inspection
Make necessary repair and parts replacement if
extreme wear or damage is found during inspection.
Should any of the following problems occur, the entire
water pump assembly must be replaced:
Crack in the water pump body
EC leakage from the seal unit
Play or abnormal noise in the bearing
Cracks or corrosion in the impeller.
Installation
1. Install gasket, clean the mating surface of gasket
before installation.
2. Install water pump assembly and tighten bolts to the
specified torque.
Torque: 25 N
m (2.5 kg
m/18 lb ft)
Tightening order
The tightening order are in the illustrate.
Page 1932 of 4264

6B-8 ENGINE COOLING (6VE1 3.5L)
NOTE: To prevent the oil leakage, apply the LOCTITE
262 or an equivalent, to the arrow marked fixing bol
t
thread.
030RW008
3. Idle pulley
Install idle pulley and tighten bolt to the specified
torque.
Torque: 52 N
m (5.3 kg
m/38 lb ft)
4. Timing belt
Install timing belt. Refer to timing belt installation
step in “Timing Belt" in this manual.
5. Connect radiator inlet hose and replenish EC.
6. Connect battery ground cable.
Page 1966 of 4264

6D2-2 IGNITION SYSTEM (6VE1 3.5L)
General Description
Ignition is done by the electronic ignition (El) that directly
fires the spark plugs from ignition coils through spark
plug wires without using a distributor. A pair of ignition
coils for the cylinders having different phases by 360
(No.1 and No.4, No.2 and No.5, No.3 and No.6) are
fired simultaneously.
Since the cylinder on exhaust stroke requires less
energy to fire its ignition plug, energy from the ignition
coils can be utilized to fire the mating cylinder on
compression stroke. After additional 360rotation,
respective cylinder strokes are reversed.
The EI consists of six ignition coils, crankshaft position
sensor, engine control module (ECM) and othe
r
components.
The ignition coils are connected with the ECM.
The ECM turns on/off the primary circuit of ignition coils,
and also it controls the ignition timing.
A notch in the timing disc on the crankshaft activates
the crankshaft position sensor which then sends
information such as firing order and starting timing o
f
each ignition coil to the ECM.
Further, the El employs ignition control (IC) to control
similar to a distributor system.
Diagnosis
Refer to Section Drivability and Emissions for the
diagnosis to electronic ignition system (El system).
Page 2047 of 4264

3.5L ENGINE DRIVEABILITY AND EMISSIONS 6E-51
GENERAL DESCRIPTION FOR ECM AND
SENSORS
Engine Control Module (ECM)
1 2
(1) A Port
(2) B Port
The engine control module (ECM) is located on the
common chamber. The ECM controls the following.
Fuel metering system
Ignition timing
On-board diagnostics for powertrain functions.
The ECM constantly observes the information from
various sensors. The ECM controls the systems tha
t
affect vehicle performance. And it performs the
diagnostic function of the system.
The function can recognize operational problems, and
warn to the driver through the check engine lamp, and
store diagnostic trouble code (DTC). DTCs identify the
problem areas to aid the technician in marking repairs.
The input / output devices in the ECM include analog to
digital converts, signal buffers, counters and drivers.
The ECM controls most components with electronic
switches which complete a ground circuit when turned
on.
Inputs (Operating condition read):
Battery voltage
Electrical ignition
Exhaust oxygen content
Mass air flow
Intake air temperature
Engine coolant temperature
Crankshaft position
Camshaft position
Throttle position
Vehicle speed
Power steering pressure
Air conditioning request on or off
EGR valve position
Outputs (Systems controlled):
Ignition control
Fuel control
Idle air control
Fuel pump
EVAP canister purge
Air conditioning
Diagnostics functions
The vehicle with automatic transmission, the
interchange of data between the engine control module
(ECM) and the transmission control module (TCM) is
performed via a CAN-bus system.
The following signals are exchanged via the CAN-bus:
ECM to TCM:
ECM CAN signal status
Engine torque
Coolant temperature
Throttle position
Engine speed
A/C status
CAN valid counter
TCM to ECM:
Ignition timing retard request
Garage shift status
CAN valid counter
Page 2049 of 4264

3.5L ENGINE DRIVEABILITY AND EMISSIONS 6E-53
Idle Air Control (IAC) Valve
Step
CoilAB CD
Coil A High
(EC M B13)On On
Coil A Low
(EC M B16)On On
Coil B High
(EC M B14)On On
Coil B Low
(EC M B17)On On
(IAC Valve Close Direction)
(IAC Valve Open Direction)
The idle air control valve (IAC) valve is two directional
and gives 2-way control. It has a stepping moto
r
capable of 256 steps, and also has 2 coils. With power
supply to the coils controlled steps by the engine control
module (ECM), the IAC valve's pintle is moved to adjus
t
idle speed, raising it for fast idle when cold or there is
extra load from the air conditioning or power steering.
By moving the pintle in (to decrease air flow) or out (to
increase air flow), a controlled amount of the air can
move around the throttle plate. If the engine speed is
too low, the engine control module (ECM) will retract the
IAC pintle, resulting in more air moving past the throttle
plate to increase the engine speed.
If the engine speed is too high, the engine control
module (ECM) will extend the IAC pintle, allowing less
air to move past the throttle plate, decreasing the
engine speed.
The IAC pintle valve moves in small step called counts.
During idle, the proper position of the IAC pintle is
calculated by the engine control module (ECM) based
on battery voltage, coolant temperature, engine load,
and engine speed.
If the engine speed drops below a specified value, and
the throttle plate is closed, the engine control module
(ECM) senses a near-stall condition. The engine control
module (ECM) will then calculate a new IAC pintle valve
position to prevent stalls. If the IAC valve is disconnected and reconnected with
the engine running, the idle speed will be wrong. In this
case, the IAC must be reset. The IAC resets when the
key is cycled "On" then "Off". When servicing the IAC, i
t
should only be disconnected or connected with the
ignition "Off".
The position of the IAC pintle valve affects engine start-
up and the idle characteristic of the vehicle.
If the IAC pintle is fully open, too much air will be
allowed into the manifold. This results in high idle
speed, along with possible hard starting and lean
air/fuel ratio.
Camshaft Position (CMP) Sensor
12
(1) Camshaft Position (CMP) Sensor
(2) EGR Valve
With the use of sequential multi-point fuel injection, a
hall element type camshaft position (CMP) is adopted to
provide information to be used in making decisions on
injection timing to each cylinder. It is mounted on the
rear of the left-hand cylinder head and sends signals to
the ECM.
One pulse is generated per two rotations of crankshaft.