sensor MITSUBISHI DIAMANTE 1900 Repair Manual
[x] Cancel search | Manufacturer: MITSUBISHI, Model Year: 1900, Model line: DIAMANTE, Model: MITSUBISHI DIAMANTE 1900Pages: 408, PDF Size: 71.03 MB
Page 13 of 408
l
l-14 GENERALINFORMATIONAND MAINTENANCE
Proper maintenance and tune-up is the key to long
and trouble-free vehicle life, and the work can yield
its own rewards. Studies have shown that a properly
tuned and maintained vehicle can achieve better gas
mileage than an out-of-tune vehicle. As a conscien-
tious owner and driver, set aside a Saturday morning,
say once a month, to check or replace items which
could cause major problems later. Keep your own
personal log to jot down which services you per-
formed, how much the parts cost you, the date, and
the exact odometer reading at the time. Keep all re-
selfer, these receipts are the only proof you have that ceipts for such items as engine oil and filters, so that
they may be referred tp in case of related problems or
to determine operating expenses. As a do-it-your- the required maintenance was performed. In the event
of a warranty problem, these receipts will be invalu-
able.
The literature provided with your vehicle when it
was originally delivered includes the factory recom-
mended maintenance schedule. If you no longer have
this literature, replacement copies are usually avail-
able from the dealer. A maintenance schedule is pro-
vided later in this section, in case you do not have
the factory literature. *
REMOVAL &INSTALLATION
Except 2.gL Turbocharged Engine
b See Figures 36 thru 41 9. Place a new air cleaner element inside the
lower housing. Make sure the seal on the element is
fully seated in the groove.
10. Install the upper air cleaner housing and inlet
tube onto the lower housing.
11. Tighten the clamp on the inlet tube at the
throttle body.
12. Attach the breather hose onto the air inlet tube.
13. Plug the connector into the MAF sensor.
14. Attach the air cleaner housing retaining clips.
15. Connect the negative battery cable.
2.DL Turbocharged Engine
b See Figure 42
1. Disconnect the negative battery cable.
2. Detach the air flow sensor connector.
3. Unfasten the boost hose.
4. Disconnect the solenoid valve with hoses.
93151p50 Fig. 36 Release the retaining clips from the
air cleaner housing
r3151p47 Fig. 37 Unplug the MAF sensor connector
Fig. 49
. . . then remove the air outlet tube
and upper housing from the lower housing 1. Disconnect the negative battery cable. 5. Disconnect the air intake hose.
2. Release the retaining clips from the air 6. Unfasten tie air cleaner retainer bolts and the
cleaner housing. air cleaner assembly.
3. Loosen the clamp on the air outlet tube at the 7. Unclamp the cover and remove from the hous-
throttle body. ing.
4. Detach the breather hose from the air inlet
tube. *Care must be taken when removing the air
cleaner cover. The air flow sensor is at-
5. Unplug the MAF sensor connector.
6. Separate the upper and lower air cleaner tached and could be damaged during cover
removal.
housings and remove the air outlet tube and upper
housing from the lower housing.
7. Remove the air cleaner element from the
housing.
To install:
8. Clean the inside of the air cleaner housing of
any dirt and debris that has collected inside. 8. Remove the air cleaner element. Thoroughly
clean the air cleaner housing prior to replacing the air
filter.
To install:
9. Install the new air cleaner element into the
housing. Install and secure the cover in place.
Fig. 38 Detach the breather hose from the
air tniet tube
Fig. 41 Remove the air cleaner element
from the housing Fig. 39 Loosen the clamp on the air outlet
tube at the throttle body . . .
Fig. 42 Detach the air flow sensor connec-
tor, the boost hose and the solenoid valve
connector
Page 14 of 408
GENERALINFORMATIONAND MAINTENANCE l-15
10. install the air cleaner assembly and the re- *Wrap shop towels around the fitting that is
tainer bolts. being dtsconnected to absorb residual fuel in
11. Connect the air intake hose. the lines. 9. While holding the fuel filter nut with aback-
up wrench, tighten the banjo bolt to 22 ft. Ibs. (30
Nm). Tighten the flare nut to 25 ft. Ibs. (35 Nm), with
12. Attach the solenoid valve.
4. Cover the hose connection with shop towels to a back-up wrench on the nut.
13. Connect the boost hose.
14. Attach the air flow sensor connector. prevent any splash of fuel that could be caused by 10. Tighten the filter mounting bolts to 10 ft. Ibs.
residual pressure in the fuel pipe line. Hold the fuel (14 Nm).
15. Connect the negative battery cable. 11.
filter nut securely with a backup wrench, then remove Connect the negative battery cable. Turn the
REMOVAL &INSTALLATION the banjo bolt on the engine feed line. Disconnect the
high-pressure fuel line from the filter. Remove and
discard the gaskets.
5. While holding the fuel filter nut securely with a
back-up wrench, loosen the filter feed pipe flare nut key to the ON position to pressurize the fuel system
and check for leaks.
12. If repairs of a leak are required, remember to
release the fuel pressure before opening the fuel sys-
tern.
u See Figures 43 thru 48
On most vehicles covered by this manual, the fuel
filter is located in the engine compartment, mounted
to the firewall.
Do not use conventional fuel filters, hoses or
clamps when servicing fuel injection sys
terns. They are not compatible with the injec-
tion
system and could fail, causing personal
injury or damage to the vehicle. Use only
hoses and clamps specifically designed for
fuel injection systems.
1. Properly relieve the fuel system pressure as
outlined in Section 5 of this manual. on the bottom of the filter. Separate the flare nut con-
nection from the filter. If equipped, remove and dis-
card the gaskets.
6. Remove the mounting bolts and remove
. ,,,. ,.
.a r I,.,< I the
ruer rrrter. II necessary, remove me ruer rrrrer oracket.
To install:
7. Install the filter to its bracket only finger-tight.
Movement of the filter will ease attachment of the fuel
lines.
Ensure that the filter is installed with the flow
arrow in the proper direction. The flow arrow
typically points toward the engine side of the
filter. improper installation of the fuel filter
will cause the vehicle to run poorly.
2. If not already done, disconnect the negative REMOVAL&INSTALLATION
u See Figures 49, 50, and 51
1, Disconnect the negative battery cable.
2. If necessary for access, remove the air intake
hose and air cleaner assembly.
3. If necessary, unfasten the retaining clamp, then
disconnect the ventilation hose from the PCV valve.
4. Remove the PCV valve from the camshaft
(rocker) cover.
To install:
5. Install the PCV valve into the rocker cover. If
the valve is threaded, tighten the valve until snug.
battery cable.
3. On most models. the iob is made easier if the
air inlet hose and upper air cleaner housing is re-
moved from the vehicle. *Make sure new O-rings are installed prior
to installation.
8. Insert the filter feed pipe to the lower connec-
tion of the filter and manually screw in the main
pipe’s flare nut. 6. Reconnect the ventilation hose to the valve.
7. If removed, install the air intake hose and the
a .ir cleaner assembly.
8. Connect the negative battery cable.
Fig. 43 Use a back-up wrench on the fuel
I I
93151@3
filter nut when loosening the banjo-bolt on Fig. 44 After the banjo-bolt is loose, remove
I
1 the engine feed line - from the fuel filter
93151p93 Fig. 48 Make sure to use a back-up wrench
1 when unfastening the main fuel pipe also 1 Fig. 47 Remove the two filter bracket re-
taining bolts . . . Fig. 45 Make sure to replace the copper
washers on the banjo-bolt fitting
Fig. 48 . . . then remove the filter from the
vehicle
Page 25 of 408
.
1-26 GENERALINFORMATIONAND MAINTENANCE
TDC of the compression stroke. If this happens, the
piston WIII be at the beginning of the power stroke
just as the compressed and ignited air/fuel mixture
forces the piston down and turns the crankshaft. Be-
cause it takes a fraction of a second for the spark
plug to ignite the mixture in the cylinder, the spark
plug must fire a little before the piston reaches TDC.
Otherwise, the mixture will not be completely ignited
as the piston passes TDC and the full power of the
explosion will not be used by the engine.
The timing measurement is given in degrees of
crankshaft rotation before the piston reaches TDC
(BTDC). If the setting for the ignition timing is 10”
BTDC, each spark plug must fire 10 degrees before
each piston reaches TDC. This only holds true, how-
ever, when the engine is at idle speed. The combus-
tion process must be complete by 23”ATDC to main-
tain proper engine performance, fuel mileage, and
low emissions.
As the engine speed increases, the pistons go
faster. The spark plugs have to ignite the fuel even
sooner if it IS to be completely ignited when the pis-
ton reaches TDC. If the ignition is set too far ad-
vanced (BTDC), the ignition and expansion of the fuel
in the cylinder wtll occur too soon and tend to force
the piston down while it is still traveling up. Thus
causes pre ignition or “knockmg and pinging”. If the
ignition spark is set too far retarded, or after TDC
(ATDC), the piston will have already started on its
way down when the fuel is ignited. The piston will be
forced down for only a portion of its travel, resulting
in poor engine performance and lack of power.
Timing marks or scales can be found on the rim of
the crankshaft pulley and the timing cover. The marks
on the pulley correspond to the posrtion of the piston
in the No. 1 cylinder. A stroboscopic (dynamic) tim-
ing light is hooked onto the No. 1 cylinder spark plug
wrre. Every time the spark plug fires, the timing light
flashes. By aiming the light at the timing marks while
the engine is running, the exact position of the piston
within the cylinder can be easily read (the flash of
light makes the mark on the pulley appear to be
standing still). Proper timing is indicated when the
mark and scale are in specified alignment.
When checking timing with the engine run-
ning, take care not to get the timing light
wires tangled in the tan blades and/or drive
belts.
INSPECTION &ADJUSTMENT
1990-96 Models
e See Figures 113 thru 119
1. Set the parking brake, start and run the engine
until normal operating temperature is obtained. Keep
all lights and accessories OFF and the front wheels
straight-ahead. Place the transaxle in
P for automatic
transaxle or Neutral for manual transaxle.
2. If not at specification, set the idle speed to the
correct level.
3. Turn the engine
OFF. Remove the water-
proof cover from the igmtion timing adjusting con-
nector, and connect a jumper wire from this terminal
Fig. 113 Ignition timing adjustment con-
nector-1990-92 Mirage with 1.5L engine
93151QM Fig. 115 Ignition timing adjustment con-
nectar-Galant with 2.OL engines
93151QO1 Fig. 117 Ignition timing adjustment con.
nectar-1994-96 Galant
to a good ground. Refer to the corresponding illustra-
tions for the correct location of the timing adjustment
connector.
4. Connect a conventional power timing light to
the No. 1 cylinder spark plug wire. Start the engine
and run at idle.
5. Aim the timing light at the timing scale lo-
cated near the crankshaft pulley.
6. Loosen the distributor or crank angle sensor
hold-down nut just enough so the housing can be ro-
tated.
7. Turn the housing in the proper direction until
the specified timing is reached. Tighten the hold-
down nut and recheck the timing. Turn the engine
OFF. 8. Remove the jumper wire from the ignition
timing adjusting terminal and install the water-proof
cover.
9. Start the engine and check the actual timing
(the timing without the terminal grounded). This
reading should be approximately 5 degrees more
than the basic timing. Actual timing may increase ac-
cording to altitude. Also, actual timing may fluctuate
because of slight variation accomplished by the ECU.
Fig. 114 Ignition timing adjustment con-
nectar-Miracle with 1.6L enaine
CHECK CONNECTOR 93151QO! Fig. 116 Ignition timing adjustment con.
nectar-1992-96 Oiamante
93151gOB Fig. 116 Ignition timing adjustment con-
nector-1993-96 Mirage with 1.5L engine
Fig. 119 Ignition timing adjustment con-
nector-1993-96 Mirage with 1.6L engine
As long as the basic timing is correct, the engine is
timed correctly.
10. Turn the engine
OFF. 11. Disconnect the timing apparatus and
tachometer.
1997-00 Models
The ignition timing is controlled by the Engine
Control Module (ECM) and is not adjustable. How-
ever it can be inspected using a scan tool.
Page 27 of 408
l-28 GENERALINFORMATIONAND MAINTENANCE
may result in skin or eye irritation or frostbite. Al- formed to help maintain the efficiency of the vehicle’s
though low in toxicity (due to chemical stability), in- A/C system. For preventive maintenance, perform the
The idle speed is factory set and usually no ad- halation of concentrated refrigerant fumes is danger- following:
justments are ever necessary. If an adjustment be- ous and can result in death; cases of fatal cardiac
l The easiest and most important preventive
comes necessary, first check that the spark plugs, in- arrhythmia have been reported in people accidentally maintenance for your A/C system is to be sure that it
jectors, idle air control servo and compression subjected to high levels of refrigerant. Some early is used on a regular basis. Running the system for
pressure are all normal. symptoms include loss of concentration and drowsi- five minutes each month (no matter what the season)
Data from various sensors and switches are used ness. + will help ensure that the seals and all internal compo-
by the ECU to determine the proper fuel/air mixture
for optimal engine performance. cGeneraiiy, the limit for exposure is lower nents remain lubricated.
for R-134a than it is for R-12. Exceptional *Some newer vehicles automatically oper-
care must be practiced when handling R- ate the A/C system compressor whenever the
134a. windshield defroster is activated. When run-
Also, refrigerants can decompose at high tempera- ning, the compressor lubricates the A/C sys
tures (near gas heaters or open flame), which may re- tern components; therefore, the A/C system
SYSTEM SERVICE& REPAIR suit in hydrofluoric acid, hydrochloric acid and phos- would not need to be operated each month.
gene (a fatal nerve gas). * In order to prevent heater core freeze-up during
R-12 refrigerant can damage the environment be- A/C operation, it is necessary to maintain proper an-
cause it is a Chlorofluorocarbon (CFC), which has tifreeze protection. Use a hand-held coolant tester
been proven to add to ozone layer depletion, leading (hydrometer) to periodically check the condition of
to increasing levels of UV radiation. UV radiation has the antifreeze in your engine’s cooling system.
been linked with an increase in skin cancer, suppres-
sion of the human immune system, an increase in *Antifreeze should not be used longer than
cataracts, damage to crops, damage to aquatic organ- the manufacturer specifies.
isms, an increase in ground-level ozone, and in- . For efficient operation of an air conditioned ve-
creased global warming. hicle’s cooling system, the radiator cap should have a
R-134a refrigerant is a greenhouse gas which, if holding pressure which meets manufacturers specifi-
allowed to vent into the atmosphere, will contribute to cations. A cap which fails to hold these pressures
global warming (the Greenhouse Effect). should be replaced.
It is usually more economically feasible to have a
l Any obstruction of or damage to the condenser
certified MVAC automotive technician perform A/C configuration will restrict air flow which is essential
system service on your vehicle. Some possible rea- to its efficient operation. It is, therefore, a good rule
sons for this are as follows: to keep this unit clean and in proper physical shape.
l While it is illegal to service an A/C system
without the proper equipment, the home mechanic ti See Figure 122
*it is recommended that the A/C svstem be
serviced by an EPA Section 609 cehified au-
tomotivetechnicfan utilizing a refrigerant re-
covery/recycling machfne.
The do-it-yourselfer should not service his/her
own vehicle’s A/C system for many reasons, includ-
ing legal concerns, personal injury, environmental
damage and cost. The following are some of the rea-
sons why you may decide not to service your own ve-
hicle’s A/C system.
According to the U.S. Clean Air Act, it is a federal
crime to service or repair (involving the refrigerant) a
Motor Vehicle Air Conditioning (MVAC) system for
money without being EPA certified. It is also illegal to
vent R-12 and R-134a refrigerants into the atmos-
phere. Selling or distributing A/C system refrigerant
(in a container which contains less than 20 pounds oi
refrigerant) to any person who is not EPA 609 certi-
fied is also not allowed by law.
State and/or local laws may be more strict than the
federal regulations, so be sure to check with your
state and/or local authorities for further information.
For further federal information on the legality of ser-
vicing your AK system, call the EPA Stratospheric
Ozone Hotline.
*Federal law dictates that a fine of up to
$25,000 may be levied on people convicted
of venting refrigerant into the atmosphere.
Additionally, the EPA may pay up to $10,000
for information or services leading to a crimf
nai conviction of the violation of these laws.
When servicing an A/C system you run the risk of
handling or coming in contact with refrigerant, which
Fig. 122 A label with information concern-
ing the A/C system is typically located in the
engine compartment
f would haveto purchase an expensive refrigerant re-
covery/recycling machine to service his/her own ve-
hicle.
l Since only a certified person may purchase re-
frigerant-according to the Clean Air Act, there are
specific restrictions on selling or distributing A/C
system refrigerant-it is legally impossible (unless
certified) for the home mechanic to service his/her
own vehicle. Procuring refrigerant in an illegal fash-
ion exposes one to the risk of paying a $25,000 fine
to the EPA.
R-12 Refrigerant Conversion
If your vehicle still uses R-12 refrigerant, one
way to save A/C system costs down the road is to invesh-
gate the possibility of having your system converted
to R-134a. The older R-12 systems can be easily
converted to R-134a refrigerant by a certified auto-
motive technician by installing a few new compo-
nents and changing the system oil.
The cost of R-12 is steadily rising and will con-
tinue to increase, because it is no longer imported or
manufactured in the United States. Therefore, it is of-
ten possible to have an R-12 system converted to R-
134a and recharged for less than it would cost to just
charge the system with R-12.
If you are interested in having your system con-
verted, contact local automotive service stations for
more details and information.
u See Figures 123 and 124
Although the A/C system should not be serviced
by the do-it-yourselfer, preventive maintenance can
be practiced and A/C system inspections can be per- Fig. 123 A coolant tester can be used to de-
1 termine the freezing and boiling levels of
the coolant in your vehicle
Fig. 124 To ensure efficient cooling system
operation, inspect the radiator cap gasket
and seal
Page 48 of 408
DISTRIBUTOR IGNITION SYSTEM
GENERALINFORMATION 2-2
DIAGNOSISANDTESTING 2-2
SECONDARYSPARKTEST 2-2
CYLINDERDROPTEST 2-2
ADJUSTMENTS 2-3
IGNITION COIL 2-3
TESTING 2-3
REMOVAL&INSTALLATION 2-3
POWERTRANSISTOR
(Ignition Module) 2-4
REMOVAL&INSTALLATION 2-4
DISTRIBUTOR 2-4
REMOVAL&INSTALLATION 2-4 2-2
INSTALLATION 2-4
CRANKSHAFTANDCAMSHAFTPOSITION
SENSORS 2-5
DISTRIBUTORLESS IGNITION
SYSTEM 2-5
GENERALINFORMATION 2-5
DIAGNOSISANDTESTING 2-5
ADJUSTMENTS 2-5
IGNITION COIL(s) 2-5
TESTING 2-5
REMOVAL&INSTALLATION 2-6
POWERTRANSISTOR
(IGNITION MODULE) 2-7
REMOVAL&INSTALLATION 2-7
CRANKSHAFTANDCAMSHAFTPOSITION
SENSORS 2-7
FIRING ORDERS 2-7
CHARGING SYSTEM 2-8
GENERALINFORMATION 2-8
ALTERNATORPRECAUTIONS 2-8
ALTERNATOR 2-8
TESTING 2-8 I
REMOVAL&INSTALLATION 2-9
REGULATOR 2-10
REMOVAL&INSTALLATION 2-10
STARTING SYSTEM 2-10
GENERALINFORMATION 2-10
STARTER 2-10
TESTING 2-10
REMOVAL&INSTALLATION 2-11
SENDING UNITS 2-11
ENGINECOOLANTTEMPERATURE
SENDING UNIT 2-11
TESTING 2-11
REMOVAL&INSTALLATION 2-11
OIL PRESSURESENDING UNIT 2-12
TESTING 2-12
REMOVAL&INSTALLATION 2-12
Page 52 of 408
ENGlNEELECTRliAL 2-5
Fig. 19 Adjusting the distributor-1.5L en-
gine shown, others similar
4. Install the hold-down nut.
5. Attach the distributor harness connectors.
6. Install the distributor cap.
7. Connect the negative battery cable.
8. Adjust the ignition timing and tighten the hold-
down nut to 8 ft. Ibs. (11 Nm).
For procedures on the position sensors, please re-
fer to Section 4 in this manual.
The ignition system found on the 1.6L, 1997-60
1.8L, 2.OL DOHC, 1999-00 2.4L SOHC, 2.4L DOHC,
and 3.OL DOHC engines is a distributorless type.
The advance of this system, like the distributor type
ignition, is controlled by the Engine Control Unit
(ECU) or Powertrain Control Module (PCM). The
distributorless ignition system contains a crank an-
gle/position sensor which detects the crank angle or
position to each cylinder and converts this data into
pulse signals. These signals are sent to the
ECLVPCM, which calculates the engine rpm and
regulates the fuel injection and ignition timing ac-
cordingly. The system also contains a top dead cen-
ter sensor which detects the top dead center position
of each cylinder and converts this data into pulse
signals. These signals are then sent to the
ECU/PCM, which calculates the sequence of fuel in-
jection and engine rpm.
When the ignition switch is turned ON, battery
voltage is applied to the ignition coil primary wind-
ing. As the crank angle sensor shaft rotates, ignition
signals are transmitted from the multi port injection
control unit to the power transistor. These signals
activate the power transistor to cause ignition coil
primary winding current to flow from the ignition
coil negative terminal through the power transistor
to ground or be interrupted, repeatedly. This action
induces high voltage in the secondary winding of
the ignition coil. From the ignitron coil, the sec-
ondary winding current produced flows through the
spark plug to ground, thus causing ignition in each
cylinder.
Refer to Diagnosis and Testing under Distributor
Ignition in this section,
There are no adjustments to the distributorless ig-
nition system other than the ignition timing adjust-
ment. Refer to section 1 for ignition timing adjust-
ment.
TESTING
1.6L and 1990 2.OL DOHC Engines
6 See Figures 21 and 22
1. Disconnect the negative battery cable and igni-
tion coil harness connector.
2. Measure the primary coil resistance as follows:
a. Measure the resistance between terminals
of the coil pack,
NOT THE WIRE HARNESS, between 4 and 2 (coils at the No. 1 and No. 4
cylinder srdes) of the ignition coil, and between
terminals 4 and
1 (coils at the No. 2 and No. 3
cylinder sides).
93152go9 Fig. 21 Measuring ignition coil primary re-
sistance-1.6L and 1990 2.OL DDHC en-
gines
.
For No 1 and No. 4
cvlmders
Fig. 22 Measuring ignition coil secondary
resistance-l .6L and 1990 2.OL DOHC en-
gines
b. Compare reading to the desrred primary
coil resistance of 0.77-0.95 ohms.
3. Measure the coil secondary resistance as fol-
lows:
c. Detach the connector from the ignition coil.
d. Measure the resistance between the high-
voltage terminals for the No. 1 and No. 4 cylin-
ders, and between the high-voltage terminals for
the No. 2 and No. 3 cylinders.
e. Compare the measured resistance to the
desired secondary coil resistance of 10.3-13.9
kilo-ohms.
4. If the readings are not within the specified
value, replace the ignition coil.
1991-!I3 2.OL DDHC Engines
# See Figures 23 and 24
n 0
Fig. 23 Measuring the primary ignition coil
resistance-1991-93 2.OL DOHC enoines
I I
FOR NO 1 AND NO. 4 CYLINDERS
Id
FOR NO. 2 AND NO. 3 CYUNDERS
89572611
Fig. 24 Measuring ignition coil secondary
resistance-1991-93 2.OL DOHC engines
Page 54 of 408
ENGINEELECTRICAL 2-7
3. Detach the electrical connectors for the COIL
4. Remove the retaining screws and coil from en-
gine.
5. Installation is the reverse of the removal proce-
dure.
1997-00 1.81 and 1994-00 2.4L Engines
) See Figure 31
1, Disconnect the negative battery cable.
2. Detach the electrical connector(s) for the
coil(s).
3. Remove the spark plug wire(s) to the compan-
ion cylinder(s).
4 Remove the coil retaining bolts and lift the coil
from the cylinder head.
5. The installation is the reverse of the removal.
3.OL DOHC Engine
# See Figure 32
1, Disconnect the negative battery cable.
2. Remove the intake manifold plenum (upper in-
take mamfold) Refer to Section 3.
3. Tag and remove the spark plug wires from the
ignition coil by gripping the boot and not the cable.
4 Detach the electrical connectors for the coil.
5. Remove the retaining screws and coil from en-
gine.
6. Installation is the reverse of the removal proce-
dure.
REMOVAL &INSTALLATION
1 AL, 2.01 DOHC, and 2.4L DOHC Engines
) See Figure 30
1 lgnltlo” co,,
2 sparlt plug case
3 Spark plug
4 Imltlon fatlure semm
93152g1:
Fig. 31 Ignition system component loca,
iions-1997-00 1.8L engine shown
1999-00 2.4L engine similar
1. Disconnect the negative battery cable.
2. Detach the electrical connectors for the transis-
tor.
3. Remove the retaining screws and remove the
transistor from engine.
4. Installation is the reverse of the removal proce-
dure.
1.8L and 1999-00 2.4L Engines
The power transistor (ignition module) is an inte-
gral part of the powertrain control module.
3.OL DOHC Engine
# See Figure 32
9315291 Fig. 32 Ignition system component loca,
tions-3.01 DOHC engine
1. Disconnect the negative battery cable.
2. Remove the intake manifold plenum (upper in-
take manifold). Refer to Section 3.
3 Detach the electrical connectors for the transis-
tor.
4. Remove the retaining screws and remove the
transistor from engine.
5. Installation is the reverse of the removal proce-
dure.
For procedures on the positlon sensors, please re-
fer to Section 4 in this manual.
# See Figures 33 thru 40
*To avoid confusion, remove and tag the
spark plug wires one at a time, for replace-
ment.
If a distributor is not keyed for installation with
only one orientation, it could have been removed pre-
viously and rewired. The resultant wiring would hold
the correct firing order, but could change the relative
placement of the plug towers in relation to the en-
gine. For this reason it is imperative that you label all
wires before disconnecting any of them. Also, before
removal, compare the current wiring with the accom-
panying illustrations. If the current wiring does not
match, make notes in your book to reflect how your
engine is wired.
ujamm-p:@
79233921
Fig. 33 1.5L (4615) and 1993-96 1.81
(4693) engines
Firing order: l-3-4-2
Distributor rotation: Counterclockwise 7923392: :ig. 34 2.OL (4663) SOHC engine
‘iring order: l-3-4-2
Distributor rotation: Clockwise
Page 57 of 408
.
2-10 ENGINEELECTRICAL 1
2. Disconnect and remove the air intake hose.
3. Loosen the tensioner pulley and remove the
alternator drive belt.
4. On California models, remove the rear bank
converter assembly.
5. Remove the engine roll stopper stay bracket
assembly.
6. On the 3.OL SDHC engine, disconneCt the
EGR temperature sensor wire and remove the EGR
pipe assembly.
7. On the 3.OL SOHC engine, remove the intake
plenum stay bracket assembly.
8. Detach the alternator wiring harness connec-
tors.
Fig, 47 Remove the alternator adjusting bolt
. a a 9. Remove the alternator upper and lower
mounting bolts.
10. From beneath the vehicle, remove the alterna-‘
I^”
._. To install:
11. Position the alternator on the lower mountino
fixture. Install and tighten the mounting bolt and nu<
to M-18 ft. Ibs. (20-25 Nm).
12. Connect the alternator wiring harness.
13. On the 3.OL SOHC engine, install the intake
plenum stay bracket and tighten the mounting bolt to
13 ft. Ibs. (18 Nm).
14. On the 3.OL SOHC engine, install the EGR
pipe and tighten the fitting connections to 43 ft. Ibs.
(60 Nm).
93152015
12. Position the alternator on the mour
sting hmrkd lnrtnll rmr( tinhtnn thn mm dim L VIUVI,VL. lllcllUll Ully llylllvll LltU ,,tvuln,,ly volt and nut
to 17 ft. Ibs. (24 Nm).
13. Reinstall the drive belt and adjust the ten-
pinnor fmtil the nmnor hdt toncinn ic art-:--~
15. On the 3.OL SOHC enoine. connect the EGR
- temperature sensor wire.
16. Connect the engine roll stopper stay and
tighten the mountina bolt to 35 ft. Ibs. (45 Nm) and
the nut to 36-43 ft. Tbs. (50-60 Nm).
’
17. Install the rear converter assembly, if re- Fia. 49 Alternator mountinu-3.0L DOHC enoine
14. Install the alternator upper bracket/brace and
connect the alternator electrical harness.
15. Install the water pump pulleys.
16.
Install the drive belts and adjust to the proper moved.
18. Reinstall the drive belt and adjust the ten-
sioner until the proper belt tension is achieved.
19. Connect the air intake hose.
20. Connect the neoativa hatterv rzahle and check -_. -_. __. _. _=-__
_ _-.._. , ___ _ _. _ _ _ _
the charoina system for orooer ooeration. - - _ -rr- -- - I Ull” Yvll air intake hose.
denser fan.
18.
Install the left side cover panel unde
r the ve-
15. Install the headlamp washer reservoir tank.
hid@ zx ran~kwl 1IIVI” YY ‘“~“““Y.
16. Connect the negative battery cable and check
19. Connect the negative battery cable and check
the charging svstem for proper operation.
-,-.- for proper operation. REMOVAL &INSTALLATION
3.OL SOHC n C, n---I_--
3.OL DOHC Engine
i fhs Itin** tension.
17. On turbocharged Galant models, install the
b See Figure 49
1. Disconnect the negative battery cable.
2. Remove the headlamp washer reservoir tank.
3.
Remove the condenser fan and upper radiator
insulator.
4.
Loosen the tensioner pulley and remove the
alternator drive belt. and J.DL engines
, - , lyures 50 and 51
1. Disconnect the negative battery cable. The voltage regulator on models covered by this
manual is an integral part of the alternator. If the reg-
ulator is defective, replace the alternator assembly.
5. Remove the alternator upper and lower
mounting bolts.
6. Remove the alternator support bracket
mn~lntinn h&c
_ _ _ _ -. ._ ,_._
--TT-.. -.--..-. ..-...
the vehicle.
8. Disconnect the alternator wiring harness.
Q Romnm thn slternatnr frnm thn mhirln V. llYlll”“Y LI1”“I~Y1IIU,“I II”,,, Lll” ,“,,,“,“. To install:
10.
Install the alternator to the vehicle and con-
nect the wiring harness. :z
E$llaf 3EG RtEWtiW~-~ 11
Install the alternatnr wnnnrt hrxket tn thp .._. -.. .._ - .._..._._.
--rT-.. -.--..-. .- I.._ .P _ vehicle and tighten the bracket mounting bolts to
specifications.
Page 58 of 408
ENGINE ELECTRICAL 2-11
l.unVeMlil(GSflWtWJ
2.Gwwator harness con- connectk,,,
3. Engme OS, level d,pst,&
4 Generator
Fig. 51 Alternator mounting -3.51 engine
The starting system includes the battery, starter
motor, solenoid, ignition switch, circuit protection
and wiring connecting the components. An inhibitor
switch located in the park/neutral safety switch or
Transmission Range (TR) sensor is included in the
starting system to prevent the vehicle from being
started with the vehicle in gear.
When the ignition key is turned to the START po-
sition, current flows and energizes the starters sole-
noid coil. The solenoid plunger and clutch shift lever
are activated and the clutch pinion engages the ring
gear on the flywheel. The switch contacts close and
the starter cranks the engine until it starts.
To prevent damage caused by excessive starter ar-
mature rotation when the engine starts, the starter in-
corporates an over-running clutch in the pinion gear. 2. Connect a voltmeter between the positive ter-
minal of the battery and the starter B+ circuit.
3. Turn the ignition key to the START position
and note the voltage on the meter.
4. If voltage reads 0.5 volts or more, there is high
resistance in the starter cables or the cable ground,
repair as necessary. If the voltage reading is ok pro-
teed to the next step.
5. Connect a voltmeter between the positive ter-
minal of the battery and the starter M circuit,
6. Turn the ignition key to the START position
and note the voltage on the meter.
7. If voltage reads 0.5 volts or more, there is high
resistance in the starter. Repair or replace the starter
as necessary.
*Many automotive parts stores have starter
bench testers available for use by customers.
A starter bench test is the most definitive
way to determine the condition of your
starter. 3. Remove the resonator retaining nuts and re-
move the air intake hose and resonator assembly as
required.
rllse care when removing the air cleaner
cover because the air-flow sensor is attached
and is a sensitive component.
4. If equipped with Active-ECS suspension, re-
move the air compressor as follows:
a. Detach the two electrical connectors, from
the compressor.
b. Disconnect the air line at the compressor.
c. Remove the three mounting bolts, securing
the compressor to the chassis.
5. Raise the vehicle and support safely.
6. Remove the engine undercover.
7. Remove the heat shield from beneath the in-
take manifold on the 1.5L engine.
8. If necessary, detach the speedometer cable
connector at the transaxle end.
9. Detach the starter motor electrical connac-
TESTING
Voltage Drop Test
*The battery must be in good condition and
fully charged prior to performing this test. REMOVAL&INSTALLATION
# See Figures 52 and 53
1. Disconnect the negative battery cable.
2. Detach the air-flow sensor assembly connec-
tor and remove the breather hose.
1. Disable the ignition system by unplugging the
coil pack. Verify that the vehicle will not start. tions.
10. Remove the starter motor mounting bolts and
remove the starter.
11. The installation is the reverse of the removal
procedure. Tighten the starter mounting bolts to 22 ft.
Ibs. (31 Nm).
12. Connect the negative battery cable and check
the starter for proper operation.
9315zp19 Fig. 53 Location of the two starter retaining bolts
Page 59 of 408
.
2-12 ENGINEELECTRICAL
*This section describes the operating prina
ciples of sending units, warning lights and
gauges. Sensors which provide information
to the Enafne Control Unit (ECU) or Electronic
or Power&in Control Module (FCM/PCM) are
covered in Section 4 of this manual.
Instrument panels contain a number of indicating
devices (gauges and warning lights). These devices
are composed of two separate components. One is
the sending unit, mounted on the engine or other re-
mote part of the vehicle, and the other is the actual
gauge or light in the instrument panel.
Several types of sending units exist, however most
can be characterized as being either a pressure type
or a resistance type. Pressure type sending units
convert liquid pressure into an electrical signal which
is sent to the gauge. Resistance type sending units
are most often used to measure temperature and use
variable resistance to control the current flow back to
the indicatinq device. Both types of sendinq units are
connected inseries by a wimto the batteryithiough
the ignition switch). When the ignition is turned ON,
current flows from the battery through the indicating
device and on to the sending unit.
89572$43 Fig. 54 Place the sending unit in water and
measure the resistance
2. Disconnect the sending unit wiring harness
and remove the coolant temperature sending unit.
3. Place the sending unit tip in a pan of warm wa-
ter. Use a thermometer to measure the water tempera-
tl KP
L”,“.
4. Measure the resistance across the sending uni
terminals while the sending unit is in the water.
5. Note the ohm reading and compare to the fol-
lowing specifications: i, 56, 57, and 56
1. Disconnect the negative battery cable.
2. Position a suitable drain pan under the radia-
tor.
3. Drain the engine coolant a level below the
coolant temperature sending unit.
4. Disconnect the sending unit wiring harness,
then remove the coolant temperature sending unit
from the engine.
To install:
5. Coat the sending unit threads with a suitable
thread sealant.
6. Install the engine coolant temperature gauge
sending unit into the bore in the engine and tighten
to 7-8 ft. Ibs. (10-12 Nm).
7. Attach the electrical harness connector to the
sendina unit.
8. fill the cooling system to the proper level.
:onnect the negative battery cable.
l Water temperature of 68°F (2O”C)-
2.21-2.69 kilo-ohms resistance
l Water temperature of 158°F (7O’Ck
90.5-117.5 ohms resistance
TESTING l Water temperature of 176°F (8O”C)-
264-328 ohms resistance.
The coolant temperature sendina unit is used to
operate the temperature gauge. Donot confuse this
sending unit with the other switches or sensors used
to signal the engine control unit or air conditioning
regarding temperature of the coolant. Usually, these
other units are mounted near the coolant temoerature
sensor used for engine control. If the resistance is not approximately accurate for
the temperature, the sending unit must be replaced.
Gauge Check
1. Detach the engine coolant gauge sending unit
electrical connector.
2. Connect a suitable test liaht (12V-3.4W) be-
tween the harness side connector and the around.
I
3. Turn the ignition switch to the ON position.
4. Check the condition of the test light and gauge
as follows:
a. If all components are operating properly,
the test light should illuminate and the gauge
needle should move.
b. If the test light is illuminated and the
gauge needle does not move, replace the coolant
temperature gauge.
c. If the test light is illuminated and the
gauge needle does not move, check the fuse for
a broken wire, or resistance between the gauge
terminals
d. If the test light is not illuminated and the
gauge is not moving, check, then replace the
wiring harness, if necessar!y.
Sender Check
p See Figure 64
1. Drain the engine coolant to a level below the
coolant temperature sending unit Fig. 55 Detach the connector from the
coolant temperature sending unit
'ESTING
tauga Check
See Ftgure 69