ignition MITSUBISHI SPYDER 1990 Service Service Manual

Service ENGINE (NON-TURBO)> Sealants
SERVICE SPECIFICATIONS
Ignition timing
Curb idle
Idle speed when is ON
Standard value
BTDC. at curb idle (Nonadjustable)-
800 100
850 in Neutral
Throttle position sensor resistance,
Idle air control motor coil resistance
Intake air temperature sensor resistance
Engine coolant temperature sensor
Heated oxygen sensor output voltage
Fuel pressure (psi)
Injector coil resistance
Electric EGR transducer solenoid coil resistance
3 . 5 8 . 5 ,
9 - 1 1
0.6 0.8
9-11 ,
0.6 0.8
0.6
1.0
330
350 (47 50) at curb idle
25 35 (68
SEALANTS
Items
Engine coolant temperature sensor threaded portion
Intake air temperature sensor threaded portion
,Specified sealants
Loctite 24200 or equivalent.
Loctite 24200 or equivalent
.
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ENGINE (NON-TURBO)>
TEST MODE
CHECK ENGINE/MALFUNCTION INDICATOR LAMP
As a functional test, the Malfunction Indicator Lam p
illuminates at key-on before engine cranking.
Whenever the Power-train Control Module (PCM) sets a
diagnostic trouble code that effects vehicle emissi ons, it
illuminates the
The PCM illuminates the for
diagnostic trouble codes that effect vehicle emissi ons. The
remains on until the diagnostic trouble code is erased.
The
either flashes or illuminates continuously when
PCM detects active engine misfire.
During active misfire, thePCM records the
operating conditions. The engine operating conditio ns
recorded by the PCM.
ItemsIndicated by the Check Engine/Malfunction Indicator Lamp
DTC No. Items
01No cam signal at PCM
02Internal controller failure
EGR solenoid circuit
EVAP solenoid circuit
Injector control circuit
20Injector control circuit
21Injector control circuit
25Idle air control motor circuit
26Throttle position sensor voltage low
27Throttle position sensor voltage high
30Engine coolant temperature voltage too low
31Engine coolant temperature voltage too high
32Upstream stays at center
35
No vehicle speed sensor signal
36
07) MAP sensor voltage too low
37MAP sensor voltage too high
39No change in MAP from start to run
42Ignition coil primary circuit
43Ignition coil primary circuit
46
EGR system failure
57Intake air temperature sensor voltage low
58Intake air temperature sensor voltage high
61Injector control circuit
62Upstream shorted to voltage
68PCM failure communications
71 temperature volts out of limit
, .
,
92 (PI 490)
93
101
33)
103
Low speed fan control relay circuit
High speed fan control relay circuit
Fuel pump relay control circuit
Upstream
response
Upstream
heater failure
Downstream
heater failure
Multiple cylinder misfire
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ON-BOARD DIAGNOSTICS
The
Control Module (PCM) monitors
many different circuits in the fuel injection syste m.
If the PCM senses a problem with a monitored
circuit often enough to indicate an actual problem,
it stores a diagnostic trouble code in the
memory.
After the PCM first detects a malfunction, a
diagnostic trouble code is recorded when the engine
i s r e s t a r t e d a n d t h e s a m e m a l f u n c t i o n i s
re-defected. However, for items marked with a
a diagnostic trouble code is recorded the
first detection of the malfunction.
After that, if the PCM does not re-detect the
malfunction for 40 drives* (51 engine start for
non-emission related faults), the diagnostic troubl e
code will be erased from the PCM memory.
NOTE
A drive indicates from engine start to stop and
monitors the power train component.
However, for misfiring or a fuel system rich/lean,
the diagnostic trouble codes will be erased under
the following conditions.
lWhen driving conditions (engine speed, engine
coolant temperature, etc.) are similar, to those
when the malfunction was first recorded.
l When the PCM does not re-detect the
malfunction for 80 drives*.
Technicians can display stored diagnostic trouble
codes by two different methods.
ENGINE (NON-TURBO)> Troubleshooting
The first is to cycle the ignition switch
On-Off-On-Off-On within 5
Then count
the number of times the malfunction indicator lamp
(check engine lamp) on the instrument panel flashes
on and off. The number of flashes represents the
diagnostic trouble code. There is a slight pause
between the flashes representing the first and
second digits of the code. Longer pauses separate
individual trouble codes. The second method of
reading diagnostic trouble codes uses
scan
Connect the scan tool to the
(diagnostic) connector in the vehicle.
FREEZE FRAME DATA
The PCM records the diagnostic trouble code and
also the engine operating conditions the time
the malfunction was detected. are called
“freeze frame” data.
This data indicates the engine operating condition
from when nothing at all is the initial
detection of the
However, misfiring
or fuel trim malfunction data are always. replaced
with the latest data.
This data can be read by using the scan tool, and
can then be used in simulation tests for
troubleshooting.
Data items are as follows.
DataUnit
Engine coolant temperature
Engine speed
Vehicle speed
or
or RPM
km/h or mph
Long-term fuel compensation (Long-term fuel trim)
Short-term fuel compensation (Short-term fuel trim)
Fuel control condition O p e n l o o p
l Closed loop
l Open loop-Drive condition
l Open loop-DTC set
lMalfunction of closed (rear)
Calculated load value
MAP vacuum
(vacuum)
Diagnostic trouble code during data recording
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ENGINE (NON-TURBO)> Troubleshooting.
HOW TO READ AND ERASE DIAGNOSTIC
CODES
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1. If battery voltage is diagnostic codes.
may not be output. Be sure to check the,
and charging system before
2.If the battery is disconnected or if the connector
is disconnected, the diagnostic trouble code
will be erased. Do not disconnect the battery or
until after the diagnostic are recorded.
3. Turn the ignition switch, off before
disconnecting the scan. tool.
When using the scan tool
NOTE
When carrying out inspection General ‘Scan Tool,
mode, the interface
cartridge) and
adaptor harness do not
need to be installed.
2.The following items cannot be checked in scan
mode; they can only be checked in General Scan
Tool mode.
SENSOR READ TEST
l term fuel trim
l Calculated load vlaue
FREEZ FRAME DATA
READINESS TESTS
3. When diagnostic trouble codes (DTC) are’ erased,
the freeze frame data and
test status will
be erased at the same time. Therefore,
should be recorded if necessary
4. If the automatic transaxle DTC
been stored, the DTC for the PCM should be
after the DTC for the TCM is erased:
1. Install the interface cartridge cartridge) to the scan
tool
2. Use the cartridge adapter harness to the
scan tool
to the data link
start the engine and on the
(if applicable). Shut off the engine.
3. Read the diagnostic trouble codes.
4.Repair the malfunction while referring to the
CHART FOR DIAGNOSTIC TROUBLE CODES.
5. Turn the ignition switch to OFF and then back to ON
6. the diagnostic trouble codes using the scan tool.
7. Check that the diagnostic trouble code is normal .

ENGINE (NON-TURBO)> Troubleshooting 3
If scan tool not available
1.Cycle the ignition key On-Off-On-Off-On within seconds.
2.Count the number of times the malfunction indicator lamp
(check engine lamp) on the instrument panel flashes on
and off. The number flashes represents the trouble
code.There is a slight pause between the flashes
representing the first and second digits of the’ co de.
Longer pauses (approx. 4 seconds) separate individu al
,
trouble codes.
3. Repair the malfunction while referring to the in spection
chart for diagnostic trouble codes.
4. After disconnecting the battery cable from the b attery
terminal for a few minutes, reconnect the
5.Start the engine and run it at for about minutes
after the engine has warmed up.
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ENGINE (NON-TURBO)> Troubleshooting
FAIL-SAFE-BACUP FUNKTION Mode) TABLE
When the PCM detects the following malfunction (s), the PCM carries out’ fail safe/back-up
addition, the corresponding DTC number (s) can be i dentified by using the scan tool.
I
I
I
I
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1
1
Diagnostic item
Control during malfunction
No cam signal at PCM
The PCM uses the crankshaft position sensor signal control fuel timing, etc. (Accordingly, normal sequential fuel injection may not be
out.)
Throttle position sensor The PCM uses the value calculated from the MAP sens or signal instead of the age low
valve opening angle (voltage).
Throttle position sensor The PCM uses the value calculated from the MAP sens or signal instead of the throttle
age high
valve opening angle (voltage).
Engine coolant temperature l
The PCM uses the default value as the engine
(ECT) sensor voltage too low temperature.
lThe PCM operates the radiator fan.
lThe PCM carries out open loop control.
Engine coolant temperature lThe PCM uses the default value
as the engine
(ECT) sensor voltage tootemperature.
highlThe PCM operates the radiator fan.
lThe PCM carries out open loop control.
U p s t r e a m
stays atThe PCM carries out open loop control.
center
No vehicle speed sensorThe PCM controls the engine as if the vehicle speed were 0 mph.
signal
MAP sensor voltage too low The PCM uses the value ca lculated from the throttle position sensor and the engine
speed signals instead of the MAP value
sensor voltage too high The PCM uses the value calc ulated from the throttle position sensor and the engine
speed signals instead of the MAP value
change in MAP from start The PCM uses the value cal culated from the throttle position sensor and the engine
0 runspeed signals instead of the MAP value
ntake air temperature sensorThe PCM uses the engine coolant temperature instead of the intake air temperature.
roltage low
ntake air temperature sensor
The PCM uses the engine coolant temperature instead of the intake air temperature.
roltage high
sensorThe PCM retards ignition timing according to the kn
ock sensor signal.
Jpstream shorted toThe PCM carries out open loop control.
temperature sensorThe PCM uses the default value as the battery temperature.
out of limit
speed fan control relayThe PCM turns on the high speed fan control relay i nstead of the low speed fan
relay
Jpstream responseThe PCM carries out open loop control.
to The PCM carries out open loop control.
oltage
stays atThe PCM carries out open loop control.
enter
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ENGINE (NON-TURBO)> Troubleshooting
INSPECTION CHART FOR DIAGNOSTIC TROUBLE CODES
NOTE
Diagnostic trouble code (DTC) memory is not deleted even after the ignition
DTC No. DTC No.
DTC No. Diagnostic itemsCheck items, (Remedy) tool
mode>
mode>
01 54No cam signal at PCMl Harness and connector Retained
(If harness and connec-
tor are not defective,
replace; camshaft ,
sensor.) ,
02 53
Internal controller fail- Replace the PCM.,
. .
0547
46
Charging system volt- l Generator drive belt
age too lowlHarness and connector
l Generator. . ,
Charging system volt- l Generator drive belt
age too highl Harness and connector
l Generator
1042
1 141
1633
relay (ASD relay) lHarness and connector Retained
control circuitl relay (ASD relay)
G e n e r a t o r f i e l d n o t lHarness and connector Retained
switching properlyl Generator
A/C clutch relay circuitlHarness and connector Retained
l clutch relay
32
31
27
27
27
25
24
24
EGR solenoid circuitlHarness and connector Retained
EGR solenoid
EVAP solenoid circuit
Harness and connector Retained
EVAP solenoid
Injector
controllHarness and connector Retained
circuitInjector
Injector controlHarness and connector Retained
circuitlInjector
Injector controlHarness and connector Retained
circuitlInjector
Idle air control motor Harness and connector Retained
circuitslIdle air control motor
Throttle PositionHarness and connector Retained
sensor voltage lowl Throttle position sensor
Throttle positionlHarness and connector Retained
sensor voltage highl Throttle position sensor
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Check engine/Malfunction Indicator Lamp (MIL)
The number shown represents the number of pulses ob served at the MIL.

ENGINE (NON-TURBO)>
1MemoryDiagnostic itemsCheck items (Remedy)
Engine coolantHarness and
temperature sensorEngine coolant temper
voltage too low
ature sensor
Engine coolantlHarness
temperature sensorl Engirie coolant temper
voltage too high sensor
Upstream staysl Harness and
at centerl Upstream
Engine is cold too longl Engine coolant temper
ature sensor
connectorlEngine coolant
sensor
Thermostat
No vehicle speed
lHarness and
sensor signallVehicle speed sensor
MAP sensor voltagelHarness
too low (If harness connec-
tor are not defective, replace
sensor.)
MAP sensor voltagel Harness and connector
t o o h i g h
(If harness and connec-
tor are not defective,
replace MAP sensor.)
No
in MAPl Harness and connector
from start to run (If harness and connec-
tor are defective,
replace MAP sensor.)
No crankshaftl Harness and connector
reference signal at (If harness and
tor are’ not defective,
replace crankshaft posi-
tion sensqr.)
gnition coil
primaryl Harness and connector
Ignition coil
gnition coil primaryl Harness and connectorlIgnition coil
relay (ASDl connector
ay) output voltage atl relay (ASD relay)
‘CM
system failurel Harness and connector
lElectric EGR transducer
solenoid
l v a l v e
l EGR tube clogged
l Vacuum hoses
DTC NC
pulses
mode>
DTC No. DTC No. tool (MUT-II)scan toolmode>mode>
30
31
32 34
1
I
I
I
I
Retained22
22
,
I
I
I
Retained
Retained
21
17
15
14
14
33
35Retained
36Retained
Retained
13Retained
11
6
MIL: Check engine/Malfunction Indicator Lamp (MIL)
The number shown represents the number of pulses observedatthe MIL.
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ENGINE (NON-TURBO)>
DTC No. DTC No. DTC No. Diagnostic items tool mode>
105 21Downstream
heater failure
106 43Multiple cylinder
misfire* Check items (Remedy)
M e m o r y
l
H a r n e s s a n d c o n n e c t o r
D o w n s t r e a m
lIgnition coil R e t a i n e d
l
Spark plug
Ignition circuitlInjectorlUpstream
Compression pressure
l Timing belt
l Crankshaft position
sor
l Air intake
l Fuel pressure
lCrankshaft position sen-
sor circuit and connector
107
43 Cylinder misfire*
l Spark plug R e t a i n e dlInjector
Compression pressure
l Air intake
108 43Cylinder misfire*l Spark plug R e t a i n e d
I n j e c t o r
Compression pressure
l Air intake
109 43Cylinder misfire*l Spark plug Retained
I n j e c t o r
Compression pressure
l Air
110 43Cylinder misfire* Spark plug R e t a i n e dlInjector
Compression pressure
l Air intake
112 64Catalytic converter
efficiency failurel E x h a u s t m a n i f o l d ( I f R e t a i n e d
there are no cracks, etc.,
replace the catalytic
converter.)
113 31 Evaporative purge flow
lEvaporative purge sole- Retained
monitor failurel
Clogged purge line
l Vacuum hose
l Evaporative emission
canister clogged
37 position
(PNP) switch (trans-
axle range switch)
failurel Replace PCMR e t a i n e d
.&
MIL: Check engine/Malfunction Indicator Lamp (MIL)
.
The number shown represents the number of pulses ob served at the
A diagnostic trouble code is recorded on the first detection of the
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ENGINE (NON-TURBO)> Troubleshooting
INSPECTION PROCEDURE FOR DIAGNOSTIC TROUBLE CODES
Scan tool 01
Code General scan tool
No.No Cam Sync Signal at PCMProbable cause
54
[Comment]l Open supply circuitBackgroundl Open sensor groundlThe PCM uses information from both the camshaft pos ition sensor and crankshaft positionl Open or shorted signal circuit
sensor to determine ignition timing. l Damaged camshaft target magnet
lWhen the camshaft position sensor signal is lost, t he PCM relies on the positionl Sensor failed,
sensor signal to allow engine operation. l PCM failed
lThis could result in fuel injection being out of phase, which would result in deteriorationof engine performance and emissions.
Range of Check ,
l
Ignition switch: ON
l Crankshaft position sensor signal (High or low) is input (Engine: Cranking).
Set ConditionlCamshaft position sensor signal (High or low) isn’t input for 2 seconds.
Check that the camshaft position
NG
Measure at the camshaft sensor connector lDisconnect the connector, and measure at the harnes s side.
l Voltage between 1 and ground
(Ignition switch: ON)
O K :
Repair
N GNG C h e c k t h e Repairconnectors:
l Voltage between 3 and ground
(Ignition switch: ON)
O K :
l Continuity between 2 and ground
OK: Continuity
OK
Check trouble
NG
Check the harness wire between the PCM and camshaf t positionsensor connector.
OK
NG
Replace the PCM.Repair
Check the following connector:
Repair
Check trouble symptom.
N G
Replace the camshaft position sensor.I
,
Check trouble symptom.
the PCM. I’
Scan tool 02
Internal Controller FailureNo.
53
P r o b a b l e c a u s e
[Comment]Set Condition l
PCM failed
l An internal fault has been detected in the PCM
Replace the PCM.
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