1997 SSANGYONG KORANDO Idle control

M161 ENGINE CONTROLS 1F2 -- 15
D AEW OO M Y_2000
FAILURE CODES TABLE (Cont’d)
Failure
codeSee
PageDescription
401F2 -- 51Purge control valve short circuit to battery
411F2 -- 51Purge control valve short circuit to ground or open
441F2 -- 72Cooling fan (HI) relay short circuit to power
451F2 -- 72Cooling fan (HI) relay short circuit to ground or open
541F2 -- 51Purge control circuit malfunction
561F2 -- 33No.1 knock sensor signal failure
581F2 -- 27Camshaft position sensor signal : No.1 cylinder synchronization failure
591F2 -- 89CAN communication failure : MSR data transmission not plausible
601F2 -- 89CAN communication failure : ASR data transmission not plausible
641F2 -- 21No ignition voltage output (No.1 ignition coil)
651F2 -- 21No ignition voltage output (No.2 ignition coil)
671F2 -- 23Crankshaft position sensor adaptation failure
681F2 -- 35Random/Multiple Misfire
711F2 -- 39Starter signal recognition failure
721F2 -- 47No.1 injector short circuit to battery
731F2 -- 47No.1 injector short circuit to ground or open
741F2 -- 47No.2 injector short circuit to battery
751F2 -- 47No.2 injector short circuit to ground or open
761F2 -- 47No.3 injector short circuit to battery
771F2 -- 48No.3 injector short circuit to ground or open
781F2 -- 48No.4 injector short circuit to battery
791F2 -- 48No.4 injector short circuit to ground or open
801F2 -- 82Oxygen sensor high voltage
811F2 -- 83Bank 1 system short term fuel trim adaptation below lean threshold
821F2 -- 82Oxygen sensor no activity detected
831F2 -- 82Oxygen sensor not lean after overrun fuel shut -- off
841F2 -- 82Oxygen sensor slow response
851F2 -- 82Oxygen sensor heater failure
861F2 -- 82Oxygen sensor heater short circuit to battery
871F2 -- 82Oxygen sensor heater short circuit to ground or open
891F2 -- 82Oxygen sensor low voltage
931F2 -- 83Bank 1 system short term fuel trim adaptation above rich threshold
961F2 -- 83Bank 1 system short term fuel trim at rich stop
971F2 -- 83Bank 1 system short term fuel trim at lean stop
981F2 -- 83Bank 1 system idle adaptation failure (above rich threshold)
991F2 -- 83Bank 1 system idle adaptation failure (below lean threshold)
1001F2 -- 83Bank 1 system learning control failure (rich, low load)
1011F2 -- 83Bank 1 system learning control failure (lean, low load)
1021F2 -- 83Bank 1 system learning control failure (rich, high load)

M161 ENGINE CONTROLS 1F2 -- 27
D AEW OO M Y_2000
KAB1F430
Failure
CodeDescriptionTrouble AreaMaintenance Hint
19
Camshaft position
sensor signal :
No. 1 cylinder
recognition failureWhen no cam recognition
signal during TN 24 counts
more. (maintain the constant
low or high level)DInspection the source voltage of CMP
sensor
DInspection the ECM pin 106, 104
about short circuit or open with bad
contact
58
Camshaft position
sensor signal : No. 1
cylinder synchronization
failure
When synchronization fault of
cylinder 1 (TDC recognition)
contact
DInspection the CMP sensor
DInspection the damage of sensor or
sprocket
DInspection the ECM
Circuit Description
The CMP sensor sends a cam position signal to the ECM. If the cam position signal is lost while the engine is running,
the fuel injection system shifts to a calculated sequential fuel injection mode based on the last fuel injection pulse, and
the engine continuous to run.
Camshaft Position Sensor Signal Voltage Inspection
1. Measure the voltage between the ECM terminal No. 11 and No. 106 while the engine speed is at idle.
Specified Value
1.2~1.7v
Notice:The signal voltagewill be changed in the range of 1.2 ~ 1.7 v.

1F2 -- 28 M161 ENGINE CONTROLS
D AEW OO M Y_2000
Camshaft Position Sensor Output Wave Inspection
1. Measure the output wave between the ECM termi-
nals No. 104 and No. 106 using the scan tool or the
oscilloscope whileengine speed is at idle.
Notice:Replace the CAM sensor if cannot get the out-
put wave as shown in the figure.
KAA1F0O0
Camkshaft Position Sensor Power Supply Inspection
1. Disconnect the CMP sensor Connector.
2. Measure the resistance between the No. 1 and No. 3 pin of the CMP sensor connector while the ignition switch is in
“ON” position.
Specified Value
11 ~ 14 v
Notice:If the measured value is not within the specified value, check the cable.

M161 ENGINE CONTROLS 1F2 -- 41
D AEW OO M Y_2000
Battery Voltage Correction Mode
When battery voltage is low, the ECM can compensate for a weak spark delivered by the ignition module by using the
following methods:
DIncreasing the fuel injector pulse width.
DIncreasing the idle speed rpm.
DIncreasing the ignition dwell time.
Fuel Cut- Off Mode
No fuel is delivered by the fuel injectors when the ignition is off. This prevents dieseling or engine run -- on. Also, the fuel
is not delivered if there are no reference pulses received from the CKP sensor. This prevents flooding.

M161 ENGINE CONTROLS 1F2 -- 49
D AEW OO M Y_2000
Injector Pulse Width Inspection
1. Turn the ignition switch OFF.
2. Install the scan tool.
3. Turn the ignition switch ON.
4. Monitor the “INJECTION TIME” with a scan tool.
Cranking
8.0 ms
Engine Idle3~5ms
Wide Open Throttle (WOT)14 ms

M161 ENGINE CONTROLS 1F2 -- 55
D AEW OO M Y_2000
The pressure difference between the fuel pressure and
the intake manifold is about 3.8 bars during the full load.
YAA1F500
1. Fuel Pressure Regulator
2. Intake Manifold
3. Fuel Return (to fuel tank)
4. Fuel Supply (from fuel pump)
5. Fuel Pressure (approx. 3.8 bars)
6. Intake Manifold Negative Pressure (0 bar)

The spring chamber (9) is connected to the intake man-
ifold with the vacuum hose at the intake pipe connection
(7). The negative pressure generated in the intake man-
ifold activates the diaphragm, and thus the fuel pressure
gets reduced to the rate of the operating extent of the
diaphragm by the intake manifold’s negative pressure.
YAA1F510
Consequently, the fuel pressure in the fuel distributor
changes by the intake manifold’s negative pressure, and
the injector ’s fuel pressure gets reduced independentlyto the throttle valve’s position. Thus, the fuel injection
volume can only be determined according to the injec-
tor’s injecting duration.
The pressure difference between the fuel pressure and
the intake manifold is approx. 3.2 bars during idling.
YAA1F520
1. Fuel Pressure Regulator
2. Intake Manifold
3. Fuel Return (to fuel tank)
4. Fuel Supply (from fuel pump)
7. Fuel Pressure (approx. 3.2 bars)
8. Intake Manifold Negative Pressure (0.6 bars)

YAA1F530
A. Fuel pressure
B. Intake Manifold Negative Pressure
LL. Idling
TL. Partial load
VL. Full load

1F2 -- 56 M161 ENGINE CONTROLS
D AEW OO M Y_2000
INDUCTION SYSTEM
THROTTLE VALVE ACTUATOR
YAA1F540
The throttle actuator is actuated by the Engine Control Module (ECM) according to the position of the accelerator pedal
position.
It has two potentiometers which signal the position of the throttle valve to the ECM to enable it to recognize the various
engine load states.
Ignition “Off”
In the de-- energized states the throttle valve position is determined to be spring capsule.
Ignition “On”
When the ignition S/W on the servo motor in the throttle actuator is operated by the ECM. The throttle valve adopts a
position in line with the coolant temperature.
Closed position
In the closed throttle position, the servo motor controls engine speed by operating the throttle valve further (greater
mixture) or closing it further (reduced mixture), depending on coolant temperature and engine load. When this is done,
the throttle valve can be closed further by the servo motor overcoming the force of the spring capsule (mechanical end
stop). If the actuator is de-- energized, the throttle valve is resting against the spring capsule.
Consequently, the throttle valve opening is a constant 10-- 12°approximately.
At no load, this produces an engine speed of about 1,800 rpm
Driving
When driving (part/full throttle), the servo motor controls the throttle valve in line with the various load states and ac-
cording to the input signals from the pedal value sensor according to the input signals from the pedal value sensor
according to the position of the accelerator pedal.
The function of the EA (electronic accelerator) in the ECM determines the opening angle of the throttle valve through
the throttle actuator. Further functions are;
DIdle speed control
DCruise control
DReducing engine torque for ASR/ABS operation
DElectronic accelerator emergency running
DStoring faults
DData transfer through CAN

1F2 -- 58 M161 ENGINE CONTROLS
D AEW OO M Y_2000
Failure
CodeDescriptionTrouble AreaMaintenance Hint
126
Throttle position sensor
1 not plausible with
Throttle position sensor
2
When difference between
TPS 1 and TPS 2DMonitoring the actual values through
scan tool
DIns
pection the ECMpin 84, 85, 87,
127High permanent throttle
signalWhen failure of wiring
harness or actuator
DInspectiontheECMpin84,85,87,
112, 67, 68 about short circuit or open
with bad contact
Itiththttlltt
185
Mass air flow sensor
and throttle position
sensor failureWhen difference between
MAF and TPS signal
DInspection the throttle valve actuator
DInspection the ECM
Circuit Description
The ECM supplies a 5 volt reference signal and a ground to the TP sensor. The TP sensor sends a voltage signal back
to the ECM relative to the throttle plate opening. The voltage signalwill vary from approximately 0.3 ~ 0.9 volts at
closed throttle, to over 4.0 ~ 4.6 volts at Wide Open Throttle (WOT).
The TP sensors serve for engine load control according to the drive pedal command. Load adjustments independent of
the drive pedal command can be implemented; such functions are, for instance, idle control, speed control, drive slip
control, load shock damping, and similar functions.
When the actuator current fails, the throttle valve is returned to emergency operating position by a spring. The throttle
valve position, thereby the actuator drive position checkback is provided by two potentiometers. The motor positions
the throttle valve against the return spring force. Motor and return spring are two separate energy sources. Each of
them is able to position the throttle valve in emergency position alone. Throttle valve position checkback and monitor-
ing is provided by two actual value potentiometers connected to the engine control electronics.
Throttle Actuator Inspection
1. Turn the ignition switch to “ON” position.
2. Measure the TPS 1 signal voltage at the ECM pin No. 87 and TPS 2 signal voltage at the ECM pin No. 85.
Pedal PositionSpecified Value
TPS1Closed0.3 ~ 0.9 vTPS1Opened4.0 ~ 4.6 v
TPS2Closed4.0 ~ 4.6 vTPS2Opened0.3 ~ 0.9 v
Throttle Actuator DC Motor Inspection
1. Turn the ignition switch to “ON” position.
2. Measure the signal voltage between the ECM pin No. 67 and No. 68.
Application
Specified Value
Ignition “ON”0.8 ~ 2.3 v
Engine StatusIdling1.0 ~ 2.5 v
(Coolant temperature is over 70°C)
Throttle Actuator DC Motor Resistance
1. Turn the ignition switch to “OFF” position.
2. Measure the resistance between the ECM pin No. 67 and No. 68.
Specified Value
<10Ω