1997 SSANGYONG KORANDO fuel pump

0B -- 4 GENERAL INFORMATION
D AEW OO M Y_2000
Tire and Wheel
ApplicationSpecifications
Standard Tire SizeP235/75 R15, 255/70 R15
Standard Wheel Size7JJx15
Inflation Pressure At Full Lode
P235 / 75 : Front
Rear
P255 / 75 : Front
Rear
30 Psi
30 Psi
30 Psi
30 Psi
Steering System
ApplicationSpecifications
Gear TypeRACK & PINION
Wheel Alignment:
Front: Toe -- in
Front: Caster
Front: Camber
0--4mm
2°30′±30′
0°±30′
Oil Capacity1L
Suspension
ApplicationSpecifications
Front TypeDouble Wishbone
Rear Type5--Link
Fuel System
ApplicationSpecifications
Fuel Pump TypeElectric Motor Pump
Fuel Capacity70 L
Lubricating System
Application661LA662NA662LA2.0L
DOHC2.3L
DOCH3.2L
DOCH
Oil Pump TypeExternal Gear pump
Oil Filter TypeCombination (Full & Part)Full Flow
Oil Capacity (L)
(Including Oil Filter)8.09.09.57.27.58.2
Cooling System
Application661LA662NA662LA2.0L
DOHC2.3L
DOCH3.2L
DOCH
Coolant Capacity (L)9.5 -- 1010.510.5 -- 1110.510.511. 3
Radiator TypeForced Circulation
Water Pump TypeCentrifugal

1A1 -- 2 GENERAL ENGINE INFORMATION
D AEW OO M Y_2000
SPECIFICATIONS
ENGINE SPECIFICATIONS
ApplicationE32 Engine
Engine ModelM162.990
Displacement (CC)3199
Cylinder (Bore x Stroke)(mm)89.9 x 84.0
Fuel Injection / Ignition SystemMSE 3.62S
Compression Ratio10 : 1
Number of Cylinders6
Camshaft Valve ArrangementDOHC
Camshaft Drive TypeChain-- Driven
Max. Output (ps/rpm)222 / 5500
Max. Torque (kgSm/rpm)31.6 / 3750
Firing Order1--5--3--6--2--4
Ignition TypeDistributorless Double Ignition
Ignition TimingBTDC 8°±2°
Valve TimingIntakeOpen/CloseAT DC 11°/ ABDC 34°g
ExhaustOpen/CloseBBDC 31°/BTDC14°
Valve Clearance AdjustmentAutomatic Control
Idle Speed (rpm)700±50
Fuel Injection Pressure (kg/cm@)3--4
Oil Capacity (liter)8.2
Lubrication TypeForced by Gear Pump
Oil Filter TypeFull Flow with Paper Filter
FuelUnleaded Gasoline
MSE 3.62S/3.53S (Motorsteuer Elektronik : German)
MSE : Engine Control Electronic
3.62S : 6 Cylinder Version
3.53S : 4 Cylinder Version

1B1 -- 2 M162 ENGINE MECHANICAL
D AEW OO M Y_2000
SPECIFICATIONS
FASTENER TIGHTENING SPECIFICATIONS
ApplicationNSmLb-FtLb-In
Fuel Feed and Return Line21 -- 2515 -- 18--
Exhaust Manifold and Pipe3022--
Propeller Shaft to Transmission81 -- 8960 -- 66--
Engine Mounting Nuts7052--
Generator Carrier Bolts2518--
Tensioning Pulley Bolt40.5 -- 49.529.9 -- 36.5--
Steering Pump Bolts22.5 -- 27.516.6 -- 20.3--
A/C Bracket Bolts22.5 -- 27.516.6 -- 20.3--
Intake Air Duct Mounting Nuts9--11--80 -- 97
Spark Plug Cover Bolts9--11--80 -- 97
Cylinder Head Cover Bolts9--11--80 -- 97
Magnetic Assembly Bolt9--11--80 -- 97
Cylinder Head Front Cover Bolt22.5 -- 27.516.6 -- 20.3--
Cylinder Head Bolts55
+90°
+90°41
+90°
+90°
--
Timing Gear Case Cover BoltsM822.5 -- 27.516.6 -- 20.3--g
M69--11--80 -- 97
Crankshaft Sealing Rear Cover Mounting Bolts9--11--80 -- 97
Vibration Damper Center Bolt200 + 20
+90°+10°148 + 15
+90°+10°--
Connecting Rod Bearing Cap Bolts40
+90°30
+90°--
Flywheel Mounting Bolt45 + 5
+90°+10°33 + 3.7
+90°+10°--
Amarture Bolt3526--
Camshaft Adjuster Flange Bolts18 -- 22
60°±5°13 -- 16
60°±5°--
Intake Flange Shaft Bolts18 -- 22
60°±5°13 -- 16
60°±5°--
Exhaust Camshaft Sprocket Bolts18 -- 22
60°±5°13 -- 16
60°±5°--
Camshaft Bearing Cap Bolts22.5 -- 27.516.6 -- 20.3--
Chain Tensioner Screw Plug4030--
Chain Tensioner Assembly72 -- 8853 -- 65--
Oil Pump Sprocket Bolt29 -- 3521 -- 26--
Tensioning Device Bolts26 -- 3219 -- 24--
Water Pump Pulley Bolts22.5 -- 27.516.6 -- 20.3--
Upper Intake Manifold Bolt22.5 -- 27.516.6 -- 20.3--
Lower Intake Mainfold Bolt22.5 -- 27.516.6 -- 20.3--
Flange Bolt to Exhaust Mainfold3022--

D AEW OO M Y_2000
SECTION 1F1
ENGINE CONTROLS
CAUTION: Disconnect the negative battery cable before removing or installing any electrical unit or when a
tool or equipment could easily come in contact with exposed electrical terminals. Disconnecting this cable
will help prevent personal injury and damage to the vehicle. The ignition must also be in LOCK unless other -
wise noted.
TABLE OF CONTENTS
Engine and ECM Problem Check Report 1F1 -- 2....
Specifications 1F1 -- 3............................
Engine Data Display Table 1F1 -- 3.................
Fastener Tightening Specifications 1F1 -- 4..........
Fuel System Specification 1F1 -- 5.................
Temperature vs Resistance 1F1 -- 5................
Special Tools and Equipment 1F1 -- 6..............
Special Tools Table 1F1 -- 6.......................
Schematic and Routing Diagrams 1F1 -- 7..........
ECM Wiring Diagram
(3.2L DOHC -- MSE 3.62S) 1F1 -- 7..............
Diagnosis 1F1 -- 14................................
Failure Code Diagnosis 1F1 -- 14.....................
Clearing Failure Codes 1F1 -- 14...................
Failure Codes Table 1F1 -- 14.....................
Ignition System 1F1 -- 18...........................
Ignition Coil 1F1 -- 20.............................
Crankshaft Position (CKP) Sensor 1F1 -- 22.........
Camshaft Position (CMP) Sensor 1F1 -- 26..........
Camshaft Actuator 1F1 -- 30......................
Knock Sensor (KS) 1F1 -- 32......................
Spark Plug 1F1 -- 34.............................
System Voltage 1F1 -- 38.........................
Ignition Switch 1F1 -- 39..........................
Fuel System 1F1 -- 40..............................
Fuel Pump 1F1 -- 42.............................
Fuel Injector 1F1 -- 46............................
Purge Control Valve 1F1 -- 50.....................
Fuel Rail 1F1 -- 52...............................
Fuel Pressure Regulator 1F1 -- 54.................
Induction System 1F1 -- 56..........................
Throttle Valve Actuator 1F1 -- 56...................
Hot Film Air Mass (HFM) Sensor 1F1 -- 60..........
Engine Coolant Temperature (ECT) Sensor 1F1 -- 64.
Accelerator Pedal Module 1F1 -- 68................
Clutch Switch 1F1 -- 71...........................Cooling Fan 1F1 -- 72............................
A/C Compressor Relay 1F1 -- 73...................
Cruise Control Switch 1F1 -- 74....................
Traction Control System (TCS) 1F1 -- 75............
Resonance Flap 1F1 -- 76.........................
Stop Lamp Switch 1F1 -- 77.......................
Engine RPM 1F1 -- 78............................
Exhaust System 1F1 -- 79...........................
Catalytic Converter 1F1 -- 79......................
Oxygen Sensor 1F1 -- 80.........................
Engine Control Module 1F1 -- 86.....................
Serial Data Communication 1F1--88...............
Internal Failure 1F1 -- 90..........................
Electronic Throttle Controller Safety
Malfunction 1F1 -- 92...........................
Immobilizer 1F1 -- 94.............................
Maintenance and Repair 1F1 -- 95..................
On -- Vehicle Service 1F1 -- 95........................
Discharging the Pressure in Fuel System 1F1 -- 95...
Fuel Pump 1F1 -- 95.............................
Fuel Filter 1F1 -- 96..............................
Fuel Tank 1F1 -- 97..............................
Fuel Pressure Regulator 1F1 -- 98.................
Fuel Rail and Injector 1F1 -- 99....................
Engine Coolant Temperature Sensor 1F1 -- 100......
Throttle Body (Integrated with the
Actuator) 1F1 -- 101............................
Hot Film Air Mass (HFM) Sensor 1F1 -- 102.........
Knock Sensor 1F1 -- 102..........................
Pedal Position Sensor 1F1 -- 103...................
Oxygen Sensor 1F1 -- 103........................
Purge Control Valve 1F1 -- 104....................
Canister 1F1 -- 104...............................
Camshaft Position Sensor 1F1 -- 104...............
Crankshaft Position Sensor 1F1 -- 105..............
Engine Control Module 1F1 -- 105..................

M162 ENGINE CONTROLS 1F1 -- 5
D AEW OO M Y_2000
FUEL SYSTEM SPECIFICATION
Use Only Unleaded Fuel Rated at 89
Octane or Higher
Fuel quality and additives contained in fuel have a s ig n if i-
cant effect on power output, drivability, and life of the en-
gine.
Fuel with too low an octane number can cause engine
knock.
Caution: Use of fuel with an octane number lower
than 89 may damage engine and exhaust system.
Notice:To prevent accidental use of leaded fuel, the
nozzles for leaded fuel are larger, andwill not fit the fuel
filler neck of your vehicle.
Do Not Use Methanol
Fuels containing methanol (wood alcohol) should not be
used in vehicle.This type of fuel can reduce vehicle performance and
damage components of the fuel system.
Caution: Use of methanol may damage the fuel sys -
tem.
Vehicle Fueling from Drums or Storage
Containers
For safety reasons (particularly when using noncom-
mercial fueling systems) fuel containers, pumps and
hoses must be properly earthed.
Static electricity build up can occur under certain atmo-
spheric and fuel flow conditions if unearthed hoses, par-
ticularly plastic, are fitted to the fuel-- dispensing pump.
It is therefore recommended that earthed pumps with in-
tegrally earthed hoses be used, and that storage con-
tainers be properly earthed during all noncommercial
fueling operations.
TEMPERATURE VS RESISTANCE
°C°FECT sensorIAT sensor°C°FOHMS (Ω)
Temperature vs Resistance Values (Approximate)
13026688102
120248111. 6127
110230143159
100212202202
90194261261
80176340340
70158452452
60140609609
50122835835
40113116 61166
308616621662
206824202420
105036043604
03254995499
-- 1 01486098609
-- 2 0-- 41385013850
-- 3 0-- 2 22296022960
-- 4 0-- 4 03926039260

1F1 -- 14 M162 ENGINE CONTROLS
D AEW OO M Y_2000
DIAGNOSIS
FAILURE CODE DIAGNOSIS
CLEARING FAILURE CODES
Notice:To prevent Engine Control Module (ECM) damage, the key must be OFF when disconnecting or reconnecting
the power to the ECM (for example battery cable, ECM pigtail connector, ECM fuse, jumper cables, etc.)
Parameters listed in the table may not be exactly the same as your reading due to the type of instrument or other
factors. If a failure code is displayed during the “TROUBLE CODE” in scan tool check mode, check the circuit for the
code listed in the table below. For details of each code, turn to the page referred to under the “See Page” for the re-
spective “Failure Code” in the below table.
Failure codes should be cleared after repairs have been completed.
FAILURE CODES TABLE
Failure
codeSee
PageDescription
001F1 -- 66Engine coolant temperature sensor low voltage
011F1 -- 66Engine coolant temperature sensor high voltage
021F1 -- 66Engine coolant temperature sensor plausibility
031F1 -- 62Intake air temperature sensor low voltage
041F1 -- 62Intake air temperature sensor high voltage
051F1 -- 62Intake air temperature sensor plausibility
061F1 -- 66Engine coolant temperature insufficient for closed loop fuel control
081F1 -- 38System voltage too low
091F1 -- 62Mass air flow sensor plausibility
101F1 -- 62Mass air flow sensor low voltage
111F1 -- 62Mass air flow sensor high voltage
171F1 -- 23Crankshaft position sensor signal failure (no engine revolution signal)
181F1 -- 23Crankshaft position sensor signal failure (rpm > max. value)
191F1 -- 27Camshaft position senosr signal : No.1 cylinder recognition failure
201F1 -- 23Crankshaft position sensor signal failure (gap recognition failure)
211F1 -- 90Transmission coding failure
231F1 -- 88CAN communication failure : ASR/MSR
241F1 -- 88CAN communication failure : ABS
251F1 -- 94Communication with transponder missing
261F1 -- 88CAN communication failure : TCU (A/T only)
271F1 -- 88CAN communication failure : TOD (E32 only)
291F1 -- 89CAN communication failure : ID 200h not plausible
301F1 -- 89CAN communication failure : ID 208h not plausible
311F1 -- 89CAN communication failure : communication initialization failure
321F1 -- 78Engine rpm output circuit short circuit to battery
331F1 -- 78Engine rpm output circuit short circuit to ground or open
341F1 -- 43Fuel pump relay short circuit to battery
351F1 -- 43Fuel pump relay short circuit to ground or open

1F1 -- 40 M162 ENGINE CONTROLS
D AEW OO M Y_2000
FUEL SYSTEM
The function of the fuel metering system is to deliver the correct amount of fuel to the engine under all operating condi-
tions. The fuel is delivered to the engine by the individual fuel injectors mounted into the intake manifold near each
cylinder.
The main fuel control sensors are the Mass Air Flow (MAF) sensor and the oxygen (O2) sensors.
The MAF sensor monitors the mass flow of the air being drawn into the engine. An electrically heated element is
mounted in the intake air stream, where it is cooled by the flow of incoming air. Engine Control Module (ECM) modu-
lates the flow of heating current to maintain the temperature differential between the heated film and the intake air at a
constant level. The amount of heating current required to maintain the temperature thus provides an index for the
mass air flow. This concept automatically compensates for variations in air density, as this is one of the factors that
determines the amount of warmth that the surrounding air absorbs from the heated element. MAF sensor is located
between the air filter and the throttle valve.
Under high fuel demands, the MAF sensor reads a high mass flow condition, such as wide open throttle. The ECM
uses this information to enrich the mixture, thus increasing the fuel injector on-- time, to provide the correct amount of
fuel. When decelerating, the mass flow decreases. This mass flow change is sensed by the MAF sensor and read by
the ECM, which then decreases the fuel injector on-- time due to the low fuel demand conditions.
The O2 sensors are located in the exhaust pipe before catalytic converter. The O2 sensors indicate to the ECM the
amount of oxygen in the exhaust gas, and the ECM changes the air/fuel ratio to the engine by controlling the fuel
injectors. The best air/fuel ratio to minimize exhaust emissions is 14.7 to 1, which allows the catalytic converter to
operate most efficiently. Because of the constant measuring and adjusting of the air/fuel ratio, the fuel injection system
is called a “closed loop” system.
The ECM uses voltage inputs from several sensors to determine how much fuel to provide to the engine. The fuel is
delivered under one of several conditions, called ‘‘modes”.
Starting Mode
When the ignition is turned ON, the ECM turns the fuel pump relay on for 1 second. The fuel pump then builds fuel
pressure. The ECM also checks the Engine Coolant Temperature (ECT) sensor and the Throttle Position (TP) sensor
and determines the proper air/fuel ratio for starting the engine. This ranges from 1.5 to 1 at -- 36°C(--33°F) coolant
temperature to 14.7 to 1 at 94°C (201°F) coolant temperature. The ECM controls the amount of fuel delivered in the
starting mode by changing how long the fuel injector is turned on and off. This is done by ‘‘pulsing” the fuel injectors for
very short times.
Run Mode
The run mode has two conditions called ‘‘open loop” and ‘‘closed loop”.
Open Loop
When the engine is first started and it is above 690 rpm, thesystem goes into “open loop” operation. In “open loop”, the
ECM ignores the signal from the HO2S and calculates the air/fuel ratio based on inputs from the ECT sensor and the
MAF sensor. The ECM stays in “open loop” until the following conditions are met:
DThe O2 has a varying voltage output, showing that it is hot enough to operate properly.
DThe ECT sensor is above a specified temperature (22.5°C).
DA specific amount of time has elapsed after starting the engine.
Closed Loop
The specific values for the above conditions vary with different engines and are stored in the Electronically Erasable
Programmable Read -- Only Memory (EEPROM). When these conditions are met, thesystem goes into “closed loop”
operation. In “closed loop”, the ECM calculates the air/fuel ratio (fuel injector on-- time) based on the signals from the
O2 sensors. This allows the air/fuel ratio to stay very close to 14.7 to 1.
Acceleration Mode
The ECM responds to rapid changes in throttle position and airflow and provides extra fuel.
Deceleration Mode
The ECM responds to changes in throttle position and airflow and reduces the amount of fuel. When deceleration is
very fast, the ECM can cut off fuel completely for short periods of time.

1F1 -- 42 M162 ENGINE CONTROLS
D AEW OO M Y_2000
FUEL PUMP
YAA1F380
Requirements for Fuel Pump
ItemSpecified ValueItemSpecified Value
System Pressure3.8 barMinimum Delivery at 8V30 Litre/Hr
Maximum Pressure8.5 bar (12 V)Operating Voltage8V
Minimum Pressure5.0 bar (12 V)Maximum Allowable
Current7.5 A
Nominal Voltage12 VAmbient Temperature-- 30 ~ +70°C
Minimum Amount
of Fuel Supply114 Liter/Hr (12 V, 3.8 bar,
-- 30 ~ +70°C)Maximum Amount
of Fuel Supply165 Liter/Hr (12V, 3.8 bar,
-- 3 0 ~ + 7 0°C)