1997 SSANGYONG KORANDO traction control

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 -- 75
D AEW OO M Y_2000
TRACTION CONTROLSYSTEM (TCS)
KAB1F310
Failure
CodeDescriptionTrouble AreaMaintenance Hint
150TCS input signal short
circuit to batteryTCS short circuit to powerDInspection the Engine Control Module
(ECM) pin 45 about short circuit or
openwithbadcontact
151TCS input signal short
circuit to ground or openTCS short circuit to ground or
open
openwithbadcontact
DInspection the TCS lamp of I/P cluster.
DInspection the ECM
Circuit Description
Battery voltage is supplied to the TCS warning lamp with the ignition in ON and START. The warning lamp can be
activated only by the Electrical Brake Control Module (EBCM) internally supplying ground to terminal 32. If the TCS
input circuit is open or short, this failure codewill be set.

D AEW OO M Y_2000
SECTION 1F2
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 1F2 -- 2....
Specifications 1F2 -- 3............................
Engine Data Display Table 1F2 -- 3.................
Fastener Tightening Specifications 1F2 -- 4..........
Fuel System Specification 1F2 -- 5.................
Temperature vs Resistance 1F2 -- 5................
Special Tools and Equipment 1F2 -- 6..............
Special Tools Table 1F2 -- 6.......................
Schematic and Routing Diagrams 1F2 -- 7..........
ECM Wiring Diagram
(2.3L DOHC -- MSE 3.53S) 1F2 -- 7..............
Diagnosis 1F2 -- 14................................
Failure Code Diagnosis 1F2 -- 14.....................
Clearing Failure Codes 1F2 -- 14...................
Failure Codes Table 1F2 -- 14.....................
Ignition System 1F2 -- 18...........................
Ignition Coil 1F2 -- 20.............................
Crankshaft Position (CKP) Sensor 1F2 -- 22.........
Camshaft Position (CMP) Sensor 1F2 -- 26..........
Camshaft Actuator 1F2 -- 30......................
Knock Sensor (KS) 1F2 -- 32......................
Spark Plug 1F2 -- 34.............................
System Voltage 1F2 -- 38.........................
Ignition Switch 1F2 -- 39..........................
Fuel System 1F2 -- 40..............................
Fuel Pump 1F2 -- 42.............................
Fuel Injector 1F2 -- 46............................
Purge Control Valve 1F2 -- 50.....................
Fuel Rail 1F2 -- 52...............................
Fuel Pressure Regulator 1F2 -- 54.................
Induction System 1F2 -- 56..........................
Throttle Valve Actuator 1F2 -- 56...................
Hot Film Air Mass (HFM) Sensor 1F2 -- 60..........
Engine Coolant Temperature (ECT) Sensor 1F2 -- 64.
Accelerator Pedal Module 1F2 -- 68................Cooling Fan 1F2 -- 72............................
A/C Compressor Relay 1F2 -- 73...................
Cruise Control Switch 1F2 -- 74....................
Traction Control System (TCS) 1F2 -- 75............
Stop Lamp Switch 1F2 -- 76.......................
Engine RPM 1F2 -- 77............................
Exhaust System 1F2 -- 78...........................
Catalytic Converter 1F2 -- 78......................
Oxygen Sensor 1F2 -- 80.........................
Engine Control Module 1F2 -- 86.....................
Serial Data Communication 1F2--88...............
Internal Failure 1F2 -- 90..........................
Electronic Throttle Controller Safety
Malfunction 1F2 -- 92...........................
Immobilizer 1F2 -- 94.............................
Maintenance and Repair 1F2 -- 95..................
On -- Vehicle Service 1F2 -- 95........................
Discharging the Pressure in Fuel System 1F2 -- 95...
Fuel Pump 1F2 -- 95.............................
Fuel Filter 1F2 -- 96..............................
Fuel Tank 1F2 -- 97..............................
Fuel Pressure Regulator 1F2 -- 98.................
Fuel Rail and Injector 1F2 -- 99....................
Engine Coolant Temperature Sensor 1F2 -- 100......
Throttle Body (Integrated with the
Actuator) 1F2 -- 101............................
Hot Film Air Mass (HFM) Sensor 1F2 -- 102.........
Knock Sensor 1F2 -- 102..........................
Pedal Position Sensor 1F2 -- 103...................
Oxygen Sensor 1F2 -- 103........................
Purge Control Valve 1F2 -- 104....................
Canister 1F2 -- 104...............................
Camshaft Position Sensor 1F2 -- 104...............
Crankshaft Position Sensor 1F2 -- 105..............
Engine Control Module 1F2 -- 105..................

M161 ENGINE CONTROLS 1F2 -- 75
D AEW OO M Y_2000
TRACTION CONTROLSYSTEM (TCS)
KAB1F310
Failure
CodeDescriptionTrouble AreaMaintenance Hint
150TCS input signal short
circuit to batteryTCS short circuit to powerDInspection the Engine Control Module
(ECM) pin 45 about short circuit or
openwithbadcontact
151TCS input signal short
circuit to ground or openTCS short circuit to ground or
open
openwithbadcontact
DInspection the TCS lamp of I/P cluster.
DInspection the ECM
Circuit Description
Battery voltage is supplied to the TCS warning lamp with the ignition in ON and START. The warning lamp can be
activated only by the Electrical Brake Control Module (EBCM) internally supplying ground to terminal 32. If the TCS
input circuit is open or short, this failure codewill be set.

TIRE AND WHEELS 2E-3
SSANGYONG MY2002
TIRE CHAIN USAGE
Due to limited tire-to-body clearance on certain
vehicles, recommendations for tire chain use are
published in the Owner’s Manual. When tire chains
need to be used, most current Ssangyong vehicles
require SAE Class “S” tire chains. These may also be
designated as 1100 Series, type PL tire chains. These
chains are specifically designed to limit the “fly off”
effect which occurs when the wheel rotates.
Be sure that only fine-link chains are used which do
not add more than 15 mm (0.590 inch), including the
lock, to the tread surface and the inner sides of the
tires. Manufacturers of tire chains have a specific chain
size for each tire size to ensure a proper fit when the chain
is installed. Be sure to purchase the correct chains for the
tires on which they are to be used. Use rubber adjusters to
take up any slack or clearance in loose chains.
Use of chains may adversely affect vehicle handling.
When tire chains are installed, follow these precautions:
Adjust speed to road conditions.
Avoid sharp turns.
Avoid locked-wheel braking.
To prevent chain damage to the vehicle, install the
chains on the front tires as tightly as possible. Tighten
them again after driving 0.4 to 0.8 kilometer (0.3 to 0.5
mile). The use of chains on the rear tires is not recom-
mended because they may contact the vehicle and pos-
sibly damage it. If chains must be used on the rear
tires, be sure there is sufficient clearance between the
chains and the body. Do not exceed 70 km/h (45 mph)
or the chain manufacturer’s speed limit, if lower. Avoid
large bumps, potholes, severe turns and any other
maneuvers which could cause the tires to bounce.
Follow any other instructions of the chain manufacturer
which do not disagree with the above instructions.
REPLACEMENT TIRES
A tire performance criteria (TPC) specification number
is molded in the sidewall near the tire size of all original
equipment tires. This specification number assures that
the tire meets performance standards for traction, en
durance, dimensions, noise, handling and rolling
resistance. Usually a specific TPC number is assigned
to each tire size.
Caution: Do not mix different types of tires on the
same vehicle such as radial, bias and bias-belted
tires except in emergencies, because vehicle han-
dling may be seriously affected and may result in
loss of control.Use only replacement tires with the same size, load
range, and construction as the original. The use of any
other tire size or construction type may seriously affect
ride, handling, speedometer/odometer calibration, ve-
hicle ground clearance, and tire clearance to the body
and the chassis. This does not apply to the spare tire
furnished with the vehicle.
It is recommended that new tires be installed in pairs
on the same axle.
If it is necessary to replace only one tire, pair it with the
tire having the most tread to equalize the braking action.
Although they may appear different in tread design, tires
built by different manufacturers with identical TPC speci-
fications may be used on the same vehicle.
ALL SEASON TIRES
Most vehicles are now equipped with steel-belted all
season radial tires as standard equipment. These tires
qualify as snow tires, with a 37 percent higher average
rating for snow traction than the non-all season radial
tires previously used. Other performance areas, such
as wet traction, rolling resistance, tread life, and air
retention, have also been improved. This was done by
improvements in both tread design and tread
compounds. These tires are identified by an “M + S”
molded in the tire sidewall following the size number.
The suffix “MS” is also molded in the sidewall after
the TPC specification number.
The optional handling tires used on some vehicles are
not all season tires. These will not have the “MS” mark-
ing after the tire size or the TPC specification number.
PASSENGER METRIC SIZED TIRES
All Daewoo vehicles now use passenger (P) metric sized
tires. P-metric tires are available in two load ranges:
standard load (35 psi maximum) and extra load (41 psi
maximum). Most passenger vehicle tires are standard
load.
Most P-metric tire sizes do not have exact correspond-
ing alphanumeric tire sizes. For example, a P175/70R13
is not exactly equal in size and load-carrying capacity
to an FR70-13. For this reason, replacement tires should
be of the same TPC specification number as the origi-
nals. If P-metric tires must be replaced with other sizes,
consult a tire dealer. Tire companies can best recom-
mend the closest match of alphanumeric to P-metric
sizes within their own tire lines.
The metric term for measuring tire inflation pressure is
the kilopascal (kPa). Tire pressure may be printed in
both kPa and psi. One psi equals 6.895 kPa.
See the tire label or refer to “Tire Size and Pressure
Specifications” in this section for tire inflation
pressures.

SSANGYONG MY2002
4B-2 MASTER CYLINDER
DESCRIPTION AND OPERATION
GENERAL DESCRIPTION
The master cylinder is designed for use in a parallel
split system. One front and one parallel to rear brakes
are served by the primary piston. The opposite front
and rear brakes are served by the secondary piston.
The master cylinder incorporates the functions of the
standard dual master cylinder, plus a low fluid level
indicator. The brake fluid level switch is attached under
the body of the plastic brake master cylinder reservoir.
Notice: Do not use lubricated shop air on the brake
parts, because oil will damage the rubber components.Important:•Replace all the components included in the repair
kits used to service the master cylinder.
Lubricate the rubber parts with clean brake fluid to
ease assembly.
If any hydraulic component is removed or discon-
nected, it may be necessary to bleed all or part of
the brake system. Refer to Section 4F, Antilock
Brake System and Traction Control System.
The torque values specified are for dry, unlubricated
fasteners.
Perform all service operations on a clean bench,
free from all traces of mineral oil.

MASTER CYLINDER 4B-5
SSANGYONG MY2002
KAA4B060
4. Remove and discard the brake fluid reservoir seals
from the master cylinder body.
Installation Notice:
Lubricate the new brake fluid reservoir seals with
clean brake fluid.
After the installation, bleed the brake system.
Refer to Section 4F, Antilock Brake System and
Traction Control System.
5. Installation should follow the removal procedure
in the reverse order.
YAD4A340
YAD4A350
YAD4A360
3. Remove the master cylinder.
Retain the master cylinder in the vice and
remove the retainer ring from the master cylinder
using the snap ring plier. 2. Loosen the mounting nut of the master cylinder
and remove the master cylinder from the power
booster.
MASTER CYLINDER
Removal Procedure
1. Disconnect the brake lines from the master
cylinder.
Notice: The brake fluid may damage paintwork, if
spillage onto paintwork, wash with cold water
immediately.

SSANGYONG MY2002
4C-2 POWER BOOSTER
DESCRIPTION AND OPERATION
GENERAL DESCRIPTION
The power booster is a double-diaphragm, vacuum-sus
pended unit. In normal operating mode, with the service
brakes in the release position, a vacuum-suspended
booster operates with a vacuum on both sides of its
diaphragm. When the brakes are applied, air at
atmospheric pressure is admitted to one side of the
diaphragm to provide the power assist.When the brakes are released, atmospheric air is shut
off from that side of the diaphragm. The air is then
drawn from the booster through the vacuum check
valve by the vacuum source.
Important: If any hydraulic component is removed or
disconnected, it may be necessary to bleed all or part
of the brake system. Refer to Section 4F, Antilock
Brake System and Traction Control System.