steering SSANGYONG NEW ACTYON SPORTS 2013 Service Manual

01-4
2. MAJOR COMPONENTS
Front view ▶
Vacuum pump
Oil filter assembly
Camshaft position sensor
Power steering pump pulley
Water pump pulley
Alternator pulley
Idler pulley No. 2
A/C compressor pulley
Auto tensioner
Idler pulley No. 1
Isolation damper
Rear view ▶
E-EGR valve
Fuel temperature sensor
Fuel HP pump assembly
Coolant temperature sensor
IMV valve Crankshaft position sensor
Oil pressure switch

01-6
3. ENGINE COMPARTMENT LAYOUT
Do not work on the engine compartment while the engine, radiator, exhaust manifold, muffler or
catalytic converter is hot. Always turn the engine off and allow it to cool before starting the
maintenance.
Regularly check the engine oil level and add Ssangyong genuine engine oil if necessary.
Clean the dipstick with clean cloth so that any foreign materials cannot get into the engine. -
-
-
Power steering fluid
reservoirBrake fluid reservoir
Fuse & relay
Engine oil dipstick
gaugeWasher fluid
reservoir cap Engine oil filler cap
Air cleaner
Operating vehicle with insuffi cient amount of oil can damage the engine. Make sure the engine oil
level is correct and add oil if necessary.
Coolant reservoir

01-130000-00
NameSizeNumbers of
fastener Tightening
torque (Nm) Note (total
tightening torque)
Idler pulley/tensioner pulley 1
45±4.5Nm -
Glow plug M5 4 20±2Nm -
Vacuum pump M6×25 3 10±1Nm -
Timing gear case cover M6×40 7 10±1Nm -
M6×45 1 10±1Nm -
M6×50 3 10±1Nm -
Cylinder head cover M6×35 21 10±1Nm -
Oil dipstick gauge cover M6×16 1 10±1Nm -
Oil filter cap 1 25±2.5Nm -
Fuel rail M8×25 2 25±2.5Nm -
Injector clamp bolt M6×44 2 9±1.0Nm
130˚±10˚ -
High pressure pipe
(between high pressure pump and fuel rail assembly) M17 1
30±3Nm -
High pressure pipe
(between fuel rail assembly and injector) M17 4
30±3Nm -
Crankshaft position sensor M5×14
1 8±0.4Nm -
Main wiring M6×16 5 10±1Nm -
Intake duct M8×25 425±2.5Nm -
Power steering pump M8×100 3 25±2.5Nm -
Cylinder head front cover M6×10
5 10±1Nm -
Ladder frame M8×355 30±3Nm
-
EGR pipe bolt
(to air duct) M6×16
2 10±1Nm -
EGR pipe bolt
(to EGR cooler) M8×25
225±2.5Nm -

01-150000-00
2) Chassis Variant Coding
Unit Selection Description
Domestic/Export Domestic Select the region.
GEN. Export
EUROPE
EPB application YES Select "NO".
NO
Shift lever type MT AT: Select "DURA lever (CAN)".
MT: Select "MT".
DC lever (CAN)
DURA lever (CAN)
DSIH (NO-CAN)
Electric power steering
(EPS)NO NO
YES
Transper case P/T Select "2WD" or "P/T".
4WD
2WD
TOD
AWD
Sedan/Limousine Sedan (RV) Select "Sedan (RV)".
Limousine
Vehicle code (Engine) Undefined Select "D20DTR".
D32DT
D27DT
D27DTP
D20DTR
EAS NO Select "NO".
ECS
EAS2 corner
EAS4 corner
Telematics NO Select "NO".
YES

02-6
ComponentSizeBolt
Quantity Specified torque
(Nm) Remark
(Total torque)
Glow plug M5 4 20±2Nm -
Vacuum pump M6×253 10±1Nm -
Timing gear case cover M12×55 3 85±8.5Nm -
M6×25 7 10±1Nm -
M6×45 1 10±1Nm -
M6×50 3 10±1Nm -
Cylinder head cover M6×35 21 10±1Nm -
Oil gauge tube M6×16 1 10±1Nm -
Oil filter cap 1 25±2.5Nm -
Fuel rail M8×35SOC 2 25±2.5Nm -
Injector clamp bolt M6×60 2 10±1Nm,
120˚+10˚ -
High pressure pipe
(between HP pump and fuel rail) M17 1
30±3Nm -
High pressure pipe
(between fuel rail and injector) M17 4
30±3Nm -
Crank position sensor M5×14 1 5±1.0Nm -
Main wiring M6×16 5 10±1Nm -
Intake duct M8x25 4 25±2.5Nm -
Power steering pump M8×100 3 25±2.5Nm -
Cylinder head front cover M6×10 5 10±1Nm -
Ladder frame M8×16 5 30±3Nm -
Oil pump M8×35 3 25±2.5Nm -
EGR Cooler
MTG Bolt M8×16
225±2.5Nm -
M8×70 225±2.5Nm -
Idle pulley/Tensioner pulley 1
45±4.5Nm -

02-130000-00
D20DTR Engine
1. BELT LAYOUT
It is single drive type and uses FEAD (Front End Accessories Drive) design to make a compact layout.
Components ▶
HPS (Hydraulic Power Steering)
1 Crankshaft pulley (DDU)
2 Auto tensioner
3 Tensioner pulley
4 Vacuum pump
5 A/C compressor pulley
6 Alternator pulley
7 Water pump pulley
8 Idle pulley #1
9 Idle pulley #2
10 Power steering pump pulley

15-190000-00
C. Idle Speed Controller
The idle speed controller consists of 2 principal modules:
The first module determines the required idle speed according to:
* The operating conditions of the engine (coolant temperature, gear engaged)
* Any activation of the electrical consumers (power steering, air conditioning, others)
* The battery voltage
* The presence of any faults liable to interface with the rail pressure control or the injection control. In
this case, increase the idle speed to prevent the engine from stalling.
The second module is responsible for providing closed loop control of the engine's idle speed by
adapting the minimum fuel according to the difference between the required idle speed and the
engine speed. -
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D. Flow Limitation
The flow limitation strategy is based on the following strategies:
The flow limitation depending on the filling of the engine with air is determined according to the
engine speed and the air flow. This limitation allows smoke emissions to be reduced during
stabilized running.
The flow limitation depending on the atmospheric pressure is determined according to the engine
speed and the atmospheric pressure. It allows smoke emissions to be reduced when driving at
altitude.
The full load flow curve is determined according to the gear engaged and the engine speed. It
allows the maximum torque delivered by the engine to be limited.
A performance limitation is introduced if faults liable to upset the rail pressure control or the
injection control are detected by the system. In this case, and depending on the gravity of the fault,
the system activates: -
-
-
-
Reduced fuel logic 1: Guarantees 75 % of the performance without limiting the engine speed.
Reduced fuel logic 2: Guarantees 50 % of the performance with the engine speed limited to
3,000 rpm.
Reduce fuel logic 3: Limits the engine speed to 2,000 rpm.
The system chooses the lowest of all values.
A correction depending on the coolant temperature is added to the flow limitation. This correction makes
it possible to reduce the mechanical stresses while the engine is warming up.
The correction is determined according to the coolant temperature, the engine speed and the time which
has passed since starting.
E. Superchager Flow Demand
The supercharge flow is calculated according to the engine speed and the coolant temperature. A
correction depending on the air temperature and the atmospheric pressure is made in order to increase
the supercharge flow during cold starts. It is possible to alter the supercharge flow value by adding a flow
offset with the aid of the diagnostic tool

01-91113-01
4. DIAGNOSTIC INFORMATION AND PROCEDURE
1) Oil Leak Diagnosis
Most fluid oil leaks are easily located and repaired by visually finding the leak and replacing or repairing
the necessary parts. On some occasions a fluid leak may be difficult to locate or repair. The following
procedures may help you in locating and repairing most leaks.
Finding the Leak ▶
Identify the fluid. Determine whether it is engine oil, automatic transmission fluid, power steering
fluid, etc.
Identify where the fluid is leaking from. -
-
After running the vehicle at normal operating temperature, park the vehicle over a large sheet
of paper.
Wait a few minutes.
You should be able to find the approximate location of the leak by the drippings on the paper. ·
·
·
Visually check around the suspected component.
Check around all the gasket mating surfaces for leaks. A mirror is useful for finding leaks in
areas that are hard to reach.
If the leak still cannot be found, it may be necessary to clean the suspected area with a
degreaser, steam or spray solvent. -
-
Clean the area well.
Dry the area.
Operate the vehicle for several miles at normal operating temperature and varying speeds.
After operating the vehicle, visually check the suspected component.
If you still cannot locate the leak, try using the powder or black light and dye method. ·
·
·
·
·
Clean the suspected area.
Apply an aerosol-type powder (such as foot powder) to the suspected area.
Operate the vehicle under normal operating conditoins.
Visually inspect the suspected component. You should be able to trace the leak path over the
white powder surface to the source. -
-
-
- Powder Method ▶

01-38410-02
I/P - LH FUSE / RELAY BOX
- Power supply circuit for HFM sensor added (F30)
- Fuse for heated steering wheel added (F32)
1. MAJOR CHANGES
Driver’s interior fuse and relay box assembly changed ▶
F32
F30

04-4
SSPS system-specific information reflected to instrument cluster
2. MAJOR CHANGES
SSPS warning lamp (red) added to lower left corner of the instrument cluster due to introducing of
SSPS (Speed Sensing Power Steering) system
No. 7 terminal (SSPS system malfunction signal) added to sub-connector at rear of instrument
cluster -
-
SSPS warning lamp
Comes on when fault occurs in
SSPS system
Sub-connector
Main connector
SSPS system malfunction
signal (No. 7 terminal)