SsangYong Rexton. Manual — part 407
SSANGYONG Y200
1F1-44 M162 ENGINE CONTROLS
FUEL PRESSURE REGULATOR
YAD1F350
Function of the Fuel Pressure Regulator
The fuel pressure regulator maintains the fuel pressure
in the fuel line with the pressure of 3.2 bars to 3.8 bars
according to the intake manifold pressure. This
operating pressure cannot be changed, and the fuel
injection volume will be only determined by the injection
time.
Over supplied fuel returns to the fuel tank through the
return line.
<Operating at full load>
There is no negative pressure applied to the spring
chamber (9) during the full load, and it is separated
from the fuel chamber (8) by the diaphragm (5).
When the fuel pressure goes up, the diaphragm forces
the compression spring (6) in the direction of
compression. At this moment, the valve (3) sticks to
the diaphragm by the fuel pressure, and the fuel return
line (2) opens. The fuel over supplied returns to the
fuel tank through the return line.
YAD1F360
2 Fuel return line
3 Valve
5 Diaphragm
6 Compression Spring
8 Fuel Chamber
9 Spring Chamber
1 Vacuum Hose
2 Circlip
3 Fuel Pressure Regulator
4 O-Ring
5 O-Ring
A Valves Closed
B Valves Opened
M162 ENGINE CONTROLS 1F1-45
SSANGYONG Y200
YAD1F370
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)
Consequently, the fuel pressure in the fuel distributor
changes by the intake manifold’s negative pressure,
and the injector’s fuel pressure gets reduced
independently to the throttle valve’s position. Thus,
the fuel injection volume can only be determined
according to the injector’s injecting duration.
The pressure difference between the fuel pressure and
the intake manifold is approx. 3.2 bars during idling.
<Operating at Idle and partial load>
The spring chamber (9) is connected to the intake
manifold with the vacuum hose at the intake pipe
connection (7). The negative pressure generated in the
intake manifold 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.
YAD1F380
YAD1F390
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)
<Fuel Pressure Diagram>
YAD1F400
A Fuel pressure
B Intake Manifold Negative Pressure
LL Idling
TL Partial load
VL Full load
The pressure difference between the fuel pressure and
the intake manifold is about 3.8 bars during the full
load.
SSANGYONG Y200
1F1-46 M162 ENGINE CONTROLS
INDUCTION SYSTEM
THROTTLE VALVE ACTUATOR
YAD1F410
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 deenergized, 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 according 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;
•
Idle speed control
•
Cruise control
•
Reducing engine torque for ASR/ABS operation
•
Electronic accelerator emergency running
•
Storing faults
•
Data transfer through CAN
M162 ENGINE CONTROLS 1F1-47
SSANGYONG Y200
YAD1F420
Failure
Code
Description
Trouble Area
Maintenance Hint
Throttle position sensor
1 low voltage
Throttle position sensor
1 high voltage
Throttle position sensor
2 low voltage
Throttle position sensor
2 high voltage
Throttle actuator
learning control failure
Throttle valve return
spring failure
Throttle actuator failure
Different mass air flow
sensor signal with
throttle position sensor
Both throttle position
sensor failure
TPS 1 short circuit to ground
or open
TPS 1 short circuit to power
TPS 2 short circuit to ground
or open
TPS 2 short circuit to power
When actuator adaption
fluctuation or not meet the
condition scan tool
When return spring defective
of actuator with bad contact
When supply voltage of the
actuator short circuit to power
Inspection the ECM
When shut down of output
driver
When defective of both
potentiometers
•
Monitoring the actual values through
•
Inspection the ECM pin 84, 85, 87, 112,
67, 68 about short circuit or open with
bad contact
•
Inspection the throttle valve actuator
•
Inspection the ECM
104
105
108
109
116
119
121
123
125
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