camshaft sensor RENAULT SCENIC 2010 J95 / 3.G Petrol Injection S3000 Injection Workshop Manual
[x] Cancel search | Manufacturer: RENAULT, Model Year: 2010, Model line: SCENIC, Model: RENAULT SCENIC 2010 J95 / 3.GPages: 230, PDF Size: 0.92 MB
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PETROL INJECTION
Fault finding - System operation
17B
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PETROL INJECTION
Fault finding - System operation
17B
17B - 7V9 MR-372-J84-17B050$094.mif
S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54PETROL INJECTION
Fault finding - System operation
1. SYSTEM OPERATION
Composition
The injection system consists of the:
– accelerator potentiometer,
– clutch pedal switch,
– TDC sensor,
– atmospheric pressure sensor,
– air temperature sensor,
– coolant temperature sensor,
– upstream oxygen sensor,
– downstream oxygen sensor,
– cruise control switch,
– steering column switch,
– cruise control on/off switch,
– fuel vapour absorber,
– injection computer,
– motorised throttle valve,
– 4 injectors,
– 4 pencil coils,
– pinking sensor,
– camshaft dephaser solenoid valve (non-LPG K4M only),
– camshaft position sensor (non-LPG K4M only),
– turbocharging pressure sensor (F4R turbo only)
– electric coolant pump (F4R turbo only),
– wastegate solenoid valve (only on F4R Turbo),
– turbocharging solenoid valve (only on F4R-Turbo)
Computer
128 track SAGEM type S3000 FLASH EEPROM computer controlling injection and ignition.
Multipoint injection in sequential mode.
Connections to the other computers:
– air conditioning,
– UCH,
– protection and switching unit (UPC)
– Automatic Gearbox Electronic Control Unit (AUTO).
– airbag,
– ABS/ESP,
– instrument panel.
MR-372-J84-17B050$094.mif
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PETROL INJECTION
Fault finding - System operation
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PETROL INJECTION
Fault finding - System operation
17B
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S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54
Camshaft dephaser
Its role is to modify the valve timing.
The camshaft dephaser is continuously variable in operation.
In applications without a camshaft sensor, the engine phasing is controlled by software. This is the case on engines
that do not have a camshaft dephaser.
This information can be displayed by reading configuration LC008 Camshaft dephaser.
A first strategy called "Memo phasing" is applied to phase the engine management on starting according to the data
recorded when the engine last stalled. Wait for the end of auto-feed (power latch and therefore this data being
saved) before disconnecting the computer.
Then, a second program confirms the first decision. It is based on torque analysis.
The injection computer actuates a camshaft dephaser that varies according to the engine:
–K4M engine
Continuous variable inlet camshaft dephaser between 0 and 43° of the crankshaft, controlled by a solenoid
valve supplied by an opening cycle ratio circuit through the injection computer.
–F4R and F4R-T engines
Inlet camshaft dephaser controlled by a solenoid valve with an all or nothing supply from the injection
computer.
Camshaft position sensor (non-LPG K4M only)
The role of the camshaft sensor is:
– to locate the computer cylinders so that the computer correctly synchronises the sequential injection,
– checks the position of the inlet camshaft.
Motorised throttle valve
The throttle valve carries out idling speed regulation and engine air intake modulation functions. It comprises an
electric motor and two throttle position potentiometers.
When the engine is idling, the throttle position is regulated according to the idling speed setpoint. This setpoint takes
into account the major power consumers (air conditioning) and operating conditions (air temperature and coolant
temperature).
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PETROL INJECTION
Fault finding - System operation
17B
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PETROL INJECTION
Fault finding - System operation
17B
17B - 14V9 MR-372-J84-17B050$094.mif
S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54
3. OBD management
Managed OBD programming is as follows:
– catalytic converter operational fault finding,
– upstream oxygen sensor operational fault finding,
– misfiring fault finding with two levels of detection: pollutant misfiring and catalytic converter breakage
misfiring,
– fuel supply system fault finding.
The misfiring and fuel supply system fault finding is performed continuously.
The operational fault finding for the upstream sensor and the catalytic converter can be only be carried out once per
journey, and can never occur at the same time.
OBD fault manager:
The OBD faults manager does not replace or modify conventional electrical fault management. Perform to comply
with OBD standard.
The requirements are:
●storing OBD faults,
●illuminate the OBD warning light for all faults where the OBD emission thresholds are exceeded,
●flash the OBD warning light for misfire faults damaging the catalytic converter.
Operating principle.
If a fault is detected and confirmed during 3 consecutive journeys then:
●an OBD stored fault is raised,
●the OBD fault warning light receives a request to be lit continuously. This request is only recognised if the
fault in question is authorised to activate the OBD warning light.
To deactivate the warning light, no OBD faults should be detected for 3 consecutive journeys.
The electrical fault finding checks taken into consideration by the OBD faults manager are as follows:
– pressure,
– turbocharging pressure,
– coolant temperature,
– air temperature
– upstream sensor,
– downstream sensor,
– upstream sensor heating,
– downstream sensor heating,
–injector1,
–injector2,
–injector3,
–injector4,– ignition coil 1,
– ignition coil 2,
– ignition coil 3,
– ignition coil 4,
– petrol pump,
– wastegate,
– canister bleed,
– air line system,
– turbocharging system
– pinking sensor,
– camshaft dephaser.
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PETROL INJECTION
Fault finding - System operation
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Fault finding - System operation
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S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54
Camshaft dephaser:
The camshaft dephaser ET083 Camshaft dephaser in defect mode may assume two different statuses.
●Status 1
This defect mode covers all faults that affect the dephaser position measurement. The dephaser is set to the
minimum stop and the camshaft angle measurement is forced to 0.
Tooth signal fault.
Tooth/camshaft signal consistency diagnostic.
●Status 2
This defect mode covers all faults affecting the dephaser (pulley and solenoid valve). The dephaser is set to
the minimum stop.
Electrical fault finding on the solenoid valve.
Dephaser position fault finding procedure.
7. Operational safety
Warning lights illumination
The S3000 Injection system manages the illumination of three warning lights and the display of warning messages
according to the severity of the faults detected, with the aim of informing the customer and guiding fault finding.
The injection computer manages the illumination of warning lights and warning messages displayed on the instrument
panel. These warning lights illuminate during the starting phase and in the event of an injection fault or engine
overheating.
The warning light illumination signals reach the instrument panel via the multiplex network.
Warning light illumination principle
During the starting phase (START button pressed) the OBD (On Board Diagnostic) warning light comes on for
approximately 3 seconds then goes out.
If there is an injection fault (level 1), the message CHECK INJECTION is lit, followed by the SERVICE warning light.
It indicates a reduced level of operation and a limited safety level.
The driver should carry out repairs as soon as possible.
Components involved:
– motorised throttle valve,
– accelerator pedal potentiometer,
– inlet manifold pressure sensor,
– computer,
– actuator feed,
– computer feed.
If there is a serious injection fault (level 2), the red engine symbol and the word STOP (display with information
display only), appears with the message ENGINE OVERHEATING followed by the STOP warning light and a
buzzer. If this happens, the vehicle must be stopped immediately.
When a fault causing excessive pollution in the exhaust gases is detected, the orange OBD warning light engine
symbol is lit:
–flashing in the event of a fault which might cause destruction of the catalytic converter (destructive misfires). If this
happens, the vehicle must be stopped immediately.
–constantly in the case of non-compliance with the anti-pollution standards (polluting misfires, catalytic converter
fault, oxygen sensor faults, inconsistency between the oxygen sensors and canister fault).
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PETROL INJECTION
Fault finding - Allocation of computer tracks17B
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S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54
Connector (B), 48 tracks (continued):
Track Description
J1 Not used
J2 Refrigerant pressure + 5 V feed
J3 Refrigerant pressure + signal
J4 Not used
K1 Not used
K2 Refrigerant pressure sensor earth
K3 Multiplex line L2 engine connection (F4R 771 AUTO, K4M 813 AUTO and K4M 788 LPG only)
K4 Multiplex line H2 engine connection (F4R 771 AUTO, K4M 813 AUTO and K4M 788 LPG only)
L1 Power earth 1
L2 Not used
L3 Inlet camshaft dephaser control (non-LPG K4M only)
L4 Electric coolant pump control (F4RT 774 and 776 only)
M1 Power earth 2
M2 + Battery supply
M3 Motorised throttle valve + signal
M4 Motorised throttle valve - signal
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S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54
Connector (C), 48 tracks:
Track Description
A1 Not used
A2 Downstream oxygen sensor + signal
A3 Not used
A4 Not used
B1 Upstream oxygen sensor + signal
B2 Downstream oxygen sensor - signal
B3 Not used
B4 Not used
C1 Upstream oxygen sensor - signal
C2 Not used
C3 Not used
C4 Not used
D1 Ignition coils and petrol pump relay control
D2 Not used
D3 Not used
D4 Not used
E1 Canister bleed solenoid valve control
E2 Camshaft position sensor earth (non-LPG K4M only)
E3 Not used
E4 Not used
F1 Inlet camshaft input frequency sensor (non-LPG K4M only)
F2 Not used
F3 Not used
F4 Not used
G1 Not used
G2 Not used
G3 Not used
G4 Turbocharging solenoid valve control (F4RT 774, 776 only)
H1 Not used
H2 Not used
H3 Not used
H4 Not used
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PETROL INJECTION
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S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54PETROL INJECTION
Fault finding - Configurations and programming
1. CONFIGURATION
Computer configuration by automatic detection
LC001Vehicle speed connection type
→Multiplex
→Wire
LC003Upstream oxygen sensor
→WITH
→NONE
LC004Downstream oxygen sensor
→WITH
→NONE
LC005Gearbox type
→Automatic gearbox connection
→Sequential gearbox
→Manual gearbox
LC007Cylinder 1 recognition
→WITH
→NONE
LC008Camshaft dephaser
→WITH
→NONE
LC009Air conditioning
→WITH
→NONE
LC010Electronic stability program
→not connected
→connected
LC024OBD warning light management
→WITH
→NONE
LC096Closed brake switch
→YES
→NO
MR-372-J84-17B050$235.mif
Page 31 of 230
PETROL INJECTION
Fault finding - Fault summary table
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Fault finding - Fault summary table
17B
17B-31V9 MR-372-J84-17B050$282.mif
S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54
Tool faultAssociated
DTC codeDescriptionLevel 2 fault
warning light
(Red brake
warning light)Level 1 fault
warning light
(Orange
injection
warning light)No warning
light onOBD
warning light
DF079 0638Motorised throttle
valve automatic
control2.DEF/
3.DEF/
4.DEF/CO/
6.DEF1.DEF/5.DEF/
7.DEF/8.DEF
DF080 0010Camshaft
dephaser circuitCO/CC.0/
CC.1/1.DEF/
2.DEF/3.DEF/
4.DEF/5.DEF
DF081 0443Canister bleed
solenoid valve
circuitCC.O/1.DEF CO/ CC.1
DF084 0685Actuator relay
control circuitCO/CC.0
CC.1
DF085 0627Fuel pump relay
control circuitCO/CC.0
CC.1/1.DEF
DF088 0325Pinking sensor
circuit1.DEF/2.DEF
DF089 0105Inlet manifold
pressure sensor
circuit1.DEF
2.DEF
3.DEF1.DEF
2.DEF
3.DEF
DF091 0500Vehicle speed
signal1.DEF/2.DEF
DF092 0130Upstream oxygen
sensor circuitCO.0
CC.1/1.DEF
2.DEF
DF093 0136Downstream
oxygen sensor
circuitCO.0
CC.1/1.DEF
DF095 0120Throttle
potentiometer
circuit gang 1CO.0/CC.1
1.DEF/2.DEF
DF096 0220Throttle
potentiometer
circuit track 2CO.0/ CC.1
DF099 C101Automatic gearbox
or sequential
gearbox
connection via the
multiplex network1.DEF/2.DEF/
3.DEF/4.DEF
DF101 C122ESP multiplex
connection1.DEF
Page 32 of 230
PETROL INJECTION
Fault finding - Fault summary table
17B
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PETROL INJECTION
Fault finding - Fault summary table
17B
17B-32V9 MR-372-J84-17B050$282.mif
S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54
Tool faultAssociated
DTC codeDescriptionLevel 2 fault
warning light
(Red brake
warning light)Level 1 fault
warning light
(Orange
injection
warning light)No warning
light onOBD
warning light
DF102 2502Signal: power sig.*
available1.DEF
DF105 0585Cruise control/
speed limiter on/off
circuit1.DEF
DF106 0575Cruise control/
speed limiter
function selectors
on steering wheel1.DEF
DF109 0313Low fuel level
misfiring1.DEF/
2.DEF/
3.DEF
DF119 0340Camshaft sensor
signal1.DEF/2.DEF/
3.DEF/4.DEF
DF126 1604Passenger
compartment
heating resistor
(RCH)1.DEF
DF138 0830 Clutch pedal switch 1.DEF
DF154 0335Flywheel signal
sensor circuit1.DEF/2.DEF/
3.DEF
DF196 0225Pedal sensor
circuit gang 11.DEF
CO/CC.0/
CC.1CO/CC.0/
CC.1
2.DEF
DF198 2120Pedal sensor
circuit gang 2CO
CC.0/ CC.1CO
CC.0/ CC.1
DF228 0504 Brake signal 1.DEF/2.DEF
DF232 0530Refrigerant
pressure sensor
circuit1.DEF
DF361 0351Ignition coil control
- cylinders 1 - 4CO.0/CC.1
1.DEFCO.0/CC.1
1.DEF
DF362 0352Ignition coil control
- cylinders 2 - 3CO.0/CC.1
1.DEFCO.0/CC.1
1.DEF
DF377 C115Petrol↔ LPG
connection1.DEF/2.DEF
DF394 0420Catalytic converter
operating fault1.DEF/
2.DEF
DF398 0170Fuel circuit
operating faultCO/ 1.DEF
Page 52 of 230
PETROL INJECTION
Fault finding - Interpretation of faults
17B
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PETROL INJECTION
Fault finding - Interpretation of faults
17B
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S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54
DF059
CONTINUED
Misfiring on
cylinder 1 only
Combustion
misfires in
cylinders 1 and 4
(see DF059
Combustion
misfires in
cylinder 1 and
DF062 Combustion
misfires in
cylinder 4)
Combustion
misfires on all four
cylinders (see
DF060, DF061 and
DF062)
The fault is probably due to a component that can only affect this cylinder:
– check the cylinder 1 pencil coil,
– check the condition and conformity of the spark plugs,
– check the cylinder 1 injector
If everything is in order, check the same components on cylinder 4 (to cover a possible
cylinder recognition error).
The fault is probably due to a component that affects a pair of cylinders:
– check the ignition coil circuit concerned (apply the interpretation of fault DF361
Ignition coil control 1-4),
– check the condition and conformity of the spark plugs.
The fault is probably due to a component affecting all the cylinders:
– check that the correct fuel is being used,
– check the condition and conformity of the spark plugs.
If the fault is still present, carry out the following checks:
– check the flywheel sensor,
– check the condition and cleanliness of the flywheel,
– check the flywheel sensor mounting,
– check the sensor/flywheel air gap,
– check the cylinder compressions,
– check the complete fuel system (see MR 364 or 370 Mechanics, 13A, Fuel supply, Petrol supply system),
– check the complete ignition system (see MR 364 or 370 Mechanics, 17A, Ignition, Spark plugs),
– check the hydraulic tappets if there is camshaft noise (see MR 364 or 370 Mechanics, 11A, Top and front of
engine).
If the fault is still present, deal with the other faults then proceed with the conformity check.
AFTER REPAIRDeal with any faults declared by the diagnostic tool.
Clear the computer memory.
Carry out a road test followed by another check with the diagnostic tool.