2009 RENAULT TWINGO RS relay

17B-11V7 MR-413-X44-17B000$030.mif
PETROL INJECTION
Fault finding – System operation17B
SIM 32 Injection
Program no.: D3
Vdiag No.: 44, 4C, 50
and 54
Engine immobiliser
The SIM 32 computer manages an engine immobiliser program:
–The Verlog 4 type immobiliser function is managed by the UCH computer and the engine management computer.
Before any customer request, the engine management computer and UCH exchange authentication frames via the
multiplex network to determine whether or not to start the engine.
After more than five consecutive failed authentication attempts, the engine management computer goes into
protection (antiscanning) mode and no longer tries to authenticate the UCH. It only leaves this mode when the
following sequence of operations is carried out:
–the ignition is left on for at least 60 seconds,
–the signal is cut off,
–the injection computer self-supply cuts out when it should (the time varies according to engine temperature).
After this, only one authentication attempt is allowed. If this fails again, repeat the sequence of operations described
above.
If the engine management computer still fails to unlock, contact the Techline.
Impact detected
If an impacthas been stored by the injection computer (ET077 Impactdetected), switch off the ignition for10 seconds,
thenswitch it back on so that the e ngine can b e started. Then clear the faults using commandRZ0 01 Fault memory.
Fuel supply
Fuel is supplied by the fuel pump. It is controlled each time the ignition is switched on, for 1 second, to provide a
certain pressure level in the circuit, and thereby achieve correct engine starting, particularly if the vehicle has not
been used for a long time. When the engine is running, the fuel pump relay is always controlled.
Injection
The injectors are controlled according to several modes. The engine is started in "semi-full group" mode (injectors
1 and 4, then injectors 2 and 3 simultaneously). This is to ensure correct engine starting whether or not it is correctly
phased, then it enters sequential mode.
It can sometimes, though rarely, happen that the engine starts when incorrectly phased. Then, after it has changed
to sequential injection mode and as long as the cylinder 1 recognition program has not taken place, the injectors are
offset by two cylinders: injection occurs in 4-2-1-3 order instead of the expected 1-3-4-2.
Injection timing is continuously calculated. It can be zero in the event of cut-off whilst decelerating or overrevving for
example.
Engine phasing
SIM 32 D4F 764 injection systems are equipped with a delayed continuous inlet camshaft dephaser.
The injection receives the position of the camshaft dephaser given by the camshaft sensor signal.
This position does not recognise whether the camshaft dephaser is in defect mode or not.
There are two types of defect mode associated with the various types of camshaft dephaser faults:

17B-20V7 MR-413-X44-17B000$040.mif
PETROL INJECTION
Fault finding – List and location of components17B
SIM 32 Injection
Program no.: D3
Vdiag No.: 44, 4C, 50
and 54
Air temperature sensor:
The air temperature sensor is located between the air filter and the motorised throttle valve.
Catalytic converter:
The catalytic converter is located on the exhaust pipe at the exhaust manifold outlet.
Cruise control/speed limiter on/off switch:
This switch is located inside the passenger compartment to the left of the steering wheel near the lighting rheostat.
Fan unit relay:
The relay is located on the cooling radiator.
Accelerator potentiometer:
The potentiometer is located on the accelerator pedal.
Clutch pedal switch:
The switch is located on the clutch pedal.
Inlet air temperature sensor:
This sensor is located underneath the inlet manifold near the dipstick (except D4FT).

17B-23V7 MR-413-X44-17B000$060.mif
PETROL INJECTION
Fault finding – Features17B
SIM 32 Injection
Program no.: D3
Vdiag No.: 44, 4C, 50
and 54
Engine immobiliser
The SIM 32 computer manages an engine immobiliser program:
–The Verlog 4 type immobiliser function is managed by the UCH computer and the engine management computer.
Before any customer request, the engine management computer and UCH exchange authentication frames via the
multiplex network to determine whether or not to start the engine.
After more than five consecutive failed authentication attempts, the engine management computer goes into
protection (antiscanning) mode and no longer tries to authenticate the UCH. The engine management computer only
exits this mode if the following sequence of operations is respected:
–the ignition is left on for at least 60 seconds,
–the signal is cut off,
–the injection computer self-feed deactivates when it should (the time varies according to engine coolant
temperature.
Following this sequence of operations, a single authentication attempt is authorised. If this fails again, repeat the
sequence of operations described above.
If the engine management computer still fails to unlock, contact the Techline.
Impact detected
If an impact has been stored by the injection computer (ET077 Impact detected), switch off the ignition for
10 seconds, then switch it back on so that the engine can be started. Then clear the faults using command RZ001
Fault memory.
Fuel supply
Fuel is supplied by the fuel pump. It is controlled each time the ignition is switched on, for 1 second, to provide a
certain pressure level in the circuit, and thereby achieve correct engine starting, particularly if the vehicle has not
been used for a long time. When the engine is running, the fuel pump relay is always controlled.
Injection
The injectors are controlled according to several modes. In particular, the engine is started in semi-full group mode
(injectors 1 and 4, then injectors 2 and 3 simultaneously), to ensure a correct start whether or not it is correctly
phased, then it enters sequential mode.
It can sometimes, though rarely, happen that the engine starts when incorrectly phased.
Then, after it has changed to sequential injection mode and as long as the cylinder 1 recognition program has not
taken place, the injectors are offset by two cylinders: injection occurs in the order 4-2-1-3 instead of the expected
order 1-3-4-2.
Injection timing is continuously calculated. It can be zero in the event of cut-off whilst decelerating or overrevving for
example.

17B-31V7 MR-413-X44-17B000$070.mif
PETROL INJECTION
Fault finding – Role of components17B
SIM 32 Injection
Program no.: D3
Vdiag No.: 44, 4C, 50
and 54
TDC sensor:
The angular position is measured using a magneto-inductive sensor triggered by the machined teeth on the engine
flywheel. This sensor gives the engine speed as well as the position of the crankshaft for injection.
Refrigerant pressure sensor:
Its role is to measure the refrigerant pressure in the air conditioning circuit.
Engine coolant temperature sensor:
The engine coolant temperature sensor informs the computer of the engine coolant temperature.
Air temperature sensor:
The air temperature sensor is fitted inside the inlet manifold and informs the computer of the temperature of the air
taken in by the engine.
Catalytic converter:
The role of the catalytic converter is to convert pollutant gases into harmless gases.
Cruise control/speed limiter on/off switch:
This switch is used to turn the cruise control/speed limiter on or off.
Fan unit relay:
This relay actuates the motor-driven fan assemblies when a temperature threshold has been exceeded.
Accelerator potentiometer:
The accelerator potentiometer informs the computer of the position of the accelerator pedal (engine load).
Clutch pedal switch:
The clutch pedal switch informs the computer of the clutch pedal status.
Inlet air temperature sensor:
Its role is to measure the air temperature in the inlet circuit.
Pinking sensor:
Its role is to check for pinking in the combustion chamber.
Oil level sensor:
This sensor measures the level of oil in the engine and sends this information to the computer.

17B-40V7 MR-413-X44-17B000$120.mif
17B
SIM 32 Injection
Program no.: D3
Vdiag No.: 44, 4C, 50
and 54
Tool faultAssociated
DTCDiagnostic tool title
DF001115Coolant temperature sensor circuit
DF002110Air temperature sensor circuit
DF004235Turbocharger pressure sensor circuit (Vdiag 54 only)
DF011641Sensor supply voltage no. 1
DF012651Sensor feed voltage no. 2
DF026201Cylinder 1 injector control circuit
DF027202Cylinder 2 injector control circuit
DF028203Cylinder 3 injector control circuit
DF029204Cylinder 4 injector control circuit
DF038606Computer
DF046560Battery voltage
DF054243Turbocharger solenoid valve control circuit (Vdiag 54 only)
DF059301Misfiring on cylinder 1
DF060302Misfiring on cylinder 2
DF061303Misfiring on cylinder 3
DF062304Misfiring on cylinder 4
DF079638Motorised throttle valve automatic control
DF08010Camshaft dephaser circuit (Vdiag 4C/50 only)
DF081443Canister bleed solenoid valve circuit
DF082135Upstream oxygen sensor heating circuit
DF083141Downstream oxygen sensor heating circuit
DF084685Actuator relay control circuit
DF085627Fuel pump relay control circuit
PETROL INJECTION
Fault finding – Fault summary table

17B-42V7 MR-413-X44-17B000$120.mif
PETROL INJECTION
Fault finding – Fault summary table17B
SIM 32 Injection
Program no.: D3
Vdiag No.: 44, 4C, 50
and 54
* TA: Automatic Transmission
* RV/LV: Cruise control/Speed limiter function
Tool faultAssociated
DTCDiagnostic tool title
DF330325Pinking sensor circuit
DF361351Ignition coil circuit 1-4
DF362352Ignition coil 2-3 circuit
DF394420Catalytic converter operating fault
DF398170Fuel circuit operating fault
DF404C302ATX* or sequential gearbox multiplex connection
DF436300Detection of engine misfiring
DF455460Low fuel level signal
DF457315Flywheel target
DF5082101Motorised throttle valve control
DF559480Low speed fan assembly relay control
DF561481High-speed fan assembly relay control
DF5692263Turbocharger circuit (Vdiag 54 only)
DF603C167UCH multiplex connection
DF6121605Oil vapour anti-icing resistor circuit
DF623C315Closing brake signal
DF624C111UPC multiplex connection
DF6502299Accelerator pedal position signal
DF8930597Controlled coolant thermostat circuit (only for CLIO III or MODUS except
Vdiag 44)
DF1012585Multiplex signal consistency for RV/LV*
DF1058234Inlet pressure consistency (only for CLIO III or MODUS)
DF1072645Air conditioning compressor command relay (only for CLIO III or MODUS)

17B-47V7 MR-413-X44-17B000$131.mif
PETROL INJECTION
Fault finding – Interpretation of faults17B
SIM 32 Injection
Program no.: D3
Vdiag No.: 44, 4C, 50
and 54
DF011
PRESENT
OR
STOREDSENSOR SUPPLY VOLTAGE NO. 1
1.DEF: Abnormal voltage
2.DEF: Fault on potentiometer supply 1
3.DEF: EOBD
NOTESPriorities when dealing with a number of faults:
Deal with the fault DF084 Actuator relay control circuit or DF046 Battery voltage as
a priority if they are present or stored.
Conditions for applying the fault finding procedure to stored faults:
The fault is declared present when the ignition is switched on.
Special notes:
In the event of a short circuit to earth or to + 12V, the severity level 1 warning light is
illuminated.
The injection changes over to defect modes 4 and 5, which causes:
–the speed to be limited to 66 mph (110 km/h),
–a loss of power when accelerating (impression that the accelerator pedal is spongy),
–loss of signals from other computers and switch to safe mode on automatic and
sequential gearboxes, if required.
The OBD warning light may illuminate, depending on the sensors affected.
Use the Wiring Diagrams Technical Note for NEW TWINGO, E33, CLIO III,
or MODUS.
Check the cleanliness and condition of the sensor connections for supply voltage assembly No.1:
–manifold pressure sensor, component code 147,
–pedal potentiometer (gang 2), component code 921,
–rotary switch, component code 689,
–refrigerant fluid pressure sensor, component code 1202.
Check the condition of the engine management computer connector, component code 120.
If the connector or connectors are faulty and if there is a repair procedure (see Technical Note 6015A, Repairing
electrical wiring, Wiring: Precautions for repair), repair the connector, otherwise replace the wiring.
SIM32_V44_DF011/SIM32_V4C_DF011/SIM32_V50_DF011/SIM32_V54_DF011
AFTER REPAIRDeal with any other faults. Clear the fault memory.
Switch off the ignition, wait 1 minute and carry out a road test followed by a check with
the diagnostic tool.

17B-51V7 MR-413-X44-17B000$131.mif
PETROL INJECTION
Fault finding – Interpretation of faults17B
SIM 32 Injection
Program no.: D3
Vdiag No.: 44, 4C, 50
and 54
DF026
PRESENT
OR
STOREDCYLINDER No. 1 INJECTOR CONTROL CIRCUITCO: Open circuit
CC.0: Short circuit to earth
CC.1: Short circuit to + 12 V
1.DEF: EOBD
NOTESPriorities when dealing with a number of faults:
Deal with the fault DF084 Actuator relay control circuit or DF046 Battery voltage as
a priority if they are present or stored.
Conditions for applying the fault finding procedure to stored faults:
The fault is considered present when the engine is running.
Special notes:
CO/CC.1: No injection on cylinder 1. Greatly reduced performance.
OBD warning light illuminated.
CC.0: The injector is still open: there is a risk of the engine stalling or being damaged
when starting. Greatly reduced performance. OBD warning light illuminated.
Use the Wiring Diagrams Technical Note for NEW TWINGO, E33, CLIO III, or
MODUS.
Check the condition of the injector no. 1 connector (component code 193).
If the connector is faulty and if there is a repair method (see Technical Note 6015A, Repairing electrical wiring,
Wiring: Precautions for repair), repair the connector, otherwise change the wiring.
SIM32_V44_DF026/SIM32_V4C_DF026/SIM32_V50_DF026/SIM32_V54_DF026
AFTER REPAIRDeal with any other faults. Clear the fault memory.
Switch off the ignition, wait 1 minute and carry out a road test followed by a check with
the diagnostic tool.