differential RENAULT SCENIC 2011 J95 / 3.G Engine And Peripherals Siemens Injection Workshop Manual

13B-11
MR-372-J84-13B050$117.mif
V17
Siemens Injection
SID301 and 304
Vdiag No.: 44-45-48-49-4D-4C
Program No.: B1 and B2DIESEL INJECTION
Fault finding – List and location of components13B
Particle filter downstream temperature sensor:
The sensor is located after the particle filter. (Vdiag 45, 49 and 4D only)
Particle filter upstream temperature sensor:
The sensor is located before the particle filter. (Vdiag 45, 49 and 4D only)
Particle filter differential pressure sensor:
The sensor is located on the particle filter. (Vdiag 45, 49 and 4D only)

13B-12
MR-372-J84-13B050$156.mif
V17
13B
DIESEL INJECTION
Fault finding – Operating diagram
1 Flowmeter
2 Air temperature sensor (integrated into the
flowmeter)
3 Turbocharging pressure sensor
4 Air flap
5 Direct current EGR valve
6 Variable geometry turbocharger solenoid
valve (VGT)
7 Flow regulator
8 Pressure regulator
9 Rail pressure sensor
10 Fuel temperature sensor
11 Heater plugs
12 Coolant temperature sensor
13 TDC sensor
14 Camshaft sensor
15 Atmospheric pressure sensor16 Freon pressure sensor
17 Accelerator pedal
18 Clutch switch
19 Brake switch
20 Turbine upstream temperature sensor
21 Catalytic converter downstream temperature sensor
22 Particle filter upstream temperature sensor (SID 304)
23 Particle filter downstream temperature sensor (SID 304)
24 Particle filter differential pressure sensor (SID 304)
25 Particle filter injector fuel pump (SID 304)
26 Particle filter injector (SID 304)
27 Electric coolant pump (SID 304)
28 Heating elements (SID 304)
29 Multiplex line network (multiplexing)
30 Water in diesel fuel sensor (optional)
MR-372-J84-13B050$156.mif
Siemens Injection
SID301 and 304
Vdiag No.: 44-45-48-49-4D-4C
Program No.: B1 and B2

13B-13
MR-372-J84-13B050$195.mif
V17
13B
DIESEL INJECTION
Fault finding – Function
SYSTEM FLOWCHART
The high pressure injection system is designed to deliver a precise quantity of diesel fuel to the engine at a set
moment.
The Siemens VDO piezo Common Rail system used on the K9K Step 2 engine is a second generation Common Rail
injection system. Fuel pressure in the rail can reach a maximum of 1650 bar.
The Siemens VDO piezo Common Rail system uses injectors which are controlled by piezoelectric actuators.
The fuel is pressurised by means of a high pressure pump then sent to a rail which supplies the four injectors.
The system includes two subsystems, which have different fuel pressure levels:
●the low pressure system which includes the tank, diesel fuel filter, internal fuel transfer pump and injector
return pipes,
●the high pressure system which includes the high pressure pump, rail, injectors and high pressure pipes.
There are a number of sensors and regulating actuators for controlling and monitoring the entire system.
It is fitted with a 112- track (or 128- track for Kangoo II) SIEMENS computer (SID 301 and SID 304).
The system comprises:
– a priming bulb,
– a diesel filter,
– a high pressure pump (HPP) with a fuel pressure solenoid valve (PCV), a fuel flow solenoid valve (VCV) and an
internal fuel transfer pump (ITP, low pressure pump),
– an injector rail,
– a rail pressure sensor,
– four piezoelectric injectors,
– a fuel temperature sensor,
– a coolant temperature sensor,
– a camshaft sensor,
– a TDC sensor,
– a turbocharger pressure sensor,
– an exhaust gas recirculation solenoid valve with integrated position sensor (EGR),
– an accelerator pedal potentiometer,
– an atmospheric pressure sensor integrated into the injection computer,
– an air mass flowmeter with integrated air temperature sensor,
– an air damper valve (Vdiag 44, 45, 48, 49 and 4D only),
– a temperature sensor upstream of the turbine,
– an antipollution system:
●a temperature sensor upstream of the particle filter (Vdiag 45, 49, 4D only),
●a temperature sensor downstream of the particle filter (Vdiag 45, 49, 4D only),
●a particle filter differential pressure sensor (Vdiag 45, 49, 4D only),
●a particle filter injector (Vdiag 45, 49, 4D only),
●a particle filter (Vdiag 45, 49, 4D only),
– a temperature sensor downstream of the catalytic converter,
– an electric fuel pump,
– an electric coolant pump (Vdiag 45, 49, 4D only),
– four heating elements and their control unit (Vdiag 45, 49, 4D only),
– four heater plugs,
– a water in the fuel detection sensor (optional).
MR-372-J84-13B050$195.mif
Siemens Injection
SID301 and 304
Vdiag No.: 44-45-48-49-4D-4C
Program No.: B1 and B2

13B-19
MR-372-J84-13B050$195.mif
V17
Siemens Injection
SID301 and 304
Vdiag No.: 44-45-48-49-4D-4C
Program No.: B1 and B2DIESEL INJECTION
Fault finding – Function13B
INTERSYSTEM EXCHANGES
The inter-system connections concerning the particular requirements of engine management are as follows:
●Request for injection computer to switch on the OBD warning light to warn of an OBD related pollution fault.
●Request to switch on the Level 1 warning light to warn of an operational safety fault with the engine
management system which may restrict performance.
●Request to switch on the Level 2 warning light to warn of an operational safety fault with the engine
management system which may result in the engine stopping.
●Request to switch on the Particle Filter and Service warning light to warn of an operational safety fault of the
particle filter system which may result in reduced performance or engine stoppage.
●Request to switch on the Engine overheating warning light to warn of an engine overheating fault or a fault
in the coolant temperature sensor.
●Request to switch on the Particle filter warning light to warn the driver that the particle filter is loaded with
particles (weight of soot more than 30.8 g). As soon as possible, the driver must drive at a speed of more than
25 mph (40 km/h) for 2 minutes to activate regeneration.
The driver must maintain a speed of more than 25 mph (40 km/h) until the particle filter warning light goes out
(Vdiag 45 and 49 only).
●Request to start the fan assembly for engine cooling and also for air conditioning purposes,
●Request to switch off the air conditioning compressor for engine programming requirements such as pulling
away, performance, anti-stalling, overspeed, etc.
●Request to switch off electrical consumers (passenger compartment heating resistor (if fitted), heated rear
screen, etc.) for engine operation purposes such as: pulling away, performance, anti-stalling,
overspeed, etc.
●Formulation of requests to engage electrical consumers and limit power as a function of rail conditions.
This last function is made possible with the introduction of alternator control. Formulation of requests enables
the smooth running of the engine to be improved in the critical operating phases, mainly at idle speed and
when pulling away. These requests pass via the multiplex network to the Protection and Switching Unit where
they are converted before being sent to the alternator.
In comparison to the version without a particle filter (K9K Step 2), the K9K Step 2 particle filter technical
specifications also include:
●Four temperature sensors spread along the exhaust system.
●One differential pressure sensor.
●One fuel injector with a dedicated electric fuel pump.
●An electric water pump (in addition to the mechanical pump) controlled by a relay to cool the turbocharger when
the engine is stopped (only for Clio III, Modus and Mégane II/Scénic II).
●Four heating elements and their control unit.
Oil Control System (OCS) (except Vdiag 44, 45 and 49)
This program takes into account the driving style of the user to warn him of the need for an oil change. This program
counts the number of miles since the last oil change, corrected by a factor which depends on the oil temperature.
When the number of miles exceeds a threshold, the customer is warned by a message to the instrument panel that
the drain must be performed.
After the oil change, the user must reset the oil change interval on the instrument panel.

13B-20
MR-372-J84-13B050$195.mif
V17
Siemens Injection
SID301 and 304
Vdiag No.: 44-45-48-49-4D-4C
Program No.: B1 and B2DIESEL INJECTION
Fault finding – Function13B
The exhaust system is fitted with an exhaust gas treatment system consisting of (in order):
●A shell casing containing an oxidation catalytic converter to treat hydrocarbons and carbon monoxide, the volume
and positioning of which is identical to K9K Step 2 without a particle filter.
●A fuel injector supplied by a second fuel circuit which is independent of the main fuel circuit.
●A second casing containing an oxidation catalytic converter and a particle filter positioned under the vehicle floor.
EXHAUST GAS TREATMENT
Operating principle
Regeneration consists of burning the particles accumulated in the filter. When oxygen is present, regeneration
by particle combustion occurs naturally when the exhaust gas temperature reaches 570°C.
This temperature is very different to the temperatures observed in the normal operating range of a common rail
engine. In town, the engine does not produce much heat and the exhaust gas temperature varies between 250°C
and 300°C. Whatever the driving conditions may be, a particle filter regeneration program should be developed
without an effect on driving pleasure.
A differential pressure sensor monitors the status of the particle filter (particle weight) and triggers regeneration.
Regeneration is performed by specific injection regulation (phased injection and post-injection) which brings the
temperature of the exhaust gas to between 550 °C and 650 °C at the particle filter inlet.
Regeneration lasts at least 30 minutes and is carried out every 165 miles (275 km) (minimum interval between 2
successful regenerations).
Certain types of customer driving (mainly urban driving) may cause the particle filter to accumulate a significant
quantity of particles. This amount of soot may impair customer experience: poor vehicle performance due to
excessive pressure in the exhaust system.
This driving type may cause the speed request (Vdiag 45 and 49 only) warning light to come on when the particle
weight reaches 30.8 g or after 10 regeneration failures or if the distance between each regeneration reaches
111 0 m il es (1850 km). The customer is asked to drive in a certain way (see vehicle handbook).
However, this warning may be misinterpreted or taken to be a vehicle fault. The vehicle must not be returned to the
garage after such a warning; if the vehicle is taken back to the garage and accepted for repair, the mechanic should
carry out After-Sales regeneration.
PARTICLE FILTER INJECTOR PROGRAM
The particle filter injector is clamped in place inside a cooling cylinder head, which itself is attached to the output
cone of the first oxidation catalytic converter. The coolant flows into the cylinder head via a take-off pipe on the
cooling system and leaves via a hose connected to the turbocharger.
This injector is used to replace post injection in areas of low load and low flow.
This injector is supplied by an additional electric fuel pump.
The electric fuel pump is:
●controlled by a relay during each regeneration phase or purge,
●integrated into the suction module submerged in the tank,
●connected to the second fuel circuit.

13B-21
MR-372-J84-13B050$195.mif
V17
Siemens Injection
SID301 and 304
Vdiag No.: 44-45-48-49-4D-4C
Program No.: B1 and B2DIESEL INJECTION
Fault finding – Function13B
Faults that activate the OBD warning light
PRECAUTIONS/RISKS
The main recommendation regarding the system is:
Never electrically disconnect the injectors with the engine running.
The piezoelectric technology used for the injector system means that the injectors receive a control pulse to open
and another control pulse to close. If the injector is disconnected between these 2 pulses while the engine is
running, i.e. during the actual injection process, the injector will remain open long enough to create very
unfavourable thermodynamic conditions in the cylinder(s) or generate hydraulic pressure which may result in
engine damage. Tool fault Associated DTC Diagnostic tool title
DF003 2226Atmospheric pressure sensor circuit
DF004 0235Turbocharging pressure sensor circuit
DF011 0641Sensor feed no. 1 voltage
DF012 0651Sensor feed voltage no. 2
DF016 0487EGR control circuit
DF026 0201Cylinder 1 injector control circuit
DF027 0202Cylinder 2 injector control circuit
DF028 0203Cylinder 3 injector control circuit
DF029 0204Injector cylinder 4 control circuit
DF038 0606Computer
DF039 0110Inlet air temperature sensor circuit
DF056 0100Air flow sensor circuit
DF129 0101Air flow requested
DF202 2413EGR valve
DF209 0409EGR valve position sensor circuit
DF582 0069Pressure consistency
DF953 2002Particle filter absent
DF991 1205Particle filter injector control circuit
DF1000 242AParticle filter downstream temperature sensor circuit
DF1003 2452Particle filter differential pressure sensor circuit
The injector voltage is very high (much higher than that of conventional injectors)
This voltage can be as much as 150 V.

13B-23
MR-372-J84-13B050$195.mif
V17
Siemens Injection
SID301 and 304
Vdiag No.: 44-45-48-49-4D-4C
Program No.: B1 and B2DIESEL INJECTION
Fault finding – Function13B
TDC sensor:
The angular position is measured using a magneto-inductive sensor triggered by machined teeth on the flywheel.
This sensor gives the engine speed and the position of the crankshaft for injection.
Camshaft sensor:
This sensor gives a signal to perform the injection cycle. When the piston of cylinder 1 is at top dead centre, either at
the end of the compression stroke or at the end of the exhaust stroke, the camshaft sensor enables a distinction to
be made between these two states.
Electric coolant pump:
The electric coolant pump is activated when the coolant temperature has reached a significant temperature
threshold when the engine has stopped.
The role of the electric water pump is to cool the turbocharger when the engine stops (Vdiag 45, 49 only).
Refrigerant pressure sensor:
The role of the sensor is to measure the refrigerant fluid pressure in the air conditioning circuit.
Electric fuel pump:
The pump is controlled by a relay during each regeneration or purge phase; it is submerged in the tank and is
connected to the secondary fuel circuit only.
Coolant temperature sensor:
The engine coolant temperature sensor informs the computer about the engine coolant temperature.
Air temperature sensor:
The air temperature sensor is fitted in the inlet manifold and informs the computer about the temperature of the air
sucked up by the engine.
Turbocharging pressure sensor solenoid valve:
This solenoid valve operates the turbocharger wastegate pneumatic circuit to lower the turbocharging pressure.
Catalytic converter:
Its role is to convert pollutant gases into harmless gases.
Catalytic converter downstream temperature sensor:
This sensor gives the temperature of the exhaust gas at the catalytic converter output.
Turbine upstream temperature sensor:
This sensor gives the temperature of the exhaust gas at the turbine inlet.
Particle filter downstream temperature sensor:
This sensor gives the exhaust gas temperature at the particle filter outlet (Vdiag 45, 49, 4D only).
Particle filter upstream temperature sensor:
This sensor gives the exhaust gas temperature at the particle filter inlet (Vdiag 45, 49, 4D only).
Particle filter differential pressure sensor:
A differential pressure sensor monitors the status of the particle filter (particle weight) and triggers regeneration.
The role of the sensor is to inform the computer of the pressure difference between particle filter inlet and outlet
(Vdiag 45, 49, 4D only).

13B-34
MR-372-J84-13B050$351.mif
V17
Siemens Injection
SID301 and 304
Vdiag No.: 44-45-48-49-4D-4C
Program No.: B1 and B2DIESEL INJECTION
Fault finding – Fault summary table13B
Tool
faultDiagnostic tool titleAssociated
DTCLevel 1 fault warning
light illuminatedLevel 2 fault warning
light illuminatedOBD warning
light illuminated
DF886Presence of water in
the diesel fuel2269 - - -
DF887Brake/accelerator
pedal positions2299 - 1.DEF -
DF889Engine protection 2610 - - -
DF953Particle filter absent 2002 - - 1.DEF
DF991Particle filter injector
control circuit 1205 CO/CC.0/CC.1 - CO/CC.0/CC.1
DF999Particle filter
downstream temp.
sensor circuit1544CC.0/CO.1/ 1.DEF/
2.DEF/ 3.DEF--
DF1000Particle filter
upstream temp.
sensor circuit242ACC.0/CO.1/ 1.DEF/
2.DEF/ 3.DEF-CC.0/CO.1/
1.DEF/2.DEF/
3.DEF
DF1001Particle filter
upstream
temperature
regulation 242B 1.DEF/2.DEF - -
DF1002Static regeneration 2458 1.DEF - -
DF1003Particle filter
differential pressure
sensor circuit 2452 CO.0/CC.1/1.DEF -CO.0/CC.1/
1.DEF
DF1004Electric fuel pump
relay control circuit 2632 CO/CC.0/CC.1 - -
DF1005Heating element
control unit fault
finding 1 connection 1644 1.DEF - -
DF1007Catalytic converter 1
downstream
temperature sensor
circuit 2031CC.0/CO.1/ 1.DEF/
2.DEF/ 3.DEF--
DF1008Turbine upstream
temperature
regulation 2080 1.DEF - -
DF1009Catalytic converter 1
downstream
temperature
regulation 2084 1.DEF/2.DEF - -
DF1070Cold loop 0534 - - -

13B-44
MR-372-J84-13B050$390.mif
V17
DIESEL INJECTION
Fault finding – Interpretation of faults
Siemens Injection
SID301 and 304
Vdiag No. 44-45-48-49-4D-4C
Program No.: B1 and B2
13B
DF011
PRESENT
OR
STOREDSENSOR SUPPLY VOLTAGE NO. 1
1. DEF: Signal outside lower limit
2. DEF: Signal outside upper limit
NOTESPriorities when dealing with a number of faults:
If one or more of the following faults are present at the same time:
–DF009 Pedal potentiometer circuit gang 2, check that the pedal sensor
connector is connected correctly.
–DF007 Rail pressure sensor circuit, check that the rail pressure sensor connector
is connected correctly.
–DF056 Air flow sensor circuit, check that the air flow sensor connector is
connected correctly.
–DF209 EGR valve position sensor circuit, check that the EGR valve position
sensor connector is connected correctly.
–DF1003 Particle filter differential pressure sensor circuit, check that the
connector of the particle filter differential pressure sensor is connected correctly.
Conditions for applying the fault finding procedure to stored faults:
The fault is declared present after the ignition has been switched on.
Special notes:
If the fault is present:
– The cruise control/speed limiter is deactivated.
– Power is restricted.
–The level 1 warning light is lit.
–The OBD warning light is lit.
Use CLIO III, MODUS, MEGANE II ph2, SCENIC II ph2 and KANGOO II Wiring
diagrams Technical Note.
The sensors connected to supply no. 1 are:
–rail pressure sensor, component code1032,
–accelerator pedal potentiometers gang 2 sensor, component code921,
–air flowmeter sensor, component code799,
–EGR valve position sensor, component code 1460.
–particle filter differential pressure sensor, component code 1290.
To locate the potentially defective sensor and/or connection, disconnect one of these sensors and then check
whether the fault becomes stored.
If the fault is still present, start the operation again with each sensor (one by one).
(Wait several seconds between each disconnection to allow the computer to detect the fault)
If the fault is stored after a disconnection, replace the faulty sensor or repair its connection.
Clear the faults created by the multiple disconnections.
AFTER REPAIRDeal with any faults displayed by the diagnostic tool.
Clear the computer fault memory.
Carry out a road test followed by another check with the diagnostic tool.
SID301_V44_DF011 / SID304_V45_DF011 / SID301_V48_DF011 / SID304_V49_DF011 / SID304_V4D_DF011 / SID301_V4C_DF011

13B-85
MR-372-J84-13B050$429.mif
V17
DIESEL INJECTION
Fault finding – Interpretation of faults
Siemens Injection
SID301 and 304
Vdiag No.: 44-45-48-49-4D-4C
Program No.: B1 and B2
13B
*diff: differential
*temp: temperatureDF308
PRESENT
OR
STORED
CLOGGED PARTICLE FILTER
1. DEF: Signal outside upper limit
NOTESPriorities when dealing with a number of faults:
Deal with faults stored in the computer first.
Ask the customer about vehicle usage: driving style, type of journey, etc.
Conditions for applying the fault finding procedure to a stored fault:
The fault is declared present after the engine is started or following a road test.
Special notes:
If the fault is present:
– particle filter regeneration is inhibited,
– the EGR function is inhibited,
– the vehicle performance is reduced,
– the level 1 warning light is lit and a warning message (or light) is displayed on the
instrument panel.
Check that there are no leaks or blockages in the exhaust pipe,
Repair if necessary.
Carry out an After-Sales regeneration (before and after each regeneration, check the oil and diesel fuel levels).
Run command SC017 Particle filter regeneration (see Interpretation of commands).
Use ALP 21: Particle filter warning light lit.
Deal with the interpretation of fault DF1003 Particle filter differential pressure sensor circuit.
Check the exhaust system.
Deal with the interpretation of fault DF1000 Particle filter upstream temperature sensor circuit.
Deal with the interpretation of fault DF1007 Catalytic converter 1 downstream temperature sensor circuit.
Deal with the interpretation of fault DF999 Particle filter downstream temperature sensor circuit.
Deal with the interpretation of fault DF652 Turbine upstream temperature sensor circuit.
Carry out Te s t 1 0: Air Chain at the level of the turbocharger.
AFTER REPAIRDeal with any faults displayed by the diagnostic tool.
Clear the computer fault memory.
Carry out a road test followed by another check with the diagnostic tool.
Explain to the customer how the particle filter system works.
SID301_V44_DF308 / SID304_V45_DF308 / SID301_V48_DF308 / SID304_V49_DF308 / SID304_V4D_DF308 / SID301_V4C_DF308