RENAULT SCENIC 2010 J95 / 3.G Petrol Injection S3000 Injection Workshop Manual

1Engine and peripherals
V9 MR-372-J84-17B050$TOC.mif
V9
17B
"The repair procedures given by the manufacturer in this document are based on the
technical specifications current when it was prepared.
The procedures may be modified as a result of changes introduced by the
manufacturer in the production of the various component units and accessories from
which his vehicles are constructed."
V9
All rights reserved by Renault s.a.s.
Edition Anglaise
Copying or translating, in part or in full, of this document or use of the service part
reference numbering system is forbidden without the prior written authority of
Renault s.a.s.
© Renault s.a.s. 2010
PETROL INJECTION
S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54
Fault finding - Introduction 17B - 2
Fault finding - System operation 17B - 7
Fault finding - Allocation of computer tracks 17B - 21
Fault finding - Replacement of components 17B - 26
Fault finding - Configurations and programming 17B - 28
Fault finding - Fault summary table 17B - 30
Fault finding - Interpretation of faults 17B - 34
Fault finding - Conformity check 17B - 120
Fault finding - Status summary table 17B - 168
Fault finding - Interpretation of statuses 17B - 170
Fault finding - Parameter summary table 17B - 202
Fault finding - Interpretation of parameters 17B - 204
Fault finding - Command summary table 17B - 213
Fault finding - Interpretation of commands 17B - 214
Fault finding - Test 17B - 218
Fault finding - Customer complaints 17B - 223
Fault finding - Fault Finding Chart 17B - 225

PETROL INJECTION
Fault finding - Introduction
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Fault finding - Introduction
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S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54PETROL INJECTION
Fault finding - Introduction
1. SCOPE OF THIS DOCUMENT
This document presents the fault finding procedure applicable to all computers with the following specifications:
2. PREREQUISITES FOR FAULT FINDING
Documentation type
Fault finding procedures (this document):
– Assisted fault finding (integrated into the diagnostic tool), Dialogys.
Wiring Diagrams:
– Visu-Schéma (CD-ROM), paper.
Type of diagnostic tools
–CLIP + multiplex line sensor
Special tooling required
3. REMINDERS
Procedure
To run fault finding on the vehicle's computers, switch on the ignition in fault finding mode (forced + after ignition
feed).
Proceed as follows:
– vehicle card in reader,
– press and hold the Start button (longer than 5 seconds) with start-up conditions not fulfilled,
– connect the diagnostic tool and perform the required operations.
To cut off the + after ignition feed, proceed as follows:
– disconnect the diagnostic tool,
– press the Start button twice briefly (less than 3 seconds),
– ensure that the + after ignition feed has been cut off by checking that the computer indicator lights on the instrument
panel have gone out. Vehicle(s):MEGANE II phase 2
SCENIC II phase 2
Engines:K4J 740 - K4M 766/812/813 - K4M 680 -
K4M 788 LPG
F4R 770/771 - F4R-T 776
F4R-T 774 (MEGANE II phase 2
RENAULT SPORT)
Function concerned: Petrol injectionName of computer: Sagem S3000
Program no.: AD
Vdiag No.: 4C, 54
Special tooling required
Multimeter
Ele. 1497Bornier
Elé. 1681Universal bornier
S3000_V4C_PRELI/S3000_V54_PRELI
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PETROL INJECTION
Fault finding - Introduction
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Fault finding - Introduction
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Program No.: AD
Vdiag No.: 4C / 54
Faults
Faults are displayed as present or stored (they appeared in a certain context and have since disappeared, or they
are still present but cannot be diagnosed in the current context).
The present or stored status of faults should be taken into consideration when the diagnostic tool is used after the
+ after ignition feed is switched on (without acting on the system components).
For a present fault, apply the procedure described in the Interpretation of faults section.
For a stored fault, note the faults displayed and apply the instructions in the Notes section.
If the fault is confirmed when the instructions are applied, the fault is present. Deal with the fault.
If the fault is not confirmed, check:
– the electrical lines which correspond to the fault,
– the connectors for these lines (for oxidation, bent pins, etc.),
– the resistance of the component detected as faulty,
– the condition of the wires (melted or split insulation, wear).
Conformity check
The aim of the conformity check is to check data that does not produce a fault on the diagnostic tool when the data
is inconsistent. Therefore, this stage is used to:
– perform fault finding on faults that do not have a fault display, and which may correspond to a customer complaint.
– check that the system is operating correctly and that there is no risk of a fault recurring after repair.
This section gives the fault finding procedures for statuses and parameters and the conditions for checking them.
If a status is not behaving normally or a parameter is outside the permitted tolerance values, consult the
corresponding fault finding page.
Customer complaints - Fault finding chart
If the test with the diagnostic tool is OK but the customer complaint is still present, the fault should be processed by
Customer complaints.
A summary of the overall procedure to follow is provided on the
following page in the form of a flow chart

PETROL INJECTION
Fault finding - Introduction
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Fault finding - Introduction
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V9 MR-372-J84-17B050$047.mif
S3000 Injection
Program No.: AD
Vdiag No.: 4C / 54
4. FAULT FINDING PROCEDURE
Check the battery charge and
condition of the fuses
Print the system fault finding log
(available on CLIP and in the
Workshop Repair Manual or
Technical Note)
Connect CLIP
no
Dialogue with
computer?
yes
Read the faults
no
Faults present
yes
Deal with present faults
Deal with stored faults
no
The cause is still
presentFault
solved
yes
See ALP 1
Conformity check
no
The cause is still
presentFault
solved
yes
Use Fault Finding Charts (ALPs)
no
The cause is still
presentFault
solved
yes
Contact Techline with the
completed fault finding log

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Fault finding - Introduction
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Fault finding - Introduction
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Program No.: AD
Vdiag No.: 4C / 54
4. FAULT FINDING PROCEDURE (continued)
Wiring check:
Fault finding problems:
Disconnecting the connectors and/or manipulating the wiring may temporarily remove the cause of a fault.
Electrical measurements of the voltage, resistance and insulation are generally correct, especially if the fault is not
present when the analysis is made (stored fault).
Visual inspection:
Look for damage under the bonnet and in the passenger compartment.
Carefully check the fuses, insulation and wiring routing.
Look for signs of oxidation.
Tactile inspection:
While manipulating the wiring, use the diagnostic tool to note any change in fault status from stored to present.
Check that the connectors are correctly tightened, apply light pressure to the connectors, twist the wiring harness.
If there is a change in status, try to locate the source of the fault.
Inspection of each component:
Disconnect the connectors and check the appearance of the clips and tabs, as well as their crimping (no crimping on
the insulating section).
Make sure that the clips and tabs are properly locked in the sockets.
Make sure no clips or tabs have been dislodged during connection.
Check the clip contact pressure using an appropriate model of tab.
Resistance check:
Check the continuity of entire lines, then section by section.
Look for a short circuit to earth, to + 12 V or with another wire.
If a fault is detected, repair or replace the wiring harness.

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Fault finding - Introduction
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Fault finding - Introduction
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Program No.: AD
Vdiag No.: 4C / 54
5. FAULT FINDING LOG
You will always be asked for this log:
– when requesting technical assistance from Techline,
– for approval requests when replacing parts with mandatory approval, and to be enclosed when returning monitored
parts on request. The log is needed for warranty reimbursement, and enables better analysis of the parts removed.
6. SAFETY INSTRUCTIONS
Safety rules must be observed during any work on a component to prevent any damage or injury:
– check the battery voltage to avoid incorrect operation of computer functions,
– use the proper tools.
7. FAULT FINDING
Stored faults are managed the same way for all sensors and actuators.
A stored fault is cleared after 128 recurrence-free starts. IMPORTANT!IMPORTANT
Any fault on a complex system requires thorough fault finding with the appropriate tools. The
FAULT FINDING LOG, which should be completed during the fault finding procedure, ensures a
record is kept of the procedure carried out. It is an essential document when consulting the
manufacturer.
IT IS THEREFORE MANDATORY TO FILL OUT A FAULT FINDING LOG EACH TIME FAULT FINDING IS
CARRIED OUT.

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Fault finding - System operation
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Fault finding - System operation
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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

PETROL INJECTION
Fault finding - System operation
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Fault finding - System operation
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Program No.: AD
Vdiag No.: 4C / 54
2. Role of components, operating strategy
Engine immobiliser
The Verlog 4 type immobiliser function is managed by the UCH computer and the engine management computer.
Before any starting request, the engine management computer is protected.
When a starting request is made, the injection computer and the UCH exchange authentication data via the multiplex
network; this determines whether the engine start is authorised.
After more than 5 consecutive failed authentication attempts, the engine management computer goes into protection
(antiscanning) mode and no longer tries to authenticate the UCH computer. It only exits this mode when the
following sequence of operations occurs:
– the ignition is left on for at least 20 seconds,
– the message is switched 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 impact has been stored by the injection computer, switch off the ignition for 10 seconds, then switch it back on
so that the engine can be started. Clear the faults.
Torque management
The torque structure is the system for managing engine torque. It is necessary for some functions such as the
electronic stability program (ESP) and the automatic gearbox.
Each inter-system (ESP and automatic gearbox) sends a request for torque via the multiplex network to the injection
computer. It arbitrates between the inter-system torque requests and the driver's request (pedal or cruise control/
speed limiter). The result of the arbitration gives the torque setpoint. The torque structure uses the torque setpoint to
calculate the throttle position setpoint, the advance and, if there is turbocharging, the turbocharger valve setpoint
(wastegate) for engines fitted with a turbocharger. WARNING
Disconnect the injection computer when carrying out any welding work on the vehicle.

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Fault finding - System operation
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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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Fault finding - System operation
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Fault finding - System operation
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Program No.: AD
Vdiag No.: 4C / 54
Fuel supply management
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 a correct start, particularly if the vehicle has been unused
for a long time.
When the engine is running, the fuel pump relay is always controlled.
Control of the petrol pump relay can be viewed through status ET047 Petrol pump control circuit.
The petrol tank is vented by way of a canister filled with activated charcoal that traps the vapour from the petrol tank.
This canister is bled via the engine vacuum pipe. It enters the inlet plenum via a hose, whose section is controlled by
a bleed valve. It is controlled by the injection computer via the opening cycle ratio. For reasons of engine instability
or canister bleed solenoid valve operating noise emitted by the vehicle, there are two possible frequencies for
controlling the canister bleed solenoid valve:
●a low frequency 8Hz,
●a high frequency 20 Hz.
The frequency of the control opening cycle ratio depends on the engine speed.
Bleed the canister to drain it as it fills, to limit vapour release into the air if a canister is saturated for example.
Air supply management
The idling speed regulator performs all the calculations required for physical control of the idling speed actuator: the
motorised throttle. The functional component of the regulator is adaptive (variation programming and ageing).
If the idling speed regulation conditions are observed, ET054 Idle speed regulation is ACTIVE, the idling speed
regulator continuously positions the motorised throttle to maintain the engine speed at its idling setpoint. The
motorised throttle opening ratio necessary to comply with the speed setpoint is then given by parameter PR091
Idling speed regulation theoretical OCR.
Note on parameter PR091:
This parameter uses only 2 parameters accessible in fault finding frame: PR444 Idle speed integral correction and
PR090 Idle speed regulation programming value which is the integral adaptive action.
–PR090 Idling speed regulation programming value is a stored parameter designed to program dispersion and
engine ageing for the idling speed regulator. The programming is carried out only when the engine is idling and
warm, and no electrical consumer (air conditioning, fan assembly, power assisted steering) is operating. Therefore
it adjusts slowly.
–PR444 Idling speed regulation integral correction is continuously calculated to take into account the air required
by consumers.