fuel consumption RENAULT SCENIC 2014 J95 / 3.G Petrol Injection - Sagem3000 Workshop Manual

PETROL INJECTION
Fault finding – Conformity check17B
17B-94V12 MR-372-J84-17B000$450.mif
SAGEM 3000
Program No.: A7
Vdiag No.: 44, 48
FUEL CIRCUIT SUB-FUNCTION (continued 2)
Order FunctionParameter or Status
Checked or ActionDisplay and notes Fault finding
8
Oxygen sensorET055: Upstream sensor
richness loop.Loop open
Loop closedIf the loop is
closed, apply the
interpretation for
ET055 Upstream
sensor richness
loop.
9 PR138: Richness
correction0%
In loop mode, the richness
correction corrects the
injection duration to obtain a
fuel mixture as close as
possible to a richness of 1.
The correction value varies
around 50, between 0
and 100.
WITHOUT 10 PR144: Self-adapting
richness offset0 < PR144 < 255
This parameter is used to
detect any tendency of the
injection system to increase
or decrease the richness.
11 PR143: Self-adapting
richness gain0 < PR143 < 255
This parameter is used to
detect any tendency of the
injection system to increase
or decrease the richness.
12 Injection PR101: Duration of
injection0ms
13Fuel
consumptionPR103: Instantaneous
fuel consumption0l/h
JSAA741.0

PETROL INJECTION
Fault finding – Conformity check17B
17B-115V12 MR-372-J84-17B000$450.mif
SAGEM 3000
Program No.: A7
Vdiag No.: 44, 48
FUEL CIRCUIT SUB-FUNCTION (continued 2)
Order FunctionParameter or Status
Checked or ActionDisplay and notes Fault finding
8
Oxygen sensorET055: Upstream
sensor richness
loop.Loop openIn the event of a fault,
apply the
interpretation of
ET055 Upstream
sensor richness
loop.
9 PR138: Richness
correction0% < PR138 < 100%
In loop mode, the richness
correction corrects the
injection duration to
obtain a fuel mixture as
close as possible to a
richness of 1. The
correction value varies
around 50.
WITHOUT 10 PR144: Self-adapting
richness offset0 < PR144 < 255
This parameter is used to
detect any tendency of the
injection system to
increase or decrease the
richness.
11 PR143: Self-adapting
richness gain0 < PR143 < 255
This parameter is used to
detect any tendency of the
injection system to
increase or decrease the
richness.
12 Injection PR101: Duration of
injectionAT IDLE SPEED
2ms <PR101 <5ms
13Fuel
consumptionPR103: Instantaneous
fuel
consumptionAT IDLE SPEED
PR103  12/h
JSAA741.0

PETROL INJECTION
Fault finding – Parameter summary table17B
17B - 157V12 MR-372-J84-17B000$630.mif
SAGEM 3000
Program No.: A7
Vdiag No.: 44, 48
*OCR: Opening cycle ratio
*AT: automatic transmission
*SV: Solenoid valveTool parameter Diagnostic tool title
PR103Instantaneous fuel consumption
PR105OBD fault warning light lit mileage counter
PR106Mileage counter fault warning light lit
PR111Motorised throttle position corrected value.
PR112No load programmed value
PR113Lower throttle stop after applying offset
PR116Motorised throttle corrected position setpoint
PR118Measured throttle position gang 1
PR119Measured throttle position gang 2
PR122Torque received by AT* converter
PR123Estimated driver demand engine torque
PR124Resistant engine torque transmitted via multiplex line
PR125Power absorbed by the air conditioning compressor
PR127Heating resistor max. authorised power
PR130Cruise control setpoint.
PR138Richness correction
PR141Integral idling speed regulation correction
PR143Self-adapting richness gain
PR144Self-adapting richness offset
PR846Turbocharging solenoid valve opening cycle ratio
JSAA741.0

PETROL INJECTION
Fault finding – Interpretation of parameters17B
17B - 165V12 MR-372-J84-17B000$675.mif
SAGEM 3000
Program No.: A7
Vdiag No.: 44, 48
PR099
DOWNSTREAM OXYGEN SENSOR VOLTAGE
NOTESThere must be no present or stored faults.
Check the cleanliness and condition of the downstream oxygen sensor connections.
Repair if necessary.
Disconnect the battery and the injection computer.
Using the universal bornier, check the insulation and continuity on the following connections:
Injection computer, connectorC, track A2 track D of the downstream oxygen sensor
Injection computer, connectorC, track B2 track C of the downstream oxygen sensor
Repair if necessary.
Check that the downstream oxygen sensor is secure.
Repair if necessary.
If the vehicle is driven frequently in town, carry out the unclogging procedure (oxygen sensors and catalytic
converter clogging).
Check that the exhaust pipe is completely leak free.
Repair if necessary.
Replace the downstream oxygen sensor.
If the fault is still present, the catalytic converter is certainly damaged.
If the catalytic converter is defective, determine the cause of the destruction, otherwise the new catalytic
converter may be damaged in turn.
Remove the catalytic converter.
Possible reasons for the destruction of a catalytic converter:
–deformation (impact),
–thermal shock (cold water splashed onto a hot catalytic converter can damage it),
–defective injector or ignition: the catalytic converter is damaged by contact with fuel (coil fault, coil control fault,
injector jammed open),
–injector leak,
–abnormal oil or coolant consumption (defective cylinder head gasket),
–use of a fuel additive or other equivalent product (obtain information from the customer because this type of
product can contaminate the catalytic converter and render it useless sooner or later).
Look up the service history of the vehicle or, if this is not possible, ask the customer if the vehicle has had injection
or ignition faults.
If the cause of the catalytic converter damage has been found and the fault has disappeared, replace the
catalytic converter.
AFTER REPAIRRepeat the conformity check from the start.
JSAA741.0