2005 TOYOTA AVENSIS sensor

±
DIAGNOSTICS ECD SYSTEM(1CD±FTV)
05±533
AVENSIS REPAIR MANUAL (RM1018E)
(c)Perform a simulation test (See page 01±22).
(d)Check the connector and terminal (See page 01±32).
(e)Wiggle the harness and connector (See page 01±32).
6. DATA LIST
HINT:
Using the DATA LIST displayed by the hand±held tester, you can read the value of the switches, sensors,
actuators and so on without parts removal. Reading the DATA LIST as a first step of troubleshooting is one
method to shorten diagnostic time.
NOTICE:
The values given below for ºNormal Conditionº are representative valu\
es. A vehicle may still be nor-
mal even if its value differs from those listed here. Do not solely depend \
on the ºNormal Conditionº
here when deciding whether a part is faulty or not.
(a) Warm up the engine.
(b) Turn the ignition switch OFF.
(c) Connect the hand±held tester to the DLC3.
(d) Turn the ignition switch ON.
(e) Push the ºONº button of the hand±held tester.
(f) Select the item ºDIAGNOSIS / OBD/MOBD / DATA LISTº.
(g) According to the display on tester, read the ºDATA LISTº.
Hand±held Tester DisplayMeasurement Item/Range
(Display)Normal Condition *Diagnostic Note
INJ VOLUMEInjection volume/
Min.: 0 mm3, Max.: 1279.98 mm3Idling: 3 to 10 mm3

INJ TIMINGInjection timing/
Min.: 0 CA, Max.: 51 CAIdling: ±1 to 5 CA

ENGINE SPDEngine speed/
Min.: 0 rpm, Max.: 16383.75 rpmIdling: 750 to  rpm

MAF
Air flow rate from MAF sensor sta-
tus/
Min.: 0 gm/s, Max.: 655.35 gm/s
Idling: 3.2 to 4.7 gm/s

Running without load (2,500
rpm): 13.1 to 18.9 gm/s
If the value is Approximately 0.0
gm/s:

Mass air flow meter power
source circuit open

VG circuit open or short
If the valve is 160 gm/s or more:

E2G circuit open
PIM
Absolute pressure inside intake
manifold/ Min.: 0 kPa, Max.: 255
kPa
Idling: 85 to 110 kPa

COOLANT TEMPCoolant temperature/
Min.: ±40 C, Max.: 215 CAfter warming up: 80 to 95 C (176
to 203 

INTAKE AIRIntake air temperature/
Min.: ±40 C, Max.: 215 CEquivalent to Ambient Temp.
If the value is º±40 Cº or º140
 Cº, sensor circuit is open or
shorted
FUEL TEMPFuel temperature status/
Min.: ±40 C, Max.: 215 CActual fuel temp.
shorted.
ACCEL POSITIONAccel position status/
Min.: 0 %, Max.: 100 %

Accelerator pedal released:
10 to 22 %

Accelerator pedal depressed:
52 to 90 %
Read the value with ignition switch
ON (Do not start engine).
VEHICLE SPDVehicle speed/
Min.: 0 km/h, Max.: 255 km/hActual vehicle speedSpeed indicated on speedometer
THROTTLE POSThrottle step position status/
Min.: 1 step, Max.: 255 step
Throttle fully closed: 1 step

Throttle fully open: 255 stepRead the value with ignition switch
ON (Do not start engine).
COMN RAIL PRESSCommon rail pressure status/
Min.: 0 MPa, Max.: 255 MPaIdling: 30 to 40 MPa

05±534
± DIAGNOSTICSECD SYSTEM (1CD±FTV)
AVENSIS REPAIR MANUAL (RM1018E)Hand±held Tester DisplayDiagnostic Note Normal Condition * Measurement Item/Range
(Display)
AMBI TEMP SENS
Ambient temperature sensor sta-
tus/
Min.: ±40 C, Max.: 215 C
Actual atmosphere
If the value is º±40 Cº or º140
Cº, sensor circuit is open or
shorted.
INJ VOL FB #1
Revised injection volume of the
cylinder 1/
Min.: ±10 mm
3, Max.: 40 mm3Idling: ±3.0 to 3.0 mm3

INJ VOL FB #2
Revised injection volume of the
cylinder 2/
Min.: ±10 mm
3, Max.: 40 mm3Idling: ±3.0 to 3.0 mm3

INJ VOL FB #3
Revised injection volume of the
cylinder 3/
Min.: ±10 mm
3, Max.: 40 mm3Idling: ±3.0 to 3.0 mm3

INJ VOL FB #4
Revised injection volume of the
cylinder 4/
Min.: ±10 mm
3, Max.: 40 mm3Idling: ±3.0 to 3.0 mm3

PUMP VCM ANGLEPump vacuum angle status/
Min.: 0 CA, Max.: 255 CAIdling: 70 to 90
CA

M±INJ/PILOT ONM±INJ/PILOT ON/
Min.: 0 us, Max.: 65,535 usIdling: 600 to 1,200 us

M±INJ/PILOT OFFM±INJ/PILOT OFF/
Min.: 0 us, Max.: 65,535 usIdling: 0 us

PILOT±INJPilot±Injection/
Min.: 0 us, Max.: 65,535 usIdling: 400 to 700 us

INJ FB VALUE
Injection volume feedback learning
value/
Min.: ±10 mm
3, Max.: 9,092 mm3Idling: ±4.0 to 4.0 mm3

STOP LIGHT SWStop light switch/
ON or OFF
Brake pedal depressed: ON

Brake pedal released: OFF

STARTER SIGStarter signal/ ON or OFFCranking: ON

A/C CUT SIGA/C cut signal/ ON or OFFA/C ON: OFF

EGR SYSTEMEGR system status/ ON or OFFIdling: ON

ACCEL OPEN SWAccel open switch/ ON or OFFAccelerator pedal fully opened:
ON

CHECK MODECheck mode/ ON or OFFCheck mode ON: ON

EGR STEP POSEGR step position status/
Min: 0 step, Max: 125 stepIdling: 0 to 125 step

*: If no conditions are specifically stated for ºldlingº, it means the A/C switch is OFF and all accessory switches
are OFF.
7. ACTIVE TEST
HINT:
Performing the ACTIVE TEST using the hand±held tester allows the relay, VSV, actuator and so on to oper-
ate without parts removal. Performing the ACTIVE TEST as a first step of troubleshooting is one of the meth-
ods to shorten diagnostic time.
It is possible to display the DATA LIST during the ACTIVE TEST.
(a) Warm up the engine.
(b) Turn the ignition switch OFF.
(c) Connect the hand±held tester to the DLC3.
(d) Turn the ignition switch ON.
(e) Push the ºONº button of the hand±held tester.
(f) Select the item ºDIAGNOSIS / OBD/MOBD / ACTIVE TESTº

05CP9±01
A81021
Common Rail System Diagram (1CD±FTV Fuel System)
Sensors
ECM
EDU
Common Rail
Fuel Pressure SensorPressure Discharge
Valve
Supply Pump Assy
Suction Control ValveFuel TankInjector
Fuel Filter
: High±pressure Area
± DIAGNOSTICSECD SYSTEM (1CD±FTV)
05±517
AVENSIS REPAIR MANUAL (RM1018E)
ECD SYSTEM (1CD±FTV)
DESCRIPTION
1. COMMON RAIL SYSTEM
The common rail system stores high±pressure fuel supplied from the supply pump in the common rail and
injects it using the injector. Fuel injection timing and fuel injection volume are regulated by the ECM; it pro-
vides an electric current to the solenoid valve of the injector with the EDU to regulate them.
By storing high±pressure fuel produced in the supply pump in the common rail, this system can always offer
stable fuel injection pressure regardless of the engine speed and engine load, even if a driving speed is low.
In addition, this system uses the injector that opens and closes its fuel passage with the Two±Way±Valve
(TWV) therefore both the fuel injection time and volume are precisely regulated by the ECM.
The ECM monitors internal fuel pressure of the common rail with the fuel pressure sensor and commands
the supply pump to supply fuel to obtain a target internal pressure (approximately 30 to 180 MPa (306 to
1,835 kgf/cm
2, 4,351 to 26,106 psi)). The ECM opens and closed the pressure discharge valve to improve
controllability for the common rail internal fuel pressure.
This system has two divisional fuel injections. It performs ºpilot±injectionº as subsidiary fuel injection prior
to the main fuel injection to make combustion soft, and this helps to reduce engine vibration and noise.

A81477
Engine Control System Diagram
Accelerator Pedal
Position Sensor
Ignition
Switch Signal
Starter Signal
Vehicle Speed Signal
DLC3
Battery Voltage
Other Signal
Fuel Tank
Suction Control Valve
Supply Pump
Generator
ECMPressure Discharge Valve
Fuel Pressure Sensor
EDU Relay
EDU
Mass Air Flow Meter
Atmospheric
Temp. SensorEGR Cooler
Turbo ChargerInter Cooler
Intake Shatter
Intake Air Temp.
SensorEGR Valve
Injector
Manifold
Absolute
Sensor
Glow
Plug
Glow
Relay Crankshaft Position Sensor VRV for
Turbo
ChargerEngine Coolant
Temp. SensorCamshaft
Position
SensorCommon Rail
Vacuum Pump
(INJT PRD)(INJF)
05±518
± DIAGNOSTICSECD SYSTEM (1CD±FTV)
AVENSIS REPAIR MANUAL (RM1018E)
COMMON RAIL SYSTEM COMPONENTS:
ComponentDescription
Common railStore high±pressure fuel produced by the supply pump
Supply pumpOperated by the crankshaft, and supply high±pressure fuel to the common rail
InjectorInject fuel to the combustion room based on signals from the ECM
Fuel pressure sensorMonitor internal fuel pressure of the common rail and send signals to the ECM
Pressure discharge valveBased on signals from the ECM, open the valve when sudden deceleration is occurred, or when the ignition switch is
OFF to prevent the fuel pressure from being too high
Suction control valveBased on signals from the ECM, adjust fuel volume supplied to the common rail and regulate the internal fuel pres-
sure
2. ENGINE CONTROL SYSTEM

A81479
Injection Control Diagram
Accelerator Pedal
Position Sensor
Camshaft Position Sensor
Crankshaft Position Sensor
(NE Signal)
Other Sensor
Fuel TankFeed
Pump
Eccentric
CamPlungerCheck Valve Fuel Pressure SensorCommon Rail EDU
TWV
Orifice
Orifice
Nozzle
NeedleControl
Chamber
Piston
Injector ECM
Suction
Control
Valve
± DIAGNOSTICSECD SYSTEM (1CD±FTV)
05±519
AVENSIS REPAIR MANUAL (RM1018E)
3. INJECTION CONTROL SYSTEM
The ECM controls the fuel injection system using the injector and the supply pump. The ECM determines
the fuel injection volume and injection timing by controlling duration and timing of the energizing to the sole-
noid valve of the injector, and determines injection pressure by controlling the Suction Control Valve located
on the supply pump.
The feed pump is used to pump fuel from the fuel tank into the supply pump.

P0087 (See page 05±557)
P0088 (See page 05±563)
P0093 (See page 05±570)
P0190 (See page 05±557)
P0192 (See page 05±557)
P0193 (See page 05±557)
P0200 (See page 05±604)
P0627 (See page 05±655) P1229 (See page 05±563)
P1271 (See page 05±663) P1272 (See page 05±663) P1238 (See page 05±658) DTC No. A
BCDE F
GH IJKL
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P0191 (See page 05±603)


( ): Potential DTC codes
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05±522
±
DIAGNOSTICS ECD SYSTEM (1CD±FTV)
AVENSIS REPAIR MANUAL (RM1018E)
6. DIAGNOSTICS TROUBLE CODE MATRIX FOR FUEL SYSTEM
HINT:
This matrix indicates typical DTC codes combinations for each malfunctio\
n occurrence.
Trouble areaMalfunctionRefer to
Open or short in injector circuitA
InjectorStuck openBj
Stuck closeC
Fuel pressure sensorOpen or short in fuel pressure sensor circuit or
pressure sensor output fixedD
Open or short in pressure discharge valve circuitE
Pressure discharge valveStuck openFg
Stuck closeG
Open or short in suction control valve circuitH
Suction control valveStuck openI
Stuck closeJ
EDUFaulty EDUK
Common rail system (Fuel system)Fuel leaks in high±pressure areaL
7. DIAGNOSTICS TROUBLE CODE DESCRIPTION
DTC No.Description
P0087Fuel pressure sensor output status at fixed value
P0088Internal fuel pressure too high (200 MPa (2,039 kgf/cm2, 29,007 psi) or more)
P0093Fuel leaks in high±pressure area
P0190Open or short in fuel pressure sensor circuit (Low or high output)
P0191Fuel pressure sensor out of range (Low output)
P0192Open or short in fuel pressure sensor circuit (High output)
P0193Open or short in fuel pressure sensor circuit (Sensor 1 and/or 2 relati\
on)
P0200Open or short in EDU or injector circuit
P0627Open or short in suction control valve circuit
P1229Fuel over fed
P1238Injection malfunction, exclude open or short in injector circuit
P1271Open or short in pressure discharge valve circuit
P1272Closed malfunction of the pressure discharge valve

±
DIAGNOSTICS ECD SYSTEM(1CD±FTV)
05±597
AVENSIS REPAIR MANUAL (RM1018E)
DTCP0116ENGINE COOLANT TEMPERATURE CIRCUIT
RANGE/PERFORMANCE PROBLEM
CIRCUIT DESCRIPTION
Refer to DTC P0115 on page 05±593.
DTC No.DTC Detection ConditionTrouble Area
P0116
When THW greater than ±40 \fC (±40 \fF) and less than 60 \fC
(140 \fF), and THA greater than ±6.7 \fC (20 \fF), and when start-
ing engine, conditions (a) and (b) continue (2 trip detection
logic):
(a)Vehicle speed is changing (Not stable)
(b)THW change is lower than 3 \fC (5.4 \fF) after engine was
started.

Cooling system

Engine coolant temperature sensor

Thermostat
In case that reading value of engine coolant temp. sensor will
not change more than 1 \fC (1.8 \fF) even after repeating 6 trips
(detection logic) of adjusting speed pattern with THW more
than 90 \fC (194 \fF) after engine was started.
INSPECTION PROCEDURE
HINT:

If DTCs ºP0115, P0116, P0117and P0118º are output simultaneously, engine coolant temperature
sensor circuit may be open or short. Perform the troubleshooting of DTC ºP0\
115, P0117 or P0118º first.

Read freeze frame data using \b
 . Freeze frame data records the engine conditions
when a malfunction is detected. When troubleshooting, it is useful for d\
etermining whether the vehicle
was running or stopped, the engine was warmed up or not, the air±fuel ra\
tio was lean or rich, etc. at
the time of the malfunction.
1CHECK OTHER DTC OUTPUT(BESIDES DTC P0116)
(a)Read the DTC using the hand±held tester. Result:
Display (DTC output)Proceed to
Only P0116 are outputA
P0116 and other DTCs are outputB
HINT:
If any other codes besides ºP0116º are output, perform the troubleshooting for those DTCs first.
BGO TO RELEVANT DTC CHART(See page 05±544)
A
2INSPECT THERMOSTAT (See page 16±39)
NGREPLACE THERMOSTAT (See page 16±50)
OK
REPLACE ENGINE COOLANT TEMPERATURE SENSOR
05CPN±01

± DIAGNOSTICSECD SYSTEM (1CD±FTV)
05±593
AVENSIS REPAIR MANUAL (RM1018E)
DTC P0115 ENGINE COOLANT TEMPERATURE CIRCUIT
DTC P0117 ENGINE COOLANT TEMPERATURE CIRCUIT
LOW INPUT
DTC P0118 ENGINE COOLANT TEMPERATURE CIRCUIT
HIGH INPUT
CIRCUIT DESCRIPTION
A thermistor is built in the engine coolant temperature sensor and changes the resistance value according
to the engine coolant temperature.
The structure of the sensor and connection to the ECM is the same as those of the intake air temperature
sensor.
HINT:
If the ECM detects DTC ºP0115, P0117 or P0118º it enters the fail±safe mode in which the engine coolant
temperature is assumed to be 80 C (176 F).
DTC No.Proceed toDTC Detection ConditionTrouble Area
P0115Step 1
Open or short in engine cool-
ant temp. sensor circuit for
0.5 sec.
(1 trip detection logic)
P0117Step 4
Short in engine coolant temp.
sensor circuit for 0.5 sec.
(1 trip detection logic)
Open or short in engine coolant temp. sensor circuit

Engine coolant temp. sensor

ECM
P0118Step 2
Open in engine coolant temp.
sensor circuit for 0.5 sec.
(1 trip detection logic)
HINT:
After confirming DTC ºP0115, P0117 or P0118º, use the hand±held tester to confirm the engine coolant tem-
perature from the ºDIAGNOSIS / OBD/MOBD / DATA LIST / ALLº.
Temperature DisplayedMalfunction
±40 C (±40 F)Open circuit
140  (284   Short circuit
05CPM±01