2005 TOYOTA AVENSIS Circuit

A81000
ECM
THW E2
1
9
E 13
28
E 13
L
W
1 2
E2
Engine Coolant Temperature Sensor
5V
R
BR
B
−W
2
EC 1
1
EC 1
−
DIAGNOSTICS ECD SYSTEM (1CD −FTV)(From September, 2003)
05 −353
AVENSIS Supplement (RM 1045E)
WIRING DIAGRAM
INSPECTION PROCEDURE
HINT:
S If different DTCs related to different systems that have terminal E2 as the ground terminal are output
simultaneously, terminal E2 may have an open circuit.
S Read freeze frame data using the hand −held tester. Freeze frame data records the engine conditions
when a malfunction is detected. When troubleshooting, freeze frame data can help determine if the
vehicle was running or stopped, if the engine was warmed up or not, if the air −fuel ratio was lean or
rich, and other data from the time the malfunction occurred.
1 READ VALUE OF HAND −HELD TESTER(ENGINE COOLANT TEMPERATURE)
(a) Connect the hand −held tester to the DLC3.
(b) Turn the ignition switch to ON and turn the hand −held tester ON.
(c) Select the item ”DIAGNOSIS / OBD/MOBD / DATA LIST / ALL / COOLANT TEMP” and read its value
displayed on the hand −held tester.
Standard: 75 to 95 _C( 167 to 203 _F) after warming up the engine.
Result:
Temperature DisplayedProceed to
− 40 ˚ C( −40 ˚F )A
140 ˚ C (284 ˚F ) or moreB
OK (Same as actual engine coolant temperature)C
HINT:
S If there is an open circuit, the hand −held tester indicates −40 ˚C( −40 ˚F).
SIf there is a short circuit, the hand −held tester indicates 140 ˚C (284 ˚F) or more.
B Go to step 4
C CHECK FOR INTERMITTENT PROBLEMS (See page 05 −270)
A

05−346
−
DIAGNOSTICS ECD SYSTEM (1CD −FTV)(From September, 2003)
AVENSIS Supplement (RM 1045E)
DTC P0 106 MANIFOLD ABSOLUTE PRESSURE/
BAROMETRIC PRESSURE CIRCUIT RANGE/
PERFORMANCE PROBLEM
CIRCUIT DESCRIPTION
Refer to DTC P0 105 on page 05 −342.
DTC No.DTC Detection ConditionTrouble Area
P0 106
Voltage output of the manifold absolute pressure sensor is out
of the standard range
(2 trip detection logic)
S Manifold absolute pressure sensor
INSPECTION PROCEDURE
HINT:
S If DTCs P0 105, P0 107, and P0 108 are output simultaneously, the manifold absolute pressure sensor
circuit may be open or short. Perform troubleshooting for those DTCs first.
S Read freeze frame data using the hand −held tester. Freeze frame data records the engine conditions
when a malfunction is detected. When troubleshooting, freeze frame data can help determine if the
vehicle was running or stopped, if the engine was warmed up or not, if the air −fuel ratio was lean or
rich, and other data from the time the malfunction occurred.
1 CHECK OTHER DTC OUTPUT(IN ADDITION TO DTC P0 106)
(a) Connect the hand −held tester to the DLC3.
(b) Turn the ignition switch to ON and turn the hand −held tester ON.
(c) Select the item ”DIAGNOSIS / OBD/MOBD / DTC INFO / CURRENT CODES”.
(d) Read DTCs. Result:
Display (DTC output)Proceed to
P0106A
P0 106 and other DTCsB
HINT:
If any other codes besides P0 106 are output, perform troubleshooting for those DTCs first.
B GO TO RELEVANT DTC CHART(See page 05 −299)
A
REPLACE MANIFOLD ABSOLUTE PRESSURE SENSOR
05CPK −05

−
DIAGNOSTICS ECD SYSTEM (1CD −FTV)(From September, 2003)
05 −34 1
AVENSIS Supplement (RM 1045E)
DTC P0 101 MASS OR VOLUME AIR FLOW CIRCUIT
RANGE/PERFORMANCE PROBLEM
CIRCUIT DESCRIPTION
Refer to DTC P0 100 on page 05 −336.
DTC No.DTC Detection ConditionTrouble Area
After engine is warmed up, condition (a) continues for more
than 10 seconds at idling:
(2 trip detection logic)
(a) Mass air flow meter output greater than 2.2 V
P0 101Conditions (a) and (b) continue for more than 6 seconds with
engine speed at 2,000 rpm or more:
(2 trip detection logic)
(a) VTA greater than 0. 1 V
(b) Mass air flow meter output less than 0.25 VS Mass air flow meter
INSPECTION PROCEDURE
HINT:
Read freeze frame data using the hand−held tester. Freeze frame data records the engine conditions when
a malfunction is detected. When troubleshooting, freeze frame data can help determine if the vehicle was
running or stopped, if the engine was warmed up or not, if the air −fuel ratio was lean or rich, and other data
from the time the malfunction occurred.
1 CHECK OTHER DTC OUTPUT(IN ADDITION TO DTC P0 101)
(a) Connect the hand −held tester to the DLC3.
(b) Turn the ignition switch to ON and turn the hand −held tester ON.
(c) Select the item ”DIAGNOSIS / OBD/MOBD / DTC INFO / CURRENT CODES”.
(d) Read DTCs. Result:
Display (DTC output)Proceed to
P0101 and other DTCsA
P0 101B
HINT:
If any other codes besides P0 101 are output, perform troubleshoot for those DTCs first.
B REPLACE MASS AIR FLOW METER
A
GO TO RELEVANT DTC CHART (See page 05 −299)
05CPI −05

30
20
10
5
3
2
1
0.5
0.3
0.2
0.1
−20 0
20 4060
80 100
F14741(−4) (104) (140) (176)(32) (68) (212)
A56276
(Figure 1)
Acceptable
Resistance k

Temperature˚C(˚F)
− DIAGNOSTICSECD SYSTEM (1CD−FTV)(From September, 2003)
05−331
AVENSIS Supplement (RM1045E)
DTC P0095 INTAKE AIR TEMPERATURE SENSOR 2
CIRCUIT
DTC P0097 INTAKE AIR TEMPERATURE SENSOR 2
CIRCUIT LOW
DTC P0098 INTAKE AIR TEMPERATURE SENSOR 2
CIRCUIT HIGH
CIRCUIT DESCRIPTION
The diesel turbo inlet air temperature sensor is built into the in-
take air connector and senses the intake air temperature. A
thermistor built in the sensor changes the resistance value ac-
cording to the intake air temperature. The lower the intake air
temperature, the greater the thermistor resistance value, and
the higher the intake air temperature, the lower the thermistor
resistance value (see figure 1).
The intake air temperature sensor is connected to the ECM.
The 5 V power source voltage in the ECM is applied to the in-
take air temperature sensor from terminal THIA via resistor R.
Resistor R and the intake air temperature sensor are connected
in series. When the resistance value of the intake air tempera-
ture sensor changes in accordance with changes in the intake
air temperature, the potential at terminal THIA also changes.
Based on this signal, the ECM corrects the fuel injection volume
to improve the driveability with a cold engine.
05CPG−05

A76568
I9
Diesel Turbo Inlet Air
Temperature Sensor
2
1GR
E2 THIAR5V ECM
E13E1320
28
BR 05−332
− DIAGNOSTICSECD SYSTEM (1CD−FTV)(From September, 2003)
AVENSIS Supplement (RM1045E)DTC No.
Proceed toDTC Detection ConditionTrouble Area
P0095Step 1
Open or short in diesel turbo
inlet air temperature sensor
circuit for 0.5 second
(1 trip detection logic)
P0097St4
SShort in diesel turbo inlet air
temperature sensor circuit
for 0.5 second
(SensorresistancevalueisP0097Step 4(Sensor resistance value is
less than 25
[Sensor output
voltage is less than 0.05 V])
(1 trip detection logic)
SOpen or short in diesel turbo inlet air temperature sensor circuit
SDiesel turbo inlet air temperature sensor
SECM
P0098St2
SOpen in diesel turbo inlet air
temperature sensor circuit
for 0.5 second
(Sensor resistance value is
P0098Step 2(Sensorresistancevalueis
more than 156 k
[Sensor
output voltage is more than
4.9 V])
(1 trip detection logic)
HINT:
After confirming DTC P0095, P0097 or P0098, check the intake air temperature in the ”DIAGNOSIS / OBD/
MOBD / DATA LIST / ALL / AMBI TEMP SENS” using the hand−held tester.
Reference:
Temperature DisplayedMalfunction
−40˚C(−40˚F)Open circuit
140˚C (284˚F) or moreShort circuit
WIRING DIAGRAM
INSPECTION PROCEDURE
HINT:
SIf different DTCs related to different systems that have terminal E2 as the ground terminal are output
simultaneously, terminal E2 may have an open circuit.
SRead freeze frame data using the hand−held tester. Freeze frame data records the engine conditions
when a malfunction is detected. When troubleshooting, freeze frame data can help determine if the
vehicle was running or stopped, if the engine was warmed up or not, if the air−fuel ratio was lean or
rich, and other data from the time the malfunction occurred.

A83861
Diesel Turbo Inlet Air
Temperature SensorECM
THIA
E2
I9
A56868
I9
Wire Harness Side:
Diesel Turbo
Inlet Air Temperature Sensor Connector
THIA
E2
−
DIAGNOSTICS ECD SYSTEM (1CD−FTV)(From September, 2003)
05 −333
AVENSIS Supplement (RM1045E)
1 READ VALUE OF HAND −HELD TESTER(INTAKE AIR TEMPERATURE)
(a) Connect the hand −held tester to the DLC3.
(b) Turn the ignition switch to ON and turn the hand −held tester ON.
(c) Select the item ”DIAGNOSIS / OBD/MOBD / DATA LIST / ALL / AMBI TEMP SENS” and read its value
displayed on the hand −held tester.
Standard: Same value as air temperature at the intake manifold.
Result:
Temperature DisplayedProceed to
− 40 ˚ C( −40 ˚F )A
140 ˚ C (284 ˚F ) or moreB
OK (Same as air temperature near to intake manifold)C
HINT:
S If there is an open circuit, the hand −held tester indicates −40 ˚C( −40 ˚F).
S If there is a short circuit, the hand −held tester indicates 140 ˚C (284 ˚F) or more.
B Go to step 4
C CHECK FOR INTERMITTENT PROBLEMS (See page 05 −270)
A
2 READ VALUE OF HAND −HELD TESTER(CHECK FOR OPEN IN WIRE HARNESS)
(a) Disconnect the I9 diesel turbo inlet air temperature sen-
sor connector.
(b) Connect terminals 1 and 2 of the diesel turbo inlet air tem-
perature sensor wire harness side connector.
(c) Connect the hand −held tester to the DLC 3.
(d) Turn the ignition switch to ON and turn the hand −held tes-
ter ON.
(e) Select the item ”DIAGNOSIS / OBD/MOBD / DATA LIST / ALL / AMBI TEMP SENS” and read its value displayed
on the hand −held tester.
Standard: 140
C (284
F) or more
(f) Reconnect the diesel turbo inlet air temperature sensor
connector.
OK CONFIRM GOOD CONNECTION AT SENSOR. IF OK, REPLACE DIESEL TURBO INLET AIR
TEMPERATURE SENSOR
NG

05−328
−
DIAGNOSTICS ECD SYSTEM (1CD −FTV)(From September, 2003)
AVENSIS Supplement (RM 1045E)
DTC P0093 FUEL SYSTEM LEAK DETECTED − LARGE
LEAK
HINT:
S If DTC P 1229 is detected, P0093 (fuel leaks in high −pressurized area) may be detected simultaneous-
ly. Because of the extremely high internal fuel pressure in the common rail opens the pressure limiter,
and the ECM may interpret this as a fault and set P0093.
S For more information on the common rail system, see page 05 −255.
S If P0093 is present, refer to the diagnostic trouble codes (DTCs) table for the fuel system on page
05 −255.
CIRCUIT DESCRIPTION
Refer to the description on page 05 −255.
DTC No.DTC Detection ConditionTrouble Area
P0093Fuel leaks in high −pressurized area
( 1 trip detection logic)
SFuel line between supply pump and common rail
S Fuel line between common rail and injector
S Supply pump
S Common rail
S Injector (P 1238 is set simultaneously)
S Pressure discharge valve
S Open or short in EDU circuit (P0200 is set simultaneously)
S Open or short in injector circuit (P0200 and P 1238 are set
simultaneously)
S EDU (P0200 is set simultaneously)
S ECM
HINT:
After confirming DTC P0093, check the internal fuel pressure of the common rail in the ”DIAGNOSIS / OBD/
MOBD / DATA LIST / ALL / COMN RAIL” using the hand −held tester.
Reference:
Engine SpeedFuel Pressure (MPa)
IdlingApproximately 30 to 40
2,500 rpm (No engine load)Approximately 50 to 100
MONITOR DESCRIPTION
P0093 (Fuel leaks in high −pressurized area):
This DTC stands for fuel leaks that are existing in high −pressurized area in the common rail system. The
ECM constantly monitors the internal fuel pressure of the common rail after the engine is started, and the
ECM then will set this DTC if the drop of the internal fuel pressure is large when injecting the fuel.
In the common rail system, high −pressurized fuel, approximately 30 to 180 MPa (306 to 1,835 kgf/cm
2, 4,35 1
to 26, 106 psi), is always applied to the high −pressurized area including the supply pump, common rail, injec-
tor and piping. The ECM adjusts the suction control valve control current (by applying duty ratio signal) to
obtain the target internal fuel pressure.
If this DTC is present, the ECM enters the fail −safe mode. The fail −safe mode suspends both fuel injection
and supply pump operation, and then stops the engine. Before stopping the engine, the ECM permits driving
the vehicle for 1minute. The fail −safe mode continues until the ignition switch is turned to OFF.
MONITOR STRATEGY
Required sensorsFuel pressure sensor
Frequency of operationContinuous
Duration1 second
CHK ENG operation1driving cycle
05CPF −05

−
DIAGNOSTICS ECD SYSTEM (1CD −FTV)(From September, 2003)
05 −329
AVENSIS Supplement (RM 1045E)
TYPICAL ENABLING CONDITIONS
ItemSpecificationItemMinimumMaximum
Engine speed600 rpm−
The monitor will not run if the fuel pressure sensor, suction control valve circuit, or pressure discharge valve is malfunctioning
TYPICAL MALFUNCTION THRESHOLDS
Threshold
Drop of the internal fuel pressure is large when injecting fuel
INSPECTION PROCEDURE
HINT:
Read freeze frame data using the hand−held tester. Freeze frame data records the engine conditions when
a malfunction is detected. When troubleshooting, freeze frame data can help determine if the vehicle was
running or stopped, if the engine was warmed up or not, if the air −fuel ratio was lean or rich, and other data
from the time the malfunction occurred.
1 CHECK OTHER DTC OUTPUT(IN ADDITION TO DTC P0093)
(a) Connect the hand −held tester to the DLC3.
(b) Turn the ignition switch to ON and turn the hand −held tester ON.
(c) Select the item ”DIAGNOSIS / OBD/MOBD / DTC INFO / CURRENT CODES”.
(d) Read DTCs. Result:
Display (DTC output )Proceed to
P0093A
P0093 and P 1238B
P0093 and P0200 and/or P 127 1C
HINT:
If any other codes besides P0093 are output, perform troubleshooting for those DTCs first.
B Go to step 3
C GO TO RELEVANT DTC CHART(See page 05 −299)
A
2 CHECK FUEL LEAKAGE(IN HIGH −PRESSURIZED FUEL PARTS AND AREA)
(a) Visually check the supply pump, injector and fuel line located between the supply pump and common
rail for fuel leaks or fuel pressure leaks. Also, perform the same on the fuel line between the common
rail and the injector (see page 11− 67, 11− 46).
HINT:
There is possibility that fuel leaks inside the components (supply pump, etc) have been occurred.
NG REPAIR OR REPLACE
OK