2005 TOYOTA AVENSIS wiring

A76867
Battery 4A
ALTS13
Stop Lamp
Switch G−W
19
E10
FL MAIN 1AM2
1
2 (LHD)4
IGN1
DM
STP
Driver
Side J/B
1
1
2
B−G 1A
B−GB−W4
3
IE3 Engine Room
J/B No. 4
Driver
Side J/B 4B 14D 1 B−G 1
2
1
B−G
B−W To Stop Lamp
6
I13
Ignition SW
1IE4
(RHD)
1IP1
B−R B−RB−R
2 DH
18 DA Engine
Room
R/B No.1
AM2 IG2
STOP22 DA
1 DN 11
R−W
(LHD) R−W
(LHD)
IR1 2
R−W
(RHD) R−W
(RHD)
IR1 3
B−W
(RHD) B−W
(RHD)
IE1 20
B−W
(LHD)B−W
(LHD)
(LHD) J9 C
(RHD) J27 E
J/C
(LHD) J8 C
(RHD) J26 AECM
12
E10ST1− 2
DA10
DCDriver
Side J/B
IE3 6
G−W
(LHD) G−W
(LHD)
IR1 1
G−W
(RHD) G−W
(RHD)
IR1 4
G−W
(RHD)G−W
(RHD)
IE2 14
G−W
(LHD) G−W
(LHD)G−W
Engine
Room
J/B No.1 05−186
− DIAGNOSTICSSFI SYSTEM (2AZ−FSE)
AVENSIS Supplement (RM1045E)
WIRING DIAGRAM
INSPECTION PROCEDURE
HINT:
Read freeze frame data usingthe 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.

A81703
From
Speed SensorSkid
Control
ECU4−Pulse
Combination
MeterECM 4−Pulse
A76866
Combination MeterECM
C11V−W
SPD 17
V−W
E10 J/C
18 H
J10
(LHD)J20H
(RHD)H
J10
(LHD)J20H
(RHD)
− DIAGNOSTICSSFI SYSTEM (2AZ−FSE)
05−183
AVENSIS Supplement (RM1045E)
DTC P0500 VEHICLE SPEED SENSOR ”A”
DTC P0503 VEHICLE SPEED SENSOR ”A”
INTERMITTENT/ERRATIC/HIGH
CIRCUIT DESCRIPTION
The speed sensor detects the wheel speed and sends the appropriate signals to the skid control ECU. The
skid control ECU converts these wheel speed signals into a 4−pulse signal and outputs it to the ECM via
the combination meter. The ECM determines the vehicle speed based on the frequency of these pulse sig-
nals.
DTC No.DTC Detection ConditionTrouble Area
P0500
P0503No vehicle speed sensor signal to ECM under the following
condition (1 trip detection logic):
(a) Vehicle is being driven
SCombination meter
SOpen or short in vehicle speed sensor circuit
SVehicle speed sensor
SECM
SSkid control ECU
SClutch or brake slips or gear is broken
WIRING DIAGRAM
05CJ6−02

A76875
ECM
EVP1 34
E13 EFI Relay
1 1 23
Engine Room
J/B No. 4B−W
1MREL 8
E9
Battery FL MAIN B−G2 5
GR
V5
VSV (EVAP)
2
W−G EFI No. 2 1
B−G
W−B
ECW−B
4A
14B 11AEFI
1B−Y
1
2 4
4
44
4
4
B−W Engine Room
R/B No. 1Engine Room R/B No. 4
GR
B−W
EA113IE1 2 Engine Room
J/B No. 1
− DIAGNOSTICSSFI SYSTEM (2AZ−FSE)
05−179
AVENSIS Supplement (RM1045E)
DTC P0443 EVAPORATIVE EMISSION CONTROL
SYSTEM PURGE CONTROL VALVE CIRCUIT
CIRCUIT DESCRIPTION
To reduce HC emissions, evaporated fuel from the fuel tank is routed through the charcoal canister to the
intake manifold for combustion in the cylinders.
The ECM changes the duty signal to the VSV for EVAP so that the intake amount of HC emissions is ap-
propriate for the driving conditions (engine load, engine speed, vehicle speed, etc.) after the engine is
warmed up.
DTC No.DTC Detection ConditionTrouble Area
P0443Proper response to ECM command does not occur
SOpen of short in VSV for EVAP circuit
SVSV for EVAP
SECM
WIRING DIAGRAM
05HIM−01

A76873
8
IGF1 IGT2 IGT1
IGT3 E13
IGT4 I1
Ignition Coil and
Igniter No.1
P R−W
IGNW−R IE4
LG−B
ECR−B
L−YE13
E13
E13
E13 9
1110
24 I2
Ignition Coil and
Igniter No. 2
I3
Ignition Coil and
Igniter No. 3
I4
Ignition Coil and
Igniter No. 4W−R
W−R W−R 3
2
14
1
42
2 3
3
3 1
4
4 1 R−B R−B
R−B R−B R−B B−R
W−B
W−B
W−B
W−B W−B W−B W−B
1
N2
Noise Filter
(Ignition)R−B B−R 1
3 Engine Room R/B No.1
Engine Room J/B No.1
B−G 1A
2
B−G
FL MAIN
Battery Engine Room
J/B No.4I13
Ignition Switch
6
AM2 IG24
(LHD)IP1 1
(RHD)
B−R
1
1
1 1 2
2 AM2IG2
1B−R
BB
51 44
44DH 2
DL 16
IG2
Relay
4A 1
4B 1Engine
Room
R/B No.4
EA1
8R−B
W−B R−BW−B
EF B−R2ECM
W−R
W−R Driver
Side J/B
− DIAGNOSTICSSFI SYSTEM (2AZ−FSE)
05−169
AVENSIS Supplement (RM1045E)
WIRING DIAGRAM

A59781
A73303
Camshaft Position Sensor
C 1
Component Side:
Front View
−
DIAGNOSTICS SFI SYSTEM (2AZ−FSE)
05 −1 65
AVENSIS Supplement (RM 1045E)
Reference: Inspection using the oscilloscope.
HINT:
The correct waveforms are as shown on the left.
ItemDetails
TerminalCH 1: G2+ − NE −
CH2: NE+ − NE −
Equipment Setting5 V/Division, 20 ms/Division
ConditionDuring Cranking or idling
WIRING DIAGRAM
Refer to DTC P0335 on page 05 −1 60.
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 INSPECT CAMSHAFT POSITION SENSOR(RESISTANCE)
(a) Disconnect the C 1camshaft position sensor connector.
(b) Measure the resistance between the terminals of the camshaft position sensor.
Standard:
Tester ConnectionSpecified Condition
1−2835 to 1,400
at cold
1− 21,060 to 1,645
at hot
NOTICE:
The terms ”cold” and ”hot” refer to the temperature of the
coils. ”Cold” means approximately −10_Cto50 _C( 14 _Fto
1 22 _F). ”Hot” means approximately 50 _Cto 100 _C( 122 _F
to 2 12_F).
(c) Reconnect the camshaft position sensor connector.
NG REPLACE CAMSHAFT POSITION SENSOR
OK

A83876
C1
Camshaft Position Sensor
C6
Crankshaft Position SensorR W
2 1
EE BR
G J12
J/CE1127ECM
G2+
NE+
NE− (Shielded)
R
BRE11
E1125
24
2 1
(Shielded)E E
E
R R
Crankshaft
Position
Sensor
Plate No. 1 Camshaft LH
− DIAGNOSTICSSFI SYSTEM (2AZ−FSE)
05−161
AVENSIS Supplement (RM1045E)
WIRING DIAGRAM
INSPECTION PROCEDURE
HINT:
SIf no trouble is found in troubleshooting of DTC P0335 troubleshoot the engine mechanical system.
SRead freeze frame data usingthe 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.
SRead value of hand−held tester
(a) Connect the hand−held tester to the DLC3.
(b) Start the engine and turn the hand−held tester ON.
(c) Select the item: DIAGNOSIS / OBD/MOBD / DATA LIST / ALL / ENGINE SPD.
The engine speed can be observed in DATA LIST using the hand−held tester. If there is no NE signals from
the crankshaft position sensor despite the engine revolving, the engine speed will be indicated as zero. If
voltage output from the crankshaft position sensor is insufficient, the engine speed will be indicated as lower
PRM (than the actual RPM).

A76872
K1
Knock Sensor ECM
KNK 1
E 12
(Shielded)
1 BR D
E
J1 3 J
1 2 1
B B
J/C EKNK
E 12
2
W
2
EEJ
1 2
J1 3
D
E
BR BR 5V
−
DIAGNOSTICS SFI SYSTEM (2AZ−FSE)
05 −1 57
AVENSIS Supplement (RM 1045E)
WIRING DIAGRAM
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 READ OUTPUT DTC
(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 the DTCs using the hand −held tester.
Result :
Display (DTC output)Proceed to
P0325A
P0325, P0327 and/or P0328B
No outputC
B Go to step 3
C CHECK FOR INTERMITTENT PROBLEMS (See Page 05 −7)
A

A88100
Normal Signal Waveform
5V/
Division
#
1
#2
#3
#4
−
DIAGNOSTICS SFI SYSTEM (2AZ−FSE)
05 −1 47
AVENSIS Supplement (RM 1045E)
DTC No.
DTC Detection ConditionTrouble Area
P0300Misfiring of random cylinders is detected
S
Open or short in engine wire harness
S Connector connection
S Vacuum hose connection
S Ignition system
S Injector
S Fuel pressure
S Mass air flow meter
S Engine coolant temperature sensor
S Compression pressure
S Valve clearance
S Valve timing
S PCV hose connection
S PCV hose
S ECM
P030 1
P0302
Misfiring of each cylinder is detected
S Open or short in engine wire harness
S Connector connection
S Vacuum hose connection
S Ignition system
S Injector
S Fuel pressure
S Mass air flow meter
P0302
P0303
P0304Misfiring of each cylinder is detectedMass air flow meter
S Engine coolant temperature sensor
S Compression pressure
S Valve clearance
S Valve timing
S PCV hose connection
S PCV hose
S ECM
HINT:
When several codes for a misfiring cylinder are recorded repeatedly but no random misfire code is recorded,
it indicates that the misfires have been detected and recorded at different times.
Reference: Inspection using oscilloscope
With the engine idling, check the waveform between terminals # 1 to #4 and E0 1 of the ECM connectors.
HINT:
The correct waveform is as shown.
WIRING DIAGRAM
Refer to DTC P0200 on page 05 −1 36 for the wiring diagram of the injector system.
Refer to DTC P035 1 on page 05 −1 67 for the wiring diagram of the ignition system.