TOYOTA HIGHLANDER 2001 Service Repair Manual

A80018
H10
Heated Oxygen Sensor
E1 OX
+B
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4 INSPECT HEATED OXYGEN SENSOR (CHECK FOR SHORT)
(a) Disconnect the H10 heated oxygen sensor connector.
(b) Measure the resistance of the sensor side connectors.
Standard:
Tester ConnectionSpecified Condition
H10-1 (+B) - H10-3 (E1)10 kW or higher
H10-1 (+B) - H10-4 (OX)10 kW or higher
OK REPAIR OR REPLACE HARNESS AND
CONNECTOR
NG
REPLACE HEATED OXYGEN SENSOR
5 READ OUTPUT DTC (CHECK MODE)
(a) Change the ECM to check mode with the hand-held tester.
Enter the following menus: DIAGNOSIS / ENHANCED OBD II / CHECK MODE.
(b) Warm up the engine and drive the vehicle at over 25 mph (40 km/h) for an accumulated total of 10
minutes.
HINT:
The 10 minutes of driving should be driven in one instance, but it is not necessary to maintain a speed of
25 mph (40 km/h) for 10 minutes consecutively.
(c) Read the DTC.
Result:
Display (DTC output)Proceed to
P0136 is outputA
No DTCB
B CHECK FOR INTERMITTENT PROBLEMS
(See page 05-9)
A
REPLACE HEATED OXYGEN SENSOR
6 READ VALUE OF HAND-HELD TESTER OR OBD II SCAN TOOL (OUTPUT
VOLTAGE OF HEATED OXYGEN SENSOR)
(a) After warming up the engine, run the engine at 2,500 rpm for 3 minutes.
(b) Read the output voltage of the heated oxygen sensor when the engine rpm is suddenly increased.
HINT:
Quickly accelerate the engine to 4,000 rpm 3 times by using the accelerator pedal.
Heated oxygen sensor output voltage: Alternates 0.4 V or less and 0.5 V or more.
OK Go to step 10
NG

A80018
H10
Heated Oxygen Sensor
+B HT
E1 OX
B60778
5
12 312
5
3
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7 INSPECT HEATED OXYGEN SENSOR (HEATER RESISTANCE)
(a) Disconnect the H10 heated oxygen sensor connector.
(b) Measure the resistance of the heated oxygen sensor ter-
minals.
Standard:
Tester ConnectionConditionSpecified Condition
H10-1 (+B) - H10-2 (HT)20C (68F)11 to 16 W
H10-1 (+B) - H10-2 (HT)800C (1,472F)23 to 32 W
NG REPLACE HEATED OXYGEN SENSOR
OK
8 INSPECT RELAY (EFI)
(a) Remove the EFI relay from the engine room J/B.
(b) Measure the resistance of the EFI relay.
Standard:
Tester ConnectionSpecified Condition
3 - 510 kW or higher
3 - 5Below 1 W
(when battery voltage is applied to terminals 1 and 2)
NG REPLACE RELAY
OK

A80019
A81695A92146
Wire Harness Side
HT
+B
OX
E1
HT1B
OX1B
E8
ECM H10
Heated Oxygen Sensor
A90346
Reference (Bank 1 Sensor 2 System Drawing)
Heater
Sensor
Duty
Control ECM
From
Battery
EFI NO. 1
FuseEFI Relay
+B HT
EFI NO. 2
Fuse
MREL OX1B HT1B Heated Oxygen Sensor
OB1- OX E1
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9 CHECK WIRE HARNESS
(a) Check the wire harness between the ECM and heated ox-
ygen sensor.
(1) Disconnect the H10 heated oxygen sensor connec-
tor.
(2) Disconnect the E8 ECM connector.
(3) Measure the resistance of the wire harness side
connectors.
Standard:
Tester ConnectionSpecified Condition
H10-2 (HT) - E8-21 (HT1B)
H10-4 (OX) - E8-29 (OX1B)Below 1 W
H10-2 (HT) or E8-21 (HT1B) - Body ground
H10-4 (OX) or E8-29 (OX1B) -Body ground10 kW or higher
NG REPAIR OR REPLACE HARNESS AND
CONNECTOR
OK

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REPLACE HEATED OXYGEN SENSOR
10 PERFORM CONFIRMATION DRIVING PATTERN
HINT:
Clear all DTCs prior to performing the confirmation driving pattern.
GO
11 READ OUTPUT DTC (DTC P0136 IS OUTPUT AGAIN)
(a) Read the DTC using the hand-held tester or the OBD II scan tool.
Result:
Display (DTC Output)Proceed to
P0136 is not output againA
P0136 is output againB
A CHECK FOR INTERMITTENT PROBLEMS
B
12 REPLACE HEATED OXYGEN SENSOR
GO
13 PERFORM CONFIRMATION DRIVING PATTERN
HINT:
Clear all DTCs prior to performing the confirmation driving pattern.
GO
14 READ OUTPUT DTC (DTC P0136 IS OUTPUT AGAIN)
(a) Read the DTC using the hand-held tester or the OBD II scan tool.
Result:
Display (DTC Output)Proceed to
P0136 is not output againA
P0136 is output againB
A REPAIR COMPLETED
B

A87979
+12.5 %
Normal Malfunction-12.5 %
0 3.3 V
1 VA/F Sensor Output
Heated Oxygen Sensor OutputInjection Volume
Malfunction
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15 PERFORM ACTIVE TEST USING HAND-HELD TESTER
(a) Start the engine and warm it up.
(b) Connect the hand-held tester to the DLC3.
(c) Turn ON the ignition switch and the hand-held tester main switch.
(d) Enter the following menus: DIAGNOSIS / ENHANCED OBD II / ACTIVE TEST / INJ VOL.
(e) Using the hand-held tester, change the injection volume to check the A/F sensor output and heated
oxygen sensor output values below.
HINT:
Change the injection volume from -12.5 % to +12.5 %.
Result:
A/F sensor output remains more than 3.3 V or A/F sensor output remains less than 3.3 V
(Heated oxygen sensor reacts in accordance with increase and decrease of injection volume)
OK REPLACE AIR FUEL RATIO SENSOR
NG
CHECK AND REPLACE EXTREMLY RICH OR LEAN ACTUAL AIR FUEL RATIO (INJECTOR, FUEL
PRESSURE, GAS LEAKAGE IN EXHAUST SYSTEM, ETC.)

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DTC P0171 SYSTEM TOO LEAN (BANK 1)
DTC P0172 SYSTEM TOO RICH (BANK 1)
CIRCUIT DESCRIPTION
The fuel trim is related to the feedback compensation value, not to the basic injection time. The fuel trim in-
cludes the short-term fuel trim and the long-term fuel trim.
The short-term fuel trim is the short-term fuel compensation used to maintain the ideal stoichiometric air-
fuel ratio. The signal from the A/F sensor indicates whether the air-fuel ratio is RICH or LEAN compared
to the stoichiometric air-fuel ratio. This variance triggers a reduction in the fuel volume if the air-fuel ratio
is RICH, and an increase in the fuel volume if it is LEAN.
The short-term fuel trim varies from the central value due to individual engine differences, wear over time
and changes in the operating environment. The long-term fuel trim, which controls overall fuel compensa-
tion, steadies long-term deviations of the short-term fuel trim from the central value.
If both the short-term fuel trim and the long-term fuel trim are LEAN or RICH beyond a certain value, it is
detected as a malfunction, the MIL is illuminated and a DTC is set.
DTC No.DTC Detection ConditionTrouble Area
P0171
When air-fuel ratio feedback is stable after warming up engine,
fuel trim is considerably in error on LEAN side
(2 trip detection logic)

Air induction system

Injector blockage

MAF meter

ECT sensor

Fuel pressure

Gas leakage in exhaust system

Open or short in A/F sensor (bank 1 sensor 1) circuit

A/F sensor (bank 1 sensor 1)

A/F sensor heater (bank 1 sensor 1)

EFI relay

Open or short in A/F sensor heater and EFI relay circuits

PCV hose connection

PCV hose
P0172
When air-fuel ratio feedback is stable after warming up engine,
fuel trim is considerably in error on RICH side
(2 trip detection logic)

Injector leak, blockage

MAF meter

ECT sensor

Ignition system

Fuel pressure

Gas leakage in exhaust system

Open or short in A/F sensor (bank 1 sensor 1) circuit

A/F sensor (bank 1 sensor 1)

A/F sensor heater

Open or short in A/F sensor heater and EFI relay circuits

EFI relay
HINT:

When DTC P0171 is recorded, the actual air-fuel ratio is on the LEAN side. When DTC P0172 is re-
corded, the actual air-fuel ratio is on the RICH side.

If the vehicle runs out of fuel, the air-fuel ratio is LEAN and DTC P0171 is recorded. The MIL then illumi-
nates.
05ETQ-06

A82386
Fuel Compensation
Amount1.35
1.0
0.65+34 (%): Threshold at LEAN
-34 (%): Threshold at RICH
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MONITOR DESCRIPTION
Under closed-loop fuel control, fuel injection amounts that deviate from the ECM's estimated fuel amount
will cause a change in the long-term fuel trim compensation value. This long-term fuel trim is adjusted when
there are persistent deviations in the short-term fuel trim values. And, the deviation from the simulated fuel
injection amount by the ECM affects the smoothed fuel trim learning value. The smoothed fuel trim learning
value is the combination of smoothed short-term fuel trim (fuel feedback compensation value) and
smoothed long-term fuel trim (learning value of the air-fuel ratio). When the smoothed fuel trim learning val-
ue exceeds the DTC threshold, the ECM interprets this as a fault in the fuel system and sets a DTC.
Example:
The smoothed fuel trim learning value is more than +34 % or less than -34 %. The ECM interprets this as
a failure in the fuel system.
MONITOR STRATEGY
Related DTCsP0171: Fuel System Lean
P0172: Fuel System Rich
Required sensors/ components (Main)Fuel system
Required sensors / components (Related)A/F sensor, MAF meter, CKP sensor
Frequency of operationContinuous
Duration10 sec.
MIL operation2 driving cycles
Sequence of operationNone

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TYPICAL ENABLING CONDITIONS
The monitor will run whenever these DTCs are not presentSee page 05-16
Fuel system statusClosed Loop
Battery voltage11 V or more
Throttle position learningCompleted
Either of the following conditions is met:Condition 1 or 2
1. Engine RPMLess than 1,100 rpm
2. Intake air amount per revolution0.22 g/rev or more
TYPICAL MALFUNCTION THRESHOLDS
Purge-cutExcecuting
Either of the following conditions is met:Condition 1 or 2
1. Average between short-term fuel trim and long-term fuel
trim34% or more (varies with ECT)
2. Average between short-term fuel trim and long-term fuel
trim-34% or less (varies with ECT)
WIRING DIAGRAM
Refer to DTC P2195 on page 05-269.
INSPECTION PROCEDURE
HINT:
Hand-held tester only:
It is possible the malfunctioning area can be found using the ACTIVE TEST A/F CONTROL operation. The
A/F CONTROL operation can determine if the A/F sensor, heated oxygen sensor or other potential trouble
areas are malfunctioning or not.
(a) Perform the ACTIVE TEST A/F CONTROL operation.
HINT:
The A/F CONTROL operation lowers the injection volume by 12.5 % or increases the injection volume by
25 %.
(1) Connect the hand-held tester to the DLC3 on the vehicle.
(2) Turn the ignition switch ON.
(3) Warm up the engine by running the engine at 2,500 rpm for approximately 90 seconds.
(4) Enter the following menus: DIAGNOSIS / ENHANCED OBD II / ACTIVE TEST / A/F CONTROL.
(5) Perform the A/F CONTROL operation with the engine idling (press the right or left button).
Result:
A/F sensor reacts in accordance with increase and decrease of injection volume:
+25 % " RICH output: Less than 3.0 V
-12.5 % " LEAN output: More than 3.35 V
Heated oxygen sensor reacts in accordance with increase and decrease of injection volume:
+25 % " RICH output: More than 0.55 V
-12.5 % " LEAN output: Less than 0.4 V

+25 %
-12.5 %
More than 3.35 V
Less than 3.0 V
Case 1
Case 2
Case 3
Case 4
Output voltage of A/F sensor
(sensor 1)
Injection volume
Output voltage
Output voltage of heated oxygen
sensor (sensor 2)Main suspect
trouble area
OK
+25 %
-12.5 %
More than 3.35 V
Less than 3.0V
Injection volume
Output voltage
+25 %
-12.5 %
More than 0.55 V
Less than 0.4V
Injection volume
Output voltage
A/F sensor
(A/F sensor, heater, A/F sen-
sor circuit)
+25 %
-12.5 %
More than 0.55 V
Less than 0.4V
Injection volume
Output voltage
+25 %
-12.5 %
Injection volume
Output voltage
NG
+25 %
-12.5 %
Injection volume
Output voltage
NG
+25 %
-12.5 %
Injection volume
Output voltage
NG
+25 %
-12.5 %
Injection volume
Output voltage
NGExtremely rich or lean actual
air-fuel ratio
(Injector, fuel pressure, gas
leakage in exhaust system,
etc.) OK
OK
OK
Almost
No reaction
Almost
No reaction
Almost
No reaction Almost
No reaction
'
Heated oxygen sensor
(heated oxygen sensor,
heater, heated oxygen sensor
circuit)
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NOTICE:
The A/F sensor output has a few seconds of delay and the heated oxygen sensor output has about
20 seconds of delay at maximum.
The following A/F CONTROL procedure enables a technician to check and graph the voltage outputs of both
the A/F sensor and the heated oxygen sensor.
For displaying the graph, enter ºACTIVE TEST / A/F CONTROL / USER DATAº, select ºAFS B1S1 and O2S
B1S2º by pressing ºYESº and push ºENTERº. Then press ºF4º.
HINT:

Read freeze frame data using the hand-held tester or the OBD II scan tool. 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.

A high A/F sensor voltage could be caused by a RICH air fuel mixture. Check the conditions that might
cause the engine to run with a RICH air fuel mixture.

A low A/F sensor voltage could be caused by a LEAN air fuel mixture. Check the conditions that might
cause the engine to run with a LEAN air fuel mixture.

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1 CHECK AIR INDUCTION SYSTEM
(a) Check for vacuum leaks in air induction system.
OK: No vacuum leak.
NG REPAIR OR REPLACE AIR INDUCTION SYSTEM
OK
2 CHECK CONNECTION OF PCV HOSE
OK: PCV hose is connected correctly and PCV hose is not damaged.
NG REPAIR OR REPLACE PCV HOSE
OK
3 INSPECT FUEL INJECTOR ASSY (INJECTION AND VOLUME) (See page 11-4)
Standard:
Injection VolumeDifference Between Each Injector
76 to 91 cm3 (4.6 to 5.5 cu in.) / 15 seconds15 cm3 (0.9 cu in.) or less
NG REPLACE FUEL INJECTOR ASSY
(See page 11-10)
OK