Last Modified: 04-05-2023 6.11:8.1.0 Doc ID: RM100000000YSPN
Model Year Start: 2017 Model: Sienna Prod Date Range: [08/2016 -           ]
Title: 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: P013611,...,P015623; O2 Sensor Circuit Bank 1 Sensor 2 Circuit Short to Ground; 2017 - 2020 MY Sienna [08/2016 -        ]

DTC

P013611

O2 Sensor Circuit Bank 1 Sensor 2 Circuit Short to Ground

DTC

P013613

O2 Sensor Circuit Bank 1 Sensor 2 Circuit Open

DTC

P013614

O2 Sensor Circuit Bank 1 Sensor 2 Circuit Short to Ground or Open

DTC

P013615

O2 Sensor Circuit Bank 1 Sensor 2 Circuit Short to Battery or Open

DTC

P013617

O2 Sensor Circuit Bank 1 Sensor 2 Circuit Voltage Above Threshold

DTC

P013623

O2 Sensor Circuit Bank 1 Sensor 2 Signal Stuck Low

DTC

P013A00

O2 Sensor Slow Response - Rich to Lean Bank 1 Sensor 2

DTC

P013C00

O2 Sensor Slow Response - Rich to Lean Bank 2 Sensor 2

DTC

P015611

O2 Sensor Circuit Bank 2 Sensor 2 Circuit Short to Ground

DTC

P015613

O2 Sensor Circuit Bank 2 Sensor 2 Circuit Open

DTC

P015614

O2 Sensor Circuit Bank 2 Sensor 2 Circuit Short to Ground or Open

DTC

P015615

O2 Sensor Circuit Bank 2 Sensor 2 Circuit Short to Battery or Open

DTC

P015617

O2 Sensor Circuit Bank 2 Sensor 2 Circuit Voltage Above Threshold

DTC

P015623

O2 Sensor Circuit Bank 2 Sensor 2 Signal Stuck Low

DESCRIPTION

In order to obtain a high purification rate of the carbon monoxide (CO), hydrocarbon (HC) and nitrogen oxide (NOx) components in the exhaust gas, a TWC (Three-Way Catalytic Converter) is used. For the most efficient use of the TWC, the air fuel ratio must be precisely controlled so that it is always close to the stoichiometric air fuel level. For the purpose of helping the ECM to deliver accurate air fuel ratio control, a heated oxygen sensor is used.

The heated oxygen sensor is located behind the TWC, and detects the oxygen concentration in the exhaust gas. Since the sensor is integrated with the heater that heats the sensing portion, it is possible to detect the oxygen concentration even when the intake air volume is low (the exhaust gas temperature is low).

When the air fuel ratio becomes lean, the oxygen concentration in the exhaust gas is high. The heated oxygen sensor informs the ECM that the post-TWC air fuel ratio is lean (low voltage, i.e. less than 0.45 V).

Conversely, when the air fuel ratio is richer than the stoichiometric air fuel level, the oxygen concentration in the exhaust gas is low. The heated oxygen sensor informs the ECM that the post-TWC air fuel ratio is rich (high voltage, i.e. higher than 0.45 V). The heated oxygen sensor has the property of changing its output voltage drastically when the air fuel ratio is close to the stoichiometric level.

The ECM uses the supplementary information from the heated oxygen sensor to determine whether the air fuel ratio after the TWC is rich or lean, and adjusts the fuel injection duration accordingly. Thus, if the heated oxygen sensor is working improperly due to internal malfunctions, the ECM is unable to compensate for deviations in the primary air fuel ratio control.

DTC No.

Detection Item

DTC Detection Condition

Trouble Area

MIL

Memory

Note

P013611

O2 Sensor Circuit Bank 1 Sensor 2 Circuit Short to Ground

Low impedance:

  • Sensor impedance less than 5 Ω for 30 seconds or more when ECM presumes sensor is warmed up and operating normally (2 trip detection logic)
  • Heated oxygen sensor (bank 1 sensor 2) circuit
  • Heated oxygen sensor (bank 1 sensor 2)
  • Air fuel ratio sensor (bank 1 sensor 1)
  • Gas leak from exhaust system
  • Fuel pressure
  • Fuel system
  • PCV valve and hose
  • Intake system

Comes on

DTC stored

  • SAE Code: P0136
  • DTC for Mexico Models: Does not apply

P013613

O2 Sensor Circuit Bank 1 Sensor 2 Circuit Open

Abnormal voltage output:

  • During active air fuel ratio control, heated oxygen sensor voltage does not increase to 0.71 V or higher for certain period of time (2 trip detection logic)
  • Heated oxygen sensor (bank 1 sensor 2) circuit
  • Heated oxygen sensor (bank 1 sensor 2)
  • Air fuel ratio sensor (bank 1 sensor 1)
  • Gas leak from exhaust system
  • Fuel pressure
  • Fuel system
  • PCV valve and hose
  • Intake system

Comes on

DTC stored

  • SAE Code: P0136
  • DTC for Mexico Models: Does not apply

P013614

O2 Sensor Circuit Bank 1 Sensor 2 Circuit Short to Ground or Open

High impedance:

  • Sensor impedance 15 kΩ or higher for 90 seconds or more when ECM presumes sensor to be warmed up and operating normally (2 trip detection logic)
  • Heated oxygen sensor (bank 1 sensor 2) circuit
  • Heated oxygen sensor (bank 1 sensor 2)
  • Air fuel ratio sensor (bank 1 sensor 1)
  • Gas leak from exhaust system

Comes on

DTC stored

  • SAE Code: P0137
  • DTC for Mexico Models: Does not apply

P013615

O2 Sensor Circuit Bank 1 Sensor 2 Circuit Short to Battery or Open

Extremely high voltage (short):

  • Heated oxygen sensor voltage output exceeds 1.2 V for 10 seconds or more (2 trip detection logic)
  • Heated oxygen sensor (bank 1 sensor 2) circuit
  • Heated oxygen sensor (bank 1 sensor 2)
  • ECM
  • Air fuel ratio sensor (bank 1 sensor 1)

Comes on

DTC stored

  • SAE Code: P0138
  • DTC for Mexico Models: Does not apply

P013617

O2 Sensor Circuit Bank 1 Sensor 2 Circuit Voltage Above Threshold

Low voltage (open):

  • During active air fuel ratio control, following conditions (a) and (b) met for certain period of time (2 trip detection logic)

    (a) Heated oxygen sensor voltage output less than 0.21 V

    (b) Target air fuel ratio rich

  • Heated oxygen sensor (bank 1 sensor 2) circuit
  • Heated oxygen sensor (bank 1 sensor 2)
  • Air fuel ratio sensor (bank 1 sensor 1)
  • Gas leak from exhaust system

Comes on

DTC stored

  • SAE Code: P0137
  • DTC for Mexico Models: Applies

P013623

O2 Sensor Circuit Bank 1 Sensor 2 Signal Stuck Low

Heated oxygen sensor (bank 1 sensor 2) voltage does not drop to less than 0.2 V immediately during fuel cut starts (2 trip detection logic)

  • Heated oxygen sensor (bank 1 sensor 2) circuit
  • Heated oxygen sensor (bank 1 sensor 2)
  • Gas leak from exhaust system

Comes on

DTC stored

  • SAE Code: P0139
  • DTC for Mexico Models: Does not apply

P013A00

O2 Sensor Slow Response - Rich to Lean Bank 1 Sensor 2

Heated oxygen sensor (bank 1 sensor 2) voltage does not drop from 0.35 V to 0.2 V immediately during fuel cut starts (1 trip detection logic)

  • Heated oxygen sensor (bank 1 sensor 2) circuit
  • Heated oxygen sensor (bank 1 sensor 2)
  • Gas leak from exhaust system

Comes on

DTC stored

  • SAE Code: P013A
  • DTC for Mexico Models: Does not apply

P013C00

O2 Sensor Slow Response - Rich to Lean Bank 2 Sensor 2

Heated oxygen sensor (bank 2 sensor 2) voltage does not drop from 0.35 V to 0.2 V immediately during fuel cut starts (1 trip detection logic)

  • Heated oxygen sensor (bank 2 sensor 2) circuit
  • Heated oxygen sensor (bank 2 sensor 2)
  • Gas leak from exhaust system

Comes on

DTC stored

  • SAE Code: P013C
  • DTC for Mexico Models: Does not apply

P015611

O2 Sensor Circuit Bank 2 Sensor 2 Circuit Short to Ground

Low impedance:

  • Sensor impedance less than 5 Ω for 30 seconds or more when ECM presumes sensor is warmed up and operating normally (2 trip detection logic)
  • Heated oxygen sensor (bank 2 sensor 2) circuit
  • Heated oxygen sensor (bank 2 sensor 2)
  • Air fuel ratio sensor (bank 2 sensor 1)
  • Gas leak from exhaust system
  • Fuel pressure
  • Fuel system
  • PCV valve and hose
  • Intake system

Comes on

DTC stored

  • SAE Code: P0156
  • DTC for Mexico Models: Does not apply

P015613

O2 Sensor Circuit Bank 2 Sensor 2 Circuit Open

Abnormal voltage output:

  • During active air fuel ratio control, heated oxygen sensor voltage does not increase to 0.71 V or higher for certain period of time (2 trip detection logic)
  • Heated oxygen sensor (bank 2 sensor 2) circuit
  • Heated oxygen sensor (bank 2 sensor 2)
  • Air fuel ratio sensor (bank 2 sensor 1)
  • Gas leak from exhaust system
  • Fuel pressure
  • Fuel system
  • PCV valve and hose
  • Intake system

Comes on

DTC stored

  • SAE Code: P0156
  • DTC for Mexico Models: Does not apply

P015614

O2 Sensor Circuit Bank 2 Sensor 2 Circuit Short to Ground or Open

High impedance:

  • Sensor impedance 15 kΩ or higher for 90 seconds or more when ECM presumes sensor to be warmed up and operating normally (2 trip detection logic)
  • Heated oxygen sensor (bank 2 sensor 2) circuit
  • Heated oxygen sensor (bank 2 sensor 2)
  • Air fuel ratio sensor (bank 2 sensor 1)
  • Gas leak from exhaust system

Comes on

DTC stored

  • SAE Code: P0157
  • DTC for Mexico Models: Does not apply

P015615

O2 Sensor Circuit Bank 2 Sensor 2 Circuit Short to Battery or Open

Extremely high voltage (short):

  • Heated oxygen sensor voltage output exceeds 1.2 V for 10 seconds or more (2 trip detection logic)
  • Heated oxygen sensor (bank 2 sensor 2) circuit
  • Heated oxygen sensor (bank 2 sensor 2)
  • ECM
  • Air fuel ratio sensor (bank 2 sensor 1)

Comes on

DTC stored

  • SAE Code: P0158
  • DTC for Mexico Models: Does not apply

P015617

O2 Sensor Circuit Bank 2 Sensor 2 Circuit Voltage Above Threshold

Low voltage (open):

  • During active air fuel ratio control, following conditions (a) and (b) met for certain period of time (2 trip detection logic)

    (a) Heated oxygen sensor voltage output less than 0.21 V

    (b) Target air fuel ratio rich

  • Heated oxygen sensor (bank 2 sensor 2) circuit
  • Heated oxygen sensor (bank 2 sensor 2)
  • Air fuel ratio sensor (bank 2 sensor 1)
  • Gas leak from exhaust system

Comes on

DTC stored

  • SAE Code: P0157
  • DTC for Mexico Models: Applies

P015623

O2 Sensor Circuit Bank 2 Sensor 2 Signal Stuck Low

Heated oxygen sensor (bank 2 sensor 2) voltage does not drop to less than 0.2 V immediately during fuel cut starts (2 trip detection logic)

  • Heated oxygen sensor (bank 2 sensor 2) circuit
  • Heated oxygen sensor (bank 2 sensor 2)
  • Gas leak from exhaust system

Comes on

DTC stored

  • SAE Code: P0159
  • DTC for Mexico Models: Does not apply

MONITOR DESCRIPTION

Active Air fuel Ratio Control

The ECM usually performs air fuel ratio feedback control so that the air fuel ratio sensor output indicates a near stoichiometric air fuel level. This vehicle includes active air fuel ratio control in addition to regular air fuel ratio control. The ECM performs active air fuel ratio control to detect any deterioration in the Three-Way Catalytic Converter (TWC) and heated oxygen sensor malfunctions (refer to the diagram below).

Active air fuel ratio control is performed for approximately 30 seconds while driving with a warm engine. During active air fuel ratio control, the air fuel ratio is forcibly regulated to become lean or rich by the ECM. If the ECM detects a malfunction, a DTC is stored.

Abnormal Voltage Output of Heated Oxygen Sensor (DTCs P013613 and P015613)

While the ECM is performing active air fuel ratio control, the air fuel ratio is forcibly regulated to become rich or lean. If the sensor is not functioning properly, the voltage output variation is small. For example, when the heated oxygen sensor voltage does not increase to 0.71 V or higher during active air fuel ratio control, the ECM determines that the sensor voltage output is abnormal and stores DTC P013613 or P015613.

Open in Heated Oxygen Sensor Circuit (DTCs P013617 and P015617)

During active air fuel ratio control, the ECM calculates the Oxygen Storage Capacity (OSC)* of the Three-Way Catalytic Converter (TWC) by forcibly regulating the air fuel ratio to become rich or lean.

If the heated oxygen sensor has an open circuit, or the voltage output of the sensor noticeably decreases, the OSC indicates an extraordinarily high value. Even if the ECM attempts to continue regulating the air fuel ratio to become rich or lean, the heated oxygen sensor output does not change.

While performing active air fuel ratio control, when the target air fuel ratio is rich and the heated oxygen sensor voltage output is less than 0.21 V (lean), the ECM interprets this as an abnormally low sensor output voltage and stores DTC P013617 or P015617.

HINT:

*: The TWC has the capability to store oxygen. The OSC and the emission purification capacity of the TWC are mutually related. The ECM determines whether the catalyst has deteriorated based on the calculated OSC value.

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High or Low Impedance of Heated Oxygen Sensor (DTCs P013611 and P015611 or P013614 and P015614)

During normal air fuel ratio feedback control, there are small variations in the exhaust gas oxygen concentration. In order to continuously monitor the slight variation of the heated oxygen sensor signal while the engine is running, the impedance* of the sensor is measured by the ECM. The ECM determines that there is a malfunction in the sensor when the measured impedance deviates from the standard range.

*: The effective resistance in an alternating current electrical circuit.

HINT:

  • The impedance cannot be measured using an ohmmeter.
  • DTC P013611 or P015611 indicates the deterioration of the heated oxygen sensor. The ECM stores the DTC by calculating the impedance of the sensor when the typical enabling conditions are satisfied (2 driving cycles).
  • DTC P013614 or P015614 indicates an open or short circuit in the heated oxygen sensor (2 driving cycles). The ECM stores the DTC when the impedance of the sensor exceeds the threshold 15 kΩ.

Extremely High Output Voltage of Heated Oxygen Sensor (DTCs P013615 and P015615)

The ECM continuously monitors the heated oxygen sensor output voltage while the engine is running.

DTC P013615 or P015615 is stored if the heated oxygen sensor voltage output is 1.2 V or higher for 10 seconds or more.

Abnormal Voltage Output of Heated Oxygen Sensor During Fuel-cut (DTCs P013623 and P015623)

The sensor output voltage drops to less than 0.2 V (extremely lean status) immediately when the vehicle decelerates and fuel cut is operating. If the voltage does not drop to less than 0.2 V for 7 seconds or more, the ECM determines that the sensor response has deteriorated, illuminates the MIL and stores a DTC.

Abnormal Voltage Output of Heated Oxygen Sensor During Fuel-cut from Rich Condition (DTCs P013A00 and P013C00)

If the sensor output voltage does not drop from 0.35 to 0.2 V immediately when the vehicle decelerates and fuel cut is operating, the ECM illuminates the MIL and stores a DTC.

MONITOR STRATEGY

Related DTCs

P0136: Heated oxygen sensor (bank 1) voltage check (voltage malfunction)

P0136: Heated oxygen sensor (bank 1) circuit continuity check (circuit short)

P0137: Heated oxygen sensor (bank 1) voltage check (low voltage)

P0137: Heated oxygen sensor (bank 1) circuit continuity check (circuit open)

P0138: Heated oxygen sensor (bank 1) circuit continuity check (out of range)

P0139: Heated oxygen sensor (bank 1) response rate during fuel cut

P013A: Heated oxygen sensor (bank 1) response rate during fuel cut from rich condition

P013C: Heated oxygen sensor (bank 2) response rate during fuel cut from rich condition

P0156: Heated oxygen sensor (bank 2) voltage check (voltage malfunction)

P0156: Heated oxygen sensor (bank 2) circuit continuity check (circuit short)

P0157: Heated oxygen sensor (bank 2) voltage check (low voltage)

P0157: Heated oxygen sensor (bank 2) circuit continuity check (circuit open)

P0158: Heated oxygen sensor (bank 2) circuit continuity check (out of range)

P0159: Heated oxygen sensor (bank 2) response rate during fuel cut

Required Sensors/Components (Main)

Heated oxygen sensor (sensor 2)

Required Sensors/Components (Related)

Crankshaft position sensor

Engine coolant temperature sensor

Mass air flow meter

Throttle position sensor

Air fuel ratio sensor

Frequency of Operation

Once per driving cycle: Active air fuel ratio control detection, heated oxygen sensor abnormal voltage during fuel cut.

Continuous: Other

Duration

20 seconds: Heated oxygen sensor voltage check

30 seconds: Heated oxygen sensor circuit continuity check (circuit short)

90 seconds: Heated oxygen sensor circuit continuity check (circuit open)

10 seconds: Heated oxygen sensor circuit continuity check (out of range)

7 seconds: Heated oxygen sensor response rate during fuel cut, Heated oxygen sensor response rate during fuel cut from rich condition

MIL Operation

2 driving cycles: P0136, P0137, P0138, P0139, P0156, P0157, P0158 and P0159

Immediate: P013A and P013C

Sequence of Operation

None

TYPICAL ENABLING CONDITIONS

All

Monitor runs whenever the following DTCs are not stored

P0010, P0020 (VVT oil control solenoid bank 1, 2)

P0011, P0021 (VVT system bank 1, 2 - advance)

P0012, P0022 (VVT system bank 1, 2 - retard)

P0013, P0023 (Exhaust VVT oil control solenoid bank 1, 2)

P0014, P0024 (Exhaust VVT system bank 1, 2 - advance)

P0015, P0025 (Exhaust VVT system bank 1, 2 - retard)

P0016, P0018 (VVT system bank 1, 2 - misalignment)

P0017, P0019 (Exhaust VVT system bank 1, 2 - misalignment)

P0031, P0032, P0051, P0052, P101D, P103D (Air fuel ratio sensor heater)

P0037, P0038, P0057, P0058, P0141, P0161, P102D, P105D (Heated oxygen sensor heater)

P0087, P0088, P0191, P0192, P0193 (Fuel pressure sensor (for high pressure side))

P0101, P0102, P0103 (Mass air flow meter)

P0111, P0112, P0113 (Intake air temperature sensor)

P0116, P0117, P0118 (Engine coolant temperature sensor)

P011B (Engine coolant temperature/intake air temperature sensor correlation)

P0121, P0122, P0123, P0222, P0223, P2135 (Throttle position sensor)

P0125 (Insufficient coolant temperature for closed loop fuel control)

P0128 (Thermostat)

P014C, P014D, P014E, P014F, P015A, P015B, P015C, P015D, P2195, P2196, P2197, P2198, P2237, P2238, P2239, P2240, P2241, P2242, P2252, P2253, P2255, P2256 (Air fuel ratio sensor)

P0171, P0172, P0174, P0175 (Fuel system)

P0201, P0202, P0203, P0204, P0205, P0206, P062D, P21CF, P21D0, P21D1, P21D2, P21D3, P21D4 (Fuel injector)

P0300 - P0306 (Misfire)

P0327, P0328, P0332, P0333 (Knock sensor)

P0335, P0337, P0338 (Crankshaft position sensor)

P0340, P0342, P0343, P0345, P0347, P0348 (VVT sensor)

P0351 - P0356 (Igniter)

P0365, P0367, P0368, P0390, P0392, P0393 (Exhaust VVT sensor)

P0443 (EVAP system)

P0500 (Vehicle speed sensor)

P0657, P2102, P2103, P2111, P2112, P2119 (Throttle actuator)

P107B, P107C, P107D (Fuel pressure sensor (for low pressure side))

P11EA, P11EB, P11EC, P11ED, P11EE, P11EF, P11F0, P11F1, P219A, P219B, P219C, P219D, P219E, P219F, P21A0, P21A1 (Air-fuel ratio imbalance)

P1235 (High pressure fuel pump circuit)

P0136, P0137, P0156 and P0157: Heated Oxygen Sensor Voltage Check (Voltage Malfunction and Low Voltage)

Battery voltage

11 V or higher

Intake air temperature (for mass air flow meter)

-10°C (14°F) or higher

Engine coolant temperature

75°C (167°F) or higher

Atmospheric pressure

76 kPa(abs) [11 psi(abs)] or higher

Idling

Off

Engine speed

Less than 3200 rpm

Air fuel ratio sensor status

Activated

Fuel system status

Closed loop

Engine load

10% or higher, and less than 100%

P0136 and P0156: Heated Oxygen Sensor Circuit Continuity Check (Circuit Short)

Battery voltage

11 V or higher

Estimated heated oxygen sensor temperature

Less than 700°C (1292°F)

ECM monitor

Completed

DTC P0607

Not set

P0137 and P0157: Heated Oxygen Sensor Circuit Continuity Check (Circuit Open)

Battery voltage

11 V or higher

Estimated heated oxygen sensor temperature

450°C (842°F) or higher, and less than 750°C (1382°F)

DTC P0607

Not set

P0138 and P0158: Heated Oxygen Sensor Circuit Continuity Check (Out of Range)

Battery voltage

11 V or higher

Time after engine start

2 seconds or more

P0139 and P0159: Heated Oxygen Sensor Response Rate During Fuel Cut

Battery voltage

11 V or higher

Engine coolant temperature

75°C (167°F) or higher

Estimate catalyst temperature

400°C (752°F) or higher

Fuel cut

On

P013A and P013C: Heated Oxygen Sensor Response Rate during Fuel Cut from Rich Condition

Battery voltage

11 V or higher

Engine coolant temperature

75°C (167°F) or higher

Estimate catalyst temperature

400°C (752°F) or higher

Fuel cut

On

TYPICAL MALFUNCTION THRESHOLDS

P0136 and P0156: Heated Oxygen Sensor Voltage Check (Voltage Malfunction)

All of the following conditions (a), (b) and (c) met

-

(a) OSC (Oxygen Storage Capacity of Catalyst)

2 g or more

(b) Commanded air fuel ratio

14.3 or less

(c) Heated oxygen sensor voltage

0.21 V or higher, and less than 0.71 V

P0137 and P0157: Heated Oxygen Sensor Voltage Check (Low Voltage)

All of the following conditions (a), (b) and (c) met

-

(a) OSC (Oxygen Storage Capacity) of catalyst

2 g or more

(b) Commanded air fuel ratio

14.3 or less

(c) Heated oxygen sensor voltage

Less than 0.21 V

P0136 and P0156: Heated Oxygen Sensor Circuit Continuity Check (Circuit Short)

Duration of following condition

30 seconds or more

Heated oxygen sensor impedance

Less than 5 Ω

P0137 and P0157: Heated Oxygen Sensor Circuit Continuity Check (Circuit Open)

Duration of following condition

90 seconds or more

Heated oxygen sensor impedance

15 kΩ or higher

P0138 and P0158: Heated Oxygen Sensor Circuit Continuity Check (Out of Range)

Duration of following condition

10 seconds or more

Heated oxygen sensor voltage

1.2 V or higher

P0139 and P0159: Heated Oxygen Sensor Response Rate During Fuel Cut

Total airflow volume reached after start of fuel-cut while heated oxygen sensor voltage remains at 0.2 V or higher

More than 16 g

P013A and P013C: Heated Oxygen Sensor Response Rate during Fuel Cut from Rich Condition

Duration that heated oxygen sensor voltage drops from 0.35 to 0.2 V during fuel cut (Normalized)

1 or more

MONITOR RESULT

Refer to detailed information in Checking Monitor Status.

Click here 2017 - 2020 MY Sienna [08/2016 -        ]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: CHECKING MONITOR STATUS

P0137: O2 Sensor / MAX VOL B1S2

Monitor ID

Test ID

Scaling

Unit

Description

$02

$08

Multiply by 0.001

V

Maximum sensor voltage

P0139: O2 Sensor / F/C TIME B1S2

Monitor ID

Test ID

Scaling

Unit

Description

$02

$8D

Multiply by 0.001

Seconds

Duration that sensor voltage drops to 0.2 V during fuel-cut

P0136: O2 Sensor / MAX OSC B1S2

Monitor ID

Test ID

Scaling

Unit

Description

$02

$8F

Multiply by 0.0003

No dimension

Maximum oxygen storage capacity

P013A: O2 Sensor / RL F/C B1S2

Monitor ID

Test ID

Scaling

Unit

Description

$02

$90

Multiply by 0.001

No dimension

Response rate during fuel cut from rich condition (Normalization)

P013C: O2 Sensor / RL F/C B2S2

Monitor ID

Test ID

Scaling

Unit

Description

$06

$90

Multiply by 0.001

No dimension

Response rate during fuel cut from rich condition (Normalization)

P0157: O2 Sensor / MAX VOL B2S2

Monitor ID

Test ID

Scaling

Unit

Description

$06

$08

Multiply by 0.001

V

Maximum sensor voltage

P0159: O2 Sensor / F/C TIME B2S2

Monitor ID

Test ID

Scaling

Unit

Description

$06

$8D

Multiply by 0.001

Seconds

Duration that sensor voltage drops to 0.2 V during fuel-cut

P0156: O2 Sensor / MAX OSC B2S2

Monitor ID

Test ID

Scaling

Unit

Description

$06

$8F

Multiply by 0.0003

No dimension

Maximum oxygen storage capacity

CONFIRMATION DRIVING PATTERN

HINT:

  • This confirmation driving pattern is used in the "Perform Confirmation Driving Pattern" procedure of the following diagnostic troubleshooting procedure.
  • Performing this confirmation driving pattern will activate the heated oxygen sensor monitor (The catalyst monitor is performed simultaneously). This is very useful for verifying the completion of a repair.
  • After repair has been completed, clear the DTC and then check that the vehicle has returned to normal by performing the following All Readiness check procedure.

    Click here 2017 - 2020 MY Sienna [08/2016 -        ]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: DTC CHECK / CLEAR

  • When clearing the permanent DTCs, refer to the "CLEAR PERMANENT DTC" procedure.

    Click here 2017 - 2020 MY Sienna [08/2016 -        ]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: DTC CHECK / CLEAR

P013611, P013613, P013614, P013615, P013617, P015611, P015613, P015614, P015615 and P015617

  1. Connect the Techstream to the DLC3.
  2. Turn the ignition switch to ON and turn the Techstream on.
  3. Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure).
  4. Turn the ignition switch off and wait for at least 30 seconds.
  5. Turn the ignition switch to ON and turn the Techstream on [A].
  6. Start the engine and warm it up until the engine coolant temperature reaches 75°C (167°F) or higher [B].
  7. With the shift lever in D, drive the vehicle at 75 to 120 km/h (47 to 75 mph) for 10 minutes or more [C].

    CAUTION:

    When performing the confirmation driving pattern, obey all speed limits and traffic laws.

  8. Enter the following menus: Powertrain / Engine / Trouble Codes [D].
  9. Read the pending DTCs.

    HINT:

    • If a pending DTC is output, the system is malfunctioning.
    • If a pending DTC is not output, perform the following procedure.
  10. Enter the following menus: Powertrain / Engine / Utility / All Readiness.
  11. Input the DTC: P013611, P013613, P013614, P013615, P013617, P015611, P015613, P015614, P015615 or P015617.
  12. Check the DTC judgment result.

    Techstream Display

    Description

    NORMAL

    • DTC judgment completed
    • System normal

    ABNORMAL

    • DTC judgment completed
    • System abnormal

    INCOMPLETE

    • DTC judgment not completed
    • Perform driving pattern after confirming DTC enabling conditions

    HINT:

    • If the judgment result shows NORMAL, the system is normal.
    • If the judgment result shows ABNORMAL, the system has a malfunction.
    • If the judgment result shows INCOMPLETE, perform steps [C] and [D] again.
    • [B] to [D]: Normal judgment procedure.

      The normal judgment procedure is used to complete DTC judgment and also used when clearing permanent DTCs.

    • When clearing the permanent DTCs, do not disconnect the cable from the battery terminal or attempt to clear the DTCs during this procedure, as doing so will clear the universal trip and normal judgment histories.

P013623, P013A00, P013C00 and P015623

  1. Connect the Techstream to the DLC3.
  2. Turn the ignition switch to ON and turn the Techstream on.
  3. Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure).
  4. Turn the ignition switch off and wait for at least 30 seconds.
  5. Turn the ignition switch to ON and turn the Techstream on.
  6. Enter the following menus: Powertrain / Engine / Monitor / Current Monitor.
  7. Check that Catalyst Efficiency / Current is Incomplete.
  8. Start the engine and warm it up until the engine coolant temperature is 75°C (167°F) or higher with the shift lever in P [A].

    HINT:

    In order to keep the idling stable, turn off the A/C and all other electric loads and do not perform any shift operations.

  9. Drive the vehicle at approximately 60 km/h (37 mph) for 10 minutes or more [B].

    CAUTION:

    When performing the confirmation driving pattern, obey all speed limits and traffic laws.

    HINT:

    Drive the vehicle while keeping the engine load as constant as possible.

  10. With the shift lever in S drive the vehicle at 60 km/h (37 mph), and then decelerate the vehicle by releasing the accelerator pedal for 5 seconds or more to perform the fuel-cut [C].

    CAUTION:

    When performing the confirmation driving pattern, obey all speed limits and traffic laws.

  11. Enter the following menus: Powertrain / Engine / Monitor / Current Monitor / O2 Sensor / RL F/C B1S2, RL F/C B2S2 [D].
  12. Check the Test Value for RL F/C B1S2, RL F/C B2S2.

    HINT:

    If Test Value displays 0, perform step [C] until it displays a value larger than 0, as the O2 sensor monitor is not finished.

  13. Repeat step [C] 2 times or more in one driving cycle.
  14. Enter the following menus: Powertrain / Engine / Trouble Codes.
  15. Read the pending DTCs.

    HINT:

    • If a pending DTC is output, the system is malfunctioning.
    • If a pending DTC is not output, perform the following procedure.
  16. Enter the following menus: Powertrain / Engine / Utility / All Readiness.
  17. Input the DTC: P013623, P013A00, P013C00 or P015623.
  18. Check the DTC judgment result.

    Techstream Display

    Description

    NORMAL

    • DTC judgment completed
    • System normal

    ABNORMAL

    • DTC judgment completed
    • System abnormal

    INCOMPLETE

    • DTC judgment not completed
    • Perform driving pattern after confirming DTC enabling conditions

    HINT:

    • If the judgment result shows NORMAL, the system is normal.
    • If the judgment result shows ABNORMAL, the system has a malfunction.
    • If the judgment result shows INCOMPLETE, drive the vehicle with the shift lever in S and then perform step [C] again.
    • [A] to [D]: Normal judgment procedure.

      The normal judgment procedure is used to complete DTC judgment and also used when clearing permanent DTCs.

    • When clearing the permanent DTCs, do not disconnect the cable from the battery terminal or attempt to clear the DTCs during this procedure, as doing so will clear the universal trip and normal judgment histories.

WIRING DIAGRAM

CAUTION / NOTICE / HINT

HINT:

Malfunctioning areas can be identified by performing the Control the Injection Volume for A/F Sensor function provided in the Active Test. The Control the Injection Volume for A/F Sensor function can help to determine whether the air fuel ratio sensor, heated oxygen sensor and other potential trouble areas are malfunctioning.

The following instructions describe how to conduct the Control the Injection Volume for A/F Sensor operation using the Techstream.

  1. Connect the Techstream to the DLC3.
  2. Start the engine.
  3. Turn the Techstream on.
  4. Warm up the engine and run the engine at an engine speed of 2500 rpm for approximately 90 seconds.
  5. Enter the following menus: Powertrain / Engine / Active Test / Control the Injection Volume for A/F Sensor / Data List / A/F (O2) Sensor Voltage B1S1 and O2 Sensor Voltage B1S2 or A/F (O2) Sensor Voltage B2S1 and O2 Sensor Voltage B2S2.
  6. Perform the Active Test with the engine idling (change the fuel injection volume).
  7. Monitor the output voltages of the air fuel ratio and heated oxygen sensors (A/F (O2) Sensor Voltage B1S1 and O2 Sensor Voltage B1S2 or A/F (O2) Sensor Voltage B2S1 and O2 Sensor Voltage B2S2) displayed on the Techstream.

HINT:

  • The Control the Injection Volume for A/F Sensor operation lowers the fuel injection volume by 12.5% or increases the injection volume by 12.5%.
  • Each sensor reacts in accordance with increases and decreases in the fuel injection volume.

Standard

Techstream Display (Sensor)

Injection Volume

Status

Voltage

A/F (O2) Sensor Voltage B1S1

A/F (O2) Sensor Voltage B2S1

(Air fuel ratio)

12.5%

Rich

Below 3.1 V

-12.5%

Lean

Higher than 3.4 V

O2 Sensor Voltage B1S2

O2 Sensor Voltage B2S2

(Heated oxygen)

12.5%

Rich

Higher than 0.55 V

-12.5%

Lean

Below 0.4 V

NOTICE:

The air fuel ratio sensor has an output delay of a few seconds and the heated oxygen sensor has a maximum output delay of approximately 20 seconds.

  • Following the Control the Injection Volume for A/F Sensor procedure enables technicians to check and graph the voltage outputs of both the air fuel ratio and heated oxygen sensors.
  • To display the graph, enter the following menus: Powertrain / Engine / Active Test / Control the Injection Volume for A/F Sensor / Data List / A/F (O2) Sensor Voltage B1S1 and O2 Sensor Voltage B1S2 or A/F (O2) Sensor Voltage B2S1 and O2 Sensor Voltage B2S2; and then press the graph button on the Data List view.

NOTICE:

Inspect the fuses for circuits related to this system before performing the following procedure.

HINT:

  • Bank 1 refers to the bank that includes the No. 1 cylinder*.

    *: The No. 1 cylinder is the cylinder which is farthest from the transaxle.

  • Bank 2 refers to the bank that does not include the No. 1 cylinder.
  • Sensor 1 refers to the sensor closest to the engine assembly.
  • Sensor 2 refers to the sensor farthest away from the engine assembly.
  • Read freeze frame data using the Techstream. Freeze frame data records the engine condition when malfunctions are detected. When troubleshooting, freeze frame data can help determine if the vehicle was moving or stationary, 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.

PROCEDURE

1.

READ OUTPUT DTC

(a) Connect the Techstream to the DLC3.

(b) Turn the ignition switch to ON.

(c) Turn the Techstream on.

(d) Enter the following menus: Powertrain / Engine / Trouble Codes.

(e) Read the DTCs.

Result

Proceed to

P013615 or P015615 is output

A

P013614, P013617, P015614 or P015617 is output

B

P013611, P013613, P015611 or P015613 is output

C

P013623, P013A00, P013C00 or P015623 is output

D

P013611, P013613, P013614, P013615, P013617, P013623, P013A00, P013C00, P015611, P015613, P015614, P015615, P015617 or P015623 and other DTCs are output

E

HINT:

If any DTCs other than P013611, P013613, P013614, P013615, P013617, P013623, P013A00, P013C00, P015611, P015613, P015614, P015615, P015617 or P015623 are output, troubleshoot those DTCs first.

B

GO TO STEP 9

C

GO TO STEP 4

D

GO TO STEP 15

E

GO TO DTC CHART 2017 MY Sienna [08/2016 - 11/2017]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: DIAGNOSTIC TROUBLE CODE CHART 2018 MY Sienna [11/2017 - 08/2018]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: DIAGNOSTIC TROUBLE CODE CHART 2019 - 2020 MY Sienna [08/2018 -        ]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: DIAGNOSTIC TROUBLE CODE CHART

A

2.

INSPECT HEATED OXYGEN SENSOR (CHECK FOR SHORT)

*a

Component without harness connected

(Heated Oxygen Sensor)

*b

Bank 1

*c

Bank 2

(a) Disconnect the heated oxygen sensor connector.

(b) Measure the resistance according to the value(s) in the table below.

Standard Resistance:

Tester Connection

Condition

Specified Condition

2 (+B) - 4 (E2)

Always

10 kΩ or higher

2 (+B) - 3 (OX1B)

Always

10 kΩ or higher

2 (+B) - 4 (E2)

Always

10 kΩ or higher

2 (+B) - 3 (OX2B)

Always

10 kΩ or higher

HINT:

Perform "Inspection After Repair" after replacing the heated oxygen sensor.

Click here 2017 MY Sienna [08/2016 - 11/2017]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: INITIALIZATION 2018 - 2020 MY Sienna [11/2017 -        ]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: INITIALIZATION

NG

REPLACE HEATED OXYGEN SENSOR

OK

3.

CHECK HARNESS AND CONNECTOR (CHECK FOR SHORT)

(a) Turn the ignition switch off and wait for 5 minutes or more.

(b) Disconnect the B67 ECM connector.

(c) Measure the resistance according to the value(s) in the table below.

Standard Resistance:

Tester Connection

Condition

Specified Condition

B67-50 (HT1B) - B67-93 (OX1B)

Always

10 kΩ or higher

B67-16 (HT2B) - B67-91 (OX2B)

Always

10 kΩ or higher

OK

REPLACE ECM

NG

REPAIR OR REPLACE HARNESS OR CONNECTOR (HEATED OXYGEN SENSOR - ECM)

4.

PERFORM ACTIVE TEST USING TECHSTREAM (CONTROL THE INJECTION VOLUME FOR A/F SENSOR)

(a) Connect the Techstream to the DLC3.

(b) Start the engine.

(c) Turn the Techstream on.

(d) Warm up the engine.

(e) Enter the following menus: Powertrain / Engine / Active Test / Control the Injection Volume for A/F Sensor / Data List / O2 Sensor Voltage B1S2 or O2 Sensor Voltage B2S2.

(f) Change the fuel injection volume using the Techstream, and monitor the voltage output of heated oxygen sensor displayed on the Techstream.

HINT:

  • The Control the Injection Volume for A/F Sensor operation lowers the fuel injection volume by 12.5% or increases the injection volume by 12.5%.
  • The heated oxygen sensor has a maximum output delay of approximately 20 seconds.

Standard voltage:

Fluctuates between 0.4 V or less, and 0.55 V or higher.

NG

GO TO STEP 9

OK

5.

PERFORM ACTIVE TEST USING TECHSTREAM (CONTROL THE INJECTION VOLUME FOR A/F SENSOR)

(a) Connect the Techstream to the DLC3.

(b) Start the engine.

(c) Turn the Techstream on.

(d) Warm up the engine.

(e) Enter the following menus: Powertrain / Engine / Active Test / Control the Injection Volume for A/F Sensor / Data List / A/F (O2) Sensor Voltage B1S1 and O2 Sensor Voltage B1S2 or A/F (O2) Sensor Voltage B2S1 and O2 Sensor Voltage B2S2.

(f) Change the fuel injection volume using the Techstream, and monitor the voltage output of air fuel ratio and heated oxygen sensors displayed on the Techstream.

HINT:

  • The Control the Injection Volume for A/F Sensor operation lowers the fuel injection volume by 12.5% or increases the injection volume by 12.5%.
  • The air fuel ratio sensor is displayed as A/F (O2) Sensor Voltage B1S1 or A/F (O2) Sensor Voltage B2S1, and the heated oxygen sensor is displayed as O2 Sensor Voltage B1S2 or O2 Sensor Voltage B2S2 on the Techstream.
  • The air fuel ratio sensor has an output delay of a few seconds and the heated oxygen sensor has a maximum output delay of approximately 20 seconds.
  • If the sensor output voltage does not change (almost no reaction) while performing the Active Test, the sensor may be malfunctioning.

Techstream Display (Sensor)

Voltage Variation

Proceed to

A/F (O2) Sensor Voltage B1S1 or A/F (O2) Sensor Voltage B2S1 (Air fuel ratio)

Alternates between higher and less than 3.3 V

OK

Remains at higher than 3.3 V

NG

Remains at less than 3.3 V

HINT:

A normal heated oxygen sensor voltage (O2 Sensor Voltage B1S2 or O2 Sensor Voltage B2S2) reacts in accordance with increases and decreases in fuel injection volumes. When the air fuel ratio sensor voltage (A/F (O2) Sensor Voltage B1S1 or A/F (O2) Sensor Voltage B2S1) remains at either less or higher than 3.3 V despite the heated oxygen sensor indicating a normal reaction, the air fuel ratio sensor is malfunctioning.

OK

CHECK ENGINE TO DETERMINE CAUSE OF EXTREMELY RICH OR LEAN ACTUAL AIR FUEL RATIO (FUEL INJECTOR ASSEMBLY, FUEL SYSTEM, INTAKE SYSTEM, ETC.) 2017 MY Sienna [08/2016 - 11/2017]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: P017100,P017200,P017400,P017500,P117000,P117B00; System Too Lean Bank 1 2018 MY Sienna [11/2017 - 08/2018]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: P017100,P017200,P017400,P017500,P117000,P117B00; System Too Lean Bank 1 2019 - 2020 MY Sienna [08/2018 -        ]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: P017100,P017200,P017400,P017500,P117000,P117B00; System Too Lean Bank 1

NG

6.

REPLACE AIR FUEL RATIO SENSOR

(a) Replace the air fuel ratio sensor.

Click here 2017 - 2020 MY Sienna [08/2016 -        ]; 2GR-FKS (ENGINE CONTROL): AIR FUEL RATIO SENSOR: REMOVAL

HINT:

Perform "Inspection After Repair" after replacing the air fuel ratio sensor.

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NEXT

7.

PERFORM CONFIRMATION DRIVING PATTERN

(a) Perform the Confirmation Driving Pattern (P013611, P013613, P013614, P013615, P013617, P015611, P015613, P015614, P015615 and P015617).

NEXT

8.

CHECK WHETHER DTC OUTPUT RECURS (DTC P013611, P013613, P015611 OR P015613)

(a) Connect the Techstream to the DLC3.

(b) Turn the ignition switch to ON.

(c) Turn the Techstream on.

(d) Enter the following menus: Powertrain / Engine / Utility / All Readiness.

(e) Input the DTC: P013611, P013613, P015611 or P015613.

(f) Check that the DTC monitor is NORMAL. If the DTC monitor is INCOMPLETE, perform the drive pattern again but increase the vehicle speed.

Result

Proceed to

NORMAL

(DTCs are not output)

A

ABNORMAL

(DTC P013611, P013613, P015611 or P015613 is output)

B

HINT:

Perform "Inspection After Repair" after replacing the heated oxygen sensor.

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A

END

B

REPLACE HEATED OXYGEN SENSOR

9.

CHECK FOR EXHAUST GAS LEAK

(a) Check for exhaust gas leaks.

OK:

No gas leaks.

HINT:

Perform "Inspection After Repair" after repairing or replacing the exhaust system.

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NG

REPAIR OR REPLACE EXHAUST GAS LEAK POINT

OK

10.

INSPECT HEATED OXYGEN SENSOR (HEATER RESISTANCE)

(a) Inspect the heated oxygen sensor.

Click here 2017 - 2020 MY Sienna [08/2016 -        ]; 2GR-FKS (ENGINE CONTROL): HEATED OXYGEN SENSOR: INSPECTION

HINT:

Perform "Inspection After Repair" after replacing the heated oxygen sensor.

Click here 2017 MY Sienna [08/2016 - 11/2017]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: INITIALIZATION 2018 - 2020 MY Sienna [11/2017 -        ]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: INITIALIZATION

NG

REPLACE HEATED OXYGEN SENSOR

OK

11.

CHECK HARNESS AND CONNECTOR (HEATED OXYGEN SENSOR - ECM)

(a) Disconnect the D38 and B33 heated oxygen sensor connectors.

(b) Disconnect the B67 connector.

(c) Measure the resistance according to the value(s) in the table below.

Standard Resistance:

Tester Connection

Condition

Specified Condition

D38-1 (HT1B) - B67-50 (HT1B)

Always

Below 1 Ω

D38-3 (OX1B) - B67-93 (OX1B)

Always

Below 1 Ω

D38-4 (E2) - B67-94 (EX1B)

Always

Below 1 Ω

B33-1 (HT2B) - B67-16 (HT2B)

Always

Below 1 Ω

B33-3 (OX2B) - B67-91 (OX2B)

Always

Below 1 Ω

B33-4 (E2) - B67-92 (EX2B)

Always

Below 1 Ω

D38-1 (HT1B) or B67-50 (HT1B) - Body ground and other terminals

Always

10 kΩ or higher

D38-3 (OX1B) or B67-93 (OX1B) - Body ground and other terminals

Always

10 kΩ or higher

B33-1 (HT2B) or B67-16 (HT2B) - Body ground and other terminals

Always

10 kΩ or higher

B33-3 (OX2B) or B67-91 (OX2B) - Body ground and other terminals

Always

10 kΩ or higher

NG

REPAIR OR REPLACE HARNESS OR CONNECTOR

OK

12.

REPLACE HEATED OXYGEN SENSOR

(a) Replace the heated oxygen sensor.

Click here 2017 - 2020 MY Sienna [08/2016 -        ]; 2GR-FKS (ENGINE CONTROL): HEATED OXYGEN SENSOR: REMOVAL

HINT:

Perform "Inspection After Repair" after replacing the heated oxygen sensor.

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NEXT

13.

PERFORM CONFIRMATION DRIVING PATTERN

(a) Perform the Confirmation Driving Pattern (P013611, P013613, P013614, P013615, P013617, P015611, P015613, P015614, P015615 and P015617).

NEXT

14.

CHECK WHETHER DTC OUTPUT RECURS (DTC P013611, P013613, P013614, P013617, P015611, P015613, P015614 OR P015617)

(a) Connect the Techstream to the DLC3.

(b) Turn the ignition switch to ON.

(c) Turn the Techstream on.

(d) Enter the following menus: Powertrain / Engine / Utility / All Readiness.

(e) Input the DTC: P013611, P013613, P013614, P013617, P015611, P015613, P015614 or P015617.

(f) Check that the DTC monitor is NORMAL. If the DTC monitor is INCOMPLETE, perform the drive pattern again but increase the vehicle speed.

Result

Proceed to

NORMAL

(DTCs are not output)

A

ABNORMAL

(DTC P013611, P013613, P013614, P013617, P015611, P015613, P015614 or P015617 is output)

B

HINT:

Perform "Inspection After Repair" after replacing the air fuel ratio sensor.

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A

END

B

REPLACE AIR FUEL RATIO SENSOR

15.

CHECK FOR EXHAUST GAS LEAK

(a) Check for exhaust gas leaks.

OK:

No gas leaks.

HINT:

Perform "Inspection After Repair" after repairing or replacing the exhaust system.

Click here 2017 MY Sienna [08/2016 - 11/2017]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: INITIALIZATION 2018 - 2020 MY Sienna [11/2017 -        ]; 2GR-FKS (ENGINE CONTROL): SFI SYSTEM: INITIALIZATION

NG

REPAIR OR REPLACE EXHAUST GAS LEAK POINT

OK

16.

CHECK HARNESS AND CONNECTOR (CHECK FOR SHORT)

(a) Turn the ignition switch off and wait for 5 minutes or more.

(b) Disconnect the B67 ECM connector.

(c) Measure the resistance according to the value(s) in the table below.

Standard Resistance:

Tester Connection

Condition

Specified Condition

B67-50 (HT1B) - B67-93 (OX1B)

Always

10 kΩ or higher

B67-16 (HT2B) - B67-91 (OX2B)

Always

10 kΩ or higher

NG

REPAIR OR REPLACE HARNESS OR CONNECTOR (HEATED OXYGEN SENSOR - ECM)

OK

17.

PERFORM CONFIRMATION DRIVING PATTERN

(a) Perform the Confirmation Driving Pattern (P013623, P013A00, P013C00 and P015623).

NEXT

18.

READ OUTPUT DTC (DTC P013623, P013A00, P013C00 OR P015623 IS OUTPUT AGAIN)

(a) Connect the Techstream to the DLC3.

(b) Turn the ignition switch to ON.

(c) Turn the Techstream on.

(d) Enter the following menus: Powertrain / Engine / Utility / All Readiness.

(e) Input the DTC: P013623, P013A00, P013C00 or P015623.

(f) Check that the DTC monitor is NORMAL. If the DTC monitor is INCOMPLETE, perform the drive pattern again but increase the vehicle speed.

Result

Proceed to

NORMAL

(DTCs are not output)

A

ABNORMAL

(DTC P013623, P013A00, P013C00 or P015623 is output)

B

HINT:

Perform "Inspection After Repair" after replacing the heated oxygen sensor.

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A

CHECK FOR INTERMITTENT PROBLEMS

B

REPLACE HEATED OXYGEN SENSOR