Last Modified: 07-31-2024 |
6.11:8.1.0 |
Doc ID: RM100000001BGVW |
Model Year Start: 2019 |
Model: Corolla Hatchback |
Prod Date Range: [06/2018 - 03/2019] |
Title: M20A-FKS (ENGINE CONTROL): SFI SYSTEM: P003012,P003013,P101A9E; HO2S Heater Control Bank 1 Sensor 1 Circuit Short to Battery; 2019 - 2020 MY Corolla Corolla Hatchback [06/2018 - 03/2019] |
DTC
|
P003012
|
HO2S Heater Control Bank 1 Sensor 1 Circuit Short to Battery
|
DTC
|
P003013
|
HO2S Heater Control Bank 1 Sensor 1 Circuit Open
|
DTC
|
P101A9E
|
A/F Sensor Heater Performance Bank 1 Sensor 1 Stuck On
|
DESCRIPTION
The air fuel ratio sensor (sensor 1) generates current that corresponds to the actual air fuel ratio. This sensor current is used to provide the ECM with feedback so that it can control the air fuel ratio. The ECM determines the deviation from the stoichiometric air fuel ratio level, and regulates the fuel injection duration. If the air fuel ratio sensor (sensor 1) malfunctions, the ECM is unable to control the air fuel ratio accurately.
The air fuel ratio sensor (sensor 1) is a planar type sensor and integrated with the heater, which heats the solid electrolyte (zirconia element). This heater is controlled by the ECM. When the intake air volume is low (the exhaust gas temperature is low), a current flows into the heater to heat the sensor, in order to facilitate accurate oxygen concentration detection. In addition, the sensor and heater portions are a narrow type. The heat generated by the heater is conducted to the solid electrolyte through the alumina, therefore sensor activation is accelerated.
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 three-way catalytic converter is used. For the most efficient use of the three-way catalytic converter, the air fuel ratio must be precisely controlled so that it is always close to the stoichiometric level.
HINT:
-
When any of these DTCs are stored, the ECM enters fail-safe mode. The ECM turns off the air fuel ratio sensor (sensor 1) heater in fail-safe mode. Fail-safe mode continues until the engine switch is turned off.
-
Although the DTC titles say oxygen sensor, these DTCs relate to the air fuel ratio sensor (sensor 1).
-
The ECM has a pulse width modulated control circuit to adjust the current through the heater. The air fuel ratio sensor (sensor 1) heater circuit uses a relay on the +B side of the circuit.
DTC No.
|
Detection Item
|
DTC Detection Condition
|
Trouble Area
|
MIL
|
Memory
|
Note
|
P003012
|
HO2S Heater Control Bank 1 Sensor 1 Circuit Short to Battery
|
The air fuel ratio sensor (sensor 1) heater current is more than the specified value while the heater is operating (1 trip detection logic).
|
-
Short in air fuel ratio sensor (sensor 1) heater circuit
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
SAE Code: P0032
|
P003013
|
HO2S Heater Control Bank 1 Sensor 1 Circuit Open
|
The air fuel ratio sensor (sensor 1) heater current is less than the specified value while the heater is operating (1 trip detection logic).
|
-
Open or short in air fuel ratio sensor (sensor 1) heater circuit
-
Air fuel ratio sensor (sensor 1)
-
EFI-MAIN NO. 2 relay
-
ECM
|
Comes on
|
DTC stored
|
SAE Code: P0031
|
P101A9E
|
A/F Sensor Heater Performance Bank 1 Sensor 1 Stuck On
|
The air fuel ratio sensor (sensor 1) heater voltage level is low while the heater is not operating (1 trip detection logic).
|
-
Short in air fuel ratio sensor (sensor 1) heater circuit
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
SAE Code: P101D
|
MONITOR DESCRIPTION
The ECM uses information from the air fuel ratio sensor (sensor 1) to regulate the air fuel ratio and keep it close to the stoichiometric level. This maximizes the ability of the three-way catalytic converter to purify the exhaust gases.
The air fuel ratio sensor (sensor 1) detects oxygen levels in the exhaust gas and transmits the information to the ECM. The inner surface of the sensor element is exposed to the outside air. The outer surface of the sensor element is exposed to the exhaust gas. The sensor element is made of platinum-coated zirconia and includes an integrated heating element.
The zirconia element generates a small voltage when there is a large difference in the oxygen concentrations between the exhaust gas and outside air. The platinum coating amplifies this voltage generation.
The air fuel ratio sensor (sensor 1) is more efficient when heated. When the exhaust gas temperature is low, the sensor cannot generate useful current signals without supplementary heating. The ECM regulates the supplementary heating using a duty-cycle approach to adjust the average current in the sensor heater element. If the heater current is outside the normal range, the signal transmitted by the air fuel ratio sensor (sensor 1) becomes inaccurate. As a result, the ECM is unable to regulate the air fuel ratio properly.
When the current in the air fuel ratio sensor (sensor 1) heater is outside the normal operating range, the ECM interprets this as a malfunction in the sensor heater and stores a DTC.
MONITOR STRATEGY
Related DTCs
|
P0031: Air fuel ratio sensor (sensor 1) heater range check (low current)
P0032: Air fuel ratio sensor (sensor 1) heater range check (high current)
P101D: Air fuel ratio sensor (sensor 1) heater performance
|
Required Sensors/Components (Main)
|
Air fuel ratio sensor (sensor 1) heater
|
Required Sensors/Components (Related)
|
-
|
Frequency of Operation
|
Continuous
|
Duration
|
10 seconds: P0031 and P0032
5 seconds: P101D
|
MIL Operation
|
Immediate
|
Sequence of Operation
|
None
|
TYPICAL ENABLING CONDITIONS
P0031
All of the following conditions are met
|
-
|
Battery voltage
|
10.5 V or higher
|
Time after heater on
|
5 seconds or more
|
Air fuel ratio sensor (sensor 1) heater performance fail (P101D)
|
Not detected
|
Output duty cycle
|
30% or higher
|
Heater high current cutout
|
Off
|
P0032
Monitor runs whenever the following DTCs are not stored
|
None
|
All of the following conditions are met
|
-
|
Battery voltage
|
10.5 V or higher
|
Time after heater on
|
5 seconds or more
|
CPU commanded duty cycle
|
Higher than 28%
|
Output duty cycle
|
10% or higher
|
P101D
Monitor runs whenever the following DTCs are not stored
|
None
|
Both of the following conditions are met
|
-
|
Battery voltage
|
10.5 V or higher
|
Output duty cycle
|
Less than 75%
|
TYPICAL MALFUNCTION THRESHOLDS
P0031
Heater on current
|
Less than 0.8 A
|
P0032
Heater on current
|
More than 11.5 A
|
P101D
Heater terminal voltage level while heater off
|
Low
|
CONFIRMATION DRIVING PATTERN
HINT:
-
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
-
When clearing the permanent DTCs, refer to the "CLEAR PERMANENT DTC" procedure.
Click here
-
Connect the Techstream to the DLC3.
-
Turn the engine switch on (IG).
-
Turn the Techstream on.
-
Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure).
-
Turn the engine switch off and wait for at least 30 seconds.
-
Turn the engine switch on (IG) [A].
-
Turn the Techstream on.
-
Start the engine and idle it for 5 minutes or more [B].
-
With the vehicle stationary, depress the accelerator pedal and maintain an engine speed of 3000 rpm for 1 minute [C].
-
Idle the engine for 5 minutes or more [D].
-
Enter the following menus: Powertrain / Engine / Trouble Codes [E].
-
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.
-
Enter the following menus: Powertrain / Engine / Utility / All Readiness.
-
Input the DTC: P003012, P003013 or P101A9E.
-
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
|
WIRING DIAGRAM
CAUTION / NOTICE / HINT
NOTICE:
Inspect the fuses for circuits related to this system before performing the following procedure.
HINT:
-
Refer to "Data List / Active Test" [A/F (O2) Sensor Heater Duty Ratio B1S1].
Click here
-
Sensor 1 refers to the sensor closest to the engine assembly.
-
Sensor 2 refers to the sensor farthest away from the engine assembly.
-
Change the fuel injection volume using the Control the Injection Volume for A/F Sensor function provided in the Active Test and monitor the air fuel ratio sensor (sensor 1) output current (Click here
). If the sensor output current does not change (almost no reaction) while performing the Active Test, the sensor may be malfunctioning.
-
Read Freeze Frame Data using the Techstream. The ECM records vehicle and driving condition information as Freeze Frame Data the moment a DTC is stored. 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.
|
INSPECT AIR FUEL RATIO SENSOR (SENSOR 1) (HEATER RESISTANCE)
|
(a) Inspect the air fuel ratio sensor (sensor 1).
Click here
HINT:
Perform "Inspection After Repair" after replacing the air fuel ratio sensor (sensor 1).
Click here
OK
|
|
|
2.
|
CHECK TERMINAL VOLTAGE (POWER SOURCE OF AIR FUEL RATIO SENSOR (SENSOR 1))
|
*a
|
Front view of wire harness connector
(to Air Fuel Ratio Sensor (Sensor 1))
|
(a) Disconnect the air fuel ratio sensor (sensor 1) connector.
(b) Turn the engine switch on (IG).
(c) Measure the voltage according to the value(s) in the table below.
Standard Voltage:
Tester Connection
|
Condition
|
Specified Condition
|
C56-2 (+B) - Body ground
|
Engine switch on (IG)
|
11 to 14 V
|
OK
|
|
|
3.
|
CHECK HARNESS AND CONNECTOR (AIR FUEL RATIO SENSOR (SENSOR 1) - ECM)
|
(a) Disconnect the air fuel ratio sensor (sensor 1) connector.
(b) Disconnect the ECM connector.
(c) Measure the resistance according to the value(s) in the table below.
Standard Resistance:
Tester Connection
|
Condition
|
Specified Condition
|
C56-1 (HA1A) - C76-9 (HA1A)
|
Always
|
Below 1 Ω
|
C56-1 (HA1A) or C76-9 (HA1A) - Body ground and other terminals
|
Always
|
10 kΩ or higher
|
NG |
|
REPAIR OR REPLACE HARNESS OR CONNECTOR
|
OK
|
|
|
(a) Connect the Techstream to the DLC3.
(b) Turn the engine switch on (IG).
(c) Turn the Techstream on.
(d) Clear the DTCs.
Powertrain > Engine > Clear DTCs
(e) Turn the engine switch off and wait for at least 30 seconds.
NEXT
|
|
|
5.
|
CHECK WHETHER DTC OUTPUT RECURS (DTC P003012, P003013 AND/OR P101A9E)
|
(a) Drive the vehicle in accordance with the driving pattern described in Confirmation Driving Pattern.
(b) Enter the following menus: Powertrain / Engine / Trouble Codes.
(c) Read the DTCs.
Powertrain > Engine > Trouble Codes
Result
|
Proceed to
|
DTCs are not output
|
A
|
DTC P003012, P003013 and/or P101A9E is output
|
B
|
6.
|
INSPECT EFI-MAIN NO. 2 RELAY
|
(a) Inspect the EFI-MAIN NO. 2 relay.
Click here
NG |
|
REPLACE EFI-MAIN NO. 2 RELAY
|
OK
|
|
|
7.
|
CHECK TERMINAL VOLTAGE (POWER SOURCE OF EFI-MAIN NO. 2 RELAY)
|
*1
|
No. 1 Engine Room Relay Block and No. 1 Junction Block Assembly
|
*2
|
EFI-MAIN NO. 2 Relay
|
(a) Remove the EFI-MAIN NO. 2 relay from the No. 1 engine room relay block and No. 1 junction block assembly.
(b) Measure the voltage according to the value(s) in the table below.
Standard Voltage:
Tester Connection
|
Condition
|
Specified Condition
|
5 (EFI-MAIN NO. 2 relay) - Body ground
|
Always
|
11 to 14 V
|
NG |
|
REPAIR OR REPLACE HARNESS OR CONNECTOR (BATTERY - EFI-MAIN NO. 2 RELAY)
|
OK
|
|
|
8.
|
CHECK HARNESS AND CONNECTOR (EFI-MAIN NO. 2 RELAY - BODY GROUND)
|
(a) Remove the EFI-MAIN NO. 2 relay from the No. 1 engine room relay block and No. 1 junction block assembly.
(b) Measure the resistance according to the value(s) in the table below.
Standard Resistance:
Tester Connection
|
Condition
|
Specified Condition
|
2 (EFI-MAIN NO. 2 relay) - Body ground
|
Always
|
Below 1 Ω
|
NG |
|
REPAIR OR REPLACE HARNESS OR CONNECTOR
|
OK
|
|
|
9.
|
CHECK HARNESS AND CONNECTOR (EFI-MAIN NO. 2 RELAY - AIR FUEL RATIO SENSOR (SENSOR 1))
|
(a) Remove the EFI-MAIN NO. 2 relay from the No. 1 engine room relay block and No. 1 junction block assembly.
(b) Disconnect the air fuel ratio sensor (sensor 1) connector.
(c) Measure the resistance according to the value(s) in the table below.
Standard Resistance:
Tester Connection
|
Condition
|
Specified Condition
|
3 (EFI-MAIN NO. 2 relay) - C56-2 (+B)
|
Always
|
Below 1 Ω
|
3 (EFI-MAIN NO. 2 relay) or C56-2 (+B) - Body ground and other terminals
|
Always
|
10 kΩ or higher
|
OK |
|
REPAIR OR REPLACE HARNESS OR CONNECTOR (NO. 1 INTEGRATION RELAY - EFI-MAIN NO. 2 RELAY)
|
NG |
|
REPAIR OR REPLACE HARNESS OR CONNECTOR
|
|