Last Modified: 05-13-2024 |
6.11:8.1.0 |
Doc ID: RM1000000028M5K |
Model Year Start: 2023 |
Model: Corolla Hatchback |
Prod Date Range: [11/2022 -
] |
Title: M20A-FKS (ENGINE CONTROL): SFI SYSTEM: P11EA00,P11EC00-P11EF00,P219A00,P219C00-P219F00; Bank 1 Air-Fuel Ratio Imbalance (Port); 2023 - 2025 MY Corolla Corolla Hatchback [11/2022 - ] |
DTC
|
P11EA00
|
Bank 1 Air-Fuel Ratio Imbalance (Port)
|
DTC
|
P11EC00
|
Cylinder #1 Air-Fuel Ratio Imbalance (Port)
|
DTC
|
P11ED00
|
Cylinder #2 Air-Fuel Ratio Imbalance (Port)
|
DTC
|
P11EE00
|
Cylinder #3 Air-Fuel Ratio Imbalance (Port)
|
DTC
|
P11EF00
|
Cylinder #4 Air-Fuel Ratio Imbalance (Port)
|
DTC
|
P219A00
|
Bank 1 Air-Fuel Ratio Imbalance
|
DTC
|
P219C00
|
Cylinder 1 Air-Fuel Ratio Imbalance
|
DTC
|
P219D00
|
Cylinder 2 Air-Fuel Ratio Imbalance
|
DTC
|
P219E00
|
Cylinder 3 Air-Fuel Ratio Imbalance
|
DTC
|
P219F00
|
Cylinder 4 Air-Fuel Ratio Imbalance
|
DESCRIPTION
Refer to DTC P003012.
Click here
Refer to DTC P030000.
Click here
DTC No.
|
Detection Item
|
DTC Detection Condition
|
Trouble Area
|
MIL
|
Memory
|
Note
|
P11EA00
|
Bank 1 Air-Fuel Ratio Imbalance (Port)
|
The difference in air fuel ratios between the cylinders exceeds the threshold (2 trip detection logic).
|
-
Port fuel injector assembly
-
Direct fuel injector assembly
-
Intake system
-
Gas leaks from exhaust system
-
Ignition system
-
Compression pressure
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
-
SAE Code: P11EA
-
DTC for Mexico Models: Does not apply
|
P11EC00
|
Cylinder #1 Air-Fuel Ratio Imbalance (Port)
|
The difference in air fuel ratios between the cylinders exceeds the threshold (2 trip detection logic).
|
-
Port fuel injector assembly
-
Direct fuel injector assembly
-
Intake system
-
Gas leaks from exhaust system
-
Ignition system
-
Compression pressure
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
-
SAE Code: P11EC
-
DTC for Mexico Models: Does not apply
|
P11ED00
|
Cylinder #2 Air-Fuel Ratio Imbalance (Port)
|
The difference in air fuel ratios between the cylinders exceeds the threshold (2 trip detection logic).
|
-
Port fuel injector assembly
-
Direct fuel injector assembly
-
Intake system
-
Gas leaks from exhaust system
-
Ignition system
-
Compression pressure
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
-
SAE Code: P11ED
-
DTC for Mexico Models: Does not apply
|
P11EE00
|
Cylinder #3 Air-Fuel Ratio Imbalance (Port)
|
The difference in air fuel ratios between the cylinders exceeds the threshold (2 trip detection logic).
|
-
Port fuel injector assembly
-
Direct fuel injector assembly
-
Intake system
-
Gas leaks from exhaust system
-
Ignition system
-
Compression pressure
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
-
SAE Code: P11EE
-
DTC for Mexico Models: Does not apply
|
P11EF00
|
Cylinder #4 Air-Fuel Ratio Imbalance (Port)
|
The difference in air fuel ratios between the cylinders exceeds the threshold (2 trip detection logic).
|
-
Port fuel injector assembly
-
Direct fuel injector assembly
-
Intake system
-
Gas leaks from exhaust system
-
Ignition system
-
Compression pressure
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
-
SAE Code: P11EF
-
DTC for Mexico Models: Does not apply
|
P219A00
|
Bank 1 Air-Fuel Ratio Imbalance
|
The difference in air fuel ratios between the cylinders exceeds the threshold (2 trip detection logic).
|
-
Port fuel injector assembly
-
Direct fuel injector assembly
-
Intake system
-
Gas leaks from exhaust system
-
Ignition system
-
Compression pressure
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
-
SAE Code: P219A
-
DTC for Mexico Models: Does not apply
|
P219C00
|
Cylinder 1 Air-Fuel Ratio Imbalance
|
The difference in air fuel ratios between the cylinders exceeds the threshold (2 trip detection logic).
|
-
Port fuel injector assembly
-
Direct fuel injector assembly
-
Intake system
-
Gas leaks from exhaust system
-
Ignition system
-
Compression pressure
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
-
SAE Code: P219C
-
DTC for Mexico Models: Does not apply
|
P219D00
|
Cylinder 2 Air-Fuel Ratio Imbalance
|
The difference in air fuel ratios between the cylinders exceeds the threshold (2 trip detection logic).
|
-
Port fuel injector assembly
-
Direct fuel injector assembly
-
Intake system
-
Gas leaks from exhaust system
-
Ignition system
-
Compression pressure
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
-
SAE Code: P219D
-
DTC for Mexico Models: Does not apply
|
P219E00
|
Cylinder 3 Air-Fuel Ratio Imbalance
|
The difference in air fuel ratios between the cylinders exceeds the threshold (2 trip detection logic).
|
-
Port fuel injector assembly
-
Direct fuel injector assembly
-
Intake system
-
Gas leaks from exhaust system
-
Ignition system
-
Compression pressure
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
-
SAE Code: P219E
-
DTC for Mexico Models: Does not apply
|
P219F00
|
Cylinder 4 Air-Fuel Ratio Imbalance
|
The difference in air fuel ratios between the cylinders exceeds the threshold (2 trip detection logic).
|
-
Port fuel injector assembly
-
Direct fuel injector assembly
-
Intake system
-
Gas leaks from exhaust system
-
Ignition system
-
Compression pressure
-
Air fuel ratio sensor (sensor 1)
-
ECM
|
Comes on
|
DTC stored
|
-
SAE Code: P219F
-
DTC for Mexico Models: Does not apply
|
MONITOR DESCRIPTION
Fuel System Air Fuel Ratio Cylinder Imbalance Monitor
The ECM uses the air fuel ratio sensor (sensor 1) and crankshaft position sensor to monitor the difference in air fuel ratios between the cylinders caused by differences in injection volumes between the cylinders, leakage in the intake or exhaust system, etc.
When the air fuel ratios of the cylinders are lean or rich with respect to each other, the ECM determines that there is a malfunction, illuminates the MIL and stores a DTC.
Air Fuel Ratio Sensor (Sensor 1) Monitoring Method: P11EA00 (for port injection), or P219A00 (for direct injection) is stored primarily when a rich side imbalance is detected.
When the system detects a difference in air fuel ratios between the cylinders due to fluctuation in the air fuel ratio sensor (sensor 1) output over 1 engine cycle (2 crankshaft revolutions), the system determines that there is a problem.
Crankshaft Position Sensor Monitoring Method: P11EC00, P11ED00, P11EE00 and/or P11EF00 (for port injection), or P219C00, P219D00, P219E00 and/or P219F00 (for direct injection) are stored primarily when a lean side imbalance is detected.
The system monitors the engine speed variation and when the variation becomes large, the system determines that there is a difference in air fuel ratios between the cylinders, which it determines to be a problem.
MONITOR STRATEGY
Related DTCs
|
P11EA: Air fuel ratio cylinder imbalance monitor (for port injection of bank 1)
P11EC: Air fuel ratio cylinder imbalance monitor (for port injection of cylinder 1)
P11ED: Air fuel ratio cylinder imbalance monitor (for port injection of cylinder 2)
P11EE: Air fuel ratio cylinder imbalance monitor (for port injection of cylinder 3)
P11EF: Air fuel ratio cylinder imbalance monitor (for port injection of cylinder 4)
P219A: Air fuel ratio cylinder imbalance monitor (for direct injection of bank 1)
P219C: Air fuel ratio cylinder imbalance monitor (for direct injection of cylinder 1)
P219D: Air fuel ratio cylinder imbalance monitor (for direct injection of cylinder 2)
P219E: Air fuel ratio cylinder imbalance monitor (for direct injection of cylinder 3)
P219F: Air fuel ratio cylinder imbalance monitor (for direct injection of cylinder 4)
|
Required Sensors/Components (Main)
|
Air fuel ratio sensor (sensor 1)
Crankshaft position sensor
|
Required Sensors/Components (Related)
|
Mass air flow meter sub-assembly
Engine coolant temperature sensor
Vehicle speed sensor
|
Frequency of Operation
|
Once per driving cycle
|
Duration
|
20 seconds: Air fuel ratio sensor (sensor 1) monitoring method
30 seconds: Crankshaft position sensor monitoring method
|
MIL Operation
|
2 driving cycles
|
Sequence of Operation
|
None
|
TYPICAL ENABLING CONDITIONS
P11EA and P219A: Air Fuel Ratio Sensor (Sensor 1) Monitoring Method
Monitor runs whenever the following DTCs are not stored
|
P0010, P1360, P1362, P1364, P1366, P2614 (Motor drive VVT system control module)
P0011 (VVT system - advance)
P0012 (VVT system - retard)
P0013 (Exhaust VVT oil control solenoid)
P0014 (Exhaust VVT system - advance)
P0015 (Exhaust VVT system - retard)
P0016 (VVT system - misalignment)
P0017 (Exhaust VVT system - misalignment)
P0031, P0032, P101D (Air fuel ratio sensor (sensor 1) heater)
P0087, P0088, P0191, P0192, P0193 (Fuel pressure sensor (for high pressure side))
P0101, P0102, P0103 (Mass air flow meter)
P0107, P0108 (Manifold absolute pressure)
P0117, P0118 (Engine coolant temperature sensor)
P0121, P0122, P0123, P0222, P0223, P2135 (Throttle position sensor)
P0125 (Insufficient coolant temperature for closed loop fuel control)
P014C, P014D, P015A, P015B, P2195, P2196, P2237, P2238, P2239, P2252, P2253 (Air fuel ratio sensor (sensor 1))
P0201, P0202, P0203, P0204, P062D, P21CF, P21D0, P21D1, P21D2 (Fuel injector)
P0335, P0337, P0338 (Crankshaft position sensor)
P0340, P0342, P0343 (Camshaft position sensor)
P0365, P0367, P0368 (Exhaust camshaft position sensor)
P0400 (EGR system)
P0401 (EGR system (closed))
P0500 (Vehicle speed sensor)
P0657, P0658, P2102, P2103 (Throttle actuator)
P107B, P107C, P107D (Fuel pressure sensor (for low pressure side))
P1235 (High pressure fuel pump circuit)
|
Air fuel ratio sensor (sensor 1) status
|
Activated
|
Engine speed
|
1200 rpm or higher, and less than 2600 rpm
|
Engine coolant temperature
|
75°C (167°F) or higher
|
Atmospheric pressure
|
76 kPa(abs) [11 psi(abs)] or higher
|
Fuel system status
|
Closed loop
|
Engine load
|
45% or higher, and less than 70%
|
P11EC, P11ED, P11EE, P11EF, P219C, P219D, P219E and P219F: Crankshaft Position Sensor Monitoring Method
Monitor runs whenever the following DTCs are not stored
|
P0010, P1360, P1362, P1364, P1366, P2614 (Motor drive VVT system control module)
P0011 (VVT system - advance)
P0012 (VVT system - retard)
P0013 (Exhaust VVT oil control solenoid)
P0014 (Exhaust VVT system - advance)
P0015 (Exhaust VVT system - retard)
P0016 (VVT system - misalignment)
P0017 (Exhaust VVT system - misalignment)
P0087, P0088, P0191, P0192, P0193 (Fuel pressure sensor (for high pressure side))
P0101, P0102, P0103 (Mass air flow meter)
P0107, P0108 (Manifold absolute pressure)
P0112, P0113 (Intake air temperature sensor)
P0117, P0118 (Engine coolant temperature sensor)
P0121, P0122, P0123, P0222, P0223, P2135 (Throttle position sensor)
P0125 (Insufficient coolant temperature for closed loop fuel control)
P0201, P0202, P0203, P0204, P062D, P21CF, P21D0, P21D1, P21D2 (Fuel injector)
P0327, P0328 (Knock control sensor)
P0335, P0337, P0338 (Crankshaft position sensor)
P0340, P0342, P0343 (Camshaft position sensor)
P0365, P0367, P0368 (Exhaust camshaft position sensor)
P0400 (EGR system)
P0401 (EGR system (closed))
P0500 (Vehicle speed sensor)
P0657, P0658, P2102, P2103 (Throttle actuator)
P107B, P107C, P107D (Fuel pressure sensor (for low pressure side))
P1235 (High pressure fuel pump circuit)
|
Vehicle speed
|
Less than 3 km/h (1.875 mph)
|
Engine speed
|
400 rpm or higher, and less than 1000 rpm
|
Engine coolant temperature
|
75°C (167°F) or higher
|
Air fuel ratio sensor (sensor 1) status
|
Activated
|
Fuel system status
|
Closed loop
|
Battery voltage
|
11 V or higher
|
TYPICAL MALFUNCTION THRESHOLDS
P11EA: Air Fuel Ratio Sensor (Sensor 1) Monitoring Method
Air fuel ratio sensor (sensor 1) monitoring method criteria (rich side imbalance for port injection)
|
1 or more
|
P11EC, P11ED, P11EE and P11EF: Crankshaft Position Sensor Monitoring Method
Crankshaft position sensor monitoring method criteria (lean side imbalance for port injection)
|
1 or more
|
P219A: Air Fuel Ratio Sensor (Sensor 1) Monitoring Method
Air fuel ratio sensor (sensor 1) monitoring method criteria (rich side imbalance for direct injection)
|
1 or more
|
P219C, P219D, P219E and P219F: Crankshaft Position Sensor Monitoring Method
Crankshaft position sensor monitoring method criteria (lean side imbalance for direct injection)
|
1 or more
|
MONITOR RESULT
Refer to detailed information in Checking Monitor Status.
Click here
P11EA: Fuel System / A/F SENSOR DETERMINATION (Port) B1
Monitor ID
|
Test ID
|
Scaling
|
Unit
|
Description
|
$81
|
$96
|
Multiply by 0.001
|
No dimension
|
Monitoring method using air fuel ratio sensor (sensor 1) (Port)
|
P11EC: Fuel System / ENGINE SPEED FLUCTUATION AVERAGE (Port) #1
Monitor ID
|
Test ID
|
Scaling
|
Unit
|
Description
|
$81
|
$8D
|
Multiply by 0.001
|
No dimension
|
Monitoring method using crank angle sensor (Port)
|
P11ED: Fuel System / ENGINE SPEED FLUCTUATION AVERAGE (Port) #2
Monitor ID
|
Test ID
|
Scaling
|
Unit
|
Description
|
$81
|
$8E
|
Multiply by 0.001
|
No dimension
|
Monitoring method using crank angle sensor (Port)
|
P11EE: Fuel System / ENGINE SPEED FLUCTUATION AVERAGE (Port) #3
Monitor ID
|
Test ID
|
Scaling
|
Unit
|
Description
|
$81
|
$8F
|
Multiply by 0.001
|
No dimension
|
Monitoring method using crank angle sensor (Port)
|
P11EF: Fuel System / ENGINE SPEED FLUCTUATION AVERAGE (Port) #4
Monitor ID
|
Test ID
|
Scaling
|
Unit
|
Description
|
$81
|
$90
|
Multiply by 0.001
|
No dimension
|
Monitoring method using crank angle sensor (Port)
|
P219A: Fuel System / A/F SENSOR DETERMINATION (Direct) B1
Monitor ID
|
Test ID
|
Scaling
|
Unit
|
Description
|
$81
|
$95
|
Multiply by 0.001
|
No dimension
|
Monitoring method using air fuel ratio sensor (sensor 1) (Direct)
|
P219C: Fuel System / ENGINE SPEED FLUCTUATION AVERAGE (Direct) #1
Monitor ID
|
Test ID
|
Scaling
|
Unit
|
Description
|
$81
|
$85
|
Multiply by 0.001
|
No dimension
|
Monitoring method using crank angle sensor (Direct)
|
P219D: Fuel System / ENGINE SPEED FLUCTUATION AVERAGE (Direct) #2
Monitor ID
|
Test ID
|
Scaling
|
Unit
|
Description
|
$81
|
$86
|
Multiply by 0.001
|
No dimension
|
Monitoring method using crank angle sensor (Direct)
|
P219E: Fuel System / ENGINE SPEED FLUCTUATION AVERAGE (Direct) #3
Monitor ID
|
Test ID
|
Scaling
|
Unit
|
Description
|
$81
|
$87
|
Multiply by 0.001
|
No dimension
|
Monitoring method using crank angle sensor (Direct)
|
P219F: Fuel System / ENGINE SPEED FLUCTUATION AVERAGE (Direct) #4
Monitor ID
|
Test ID
|
Scaling
|
Unit
|
Description
|
$81
|
$88
|
Multiply by 0.001
|
No dimension
|
Monitoring method using crank angle sensor (Direct)
|
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 ignition switch to ON.
-
Turn the Techstream on.
-
Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure).
-
Start the engine and warm it up until the engine coolant temperature reaches 75°C (167°F) or higher [A].
HINT:
The A/C switch and all accessory switches should be off and the shift lever should be in P or N.
-
Drive the vehicle at 60 km/h (37 mph) or more for 2 minutes or more [B].
CAUTION:
When performing the confirmation driving pattern, obey all speed limits and traffic laws.
HINT:
It is acceptable to turn electrical loads on while driving.
-
Idle the engine for 2 minutes or more [C].
HINT:
The A/C switch and all accessory switches should be off and the shift lever should be in P or N.
-
Enter the following menus: Powertrain / Engine / Trouble Codes [D].
-
Read the pending DTCs.
-
Drive the vehicle at less than 30 km/h (19 mph) for 5 seconds or more [E].
CAUTION:
When performing the confirmation driving pattern, obey all speed limits and traffic laws.
-
Accelerate the vehicle from 30 to 60 km/h (19 to 37 mph) over a period of approximately 10 to 20 seconds.
CAUTION:
When performing the confirmation driving pattern, obey all speed limits and traffic laws.
HINT:
Refer to the values of engine load and engine speed in Typical Enabling Conditions before accelerating the vehicle from 30 to 60 km/h (19 to 37 mph).
-
Drive the vehicle at 60 km/h (37 mph) or more for 5 seconds or more [F].
CAUTION:
When performing the confirmation driving pattern, obey all speed limits and traffic laws.
-
Drive the vehicle at less than 30 km/h (19 mph) for 5 seconds or more [G].
CAUTION:
When performing the confirmation driving pattern, obey all speed limits and traffic laws.
-
Accelerate the vehicle from 30 to 60 km/h (19 to 37 mph) over a period of approximately 10 to 20 seconds.
CAUTION:
When performing the confirmation driving pattern, obey all speed limits and traffic laws.
HINT:
Refer to the values of engine load and engine speed in Typical Enabling Conditions before accelerating the vehicle from 30 to 60 km/h (19 to 37 mph).
-
Drive the vehicle at 60 km/h (37 mph) or more for 5 seconds or more [H].
CAUTION:
When performing the confirmation driving pattern, obey all speed limits and traffic laws.
-
Repeat steps [G] through [H] above at least 2 times [I].
-
Idle the engine for 1 minute or more [J].
HINT:
The A/C switch and all accessory switches should be off and the shift lever should be in P or N.
-
Enter the following menus: Powertrain / Engine / Trouble Codes [K].
-
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: P11EA00, P11EC00, P11ED00, P11EE00, P11EF00, P219A00, P219C00, P219D00, P219E00 or P219F00.
-
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
|
CAUTION / NOTICE / HINT
HINT:
-
Sensor 1 refers to the sensor closest to the engine assembly.
-
Sensor 2 refers to the sensor farthest away from the engine assembly.
-
When any air-fuel ratio imbalance is detected, the ECM will perform air-fuel ratio feedback control to make the air-fuel ratio close to the stoichiometric level. This may result in an air-fuel ratio imbalance of normal cylinders and DTCs may be stored.
-
Whether malfunctions occur on the port injection side or direct injection side cannot be determined solely by the output DTCs. Inspect every suspected area even if it is not related to the DTCs.
-
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.
|
CHECK ANY OTHER DTCS OUTPUT
|
(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.
Powertrain > Engine > Trouble Codes
Result
|
Proceed to
|
DTC P11EA00, P11EC00, P11ED00, P11EE00, P11EF00, P219A00, P219C00, P219D00, P219E00 and/or P219F00 is output
|
A
|
DTC P11EA00, P11EC00, P11ED00, P11EE00, P11EF00, P219A00, P219C00, P219D00, P219E00 and/or P219F00 and other DTCs are output
|
B
|
HINT:
If any DTCs other than DTC P11EA00, P11EC00, P11ED00, P11EE00, P11EF00, P219A00, P219C00, P219D00, P219E00 and/or P219F00 are output, troubleshoot those DTCs first.
A
|
|
|
2.
|
READ VALUE USING TECHSTREAM (FREEZE FRAME DATA)
|
(a) Connect the Techstream to the DLC3.
(b) Turn the ignition switch to ON.
(c) Turn the Techstream on.
(d) Using the Techstream, confirm the vehicle conditions recorded in the Freeze Frame Data which were present when the DTC was stored.
Click here
Freeze Frame Data Items for DTC P11EA00, P11EC00, P11ED00, P11EE00, P11EF00, P219A00, P219C00, P219D00, P219E00 or P219F00
-
Vehicle Speed
-
Engine Speed
-
Calculate Load
-
Accelerator Position
-
Short FT B1S1
-
Long FT B1S1
-
Misfire Count Cylinder #1 to #4
HINT:
When the sum of Short FT B1S1 and Long FT B1S1 is positive, the engine is running lean, and when the sum is negative, the engine is running rich.
Air Fuel Ratio Sensor (Sensor 1) Monitoring Method (P11EA00 and P219A00)
|
Crankshaft Position Sensor Monitoring Method (P11EC00, P11ED00, P11EE00, P11EF00, P219C00, P219D00, P219E00 and P219F00)
|
Note
|
DTCs are output
|
DTC is output (Only one DTC relating to a single cylinder is output)
|
Malfunctioning of cylinders detected by the Crankshaft Position Sensor Monitoring Method is primarily suspected
|
DTCs are output
|
DTCs are output (Multiple DTCs relating to multiple cylinders are output)
|
Malfunctioning of cylinders except ones detected by the Crankshaft Position Sensor Monitoring Method is primarily suspected.*
|
DTCs are not output
|
DTCs are output
|
Malfunctioning of cylinders detected by the Crankshaft Position Sensor Monitoring Method is primarily suspected.
|
DTCs are output
|
DTCs are not output
|
Malfunctioning of the bank detected by the Air Fuel Ratio Sensor (Sensor 1) Monitoring Method is primarily suspected.
|
*: When any air-fuel ratio imbalance is detected, the ECM will perform air-fuel ratio feedback control to make the air-fuel ratio close to the stoichiometric level. This may result in an air-fuel ratio imbalance of normal cylinders and DTCs may be stored.
NEXT
|
|
|
(a) Connect the Techstream to the DLC3.
(b) Turn the ignition switch to ON.
(c) Turn the Techstream on.
(d) Drive the vehicle in accordance with the driving pattern described in Confirmation Driving Pattern.
HINT:
-
If any misfire count (Misfire Count Cylinder #1 to #4) increases while idling or driving the vehicle, proceed to step 6 (CHECK INTAKE SYSTEM).
-
Perform inspections while focusing on the cylinder whose misfire count has increased.
(e) Enter the following menus: Powertrain / Engine / Trouble Codes.
(f) Read the DTCs.
Powertrain > Engine > Trouble Codes
Result
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Proceed to
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P11EA00 or P219A00 is output
|
A
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DTC P219A00 and P219C00, P219D00, P219E00 or P219F00 is output
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B
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DTC P11EA00 and P11EC00, P11ED00, P11EE00 or P11EF00 is output
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DTC P11EC00, P11ED00, P11EE00, P11EF00, P219C00, P219D00, P219E00 and/or P219F00 is output
|
A
|
|
|
4.
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PERFORM ACTIVE TEST USING TECHSTREAM (CONTROL THE INJECTION VOLUME)
|
(a) Connect the Techstream to the DLC3.
(b) Start the engine and warm it up until the engine coolant temperature reaches 80°C (176°F) or higher.
HINT:
The A/C switch and all accessory switches should be off and the shift lever should be in P or N.
(c) Turn the Techstream on.
(d) Enter the following menus: Powertrain / Engine / Active Test / Control the Injection Volume / Data List / Coolant Temperature and Misfire Count Cylinder #1 to #4.
Powertrain > Engine > Active Test
Active Test Display
|
Control the Injection Volume
|
Data List Display
|
Coolant Temperature
|
Misfire Count Cylinder #1
|
Misfire Count Cylinder #2
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Misfire Count Cylinder #3
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Misfire Count Cylinder #4
|
HINT:
When the "Control the Injection Volume" Active Test is selected (injection volume is 0%), if a misfire count increases, proceed to step 6 (CHECK INTAKE SYSTEM).
(e) Perform the Control the Injection Volume operation with the engine idling.
(f) Check the misfire counts (Misfire Count Cylinder #1 to #4) while decreasing the injection volume in 5% increments.
The cylinder whose misfire count has not increased can be assumed to be running rich. Therefore, perform inspections while focusing on that cylinder.
NEXT
|
|
|
5.
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CHECK FOR EXHAUST GAS LEAK
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(a) Check for exhaust gas leak.
OK:
No gas leaks in exhaust system.
HINT:
Perform "Inspection After Repair" after repairing or replacing the exhaust system.
Click here
NG |
|
REPAIR OR REPLACE EXHAUST SYSTEM
|
OK
|
|
|
(a) Check the intake system for vacuum leaks.
Click here
OK:
No leaks in the intake system.
HINT:
Perform "Inspection After Repair" after repairing or replacing the intake system.
Click here
NG |
|
REPAIR OR REPLACE INTAKE SYSTEM
|
OK
|
|
|
(a) Inspect the spark plug of the cylinder causing the imbalance.
Click here
HINT:
Perform "Inspection After Repair" after replacing the spark plug.
Click here
OK
|
|
|
8.
|
CHECK FOR SPARK (SPARK TEST)
|
(a) Perform a spark test.
Click here
HINT:
-
If the result of the spark test is normal, proceed to the next step.
-
Perform "Inspection After Repair" after replacing the spark plug or ignition coil assembly.
Click here
NEXT
|
|
|
9.
|
CHECK CYLINDER COMPRESSION PRESSURE
|
(a) Measure the cylinder compression pressure of the misfiring cylinder.
Click here
HINT:
Perform "Inspection After Repair" after repairing or replacing the engine assembly.
Click here
NG |
|
CHECK ENGINE TO DETERMINE CAUSE OF LOW COMPRESSION
|
OK
|
|
|
10.
|
CHECK PORT FUEL INJECTOR ASSEMBLY OF CYLINDER CAUSING IMBALANCE
|
(a) Check the port fuel injector assembly injection [whether fuel volume is high or low, and whether injection pattern is poor].
Click here
HINT:
Perform "Inspection After Repair" after replacing the port fuel injector assembly.
Click here
OK
|
|
|
11.
|
CHECK DIRECT FUEL INJECTOR ASSEMBLY OF CYLINDER CAUSING IMBALANCE
|
(a) Check the direct fuel injector assembly.
Click here
HINT:
Perform "Inspection After Repair" after replacing the direct fuel injector assembly.
Click here
OK
|
|
|
12.
|
CHECK FOR CAUSE OF FAILURE
|
(a) If the cause of the problem has not been found even after performing the troubleshooting procedure, perform the inspection below.
(b) Check the intake valve for deposits.
HINT:
As the DTC may have been stored due to deposits on the intake valve, remove the cylinder head sub-assembly and check the intake valve.
NEXT
|
|
|
(a) Connect the Techstream to the DLC3.
(b) Turn the ignition switch to ON.
(c) Turn the Techstream on.
(d) Clear the DTCs.
Powertrain > Engine > Clear DTCs
(e) Turn the ignition switch off and wait for at least 30 seconds.
NEXT
|
|
|
14.
|
CONFIRM WHETHER MALFUNCTION HAS BEEN SUCCESSFULLY REPAIRED
|
(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) Check for DTCs.
Powertrain > Engine > Trouble Codes
DTCs are not output.
NEXT |
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END
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