Last Modified: 01-30-2024 |
6.11:8.1.0 |
Doc ID: RM100000001FMRB |
Model Year Start: 2019 |
Model: RAV4 |
Prod Date Range: [11/2018 - 08/2020] |
Title: A25A-FKS (ENGINE CONTROL): SFI SYSTEM (w/o Canister Pump Module): Engine Stalls; 2019 - 2020 MY RAV4 [11/2018 - 08/2020] |
DESCRIPTION
Problem Symptom
|
Suspected Area
|
Trouble Area
|
-
Engine speed fluctuation due to abnormal combustion
-
Idle speed too low or high
Strong engine vibration due to above symptoms
|
-
Ignition malfunction
-
Deviation in air fuel ratio (Excessive or insufficient intake air volume or fuel supply)
-
Insufficient compression
-
Changes in load from another system
|
Ignition system
|
-
Spark plug
-
Ignition coil assembly
|
Fuel system
|
-
Direct fuel injector assembly
-
Port fuel injector assembly
-
Fuel pump (for high pressure side)
-
Fuel pump (for low pressure side)
-
Fuel pump control circuit
-
Fuel suction plate sub-assembly
-
Fuel main valve assembly
-
Fuel line
-
Purge VSV system
-
Fuel quality (existence of foreign matter, degradation)
|
Intake and exhaust systems
|
|
Other control systems
|
-
ECM
-
Wire harness or connector
-
Knock control sensor
-
Engine coolant temperature sensor
|
Engine
|
-
Water inlet with thermostat sub-assembly
-
Engine assembly
|
High load from another system
|
-
Air conditioning system
-
Power steering system
-
Electrical load signal system
-
A/T system
|
SYMPTOM AND CAUSE OF SYSTEM MALFUNCTION
HINT:
The following are descriptions of the characteristics of each system malfunction. After understanding the link between the causes and symptoms, perform the inspection of each component. Even if the problem symptom does not recur, signs of the malfunction may be found in the Data List.
(a) Ignition system
Spark plug
Main cause of malfunction
|
Performance degradation (wear, existence of foreign matter, etc.)
|
Symptom
|
Engine speed fluctuation due to abnormal combustion
|
Data List
|
Misfire Count Cylinder #1 to #4
|
HINT:
If the spark plug of the malfunctioning cylinder is abnormally wet with fuel, a leaking fuel injector assembly is suspected.
|
Ignition coil assembly
Main cause of malfunction
|
Internal malfunction
|
Problem symptom
|
Engine speed fluctuation due to abnormal combustion
|
Data List
|
Misfire Count Cylinder #1 to #4
|
(b) Fuel system
Fuel injector assembly
Main cause of malfunction
|
Blockage
|
Problem symptom
|
-
Engine speed fluctuation due to abnormal combustion
-
Idle speed too low or high
|
Data List
|
-
Target Air-Fuel Ratio
-
Short FT B1S1
-
Long FT B1S1
-
Total FT Bank 1
-
Fuel System Status Bank 1
-
A/F Learn Value Idle Bank 1
-
A/F Learn Value Low Bank 1
-
A/F Learn Value Mid No.1 Bank 1
-
A/F Learn Value Mid No.2 Bank 1
-
A/F Learn Value High Bank 1
-
A/F Learn Value Idle (Port) Bank 1
-
A/F Learn Value Low (Port) Bank 1
-
A/F Learn Value Mid No.1 (Port) Bank 1
-
A/F Learn Value Mid No.2 (Port) Bank 1
-
A/F Learn Value High (Port) Bank 1
-
A/F Learn Value Low (Dual) Bank 1
-
A/F Learn Value Mid (Dual) No.1 Bank 1
-
A/F Learn Value Mid (Dual) No.2 Bank 1
-
A/F Learn Value High (Dual) Bank 1
|
HINT:
If the engine malfunction disappears when the fuel injection volume is increased or decreased using the Control the Injection Volume, the respective cylinder may be malfunctioning.
|
Purge VSV
Main cause of malfunction
|
Purge VSV stuck open
|
Symptom
|
Engine speed fluctuation due to abnormal combustion
|
Data List
|
-
EVAP (Purge) VSV
-
Evap Purge Flow
-
EVAP Purge Density Learn Value
-
EVAP Purge VSV
-
Purge Cut VSV Duty
|
Fuel system
HINT:
If the air fuel ratio becomes lean only when the engine is running under a high load and at a high engine speed, clogging of the fuel pump or fuel filter is suspected.
|
Fuel quality
Main cause of malfunction
|
-
Fuel degradation due to age or water contamination
-
Low fuel quality
-
Addition of fuel additive
|
Problem symptom
|
-
Engine speed fluctuation due to abnormal combustion
-
Idle speed too low or high
-
Engine is difficult to start
|
(c) Intake and exhaust systems
EGR system
Main cause of malfunction
|
Improper operation, sticking
|
Problem symptom
|
-
Engine speed fluctuation due to abnormal combustion
-
Idle speed too low or high
-
Engine is difficult to start, lacks power or stalls
|
Data List
|
-
Target EGR Valve Position No.1
-
EGR Step Position
-
Normal condition: Actual EGR valve position = Target EGR valve position +/-5% (Fully closed: 0%, Fully open: 100%)
-
Perform the Active Test "Control the EGR Step Position" and check if the vehicle condition changes when the EGR valve position is changed
-
When the ignition switch is turned to ON (engine not started), the EGR valve is fully closed
|
Mass air flow meter sub-assembly
Main cause of malfunction
|
Performance degradation (existence of foreign matter, etc.)
|
Problem symptom
|
Lack of power
|
Data List
|
Mass Air Flow Sensor
|
HINT:
If the value of the Data List item "Mass Air Flow Sensor" is abnormal, a malfunction of the mass air flow meter sub-assembly is suspected.
|
Throttle system
Main cause of malfunction
|
Inappropriate trim volume adjustment due to accumulation of deposits
|
Problem symptom
|
-
Engine speed fluctuation due to abnormal combustion
-
Idle speed too low or high
-
Lack of power
|
Data List
|
-
Engine Stall Control F/B Flow
-
ISC F/B Learn Torque
-
ISC Total AUXS Torque
-
ISC F/B Torque
-
Sum of ISC F/B Torque (Recent)
-
ISC AUXS Torque (Alternator)
-
ISC AUXS Torque (Air Conditioner)
-
Throttle Air Flow F/B Value
|
Air fuel ratio sensor (sensor 1), Air fuel ratio sensor (sensor 2)
Main cause of malfunction
|
Deviation in sensor characteristics
|
Problem symptom
|
Abnormal combustion due to deviation of actual air fuel ratio from calculated ratio
|
Data List
|
-
A/F (O2) Sensor Current B1S1
-
A/F (O2) Sensor Current B1S2
-
Fuel System Status Bank 1
|
(d) Engine
Engine assembly
Main cause of malfunction
|
|
Problem symptom
|
-
Engine speed fluctuation due to abnormal combustion
-
Idle speed too low or high
-
Hesitation during acceleration or stalling
|
HINT:
-
If deposits have accumulated in the combustion chamber or on an intake valve, the engine may stall when deposits are caught on an intake valve.
-
When performing the Active Test "Check the Cylinder Compression", if the speed of one cylinder is higher than the others, the cylinder may have a compression loss.
-
If deposits accumulate on the intake valves, the supply of fuel may be delayed due to adherence of the fuel to the deposits, causing a rough idle.
|
VVT
Main cause of malfunction
|
Camshaft timing control motor with EDU assembly stuck to advance side or cam timing oil control solenoid assembly stuck open
|
Symptom
|
Abnormal combustion due to excessive valve overlap
|
Data List
|
-
VVT Advance Fail
-
Intake VVT Change Angle Bank 1
-
Exhaust VVT Hold Learn Value Bank 1
-
Exhaust VVT Change Angle Bank 1
-
Exhaust VVT OCV Control Duty Ratio Bank 1
-
Intake VVT Target Angle Bank 1
-
Exhaust VVT Target Angle Bank 1
-
Intake VVT Timing Most Over-Retarded Learn Value Bank 1
-
Exhaust VVT Timing Most Over-Advanced Learn Value Bank 1
-
VVT-iE Duty Ratio Bank 1
-
VVT-iE Motor Direction Bank 1
-
VVT-iE Opening Angle Bank 1
|
Data List Items Related to Engine Stalls
HINT:
Depending on the vehicle model, the applicable Data List items may vary. Data List items other than the ones used in the diagnostic procedure are for reference only.
-
Mass Air Flow Sensor
-
Engine Stall Control F/B Flow
-
ISC F/B Learn Torque
-
ISC Total AUXS Torque
-
ISC F/B Torque
-
Sum of ISC F/B Torque (Recent)
-
ISC AUXS Torque (Alternator)
-
ISC AUXS Torque (Air Conditioner)
-
Throttle Air Flow F/B Value
-
Target Fuel Pressure (High)
-
Target Fuel Pressure (Low)
-
Fuel Pressure (High)
-
Fuel Pressure (Low)
-
High Pressure Fuel Pump Duty Ratio (D4)
-
High Pressure Fuel Pump Discharge Rate
-
Target Air-Fuel Ratio
-
A/F (O2) Sensor Current B1S1
-
A/F (O2) Sensor Current B1S2
-
Short FT B1S1
-
Long FT B1S1
-
Total FT Bank 1
-
Fuel System Status Bank 1
-
A/F Learn Value Idle Bank 1
-
A/F Learn Value Low Bank 1
-
A/F Learn Value Mid No.1 Bank 1
-
A/F Learn Value Mid No.2 Bank 1
-
A/F Learn Value High Bank 1
-
A/F Learn Value Idle (Port) Bank 1
-
A/F Learn Value Low (Port) Bank 1
-
A/F Learn Value Mid No.1 (Port) Bank 1
-
A/F Learn Value Mid No.2 (Port) Bank 1
-
A/F Learn Value High (Port) Bank 1
-
A/F Learn Value Low (Dual) Bank 1
-
A/F Learn Value Mid (Dual) No.1 Bank 1
-
A/F Learn Value Mid (Dual) No.2 Bank 1
-
A/F Learn Value High (Dual) Bank 1
-
Target EGR Valve Position No.1
-
EGR Step Position
-
VVT Advance Fail
-
Intake VVT Change Angle Bank 1
-
Exhaust VVT Hold Learn Value Bank 1
-
Exhaust VVT Change Angle Bank 1
-
Exhaust VVT OCV Control Duty Ratio Bank 1
-
Intake VVT Target Angle Bank 1
-
Exhaust VVT Target Angle Bank 1
-
Intake VVT Timing Most Over-Retarded Learn Value Bank 1
-
Exhaust VVT Timing Most Over-Advanced Learn Value Bank 1
-
VVT-iE Duty Ratio Bank 1
-
VVT-iE Motor Direction Bank 1
-
VVT-iE Opening Angle Bank 1
-
Misfire Count Cylinder #1
-
Misfire Count Cylinder #2
-
Misfire Count Cylinder #3
-
Misfire Count Cylinder #4
Vehicle Control History Freeze Frame Data Items Related to Engine Stalls
HINT:
The frequency of the malfunction can be determined by confirming the number of times the symptom occurred.
-
Engine Stall Count
-
Engine Stall Count (Compression Leakage)
CAUTION / NOTICE / HINT
HINT:
-
If any other DTCs are output, perform troubleshooting for those DTCs first.
-
Make sure to reproduce the conditions present when the malfunction occurred.
-
Using the Techstream, read the Data List to confirm the engine operating conditions. This information can be useful when troubleshooting.
-
The vehicle condition when the problem symptoms occurred can be determined using the Vehicle Control History.
-
As the Vehicle Control History data may be overwritten whenever the trigger conditions are met, make sure to save the Vehicle Control History data before performing any inspections.
-
If the problem symptoms do not recur, attempt to reproduce the symptoms and conditions when the malfunction occurred based on the result of the customer problem analysis and Vehicle Control History. Place the priority on confirming the symptoms.
-
When performing inspections, jiggle the relevant wire harnesses and connectors in an attempt to reproduce malfunctions that do not always occur.
-
The suspected cause of the problem symptoms can be determined using the codes, items, and Freeze Frame Data within the Vehicle Control History.
-
When confirming the Freeze Frame Data, be sure to check all multi Freeze Frame Data.
-
When confirming the Freeze Frame Data, if there are multiple items related to the cause of the malfunction, perform troubleshooting for all related items.
-
If the malfunction is currently occurring, use the Data List to confirm the current vehicle condition. By using the Data List, more detailed vehicle information can be confirmed than by using the Vehicle Control History Freeze Frame Data by itself.
-
As Vehicle Control History may be stored when performing an Active Test, learning, etc., make sure to clear the Vehicle Control History before returning the vehicle to the customer.
PROCEDURE
1.
|
INTERVIEW THE CUSTOMER
|
(a) Interview the customer for details about the conditions when the engine stalled.
HINT:
-
Use any information from the customer problem analysis about the conditions of the vehicle when the malfunction occurred (how the engine stalled, conditions when the engine was restarted, etc.)
-
Depending on the conditions when the engine stalled, a malfunction in one of the following areas is suspected.
Symptom
|
Suspected Area
|
Engine vibration occurs and engine stalls
|
-
Abnormal mass air flow meter sub-assembly output due to existence of foreign matter
-
Abnormal air fuel ratio due to malfunction of air fuel ratio sensors, air leaks in intake system or insufficient fuel supply
|
Engine stalls without vibration
|
Ignition stoppage, fuel injection stoppage or high load from another system
|
Engine can be started with accelerator pedal depressed
|
Insufficient air volume
|
Engine stalls or is difficult to start immediately after engine stalled, regardless of whether engine is cold or warm
|
Deposits in intake system or combustion chamber caught temporarily on intake or exhaust valve
|
NEXT
|
|
|
(a) Connect the Techstream to the DLC3.
(b) Turn the ignition switch to ON.
(c) Turn the Techstream on.
(d) Perform a road test.
(e) Enter the following menus: Powertrain / Engine / Trouble Codes.
(f) Read the DTCs.
Powertrain > Engine > Trouble Codes
Result
|
Proceed to
|
DTCs are not output
|
A
|
DTC is output
|
B
|
A
|
|
|
3.
|
READ VEHICLE CONTROL HISTORY FREEZE FRAME DATA AND PERFORM SYMPTOM CONFIRMATION
|
(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 / Vehicle Control History (RoB)
Powertrain > Engine > Utility
Tester Display
|
Vehicle Control History (RoB)
|
HINT:
It is also possible to display Vehicle Control History during the Health Check, if "Store All Data" is selected.
(e) Confirm if any data relating to the problem symptoms exist in the Vehicle Control History.
HINT:
-
The vehicle condition when the problem symptoms occurred can be determined by confirming the Vehicle Control History Freeze Frame Data.
-
As the Vehicle Control History data may be overwritten whenever the trigger conditions are met, make sure to save the Vehicle Control History data before performing any inspections.
-
Using information from the customer about when the problem symptom occurred, find the Freeze Frame Data with the appropriate Key Cycle, Total Distance Traveled, etc., to find vehicle history that may be related to the problem symptoms.
(f) Check if the problem symptoms stated by the customer are currently occurring.
HINT:
-
By using snapshot to store the Data List, the Data List items can be compared to the Vehicle Control History.
-
If the problem symptoms cannot be reproduced, refer to Check for Intermittent Problems, and try to reproduce the conditions when the problem symptoms occurred as stated by the customer. If the problem symptoms still cannot be reproduced, perform the following procedure.
Click here
(g) Read the Data List or the Vehicle Control History Freeze Frame Data.
HINT:
-
If the malfunction is currently occurring, compare the values of the Data List items with the Vehicle Control History Freeze Frame Data.
-
If the malfunction is not currently occurring, read the Vehicle Control History Freeze Frame Data.
Vehicle Control History
|
Vehicle Control History Freeze Frame Data / Data List While Problem Symptoms Are Occurring
|
Suspected Area
|
Proceed to
|
Engine Stall is stored
(Vehicle Control History Code: X0800)
|
-
|
-
|
A
|
ISC F/B Learn Torque is less than 15 Nm
|
-
|
B
|
ISC F/B Learn Torque is 15 Nm or higher
|
The offset correction value is insufficient due to deposits in the throttle body causing a low idle air flow rate.
|
C
|
Engine Stall (Compression Leakage) is stored
(Vehicle Control History Code: X0803)
|
Rough idle, engine stall, etc. is not currently reoccurring.
|
A temporary compression loss due to deposits being caught on an intake or exhaust valve, etc., is suspected.
|
D
|
Rough idle, engine stall, etc. is currently reoccurring.
|
A compression loss due to damage to the intake or exhaust valve, deposits being caught on an intake or exhaust valve, etc. is suspected.
|
E
|
The malfunction is not currently occurring and there is no Vehicle Control History related to the problem symptoms stated by the customer.
|
F
|
D |
|
SYSTEM RETURNED TO NORMAL (TEMPORARY MALFUNCTION)
|
A
|
|
|
4.
|
READ VALUE USING TECHSTREAM (ISC F/B LEARN TORQUE)
|
(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 / Data List / ISC F/B Learn Torque.
Powertrain > Engine > Data List
Tester Display
|
ISC F/B Learn Torque
|
(e) Read the value displayed on the Techstream.
Result
|
Proceed to
|
Less than 15 Nm
|
A
|
Other than above
|
B
|
5.
|
READ VALUE USING TECHSTREAM (SHORT FT B1S1 AND LONG FT B1S1)
|
(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 / Data List / Short FT B1S1 and Long FT B1S1.
Powertrain > Engine > Data List
Tester Display
|
Short FT B1S1
|
Long FT B1S1
|
(e) Read the value displayed on the Techstream.
Data List
|
Result
|
Proceed to
|
Short FT B1S1 + Long FT B1S1
|
-20% or higher, or less than 20%
|
A
|
Other than above
|
B
|
HINT:
-
"Total FT Bank 1" is used to detect an abnormal air fuel ratio. As the value of "Total FT Bank 1" is corrected by the ECM before it is displayed in the Data List, the displayed value may not be equal to the sum of the measured "Short FT B1S1" and "Long FT B1S1".
-
An abnormally lean or rich tendency can be checked by reading the following Data List items: A/F Learn Value Idle (Port) Bank 1, A/F Learn Value Low (Port) Bank 1, A/F Learn Value Mid No.1 (Port) Bank 1, A/F Learn Value Mid No.2 (Port) Bank 1, A/F Learn Value High (Port) Bank 1, A/F Learn Value Idle Bank 1, A/F Learn Value Low Bank 1, A/F Learn Value Mid No.1 Bank 1, A/F Learn Value Mid No.2 Bank 1, A/F Learn Value High Bank 1, A/F Learn Value Low (Dual) Bank 1, A/F Learn Value Mid (Dual) No.1 Bank 1, A/F Learn Value Mid (Dual) No.2 Bank 1 and A/F Learn Value High (Dual) Bank 1.
-
The following may cause a lean air fuel ratio (an operating range in which the air fuel ratio learned value correction is +20% or more):
-
Decrease in fuel injector assembly injection volume
-
Decrease in mass air flow meter sub-assembly output (due to existence of foreign matter)
-
Air leaks in intake system after mass air flow meter sub-assembly
-
Decrease in fuel pressure (at fuel filter, fuel pump, fuel main valve assembly or fuel suction plate sub-assembly)
-
On vehicles which the learning value for each operating range can be checked, if the value of "A/F Learn Value High (Port) Bank 1", "A/F Learn Value High Bank 1" or "A/F Learn Value High (Dual) Bank 1" only is corrected to the positive side, a malfunction in the fuel system (clogging of the fuel pump or fuel filter) is suspected.
-
On vehicles which the learning value for each operating range can be checked, if the value of "A/F Learn Value Idle (Port) Bank 1", "A/F Learn Value Low (Port) Bank 1", "A/F Learn Value Idle Bank 1", "A/F Learn Value Low Bank 1" or "A/F Learn Value Low (Dual) Bank 1" only is corrected to the positive side, an air leak after the mass air flow meter sub-assembly is suspected.
-
The following may cause a rich air fuel ratio (an operating range in which the air fuel ratio learned value correction is -20% or less):
-
Increase in the fuel injector assembly injection volume
-
Purge VSV system
A
|
|
|
6.
|
PERFORM ACTIVE TEST USING TECHSTREAM (D-4S (FUEL CUT))
|
(a) Connect the Techstream to the DLC3.
(b) Start the engine.
HINT:
Reproduce the vehicle conditions when the malfunction occurred. (such as after the engine is warmed up or after a cold start).
(c) Turn the Techstream on.
(d) Enter the following menus: Powertrain / Engine / Active Test / D-4S (Fuel Cut) / Data List / Engine Speed.
Powertrain > Engine > Active Test
Active Test Display
|
D-4S (Fuel Cut)
|
Data List Display
|
Engine Speed
|
(e) According to the display on the Techstream, perform the Active Test and check for a malfunctioning cylinder.
HINT:
-
Perform fuel-cut of port injection and direct injection for each cylinder and check the change in the engine speed.
-
If the engine speed of a cylinder does not change while performing the Active Test, it can be determined that the cylinder is malfunctioning.
-
If the engine speed of all cylinders change while performing the Active Test, it can be determined that multiple cylinders are malfunctioning.
-
A cylinder for which the Data List item "Misfire Count Cylinder #1 to #4" increases may be malfunctioning.
-
If "Compression Leakage Count" in the Data List increases, misfiring due to insufficient compression may be occurring.
Result
|
Proceed to
|
One cylinder is malfunctioning
|
A
|
Multiple or all cylinders are malfunctioning, or the malfunctioning cylinder cannot be determined.
|
B
|
B
|
|
|
7.
|
PERFORM ACTIVE TEST USING TECHSTREAM (CONTROL THE EGR STEP POSITION)
|
(a) Connect the Techstream to the DLC3.
(b) Turn the ignition switch to ON.
(c) Turn the Techstream on.
(d) Start the engine and warm it up until the engine coolant temperature reaches 75°C (167°F) or higher.
HINT:
The A/C switch and all accessory switches should be off.
(e) Enter the following menus: Powertrain / Engine / Active Test / Control the EGR Step Position / Data List / Engine Speed and Coolant Temperature.
Powertrain > Engine > Active Test
Active Test Display
|
Control the EGR Step Position
|
Data List Display
|
Engine Speed
|
Coolant Temperature
|
(f) Perform the Active Test and check the vehicle condition when operating the EGR valve assembly.
NOTICE:
-
Do not leave the EGR valve open for 10 seconds or more during the Active Test.
-
Be sure to return the EGR valve to step 0 when the Active Test is completed.
-
Do not open the EGR valve 30 steps or more during the Active Test.
HINT:
Operate the EGR valve between step 0 and 30 when performing this step.
Result
|
Proceed to
|
Vehicle condition changes during the Active Test
(Malfunction occurs when the EGR valve is open and disappears when the EGR valve is closed)
|
A
|
Vehicle condition does not change during the Active Test
(Malfunction occurs whether the EGR valve is open or closed)
|
B
|
HINT:
During Active Test, if the idling condition does not change in response to EGR step position, then there is probably a malfunction in the EGR valve.
A
|
|
|
8.
|
READ VALUE USING TECHSTREAM (MASS AIR FLOW SENSOR)
|
(a) Connect the Techstream to the DLC3.
(b) Turn the ignition switch to ON.
(c) Turn the Techstream on.
(d) Start the engine and warm it up until the engine coolant temperature 75°C (167°F) or higher with all the accessories switched off.
(e) Enter the following menus: Powertrain / Engine / Data List / Engine Speed, Mass Air Flow Sensor and Coolant Temperature.
Powertrain > Engine > Data List
Tester Display
|
Engine Speed
|
Mass Air Flow Sensor
|
Coolant Temperature
|
(f) According to the display on the Techstream, read the Data List when the engine is running.
Result
|
Proceed to
|
Idling (engine warmed up): 1.2 to 3.2 gm/sec
Engine speed 2000 rpm (without load): 4.5 to 8.5 gm/sec
Engine speed 3000 rpm (without load): 7.5 to 12.5 gm/sec
|
A
|
Other than below
|
B
|
A
|
|
|
9.
|
PERFORM ACTIVE TEST USING TECHSTREAM (D-4S (INJECTION VOLUME))
|
(a) Connect the Techstream to the DLC3.
(b) Turn the ignition switch to ON.
(c) Turn the Techstream on.
(d) Start the engine and warm it up until the engine coolant temperature 75°C (167°F) or higher with all the accessories switched off.
(e) Warm up the air fuel ratio sensors at an engine speed of 2500 rpm for 90 seconds.
(f) Idle the engine.
(g) Enter the following menus: Powertrain / Engine / Active Test / D-4S (Injection Volume) / Data List / Coolant Temperature, A/F (O2) Sensor Current B1S1 and A/F (O2) Sensor Current B1S2.
Powertrain > Engine > Active Test
Active Test Display
|
D-4S (Injection Volume)
|
Data List Display
|
Coolant Temperature
|
A/F (O2) Sensor Current B1S1
|
A/F (O2) Sensor Current B1S2
|
(h) According to the display on the Techstream, perform the Active Test and check the vehicle conditions when increasing and decreasing the fuel injection volume of port injection and direct injection.
NOTICE:
-
The air fuel ratio sensor (sensor 1) has an output delay of a few seconds and the air fuel ratio sensor (sensor 2) has a maximum output delay of approximately 20 seconds.
-
Read the output current immediately after warming up the air fuel ratio sensors to avoid an inaccurate reading due to a sensor cooling.
HINT:
-
Increase and decrease the fuel injection volume of the port injection and direct injection simultaneously and check the vehicle condition.
-
Change the fuel injection volume between -12 to 12%.
Standard:
Techstream Display
(Sensor)
|
Injection Volume
|
Current
|
A/F (O2) Sensor Current B1S1
(Air fuel ratio (sensor 1))
|
12%
|
Below -0.075 mA
|
-12%
|
More than 0.037 mA
|
A/F (O2) Sensor Current B1S2
(Air fuel ratio (sensor 2))
|
12%
|
Below -0.86 mA
|
-12%
|
More than 0.33 mA
|
Result
|
Proceed to
|
Output current values are abnormal
|
A
|
Malfunction disappears when fuel injection volume is increased
|
B
|
Malfunction is still present when fuel injection volume is increased, even if output current values are normal
|
C
|
A
|
|
|
10.
|
REPLACE AIR FUEL RATIO SENSORS
|
(a) Replace 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
(b) Replace the air fuel ratio sensor (sensor 2).
Click here
HINT:
Perform "Inspection After Repair" after replacing the air fuel ratio sensor (sensor 2).
Click here
11.
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REPLACE FUEL INJECTOR ASSEMBLY
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(a) Replace the fuel injector assemblies of all cylinders.
HINT:
Perform "Inspection After Repair" after replacing the fuel injector assembly.
Click here
12.
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PERFORM ACTIVE TEST USING TECHSTREAM (ACTIVATE THE CIRCUIT RELAY)
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(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 / Active Test / Activate the Circuit Relay.
Powertrain > Engine > Active Test
Tester Display
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Activate the Circuit Relay
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(e) When performing the Active Test, check for an operating sound from the fuel pump (for low pressure side).
OK:
Activate the Circuit Relay
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Specified Condition
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ON
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Operating sound heard
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OFF
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Operating sound not heard
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OK
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13.
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INSPECT FUEL PUMP (FOR LOW PRESSURE SIDE)
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(a) Attach a fuel pressure gauge and check the fuel pressure when cranking the engine and after stopping the engine.
Click here
Standard:
Vehicle State
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Specified Condition
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Cranking engine
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196 to 833 kPa (2.0 to 8.5 kgf/cm2, 28 to 121 psi)
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5 minutes after stopping engine
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98 kPa (1.0 kgf/cm2, 14.2 psi) or higher
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HINT:
-
If there is foreign matter such as iron particles on the fuel pump (for low pressure side), remove it.
-
Make sure that there are no leaks from the fuel lines, signs of fuel leakage or fuel odors.
OK
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|
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14.
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READ VALUE USING TECHSTREAM (FUEL PRESSURE (HIGH))
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(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 / Data List / Engine Speed, Coolant Temperature, Fuel Pressure (High) and Injection Mode.
Powertrain > Engine > Data List
Tester Display
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Engine Speed
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Coolant Temperature
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Fuel Pressure (High)
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Injection Mode
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(e) Start the engine and warm it up until the engine coolant temperature is 75°C (167°F) or higher with all the accessories switched off.
(f) According to the display on the Techstream, read the Data List.
Standard:
Techstream Display
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Condition
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Specified Condition
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Fuel Pressure (High)
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-
Shift position: P
-
A/C: Off
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Engine warmed up
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Engine Speed: 3000 rpm
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Injection Mode: Direct
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2400 to 20000 kPag
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OK
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15.
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INSPECT OTHER RELATED COMPONENTS
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(a) Inspect other related components.
HINT:
If the malfunctioning part could not be determined by performing the preceding inspections, one of the following malfunctions is suspected.
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Deposits in the intake manifold or on an intake valve
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Delay in fuel supply due to adherence of the fuel to the deposits
16.
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INSPECT RELATED PARTS
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(a) Inspect the following fuel pump related parts:
-
Fuel suction plate sub-assembly
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Fuel main valve assembly
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Fuel lines and connecting parts
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Fuel filter
17.
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REPLACE FUEL PUMP (FOR LOW PRESSURE SIDE)
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(a) Replace the fuel pump (for low pressure side).
Click here
HINT:
Perform "Inspection After Repair" after replacing the fuel pump (for low pressure side).
Click here
(a) Check for air leaks or blockage in the intake system components. If a connection problem or foreign matter is found, repair the connection or remove the foreign matter.
HINT:
-
If there is foreign matter in the intake system components, remove it before proceeding to the next step.
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If there is no foreign matter in the intake system components, check for foreign matter in the mass air flow meter sub-assembly. If there is foreign matter in the mass air flow meter sub-assembly, remove it.
19.
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REPLACE EGR VALVE ASSEMBLY
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(a) Replace the EGR valve assembly.
Click here
HINT:
Perform "Inspection After Repair" after replacing the EGR valve assembly.
Click here
20.
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REMOVE FOREIGN OBJECT (CLEAN THROTTLE BODY WITH MOTOR ASSEMBLY)
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(a) Clean off any deposits from the inside of the throttle body with motor assembly.
(b) Push open the throttle valve and wipe off any carbon from the valve and bore using a piece of cloth soaked in non-residue solvent.
*1
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Throttle Body with Motor Assembly
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*2
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Bore
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*3
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Valve
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-
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-
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*a
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Reference
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*b
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Throttle Body with Motor Assembly Cross-section Diagram
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*c
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When valve fully opened
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*d
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Do not directly apply cleaner
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*e
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Deposits
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-
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-
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NOTICE:
-
Make sure that the cloth or your fingers do not get caught in the valve.
-
Make sure that foreign matter does not enter the throttle valve.
-
Do not directly apply non-residue solvent to the throttle body with motor assembly or wash the throttle body with motor assembly. Cleaning solvent may leak into the motor from the shaft and cause problems such as rust or valve movement problems.
-
If there is coating material on the edge of the valve, be careful not to remove it.
HINT:
The illustrations are for reference only. Actual parts may differ.
NEXT
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|
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21.
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PERFORM CONFIRMATION DRIVING PATTERN
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(a) Perform "Inspection After Repair" after cleaning the throttle body with motor assembly.
Click here
(b) Connect the Techstream to the DLC3.
(c) Turn the ignition switch to ON.
(d) Turn the Techstream on.
(e) Start the engine and warm it up until the engine coolant temperature reaches 75°C (167°F) or higher.
(f) Allow the engine to idle for 3 minutes or more and confirm that the engine speed is within the specified range.
HINT:
If the engine is operated without performing learning value reset and idle learning after cleaning the deposits from the throttle body with motor assembly, the idle speed may increase.
22.
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PERFORM ACTIVE TEST USING TECHSTREAM (CHECK THE CYLINDER COMPRESSION)
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HINT:
If the vehicle does not support the Active Test "Check the Cylinder Compression", measure the compression pressure. If the compression pressure is normal, go to step 23 (PERFORM ACTIVE TEST USING Techstream (D-4S (INJECTION VOLUME))).
(a) Warm up the engine.
(b) Turn the ignition switch off.
(c) Connect the Techstream to the DLC3.
(d) Turn the ignition switch to ON.
(e) Turn the Techstream on.
(f) Enter the following menus: Powertrain / Engine / Active Test / Check the Cylinder Compression / Data List / Compression / Engine Speed Cylinder #1 to #4 and Average Engine Speed of All Cylinder.
Powertrain > Engine > Active Test
Active Test Display
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Check the Cylinder Compression
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Data List Display
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Engine Speed Cylinder #1
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Engine Speed Cylinder #2
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Engine Speed Cylinder #3
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Engine Speed Cylinder #4
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Average Engine Speed of All Cylinder
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HINT:
To display the entire Data List, press the pull down menu button next to Primary. Then select Compression.
(g) Push the snapshot button to turn the snapshot function on.
HINT:
Using the snapshot function, data can be recorded during the Active Test.
(h) While the engine is not running, press the Active button to change Check the Cylinder Compression to "Start".
HINT:
After performing the above procedure, Check the Cylinder Compression will start. Fuel injection for all cylinders is prohibited and each cylinder engine speed measurement enters standby mode.
(i) Crank the engine for about 10 seconds.
(j) Monitor the engine speed (Engine Speed Cylinder #1 to #4 and Average Engine Speed of All Cylinder) displayed on the Techstream.
NOTICE:
-
Do not crank the engine continuously for 20 seconds or more.
-
If it is necessary to crank the engine again after Check the Cylinder Compression has been changed to "Start" and the engine has been cranked once, press Exit to return to the Active Test menu screen. Then change Check the Cylinder Compression to "Start" and crank the engine.
-
Make sure the battery is fully charged before performing this Active Test.
HINT:
-
At first, the Techstream will display extremely high cylinder engine speed values. After approximately 10 seconds of engine cranking, the engine speed measurement of each cylinder will change to the actual engine speed.
-
If the cylinder engine speed values (Engine Speed Cylinder #1 to #4) displayed in the Data List do not change from an extremely high value, return to the Active Test menu screen, change "Check the Cylinder Compression" to "Start" and crank the engine again within 1 second.
(k) Stop cranking the engine, and then change "Check the Cylinder Compression" to "Stop" after the engine stops.
NOTICE:
-
If the Active Test is changed to "Stop" while the engine is being cranked, the engine will start.
-
When performing the Active Test, Vehicle Control History code X0810 (Engine Difficult to Start (Engine Starting Time Long)) may be stored.
-
After performing the Active Test, make sure to check and clear DTCs.
(l) Push the snapshot button to turn the snapshot function off.
(m) Select "Stored Data" on the Techstream screen, select the recorded data and display the data as a graph.
HINT:
If the data is not displayed as a graph, the change of the values cannot be observed.
(n) Read the value.
HINT:
-
If the value of Data List item "Engine Speed Cylinder" of a cylinder is higher than other cylinders, the cylinder may be malfunctioning.
-
If the value of Data List item "Engine Speed Cylinder" is high for only one cylinder, compression loss is suspected.
Result
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Proceed to
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There is no variation in "Engine Speed Cylinder"
(All cylinders display approximately the same value for "Engine Speed Cylinder")
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A
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There is variation in "Engine Speed Cylinder"
(Only one cylinder displays a value for "Engine Speed Cylinder" that differs considerably)
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B
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A
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|
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23.
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PERFORM ACTIVE TEST USING TECHSTREAM (D-4S (INJECTION VOLUME))
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(a) Connect the Techstream to the DLC3.
(b) Turn the ignition switch to ON.
(c) Turn the Techstream on.
(d) Start the engine and warm it up until the engine coolant temperature 75°C (167°F) or higher with all the accessories switched off.
(e) Idle the engine.
(f) Enter the following menus: Powertrain / Engine / Active Test / D-4S (Injection Volume) / Data List / Coolant Temperature.
Powertrain > Engine > Active Test
Active Test Display
|
D-4S (Injection Volume)
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Data List Display
|
Coolant Temperature
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(g) According to the display on the Techstream, perform the Active Test and check the vehicle conditions when increasing and decreasing the fuel injection volume of port injection and direct injection.
HINT:
-
Increase and decrease the fuel injection volume of the port injection and direct injection simultaneously and check the vehicle condition.
-
Change the fuel injection volume between the minimum and maximum range of correction (e.g. -12.5% to 24.8%).
Result
|
Proceed to
|
Malfunction is still present even if the fuel injection volume is changed
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A
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Malfunction disappears when the fuel injection volume is changed
|
B
|
A
|
|
|
24.
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CHECK IGNITION SYSTEM
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(a) Check the ignition system.
HINT:
-
Interchange the ignition coil assembly and spark plug of the malfunctioning cylinder with those of a known good cylinder and check if the malfunctioning cylinder returns to normal.
-
If the spark plug of the malfunctioning cylinder is abnormally wet with fuel even after the ignition coil assembly and spark plug are replaced, a leaking fuel injector assembly is suspected.
Result
|
Proceed to
|
The malfunctioning cylinder does not return to normal
|
A
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The malfunctioning cylinder returned to normal
|
B
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A
|
|
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25.
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INSPECT OTHER RELATED COMPONENTS
|
(a) Check the power source circuit, wire harness and connectors.
26.
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REPLACE FUEL INJECTOR ASSEMBLY
|
(a) Replace the abnormal fuel injector assembly.
HINT:
-
If the air fuel ratio learned value is corrected to the positive side for all operating ranges due to low fuel injector assembly injection volume, replace the fuel injector assemblies of all cylinders.
-
Perform "Inspection After Repair" after replacing the fuel injector assembly.
Click here
27.
|
CHECK CYLINDER COMPRESSION PRESSURE
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(a) Measure the cylinder compression pressure. If the compression pressure of a cylinder is low, inspect the engine assembly and repair or replace parts as necessary.
Click here
NEXT
|
|
|
28.
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REPAIR OR REPLACE MALFUNCTIONING PARTS
|
(a) Repair or replace the malfunctioning part.
(b) Perform "Inspection After Repair" after repairing or replacing the malfunctioning part.
Click here
NEXT
|
|
|
29.
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CONDUCT CONFIRMATION TEST
|
(a) Check that the engine has returned to normal.
NEXT |
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END
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