Dtc P1603 Engine Stall History

Engine. Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35
1Az-Fe Engine Control System. Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35

DESCRIPTION

INSPECTION PROCEDURE

CHECK FOR ANY OTHER DTCS OUTPUT

READ FREEZE FRAME DATA

CHECK INTAKE SYSTEM

CHECK PURGE VSV

READ FREEZE FRAME DATA

READ VALUE USING INTELLIGENT TESTER (SHORT FT)

READ FREEZE FRAME DATA

CHECK MASS AIR FLOW METER

PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE INJECTION VOLUME)

CHECK HARNESS AND CONNECTOR (AIR FUEL RATIO SENSOR POWER SOURCE)

CHECK HARNESS AND CONNECTOR (AIR FUEL RATIO SENSOR - ECM)

READ FREEZE FRAME DATA

READ FREEZE FRAME DATA

INSPECT THERMOSTAT

READ FREEZE FRAME DATA

INSPECT ENGINE COOLANT TEMPERATURE SENSOR

READ FREEZE FRAME DATA

PERFORM ACTIVE TEST USING INTELLIGENT TESTER (ACTIVATE THE VSV FOR EVAP CONTROL)

INSPECT PURGE VSV

CHECK HARNESS AND CONNECTOR (PURGE VSV POWER SOURCE)

CHECK HARNESS AND CONNECTOR (PURGE VSV - ECM)

PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE FUEL PUMP / SPEED)

INSPECT FUEL PUMP

CHECK FUEL SYSTEM

READ FREEZE FRAME DATA

CHECK MASS AIR FLOW METER

PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE INJECTION VOLUME)

CHECK HARNESS AND CONNECTOR (AIR FUEL RATIO SENSOR POWER SOURCE)

CHECK HARNESS AND CONNECTOR (AIR FUEL RATIO SENSOR - ECM)

READ FREEZE FRAME DATA

READ FREEZE FRAME DATA

INSPECT THERMOSTAT

READ FREEZE FRAME DATA

INSPECT ENGINE COOLANT TEMPERATURE SENSOR

READ FREEZE FRAME DATA

CHECK THROTTLE BODY WITH MOTOR ASSEMBLY

CHECK THROTTLE BODY WITH MOTOR ASSEMBLY

PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE VVT SYSTEM)

READ FREEZE FRAME DATA

INSPECT ENGINE COOLANT TEMPERATURE SENSOR

INSPECT MASS AIR FLOW METER

CHECK HARNESS AND CONNECTOR (FUEL INJECTOR POWER SOURCE)

CHECK HARNESS AND CONNECTOR (IGNITION COIL POWER SOURCE)

CHECK FREEZE FRAME DATA

CHECK FREEZE FRAME DATA

CHECK FREEZE FRAME DATA

CHECK FREEZE FRAME DATA

CHECK FREEZE FRAME DATA

CHECK FREEZE FRAME DATA

CHECK MASS AIR FLOW METER

CHECK HARNESS AND CONNECTOR (FUEL INJECTOR POWER SOURCE)

CHECK HARNESS AND CONNECTOR (IGNITION COIL POWER SOURCE)

PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE FUEL PUMP / SPEED)

INSPECT FUEL PUMP

CHECK FUEL SYSTEM

REPLACE MALFUNCTIONING PARTS

CLEAR DTC

PERFORM CONFIRMATION DRIVING PATTERN

DTC P1603 Engine Stall History

DTC P1605 Rough Idling


DESCRIPTION

  1. P1603
After starting the engine, this DTC is stored when the engine stops without the ignition switch being operated.
Using the intelligent tester, the conditions present when the DTC was stored can be confirmed by referring to the freeze frame data. Freeze frame data records engine conditions when a malfunction occurs. This information can be useful when troubleshooting.
It is necessary to check if the vehicle has ran out of fuel before performing troubleshooting, as this DTC is also stored when the engine stalls due to running out of fuel.

DTC No.
DTC Detection Condition
Trouble Area
P1603
After monitoring for startability problems (P1604) finishes and 5 seconds or more elapse after starting the engine, with the engine running, the engine stops (the engine speed drops to 200 rpm or less) without the ignition switch being operated for 0.5 seconds or more (1 trip detection logic).
  1. Air leak in intake system
  2. Purge VSV
  3. Brake booster hose not connected properly
  4. Mass air flow meter
  5. Engine coolant temperature sensor
  6. Wire harness or connector
  7. Air fuel ratio sensor
  8. Power supply circuit (purge VSV, fuel injector assembly, ignition coil assembly)
  9. Fuel pump
  10. Fuel pump control system
  11. Fuel line
  12. Throttle body with motor assembly
  13. Camshaft timing oil control valve assembly
  14. Air conditioning system
  15. Power steering system
  16. Electrical load signal system
  17. A/T system
  18. Park/neutral position switch assembly
  19. ECM
  1. P1605
This DTC is stored if the engine speed drops below the set speed.
Using the intelligent tester, the conditions present when the DTC was stored can be confirmed by referring to the freeze frame data. Freeze frame data records engine conditions when a malfunction occurs. This information can be useful when troubleshooting.
It is necessary to check if the vehicle ran out of fuel before performing troubleshooting, as this DTC is also stored when idling is unstable due to running out of fuel.

DTC No.
DTC Detection Condition
Trouble Area
P1605
After 5 seconds or more elapse after starting the engine, with the engine running, the engine speed drops to 400 rpm or less (1 trip detection logic).
  1. Air leak in intake system
  2. Purge VSV
  3. Brake booster hose not connected properly
  4. Mass air flow meter
  5. Engine coolant temperature sensor
  6. Wire harness or connector
  7. Air fuel ratio sensor
  8. Power supply circuit (purge VSV, fuel injector, ignition coil)
  9. Fuel pump
  10. Fuel pump control system
  11. Fuel line
  12. Throttle body with motor assembly
  13. Camshaft timing oil control valve assembly
  14. Knock sensor
  15. Ignition coil assembly
  16. Fuel injector assembly
  17. Spark plug(s)
  18. Air conditioning system
  19. Power steering system
  20. Electrical load signal system
  21. A/T system
  22. Park/neutral position switch assembly
  23. ECM

INSPECTION PROCEDURE

HINT:
  1. In contrast to normal malfunction diagnosis for components, circuits and systems, DTCs P1603 and P1605 are used to determine the malfunctioning area from the problem symptoms and freeze frame data when the user mentions problems such as engine stall.
    As these DTCs can be stored as a result of certain user actions, even if these DTCs are output, if the customer makes no mention of problems, clear these DTCs without performing any troubleshooting and return the vehicle to the customer.
  2. If any other DTCs are output, perform troubleshooting for those DTCs first.
  3. Use any information from the customer problem analysis about the condition of the vehicle at the time when the problem occurred (how the engine stopped, conditions when the engine was restarted, etc.) as a reference.

    Symptom
    		Suspected Area
    Engine vibration occurs and engine stops
    		Air-fuel ratio abnormal
    Engine stops with no engine vibration
    		Ignition system, injection stoppage, high load from external parts
    Engine can be started with accelerator pedal depressed
    		Insufficient air volume
    Rough idling after engine started
    		Air-fuel ratio abnormal, abnormal combustion
  4. Read freeze frame data using the intelligent tester. Freeze frame data records engine conditions when a malfunction occurs. This information can be useful when troubleshooting.
  5. When confirming the freeze frame data, be sure to check all 5 sets of freeze frame data (RAV4_ACA30 RM000000SXU00TX.html).
  6. When DTC P1603 (Engine Stall History) is stored, DTC P1605 (Rough Idling) is also stored. When confirming freeze frame data, check DTC P1605. The ECM stores DTC P1605 first. Therefore, 5 sets of freeze frame data can be confirmed through DTC P1605, enabling the technician to obtain more information.
  7. When confirming freeze frame data, if there are multiple items related to the cause of the malfunction, perform troubleshooting for all related items.
  8. Try to operate the vehicle under the conditions recorded in the freeze frame data which were present when the malfunction occurred. Confirm the data at this time and the data when the engine is idling (engine warmed up, no load, and shift lever in D or N) and compare these data with the freeze frame data.
  9. Inspections take into account the fact that the malfunction may not have reoccurred and place emphasis on checking the vehicle conditions present at the time when the malfunction occurred.
  10. When performing inspections, jiggle the relevant wire harnesses and connectors in an attempt to reproduce malfunctions that do not always occur.
Inspection flow:
Using freeze frame data, narrow down the parts to be inspected according to the vehicle conditions at the time when the malfunction occurred.
  1. P1603:

Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

1:
  1. If the engine stalled when the intake air volume was low (during idling or deceleration), there may be a decrease in torque due to an incorrect air-fuel ratio, etc.
  2. If the engine stalled when the intake air volume was high (during driving or acceleration), there may be a major malfunction such as continuous misfire due to ignition stoppage, fuel injection stoppage, etc. and the torque drops to zero.
2:
  1. If the engine speed decreased slowly, there may have been a decrease in torque due to an air-fuel ratio that was incorrect (by approximately 20 to 30%), etc.
  2. If the engine speed decreased rapidly, there may have been a malfunction such as when the engine misfires almost continuously due to ignition stoppage, fuel injection stoppage, etc., or when the external load increases due to an external part malfunctioning.
3:
  1. If the air-fuel ratio is abnormal, there may have been an intake air leak, sensor malfunction, or fuel supply problem.
  2. If the vehicle was normal, the air volume may have been insufficient or the ignition timing may have been incorrect.
P1603 inspection flow: Narrow down the parts to be inspected according to the vehicle conditions at the time when the malfunction occurred (freeze frame data).

Vehicle State
Engine Speed
Suspected Area
Primary Parts to Inspect
Procedure
Idling or decelerating
Slowly decreases and engine stalls
Air-fuel ratio abnormal
Air suction
  1. Intake system connections
  2. Purge VSV system
  3. Brake booster
3 to 6
Sensor malfunction (value from sensor too lean)
  1. Mass air flow meter
  2. Engine coolant temperature sensor
  3. Air fuel ratio sensor system
7 to 16
Sensor malfunction (value from sensor too rich)
25 to 34
Fuel supply problem
  1. Fuel pump control system
  2. Purge VSV system
  3. Fuel line
  4. ECM
17 to 24
Intake air volume insufficient
ISC flow rate
  1. Throttle body with motor assembly (ISC valve)
35 to 37
Excessive valve overlap
  1. Camshaft timing oil control valve assembly
38
Ignition timing incorrect
Does not operate as expected
  1. Engine coolant temperature sensor
  2. Mass air flow meter
39 to 41
Rapidly decreases and engine stalls
Ignition and injection stops (electrical system malfunction)
Power temporarily cut
  1. Power supply circuit (fuel injector, ignition coil assembly)
42, 43
External part malfunctioning
Increase in load
  1. Air conditioning system
  2. Electrical load signal system
  3. Power steering system
  4. A/T system
  5. Park/neutral position switch
44 to 49
Accelerating
-
Crankshaft position sensor, camshaft position sensor malfunction
Power temporarily cut
  1. Check DTCs
1
Mass air flow meter
Foreign matter adhesion
  1. Mass air flow meter
50
Fuel supply problem
Fuel leak, clog
  1. Fuel pump control system
  2. Fuel line
53 to 55
Ignition and injection stops (electrical system malfunction)
Power temporarily cut
  1. Power supply circuit (fuel injector, ignition coil assembly)
51, 52
  1. P1605:

Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

1:
  1. If the engine speed decreased slowly, there may have been a decrease in torque due an air-fuel ratio that was incorrect (by approximately 20 to 30%), etc.
  2. If the engine speed decreased rapidly, there may have been a malfunction such as when the engine misfires almost continuously due to ignition stoppage, fuel injection stoppage, etc., or when the external load increases due to an external part malfunctioning.
2:
  1. If the air-fuel ratio is abnormal, there may have been an intake air leak, sensor malfunction, or fuel supply problem.
  2. If the vehicle was normal, the air volume may have been insufficient or the ignition timing may have been incorrect.
P1605 inspection flow: Narrow down the parts to be inspected according to the vehicle conditions at the time when the malfunction occurred (freeze frame data).

Engine Speed
Suspected Area
Primary Parts to Inspect
Procedure
Slowly decreases and engine stalls
Air-fuel ratio abnormal
Air suction
  1. Intake system connections
  2. Purge VSV system
  3. Brake booster
3 to 6
Sensor malfunction (value from sensor too lean)
  1. Mass air flow meter
  2. Engine coolant temperature sensor
  3. Air fuel ratio sensor system
7 to 16
Sensor malfunction (value from sensor too rich)
25 to 34
Fuel supply problem
  1. Fuel pump control system
  2. Purge VSV system
  3. Fuel line
  4. ECM
17 to 24
Intake air volume insufficient
ISC flow rate
  1. Throttle body with motor assembly
  2. ISC valve
35 to 37
Ignition timing incorrect
Does not operate as expected
  1. Knock sensor
  2. Engine coolant temperature sensor
  3. Mass air flow meter
39 to 41
Rapidly decreases and engine stalls
Ignition and injection stops (electrical system malfunction)
Power temporarily cut
  1. Power supply circuit (fuel injector, ignition coil assembly)
42, 43
External part malfunctioning
Increase in load
  1. Air conditioning system
  2. Electrical load signal system
  3. Power steering system
  4. A/T system
  5. Park/neutral position switch
44 to 49
NOTICE:
Inspect the fuses for circuits related to this system before performing the following inspection procedure.
1.CHECK FOR ANY OTHER DTCS OUTPUT

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Read the DTCs (RAV4_ACA30 RM000000PDK0VSX.html).

    Result
    Result
    		Proceed to
    Only DTC P1603 and P1605 are output
    		A
    DTCs other than P1603 and P1605 are output
    		B


B
GO TO DTC CHART (RAV4_ACA30 RM000000PDF0FLX.html)
A


2.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).



  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Problem Symptom
    		Freeze Frame Data Item for DTC P1605
    		Suspected Area
    		Proceed to
    Closed Throttle Position SW
    		Engine Speed
    		Total of Short FT and Long FT
    When idling or decelerating, engine speed slowly decreases and engine stalls
    		All 5 sets of freeze frame data are ON
    		Decreases slowly*1
    		All 5 sets of freeze frame data are +15% or more*2
    1. Air suction
    2. Sensor malfunction (value from sensor too lean)
    3. Fuel supply problem
    		A
    At least 1 of the 5 sets of freeze frame data is -15% or less*3
    		Sensor malfunction (value from sensor too rich)
    		B
    All 5 sets of freeze frame data are from -15% to +15%
    1. Intake air volume insufficient
    2. Ignition timing incorrect
    		C
    When idling or decelerating, engine speed rapidly decreases and engine stalls
    		Decreases rapidly*1
    		-
    1. Injection stoppage, ignition stoppage
    2. Load from external parts
    		D
    When accelerating or driving at constant speed, engine stalls*4
    		At least one is OFF
    		-
    		-
    1. Sensor malfunction
    2. Injection stoppage, ignition stoppage
    3. Fuel supply problem
    		E

    Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

    HINT:
    1. *1: A rapid decrease in engine speed may be caused by an electrical fault in the shared wiring of all or a number of cylinders, an increase in load from external parts, etc. The engine speed is considered to have decreased rapidly if either of the following conditions applies.
      Otherwise, the engine speed is considered to have decreased slowly.
      1. In the freeze frame data, the decrease in engine speed from #3 to #5 is 400 rpm or more.
      2. In the freeze frame data, the engine speed at #5 is 120 rpm or less.
    1. If the vehicle speed is 30 km/h or less and the difference between Engine Speed and SPD (NT) is 100 rpm or less, inspect the automatic transmission. (Depending on the rate of vehicle deceleration, the engine speed may have decreased due to the A/T lock-up release being late.)
    2. *2: When a DTC is stored, feedback compensation increases because the air-fuel ratio is determined to be lean.
    3. *3: When a DTC is stored, feedback compensation decreases because the air-fuel ratio is determined to be rich.
    4. *4: This item should be checked when DTC P1603 is output and is not necessary to check when only P1605 is output.


B
Go to step 25

C
Go to step 35

D
Go to step 42

E
Go to step 49
A


3.CHECK INTAKE SYSTEM

  1. Check for air leakage in the intake system [vacuum hose disconnection, cracks, damaged gaskets, etc.] (RAV4_ACA30 RM000001RLS00FX_01_0002.html).

    HINT:
    1. If the accelerator pedal is released after racing the engine, the inspection is easier to perform because the vacuum inside the intake pipes increases and the air suction noise becomes louder.
    2. If Short FT and Long FT are largely different from the normal values when idling (the intake air volume is small) and almost the same as the normal values when racing the engine (the intake air volume is high), air leakage may be present.
    OK:
    There is no air leakage.


NG
REPAIR OR REPLACE INTAKE SYSTEM
OK


4.CHECK PURGE VSV

  1. Disconnect the purge hose (on the canister side) of the purge VSV.

  1. Start the engine.

  1. Idle the engine.

  1. Disconnect the connector of the purge VSV.

  1. Check if air flows through the purge VSV.

    OK:
    Air does not flow.

  1. Connect the connector of the purge VSV.

  1. Connect the purge hose of the purge VSV.

    HINT:
    When this inspection is performed, the MIL may illuminate. After finishing the inspection, check and clear DTCs (RAV4_ACA30 RM000000PDK0VSX.html).


NG
INSPECT PURGE VSV (RAV4_ACA30 RM000001RMW013X_01_0001.html)
OK


5.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Suspected Area
    		Proceed to
    Stop Light Switch
    		At least 1 of the 5 sets of freeze frame data is ON
    		Air suction from brake booster
    		A
    All 5 sets of freeze frame data are OFF
    		-
    		B


B
Go to step 7
A


6.READ VALUE USING INTELLIGENT TESTER (SHORT FT)
Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Start the engine and warm it up until the engine coolant temperature stabilizes.

    HINT:
    The A/C switch and all accessory switches should be off.

  1. Idle the engine.

  1. Using the intelligent tester, read Short FT #1 of the Data List while depressing the brake pedal.

    Standard:
    Short FT #1 changes by +10% or less.
    HINT:
    1. Even if the results are normal, the brake booster may have been malfunctioning. Continue this inspection procedure until step 24, and if there are no problems with other parts, replace the brake booster (refer to step 56).
    1. When air leakage from the brake booster is present, the feedback compensation increases because the air-fuel ratio becomes lean.
    1. It is also possible to perform the airtightness inspection to check the brake booster.


NG
REPLACE BRAKE BOOSTER (RAV4_ACA30 RM000001HJD00SX.html)
OK


7.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Suspected Area
    		Proceed to
    Calculate Load
    		Below 90% of the current value of the vehicle*1
    		Mass air flow meter
    		A
    AFS Voltage B1S1
    		3.3 V or higher*2
    1. Air fuel ratio sensor
    2. Wire harness or connector
    3. Actual air-fuel ratio abnormal
    		B
    Both freeze frame data items listed above
    		Values are other than above
    		-
    		C
    HINT:
    1. Try to operate the vehicle under the conditions recorded in the freeze frame data which were present when the malfunction occurred. Confirm the data at this time and the data when the engine is idling (engine warmed up, no load, and shift lever in D or N) and compare these data with the freeze frame data.
    2. *1: If the mass air flow meter is malfunctioning and incorrectly measures the pressure to be less than the actual intake manifold pressure, the freeze frame data will show a low engine load value.
    3. *2: If the air fuel ratio sensor is malfunctioning and constantly outputs a value indicating the air-fuel ratio is lean, the actual air-fuel ratio will become rich and the engine may stall.


B
Go to step 9

C
Go to step 12
A


8.CHECK MASS AIR FLOW METER

  1. Remove the mass air flow meter.

  1. Check for foreign matter in the airflow passage of the mass air flow meter.

    Result
    Result
    		Proceed to
    Visible foreign matter is present
    		A
    Visible foreign matter is not present
    		B

  1. Install the mass air flow meter.

    HINT:
    Even if the results are normal, the mass air flow meter may have been malfunctioning. Continue this inspection procedure until step 24, and if there are no problems with other parts, replace the mass air flow meter (refer to step 56).


B
Go to step 12
A

REPLACE MASS AIR FLOW METER (RAV4_ACA30 RM0000017TY00UX.html)

9.PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE INJECTION VOLUME)


    Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Start the engine, turn off all accessory switches and warm up the engine until the engine coolant temperature stabilizes.

  1. Idle the engine.

  1. Enter the following menus: Powertrain / Engine and ECT / Active Test / Control the Injection Volume.

  1. Read the output voltage from the air fuel ratio sensor when increasing and decreasing the fuel injection volume.

    Standard:
    Tester Display
    		Specified Condition
    Control the Injection Volume (25%)
    		Air fuel ratio sensor output voltage is below 3.1 V
    Control the Injection Volume (-12.5%)
    		Air fuel ratio sensor output voltage is higher than 3.4 V
    Result
    Result
    		Proceed to
    Abnormal
    		A
    Normal
    		B
    HINT:
    1. 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.
    2. Even if the results are normal, the air fuel ratio sensor may have been malfunctioning. Continue this inspection procedure until step 24, and if there are no problems with other parts, replace the air fuel ratio sensor (refer to step 56).


B
Go to step 12
A


10.CHECK HARNESS AND CONNECTOR (AIR FUEL RATIO SENSOR POWER SOURCE)
Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Disconnect the air fuel ratio sensor connector.

  1. Turn the ignition switch on (IG).

  1. Measure the voltage according to the value(s) in the table below.

    Standard Voltage:
    Tester Connection
    		Switch Condition
    		Specified Condition
    B7-2 (+B) - Body ground
    		Ignition switch on (IG)
    		11 to 14 V
    Text in Illustration
    *a
    		Front view of wire harness connector
    (to Air Fuel Ratio Sensor)
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. Make sure there is not an excessive amount of force applied to the wire harness.


NG
REPAIR POWER SOURCE CIRCUIT (RAV4_ACA30 RM000001DN807EX.html)
OK


11.CHECK HARNESS AND CONNECTOR (AIR FUEL RATIO SENSOR - ECM)

  1. Disconnect the air fuel ratio sensor connector.

  1. Disconnect the ECM connector.

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

    Standard Resistance (Check for Open):
    Tester Connection
    		Condition
    		Specified Condition
    B7-1 (HA1A) - B32-109 (HA1A)
    		Always
    		Below 1 Ω
    B7-3 (A1A+) - B32-112 (A1A+)
    		Always
    		Below 1 Ω
    B7-4 (A1A-) - B32-113 (A1A-)
    		Always
    		Below 1 Ω
    Standard Resistance (Check for Short):
    Tester Connection
    		Condition
    		Specified Condition
    B7-1 (HA1A) or B32-109 (HA1A) - Body ground
    		Always
    		10 kΩ or higher
    B7-3 (A1A+) or B32-112 (A1A+) - Body ground
    		Always
    		10 kΩ or higher
    B7-4 (A1A-) or B32-113 (A1A-) - Body ground
    		Always
    		10 kΩ or higher
    Result
    Result
    		Proceed to
    Abnormal
    		A
    Normal
    		B
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. Make sure there is not an excessive amount of force applied to the wire harness.


B
REPLACE AIR FUEL RATIO SENSOR (RAV4_ACA30 RM000001RO300SX.html)
A

REPAIR OR REPLACE HARNESS OR CONNECTOR

12.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Proceed to
    Initial Engine Coolant Temp, Ambient Temperature, Initial Intake Air Temp
    		Difference in temperature between each item is less than 10°C*1
    		A
    Difference in temperature between each item is 10°C or more*2
    		B
    HINT:
    1. *1: A long time had elapsed after stopping the engine.
    2. *2: A long time had not elapsed after stopping the engine.


B
Go to step 15
A


13.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).



  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).


    Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History


    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Suspected Area
    		Proceed to
    Initial Engine Coolant Temp, Coolant Temp, Engine Run Time
    		Range A
    1. Engine coolant temperature sensor
    2. Thermostat
    		A
    Range B
    		Engine coolant temperature sensor
    		B
    Range C
    		-
    		C
    HINT:
    This step is not directly related to engine stall.


B
Go to step 16

C
Go to step 17
A


14.INSPECT THERMOSTAT
HINT:
For the thermostat inspection, refer to the following procedures (RAV4_ACA30 RM0000017WC019X_01_0001.html).
Result
Result
Proceed to
Abnormal
A
Normal
B
HINT:
This step is not directly related to engine stall.


B
Go to step 16
A

REPLACE THERMOSTAT (RAV4_ACA30 RM0000017WE01DX.html)

15.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Suspected Area
    		Proceed to
    Coolant Temp
    		120°C or more
    		Engine coolant temperature sensor
    		A
    Coolant Temp, Ambient Temperature
    		Engine coolant temperature is lower than outside temperature by 15°C or more
    		Engine coolant temperature sensor
    Both freeze frame data items listed above
    		Values are other than above
    		-
    		B


B
Go to step 17
A


16.INSPECT ENGINE COOLANT TEMPERATURE SENSOR
HINT:
For the engine coolant temperature sensor inspection, refer to the following procedures (RAV4_ACA30 RM0000017U700ZX_01_0001.html).
Result
Result
Proceed to
Abnormal
A
Normal
B
HINT:
Even if the results are normal, the engine coolant temperature sensor may have been malfunctioning. Continue this inspection procedure until step 24, and if there are no problems with other parts, replace the engine coolant temperature sensor (refer to step 56).


B
Go to step 17
A

REPLACE ENGINE COOLANT TEMPERATURE SENSOR (RAV4_ACA30 RM0000017U900UX.html)

17.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Suspected Area
    		Proceed to
    EVAP (Purge) VSV
    		At least 1 of the 5 sets of freeze frame data is not 0%
    		Purge VSV
    		A
    All 5 sets of freeze frame data are 0%
    		-
    		B
    HINT:
    If the purge VSV is stuck closed, air-fuel ratio compensation by the purge VSV is incorrectly adjusted, and then the air-fuel ratio becomes lean and the engine may stall.


B
Go to step 22
A


18.PERFORM ACTIVE TEST USING INTELLIGENT TESTER (ACTIVATE THE VSV FOR EVAP CONTROL)


    Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Disconnect the purge hose (on the canister side) of the purge VSV.

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Start the engine.

  1. Enter the following menus: Powertrain / Engine and ECT / Active Test / Activate the VSV for Evap Control.

  1. Operate the purge VSV and check the air flow.

    Standard:
    Activate the VSV for Evap Control
    		Specified Condition
    ON
    		Air flows
    OFF
    		Air does not flow
    Result
    Result
    		Proceed to
    Abnormal
    		A
    Normal
    		B
HINT:
  1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
  2. Even if the results are normal, the purge VSV may have been malfunctioning. Continue this inspection procedure until step 24, and if there are no problems with other parts, replace the purge VSV (refer to step 56).


B
Go to step 22
A


19.INSPECT PURGE VSV

  1. Inspect the purge VSV (RAV4_ACA30 RM000001RMW013X_01_0001.html).



NG
REPLACE PURGE VSV (RAV4_ACA30 RM000001RMY017X.html)
OK


20.CHECK HARNESS AND CONNECTOR (PURGE VSV POWER SOURCE)


    Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Disconnect the purge VSV connector.

  1. Turn the ignition switch on (IG).

  1. Measure the voltage according to the value(s) in the table below.

    Standard Voltage:
    Tester Connection
    		Switch Condition
    		Specified Condition
    B2-1 - Body ground
    		Ignition switch on (IG)
    		11 to 14 V
    Text in Illustration
    *a
    		Front view of wire harness connector
    (to Purge VSV)
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. Make sure there is not an excessive amount of force applied to the wire harness.


NG
REPAIR POWER SOURCE CIRCUIT (RAV4_ACA30 RM000001DN807EX.html)
OK


21.CHECK HARNESS AND CONNECTOR (PURGE VSV - ECM)

  1. Disconnect the purge VSV connector.

  1. Disconnect the ECM connector.

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

    Standard Resistance (Check for Open):
    Tester Connection
    		Condition
    		Specified Condition
    B2-2 - B32-49 (PRG)
    		Always
    		Below 1 Ω
    Standard Resistance (Check for Short):
    Tester Connection
    		Condition
    		Specified Condition
    B2-2 or B32-49 (PRG) - Body ground
    		Always
    		10 kΩ or higher
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. Make sure there is not an excessive amount of force applied to the wire harness.


NG
REPAIR OR REPLACE HARNESS OR CONNECTOR
OK

REPLACE ECM (RAV4_ACA30 RM0000017UO01FX.html)

22.PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE FUEL PUMP / SPEED)

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Enter the following menus: Powertrain / Engine and ECT / Active Test / Control the Fuel Pump / Speed.

  1. When performing the Active Test, check for an operating sound from the fuel pump.

    Standard:
    Control the Fuel Pump / Speed
    		Specified Condition
    ON
    		Operating sound heard
    OFF
    		Operating sound not heard
    Result
    Result
    		Proceed to
    Abnormal
    		A
    Normal
    		B
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. While performing the Active Test, make sure that there is no fuel leakage from the pipes, no signs that fuel has leaked, and no fuel smell.
    3. If the fuel pump operating noise is abnormal, proceed to step 23.


B
Go to step 24
A


23.INSPECT FUEL PUMP

  1. Inspect the fuel pump (RAV4_ACA30 RM0000017RH02BX_01_0001.html).



NG
REPLACE FUEL PUMP (RAV4_ACA30 RM0000017RJ03PX.html)
OK

CHECK FUEL PUMP CONTROL SYSTEM (RAV4_ACA30 RM000001DN701UX.html)

24.CHECK FUEL SYSTEM

  1. Check for foreign matter such as iron particles around the fuel pump (fuel pump, fuel pump filter and inside the fuel tank), and for signs that the fuel pump was stuck.

    Result
    Result
    		Proceed to
    There is foreign matter or signs that fuel pump was stuck
    		A
    There is no foreign matter and no signs that fuel pump was stuck
    		B
    HINT:
    If there is foreign matter such as iron particles on the fuel pump, fuel filter or fuel tank, remove the foreign matter.


B
Go to step 56
A

REPAIR OR REPLACE FUEL SYSTEM

25.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Suspected Area
    		Proceed to
    Calculate Load
    		110% or more of the current value of the vehicle*1
    		Mass air flow meter
    		A
    AFS Voltage B1S1
    		Below 3.3 V*2
    1. Air fuel ratio sensor
    2. Harness and connector
    3. Actual air-fuel ratio abnormal
    		B
    Both freeze frame data items listed above
    		Values are other than above
    		-
    		C
    HINT:
    1. Try to operate the vehicle under the conditions recorded in the freeze frame data which were present when the malfunction occurred. Confirm the data at this time and the data when the engine is idling (engine warmed up, no load, and shift lever in D or N) and compare these data with the freeze frame data.
    2. *1: If the mass air flow meter is malfunctioning and incorrectly measures the intake air volume to be higher than the actual volume of air flowing through the intake manifold, the freeze frame data will show a high engine load value.
    3. *2: As the air fuel ratio sensor output is low before the sensor warms up, the value at that time cannot be used for diagnosis. If the air fuel ratio sensor is malfunctioning and constantly outputs a value indicating the air-fuel ratio is rich, the actual air-fuel ratio will become lean and the engine may stall.


B
Go to step 27

C
Go to step 30
A


26.CHECK MASS AIR FLOW METER

  1. Remove the mass air flow meter.

  1. Check for foreign matter in the airflow passage of the mass air flow meter.

    Result
    Result
    		Proceed to
    Visible foreign matter is present
    		A
    Visible foreign matter is not present
    		B
HINT:
Even if the results are normal, the mass air flow meter may have been malfunctioning. Continue this inspection procedure until step 34, and if there are no problems with other parts, replace the mass air flow meter (refer to step 56).


B
Go to step 30
A

REPLACE MASS AIR FLOW METER (RAV4_ACA30 RM0000017TY00UX.html)

27.PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE INJECTION VOLUME)


    Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Start the engine, turn off all accessory switches and warm up the engine until the engine coolant temperature stabilizes.

  1. Idle the engine.

  1. Enter the following menus: Powertrain / Engine and ECT / Active Test / Control the Injection Volume.

  1. Read the output voltage from the air fuel ratio sensor when increasing and decreasing the fuel injection volume.

    Standard:
    Tester Display
    		Specified Condition
    Control the Injection Volume (25%)
    		Air fuel ratio sensor output voltage is below 3.1 V
    Control the Injection Volume (-12.5%)
    		Air fuel ratio sensor output voltage is higher than 3.4 V
    Result
    Result
    		Proceed to
    Abnormal
    		A
    Normal
    		B
    HINT:
    1. 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.
    2. Even if the results are normal, the air fuel ratio sensor may have been malfunctioning. Continue this inspection procedure until step 34, and if there are no problems with other parts, replace the air fuel ratio sensor (refer to step 56).


B
Go to step 30
A


28.CHECK HARNESS AND CONNECTOR (AIR FUEL RATIO SENSOR POWER SOURCE)
Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Disconnect the air fuel ratio sensor connector.

  1. Turn the ignition switch on (IG).

  1. Measure the voltage according to the value(s) in the table below.

    Standard Voltage:
    Tester Connection
    		Switch Condition
    		Specified Condition
    B7-2 (+B) - Body ground
    		Ignition switch on (IG)
    		11 to 14 V
    Text in Illustration
    *a
    		Front view of wire harness connector
    (to Air Fuel Ratio Sensor)
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. Make sure there is not an excessive amount of force applied to the wire harness.


NG
REPAIR POWER SOURCE CIRCUIT (RAV4_ACA30 RM000001DN807EX.html)
OK


29.CHECK HARNESS AND CONNECTOR (AIR FUEL RATIO SENSOR - ECM)

  1. Disconnect the air fuel ratio sensor connector.

  1. Disconnect the ECM connector.

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

    Standard Resistance (Check for Open):
    Tester Connection
    		Condition
    		Specified Condition
    B7-1 (HA1A) - B32-109 (HA1A)
    		Always
    		Below 1 Ω
    B7-3 (A1A+) - B32-112 (A1A+)
    		Always
    		Below 1 Ω
    B7-4 (A1A-) - B32-113 (A1A-)
    		Always
    		Below 1 Ω
    Standard Resistance (Check for Short):
    Tester Connection
    		Condition
    		Specified Condition
    B7-1 (HA1A) or B32-109 (HA1A) - Body ground
    		Always
    		10 kΩ or higher
    B7-3 (A1A+) or B32-112 (A1A+) - Body ground
    		Always
    		10 kΩ or higher
    B7-4 (A1A-) or B32-113 (A1A-) - Body ground
    		Always
    		10 kΩ or higher
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. Make sure there is not an excessive amount of force applied to the wire harness.


NG
REPAIR OR REPLACE HARNESS AND CONNECTOR
OK

REPLACE AIR FUEL RATIO SENSOR (RAV4_ACA30 RM000001RO300SX.html)

30.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Proceed to
    Initial Engine Coolant Temp, Ambient Temperature, Initial Intake Air Temp
    		Difference in temperature between each item is less than 10°C*1
    		A
    Difference in temperature between each item is 10°C or more*2
    		B
    HINT:
    1. *1: A long time had elapsed after stopping the engine.
    2. *2: A long time had not elapsed after stopping the engine.


B
Go to step 33
A


31.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).



  1. Using the intelligent tester, confirm the vehicle conditions present when the DTC was stored which are recorded in the freeze frame data.


    Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History


    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Suspected Area
    		Proceed to
    Initial Engine Coolant Temp, Coolant Temp, Engine Run Time
    		Range A
    1. Engine coolant temperature sensor
    2. Thermostat
    		A
    Range B
    		Engine coolant temperature
    		B
    Range C
    		-
    		C
    HINT:
    This step is not directly related to engine stall.


B
Go to step 34

C
Go to step 57
A


32.INSPECT THERMOSTAT
HINT:
For the thermostat inspection, refer to the following procedures (RAV4_ACA30 RM0000017WC019X_01_0001.html).
Result
Result
Proceed to
Abnormal
A
Normal
B
HINT:
This step is not directly related to engine stall.


B
Go to step 34
A

REPLACE THERMOSTAT (RAV4_ACA30 RM0000017WE01DX.html)

33.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Suspected Area
    		Proceed to
    Coolant Temp
    		120°C or higher
    		Engine coolant temperature sensor
    		A
    Coolant Temp, Ambient Temperature
    		Engine coolant temperature is lower than outside temperature by 15°C or more
    		Engine coolant temperature sensor
    Both freeze frame data items listed above
    		Values are other than above
    		-
    		B


B
Go to step 57
A


34.INSPECT ENGINE COOLANT TEMPERATURE SENSOR
HINT:
For the engine coolant temperature sensor inspection, refer to the following procedures (RAV4_ACA30 RM0000017U700ZX_01_0001.html).
Result
Result
Proceed to
Abnormal
A
Normal
B
HINT:
Even if the results are normal, the engine coolant temperature sensor may have been malfunctioning. If there are no problems with other parts, replace the engine coolant temperature sensor (refer to step 56).


B
Go to step 56
A

REPLACE ENGINE COOLANT TEMPERATURE SENSOR (RAV4_ACA30 RM0000017U900UX.html)

35.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Result
    		Suspected Area
    		Proceed to
    Total of ISC Learning Value and ISC Feedback Value
    		Below 80% of the current value of the vehicle*1
    		Throttle body with motor assembly
    		A
    120% or more of the current value of the vehicle*2
    		B
    From 80 to 120% of the current value of the vehicle
    		-
    		C
    HINT:
    1. Try to operate the vehicle under the conditions recorded in the freeze frame data which were present when the malfunction occurred. Confirm the data at this time and the data when the engine is idling (engine warmed up, no load, and shift lever in D or N) and compare these data with the freeze frame data.
    2. *1: If the throttle body with motor assembly has a temporary problem in which it cannot fully close, the intake air volume and engine speed increase. As a result, the ISC compensation amount becomes less than the standard. At this time, if the throttle body with motor assembly returns to normal and fully closes, the intake air volume will be insufficient and the engine may stall.
    3. *2: If carbon accumulates on the throttle body with motor assembly and the intake air volume decreases, the ISC compensation amount is increased to maintain the idling speed. If this situation continues, the ISC compensation amount reaches the upper limit, the idling speed cannot be maintained causing idling to become unstable, and the engine may stall.


B
Go to step 37

C
Go to step 38
A


36.CHECK THROTTLE BODY WITH MOTOR ASSEMBLY

  1. Check for foreign matter and signs that the throttle body with motor assembly was stuck, and also check that the valve and shaft move smoothly during operation.

    Result
    Result
    		Proceed to
    Abnormal
    		A
    Normal
    		B
    HINT:
    Even if the results are normal, the throttle body with motor assembly may have been malfunctioning. Continue this inspection procedure until step 41, and if there are no problems with other parts, replace the throttle body with motor assembly (refer to step 56).


B
Go to step 38
A

REPLACE THROTTLE BODY WITH MOTOR ASSEMBLY (RAV4_ACA30 RM0000017UD01UX.html)

37.CHECK THROTTLE BODY WITH MOTOR ASSEMBLY

  1. Check if carbon is in the airflow passage of the throttle body.

    Result
    Result
    		Proceed to
    Carbon in passage
    		A
    No carbon in passage
    		B
    HINT:
    Even if the results are normal, the throttle body with motor assembly may have been malfunctioning. Continue this inspection procedure until step 41, and if there are no problems with other parts, replace the throttle body with motor assembly (refer to step 56).


B
Go to step 38
A

REPLACE THROTTLE BODY WITH MOTOR ASSEMBLY (RAV4_ACA30 RM0000017UD01UX.html)

38.PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE VVT SYSTEM)
Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Connect the intelligent tester to the DLC3.

  1. Turn the intelligent tester on.

  1. Warm up the engine.

  1. Enter the following menus: Powertrain / Engine and ECT / Active Test / Control the VVT Linear (Bank 1).

    HINT:
    When performing the Active Test, make sure the A/C is on and the shift lever is in P or N.

  1. Check the engine speed while operating the camshaft timing oil control valve using the tester.

    OK:
    Tester Operation
    		Specified Condition
    0%
    		Normal engine speed
    100%
    		Soon after OCV switched from OFF to ON, engine idles roughly or stalls
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. When the results of the inspection using the Active Test are normal but the valve operating noise is abnormal, check the valve for any signs of problems.


NG
REPLACE CAMSHAFT TIMING OIL CONTROL VALVE ASSEMBLY (RAV4_ACA30 RM0000017U300QX.html)
OK


39.READ FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Suspected Area
    		Proceed to
    IGN Advance
    		Knock Correct Learn Value
    Differs from the current value of the vehicle by 10° or more
    		Less than 3°
    1. Engine coolant temperature sensor
    2. Mass air flow meter
    3. Knock sensor
    		A
    3° or more
    		-
    		B
    Differs from the current value of the vehicle by less than 10°
    		-
    		-
    HINT:
    1. Try to operate the vehicle under the conditions recorded in the freeze frame data which were present when the malfunction occurred. Confirm the data at this time and the data when the engine is idling (engine warmed up, no load, and shift lever in D or N) and compare these data with the freeze frame data.
    2. Even if the results are normal, the knock sensors may have been malfunctioning. If there are no problems with other parts, replace the knock sensors (refer to step 56).


B
Go to step 56
A


40.INSPECT ENGINE COOLANT TEMPERATURE SENSOR
HINT:
For the engine coolant temperature sensor inspection, refer to the following procedures (RAV4_ACA30 RM0000017U700ZX_01_0001.html).


NG
REPLACE ENGINE COOLANT TEMPERATURE SENSOR (RAV4_ACA30 RM0000017U900UX.html)
OK


41.INSPECT MASS AIR FLOW METER

  1. Connect the intelligent tester to the DLC3.

  1. 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, and the shift lever should be in N or P.

  1. Turn the intelligent tester on.

  1. Enter the following menus: Powertrain / Engine and ECT / Data List / MAF.

  1. Check MAF in the Data List during idling.

    Standard:
    1 to 3 gm/s


NG
REPLACE MASS AIR FLOW METER (RAV4_ACA30 RM0000017TY00UX.html)
OK

REPLACE KNOCK SENSOR (RAV4_ACA30 RM0000017UI02HX.html)

42.CHECK HARNESS AND CONNECTOR (FUEL INJECTOR POWER SOURCE)
Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Disconnect the fuel injector assembly connector.

  1. Turn the ignition switch on (IG).

  1. Measure the voltage according to the value(s) in the table below.

    Standard Voltage:
    Cylinder
    		Tester Connection
    		Switch Condition
    		Specified Condition
    No. 1
    		B16-1 - Ground
    		Ignition switch on (IG)
    		11 to 14 V
    No. 2
    		B15-1 - Ground
    		Ignition switch on (IG)
    		11 to 14 V
    No. 3
    		B14-1 - Ground
    		Ignition switch on (IG)
    		11 to 14 V
    No. 4
    		B13-1 - Ground
    		Ignition switch on (IG)
    		11 to 14 V
    Text in Illustration
    *a
    		Front view of wire harness connector
    (to Fuel Injector Assembly)
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. Make sure there is not an excessive amount of force applied to the wire harness.
    3. A rapid decrease in engine speed may have been caused by a malfunction in all or multiple cylinders. (There may be an electrical malfunction in the wiring shared by all the cylinders.)


NG
REPAIR FUEL INJECTOR CIRCUIT (RAV4_ACA30 RM000000ZRM09DX.html)
OK


43.CHECK HARNESS AND CONNECTOR (IGNITION COIL POWER SOURCE)
Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Disconnect the ignition coil assembly connector.

  1. Turn the ignition switch on (IG).

  1. Measure the voltage according to the value(s) in the table below.

    Standard Voltage:
    Tester Connection
    		Switch Condition
    		Specified Condition
    B12-1 (+B) - B12-4 (GND)
    		Ignition switch on (IG)
    		11 to 14 V
    B11-1 (+B) - B11-4 (GND)
    		Ignition switch on (IG)
    		11 to 14 V
    B10-1 (+B) - B10-4 (GND)
    		Ignition switch on (IG)
    		11 to 14 V
    B9-1 (+B) - B9-4 (GND)
    		Ignition switch on (IG)
    		11 to 14 V
    Text in Illustration
    *a
    		Front view of wire harness connector
    (to Ignition Coil Assembly)
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. Make sure there is not an excessive amount of force applied to the wire harness.
    3. A rapid decrease in engine speed may have been caused by a malfunction in all or multiple cylinders. (There may be an electrical malfunction in the wiring shared by all the cylinders.)


NG
REPAIR POWER SOURCE CIRCUIT (RAV4_ACA30 RM000001DN807EX.html)
OK


44.CHECK FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item
    		Result
    		Suspected Area
    		Proceed to
    Idle Spark Advn Ctrl (#1 to #4)
    		At least one cylinder shows a value of 4° or more
    1. Fuel injector system
    2. Ignition coil system
    		A
    All cylinders show a value of less than 4°
    		-
    		B


B
Go to step 46
A


45.CHECK FREEZE FRAME DATA

  1. Change the location of the ignition coil for the cylinder whose Idle Spark Advn Ctrl (#1 to #4) was 4° or more in step 44.

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Enter the following menus: Powertrain / Engine and ECT / Data List / Idle Spark Advn Ctrl (#1 to #4).

    Result
    Result
    		Proceed to
    Same as result in step 44
    		A
    Different from result in step 44
    		B
HINT:
Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.


A
REPLACE IGNITION COIL (RAV4_ACA30 RM000001QVM017X.html)
B


46.CHECK FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Suspected Area
    		Proceed to
    A/C Signal
    		Air Conditioner FB Val
    		Power Steering Signal
    A/C Signal display changes from OFF to ON
    		Value displayed for Air Conditioner FB Val increases
    		Does not change from OFF
    		A/C system
    		A
    Changes from OFF to ON
    		Power steering system
    		B
    A/C Signal display does not change from OFF
    		Value displayed for Air Conditioner FB Val does not increase
    		Changes from OFF to ON
    Does not change from OFF
    		-
    HINT:
    1. Try to operate the vehicle under the conditions recorded in the freeze frame data which were present when the malfunction occurred. Confirm the data at this time and the data when the engine is idling (engine warmed up, no load, and shift lever in D or N) and compare these data with the freeze frame data.
    2. *1: Check not only the on/off state of the air conditioner, but also the change in air conditioner load.
    3. The normal value for the ISC compensation amount is engine displacement (liters) x 0.9.
    4. Even if the results are normal, the power steering system may have been malfunctioning. Continue this inspection procedure until step 48, and if there are no problems with other parts, inspect the power steering system (refer to step 56).


A
CHECK AIR CONDITIONING SYSTEM
B


47.CHECK FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Suspected Area
    		Proceed to
    Electrical Load Signal
    		Electric Load Feedback Val
    		Difference between Engine Speed and Turbine Speed
    		Vehicle Speed
    Electrical Load Signal display changes from OFF to ON*1, or Value displayed for Electric Load Feedback Val increases*1
    		Value displayed for Electric Load Val changes
    		-
    		-
    		Electrical load signal circuit
    		A
    Value displayed for Electric Load Val does not change
    		At least 1 of the 5 sets of freeze frame data is less than 100 rpm
    		Less than 30 km/h
    		A/T system
    		B
    30 km/h or more
    		-
    		C
    All 5 sets of freeze frame data are 100 rpm or more
    		-
    		-
    		C
    Electrical Load Signal display does not change from OFF, or Value displayed for Electric Load Feedback Val does not increase
    		-
    		At least 1 of the 5 sets of freeze frame data is less than 100 rpm
    		Less than 30 km/h
    		A/T system
    		B
    30 km/h or more
    		-
    		C
    All 5 sets of freeze frame data are 100 rpm or more
    		-
    		-
    		C
    HINT:
    1. *1: If the Electrical Load Signal display changes from OFF to ON, or the "Electric Load Feedback Val" increases, it probably is a malfunction due to a change in electrical load. Check the generator and the continuity and connections between the generator and ECM.
    2. The normal value for the ISC compensation amount is engine displacement (liters) x 0.9.
    3. Even if the results are normal, the electrical load signal system and/or A/T system may have been malfunctioning. Continue this inspection procedure until step 51, and if there are no problems with other parts, inspect the electrical load system and/or A/T system (refer to step 56).


B
CHECK AUTOMATIC TRANSMISSION SYSTEM

C
Go to step 48
A

CHECK GENERATOR CIRCUIT (RAV4_ACA30 RM0000017VF015X.html)

48.CHECK FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item for DTC P1605
    		Suspected Area
    		Proceed to
    P Position or N Position
    		Park/Neutral Position Switch
    P and N position are both OFF in at least one data set
    		In D or R, NSW is ON
    		Park/neutral position switch
    		A
    In D or R, NSW is OFF
    		A/T system
    		B
    All 5 sets of freeze frame data are ON
    		-
    		-
    		C
    HINT:
    Even if the results are normal, the park/neutral position switch and/or A/T system may have been malfunctioning. If there are no problems with other parts, inspect the park/neutral position switch and/or A/T system (refer to step 56).


B
CHECK AUTOMATIC TRANSMISSION SYSTEM

C
Go to step 56
A

CHECK PARK/NEUTRAL POSITION SWITCH

49.CHECK FREEZE FRAME DATA

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Using the intelligent tester, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored (RAV4_ACA30 RM000000SXU00TX.html).

    Result
    Freeze Frame Data Item
    		Result
    		Suspected Area
    		Proceed to
    Throttle Sensor Position, Calculate Load
    		Calculate Load decreases while Throttle Sensor Position increases
    		Mass air flow meter
    		A
    Calculate Load does not decrease while Throttle Sensor Position increases
    		-
    		B


B
Go to step 51
A


50.CHECK MASS AIR FLOW METER

  1. Remove the mass air flow meter.

  1. Check for foreign matter in the airflow passage of the mass air flow meter.

    Result
    Result
    		Proceed to
    Visible foreign matter is present
    		A
    Visible foreign matter is not present
    		B

  1. Install the mass air flow meter.

    HINT:
    Even if the results are normal, the mass air flow meter may have been malfunctioning. Continue this inspection procedure until step 55, and if there are no problems with other parts, replace the mass air flow meter (refer to step 56).


B
Go to step 51
A

REPLACE MASS AIR FLOW METER (RAV4_ACA30 RM0000017TY00UX.html)

51.CHECK HARNESS AND CONNECTOR (FUEL INJECTOR POWER SOURCE)
Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Disconnect the fuel injector assembly connector.

  1. Turn the ignition switch on (IG).

  1. Measure the voltage according to the value(s) in the table below.

    Standard Voltage:
    Cylinder
    		Tester Connection
    		Switch Condition
    		Specified Condition
    No. 1
    		B16-1 - Ground
    		Ignition switch on (IG)
    		11 to 14 V
    No. 2
    		B15-1 - Ground
    		Ignition switch on (IG)
    		11 to 14 V
    No. 3
    		B14-1 - Ground
    		Ignition switch on (IG)
    		11 to 14 V
    No. 4
    		B13-1 - Ground
    		Ignition switch on (IG)
    		11 to 14 V
    Text in Illustration
    *a
    		Front view of wire harness connector
    (to Fuel Injector Assembly)
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. Make sure there is not an excessive amount of force applied to the wire harness.
    3. A rapid decrease in engine speed may have been caused by a malfunction in all or multiple cylinders. (There may be an electrical malfunction in the wiring shared by all the cylinders.)


NG
REPAIR POWER SOURCE CIRCUIT (RAV4_ACA30 RM000001DN807EX.html)
OK


52.CHECK HARNESS AND CONNECTOR (IGNITION COIL POWER SOURCE)
Toyota Rav4. Aca30, 33, 38 Gsa33 Zsa30, 35.1Az-Fe Engine Control System.Sfi System. Dtc P1603 Engine Stall History

  1. Disconnect the ignition coil assembly connector.

  1. Turn the ignition switch on (IG).

  1. Measure the voltage according to the value(s) in the table below.

    Standard Voltage:
    Tester Connection
    		Switch Condition
    		Specified Condition
    B12-1 (+B) - B12-4 (GND)
    		Ignition switch on (IG)
    		11 to 14 V
    B11-1 (+B) - B11-4 (GND)
    		Ignition switch on (IG)
    		11 to 14 V
    B10-1 (+B) - B10-4 (GND)
    		Ignition switch on (IG)
    		11 to 14 V
    B9-1 (+B) - B9-4 (GND)
    		Ignition switch on (IG)
    		11 to 14 V
    Text in Illustration
    *a
    		Front view of wire harness connector
    (to Ignition Coil Assembly)
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. Make sure there is not an excessive amount of force applied to the wire harness.
    3. A rapid decrease in engine speed may have been caused by a malfunction in all or multiple cylinders. (There may be an electrical malfunction in the wiring shared by all the cylinders.)


NG
REPAIR POWER SOURCE CIRCUIT (RAV4_ACA30 RM000001DN807EX.html)
OK


53.PERFORM ACTIVE TEST USING INTELLIGENT TESTER (CONTROL THE FUEL PUMP / SPEED)

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Enter the following menus: Powertrain / Engine and ECT / Active Test / Control the Fuel Pump / Speed.

  1. When performing the Active Test, check for an operating sound from the fuel pump.

    Specified Condition:
    Control the Fuel Pump / Speed
    		Specified Condition
    ON
    		Operating sound heard
    OFF
    		Operating sound not heard
    Result
    Result
    		Proceed to
    Abnormal
    		A
    Normal
    		B
    HINT:
    1. Jiggle the wire harness and connector to increase the likelihood of detecting malfunctions that do not always occur.
    2. While performing the Active Test, make sure that there is no fuel leakage from the pipes, no signs that fuel has leaked, and no fuel smell.
    3. If the fuel pump operating noise is abnormal, proceed to step 56.


B
Go to step 55
A


54.INSPECT FUEL PUMP

  1. Inspect the fuel pump (RAV4_ACA30 RM0000017RH02BX_01_0001.html).



NG
REPLACE FUEL PUMP (RAV4_ACA30 RM0000017RJ03PX.html)
OK

CHECK FUEL PUMP CONTROL SYSTEM (RAV4_ACA30 RM000001DN701UX.html)

55.CHECK FUEL SYSTEM

  1. Check for foreign matter such as iron particles around the fuel pump (fuel pump, fuel pump filter and inside the fuel tank), and for signs that the fuel pump was stuck.

    Result
    Result
    		Proceed to
    There is foreign matter or signs that fuel pump was stuck
    		A
    There is no foreign matter and no signs that fuel pump was stuck
    		B


B
Go to step 56
A

REPAIR OR REPLACE FUEL SYSTEM

56.REPLACE MALFUNCTIONING PARTS

  1. If the malfunction could not be identified in steps 3 to 24, replace the part which is suspected to be malfunctioning according to the step where an inspection was performed.

    Performed Step
    		Part to Replace
    Step 6
    		Brake booster
    Step 8
    		Mass air flow meter
    Step 9
    		Air fuel ratio sensor
    Step 16
    		Engine coolant temperature sensor
    Step 18
    		Purge VSV
    Step 24
    		Fuel pump

  1. If the malfunction could not be identified in steps 25 to 34, replace the part which is suspected to be malfunctioning according to the step where an inspection was performed.

    Performed Step
    		Part to Replace
    Step 26
    		Mass air flow meter
    Step 27
    		Air fuel ratio sensor
    Step 34
    		Engine coolant temperature sensor

  1. If the malfunction could not be identified in steps 35 to 41, replace the part which is suspected to be malfunctioning according to the step where an inspection was performed.

    Performed Step
    		Part to Replace
    Step 36, 37
    		Throttle body with motor assembly
    Step 39
    		Knock sensor

  1. If the malfunction could not be identified in steps 42 to 48, inspect and repair the part which is suspected to be malfunctioning according to the step where an inspection was performed.

    Performed Step
    		Inspection
    Step 46
    		A/C system inspection and repair
    Power steering system inspection and repair
    Step 47
    		A/T system inspection and repair
    Electrical load system inspection and repair
    Step 48
    		Park/neutral position switch inspection and repair
    A/T system inspection and repair

  1. If the malfunction could not be identified in steps 49 to 55, replace the part which is suspected to be malfunctioning according to the step where an inspection was performed.

    Performed Step
    		Part to Replace
    Step 50
    		Mass air flow meter
    HINT:
    Referring to the chart, inspect and repair or replace the part from the step where an inspection was performed.

NEXT


57.CLEAR DTC

  1. Connect the intelligent tester to the DLC3.

  1. Turn the ignition switch on (IG).

  1. Clear the DTCs (RAV4_ACA30 RM000000PDK0VSX.html).


NEXT


58.PERFORM CONFIRMATION DRIVING PATTERN

  1. Check if engine stall symptoms are present.

    HINT:
    If any engine stall symptoms are present, recheck for DTCs and freeze frame data and perform an inspection.


NG
REPAIR OR REPLACE MALFUNCTIONING PARTS
OK

END