Part 1

1NR-FE ENGINE CONTROL: SFI SYSTEM: P1603, P1605: Engine Stall History


DESCRIPTION

P1603

After starting the engine, this DTC is stored when the engine stops without the ignition switch being operated.

Using the Techstream, 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 run out of fuel in the past before performing troubleshooting, as this DTC is also stored when the engine stalls due to running out of fuel.





P1605

This DTC is stored if the engine speed drops below the set speed.

Using the Techstream, 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 run out of fuel in the past before performing troubleshooting, as this DTC is also stored when idling is unstable due to running out of fuel.





1. Reference waveforms showing a normal cold engine start





2. Reference waveforms showing a normal warm engine start





3. Reference values when there is an air leak in the intake system during rough idling

Freeze Frame Data P1605 Rough Idling





WIRING DIAGRAM

Refer to DTC P0031 for the air fuel ratio sensor circuit P0031.

Refer to DTC P0351 for the ignition coil circuit P0351.

Refer to DTC P0451 for the EVAP system circuit P0451.

Refer to Fuel Pump Control Circuit Fuel Pump Control Circuit.

Refer to Fuel Injector Circuit Fuel Injector Circuit.

INSPECTION PROCEDURE

HINT
- 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.
- If any other DTCs are output, perform troubleshooting for those DTCs first.
- 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.






- Read freeze frame data using the Techstream. Freeze frame data records engine conditions when a malfunction occurs. This information can be useful when troubleshooting.
- When confirming the freeze frame data, be sure to check all 5 sets of freeze frame data Freeze Frame Data.
- 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, the 5 sets of freeze frame data can be confirmed through DTC P1605, enabling the technician to obtain more information.)
- When confirming freeze frame data, if there are multiple items related to the cause of the malfunction, perform troubleshooting for all related items.
- 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.
- 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.
- 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.

P1603:





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.

- 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:

- 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.

- 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:

- If the air fuel ratio was abnormal, there may have been an intake air leak, sensor malfunction, or fuel supply problem.

- If the air fuel ratio 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).





P1605:





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.

- 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:

- If the air fuel ratio was abnormal, there may have been an intake air leak, sensor malfunction, or fuel supply problem.

- If the air fuel ratio 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).





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

PROCEDURE

1. CHECK ANY OTHER DTCS OUTPUT (IN ADDITION TO DTC P1603 OR P1605)

(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 and ECT / Trouble Codes.

(e) Read DTCs Reading and Clearing Diagnostic Trouble Codes.

Result





B -- GO TO DTC CHART SFI System
A -- Continue to next step.

2. READ FREEZE FRAME DATA

(a) Connect the Techstream to the DLC3.

(b) Turn the ignition switch to ON.

(c) Using the Techstream, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored Freeze Frame Data.

Result









HINT
- *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.
- If the vehicle speed is 18 km/h (11 mph) or less and the difference between Engine Speed and SPD (NT) is 100 rpm or less, inspect the CVT. (Depending on the rate of vehicle deceleration, the engine speed may have decreased due to the CVT lock-up release being late.)
- *2: When a DTC is stored, feedback compensation increases because the air fuel ratio is determined to be lean.
- *3: When a DTC is stored, feedback compensation decreases because the air fuel ratio is determined to be rich.
- *4: This item should be checked when DTC P1603 is output and is not necessary to check when only P1605 is output.

B -- READ FREEZE FRAME DATA

C -- READ FREEZE FRAME DATA

D -- INSPECT TERMINAL VOLTAGE (FUEL INJECTOR CIRCUIT)

E -- READ FREEZE FRAME DATA
A -- Continue to next step.

3. CHECK INTAKE SYSTEM

(a) Check for air leaks in the intake system (vacuum hose disconnection, cracks, damaged gaskets, etc.) Intake System.

HINT
- 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.
- 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 leaks may be present.

OK:

There is no air leaks.

NG -- REPAIR OR REPLACE INTAKE SYSTEM
OK -- Continue to next step.

4. CHECK PURGE VSV

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





Text in Illustration





(b) Start the engine.

(c) Idle the engine.

(d) Disconnect the connector of the purge VSV.

(e) Check if air flows through the purge VSV.

OK:

Air does not flow.

(f) Reconnect the connector of the purge VSV.

(g) Reconnect 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 Reading and Clearing Diagnostic Trouble Codes.

NG -- INSPECT PURGE VSV Testing and Inspection
OK -- Continue to next step.

5. READ FREEZE FRAME DATA

(a) Connect the Techstream to the DLC3.

(b) Turn the ignition switch to ON.

(c) Using the Techstream, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored Freeze Frame Data.

Result





B -- READ FREEZE FRAME DATA
A -- Continue to next step.

6. READ VALUE USING TECHSTREAM (SHORT FT #1)





(a) Connect the Techstream to the DLC3.

(b) Turn the ignition switch to ON.

(c) 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.

(d) Idle the engine.

(e) Using the Techstream, read [Short FT #1] of the Data List while depressing the brake pedal.

Standard:

Short FT #1 changes by +10% or less.

HINT
- 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 57).
- When air leaks from the brake booster is present, the feedback compensation increases because the air fuel ratio becomes lean.
- It is also possible to perform the airtightness inspection to check the brake booster.

NG -- REPLACE BRAKE BOOSTER ASSEMBLY Removal
OK -- Continue to next step.

7. READ FREEZE FRAME DATA

(a) Connect the Techstream to the DLC3.

(b) Turn the ignition switch to ON.

(c) Using the Techstream, confirm the vehicle conditions recorded in the freeze frame data which were present when the DTC was stored Freeze Frame Data.

Result





HINT
- 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.
- *1: If the mass air flow meter is malfunctioning, the freeze frame data will show a low engine load value.
- *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 -- PERFORM ACTIVE TEST USING TECHSTREAM (CONTROL THE INJECTION VOLUME)

C -- READ FREEZE FRAME DATA
A -- Continue to next step.