DTC P0300:00 [MZR 2.0 DISI i-stop]

DTC P0300:00	Random misfire detected
DETECTION CONDITION	• The PCM monitors the CKP sensor input signal interval time. The PCM calculates the change of interval time for each cylinder. If the change of interval time exceeds the preprogrammed criteria, the PCM detects a misfire in the corresponding cylinder. While the engine is running, the PCM counts the number of misfires that occurred at 200 crankshaft revolutions and 1,000 crankshaft revolutions and calculates a misfire ratio for each crankshaft revolution. If the ratio exceeds the preprogrammed criteria, the PCM determines that a misfire, which can damage the catalytic converter or affect emission performance, has occurred. Diagnostic support note • This is a continuous monitor (misfire). • The MIL illuminates if the PCM detects a misfire which affects emission performance in two consecutive drive cycles or in one drive cycle while the DTC for the same malfunction has been stored in the PCM. • The MIL flashes if the PCM detects a misfire which can damage the catalytic converter during the first drive cycle. • PENDING CODE is available if the PCM detects a misfire which affects emission performance during the first drive cycle. • FREEZE FRAME DATA (Mode 2)/Snapshot data is available. • The DTC is stored in the PCM memory.
POSSIBLE CAUSE	• Erratic signal to PCM ― APP sensor signal malfunction ― ECT sensor signal malfunction ― IAT sensor signal malfunction ― MAF sensor signal malfunction ― CKP sensor signal malfunction ― TP sensor signal malfunction ― VSS signal malfunction ― Related connector and terminal malfunction ― Related wiring harness malfunction • CMP sensor malfunction • CKP sensor looseness • Ignition system malfunction ― Spark plug malfunction ― Ignition coil malfunction ― Ignition coil related wiring harness malfunction • Excessive air suction in intake air system (between MAF sensor and intake manifold) • MAF sensor malfunction • Low-pressure side fuel delivery system malfunction ― Fuel leakage in fuel line ― Fuel line clogged ― Fuel filter clogged ― Fuel pressure regulator (built-in fuel pump unit) malfunction ― Fuel pump unit malfunction ― Fuel runout • Improper operation of variable valve timing control system • Improper operation of purge solenoid valve • Engine malfunction (Engine coolant leakage to combustion chamber) • Insufficient engine compression • High-pressure side fuel delivery system malfunction ― Fuel pressure sensor (built-in fuel delivery pipe) malfunction ― Spill valve control solenoid valve control circuit malfunction (damaged to driver in PCM caused by short circuit to ground system) ― Spill valve control solenoid valve (built-in high pressure fuel pump) malfunction ― Relief valve (built-in fuel delivery pipe) malfunction ― High pressure fuel pump malfunction • EGR valve malfunction • PCV valve malfunction • Poor quality fuel • PCM malfunction

DTC P0300:00

Random misfire detected

DETECTION CONDITION

• The PCM monitors the CKP sensor input signal interval time. The PCM calculates the change of interval time for each cylinder. If the change of interval time exceeds the preprogrammed criteria, the PCM detects a misfire in the corresponding cylinder. While the engine is running, the PCM counts the number of misfires that occurred at 200 crankshaft revolutions and 1,000 crankshaft revolutions and calculates a misfire ratio for each crankshaft revolution. If the ratio exceeds the preprogrammed criteria, the PCM determines that a misfire, which can damage the catalytic converter or affect emission performance, has occurred.

Diagnostic support note

• This is a continuous monitor (misfire).

• The MIL illuminates if the PCM detects a misfire which affects emission performance in two consecutive drive cycles or in one drive cycle while the DTC for the same malfunction has been stored in the PCM.

• The MIL flashes if the PCM detects a misfire which can damage the catalytic converter during the first drive cycle.

• PENDING CODE is available if the PCM detects a misfire which affects emission performance during the first drive cycle.

• FREEZE FRAME DATA (Mode 2)/Snapshot data is available.

• The DTC is stored in the PCM memory.

POSSIBLE CAUSE

• Erratic signal to PCM

― APP sensor signal malfunction

― ECT sensor signal malfunction

― IAT sensor signal malfunction

― MAF sensor signal malfunction

― CKP sensor signal malfunction

― TP sensor signal malfunction

― VSS signal malfunction

― Related connector and terminal malfunction

― Related wiring harness malfunction

• CMP sensor malfunction

• CKP sensor looseness

• Ignition system malfunction

― Spark plug malfunction

― Ignition coil malfunction

― Ignition coil related wiring harness malfunction

• Excessive air suction in intake air system (between MAF sensor and intake manifold)

• MAF sensor malfunction

• Low-pressure side fuel delivery system malfunction

― Fuel leakage in fuel line

― Fuel line clogged

― Fuel filter clogged

― Fuel pressure regulator (built-in fuel pump unit) malfunction

― Fuel pump unit malfunction

― Fuel runout

• Improper operation of variable valve timing control system

• Improper operation of purge solenoid valve

• Engine malfunction (Engine coolant leakage to combustion chamber)

• Insufficient engine compression

• High-pressure side fuel delivery system malfunction

― Fuel pressure sensor (built-in fuel delivery pipe) malfunction

― Spill valve control solenoid valve control circuit malfunction (damaged to driver in PCM caused by short circuit to ground system)

― Spill valve control solenoid valve (built-in high pressure fuel pump) malfunction

― Relief valve (built-in fuel delivery pipe) malfunction

― High pressure fuel pump malfunction

• EGR valve malfunction

• PCV valve malfunction

• Poor quality fuel

• PCM malfunction

STEP	INSPECTION	ACTION
1	VERIFY FREEZE FRAME DATA (MODE 2)/SNAPSHOT DATA AND DIAGNOSTIC MONITORING TEST RESULTS HAVE BEEN RECORDED • Have the FREEZE FRAME DATA (Mode 2)/snapshot data and DIAGNOSTIC MONITORING TEST RESULTS (misfire related) been recorded?	Yes	Go to the next step.
No	Record the FREEZE FRAME DATA (Mode 2)/snapshot data and DIAGNOSTIC MONITORING TEST RESULTS on repair order, then go to the next step.
2	VERIFY RELATED SERVICE INFORMATION AVAILABILITY • Verify related Service Information availability. • Is any related Service Information available?	Yes	Perform repair or diagnosis according to the available Service Information. • If the vehicle is not repaired, go to the next step.
No	Go to the next step.
3	VERIFY RELATED PENDING CODE AND/OR DTC • Switch the ignition to off, then to ON (engine off). • Perform the Pending Trouble Code Access Procedure and DTC Reading Procedure. (See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].) • Are any other PENDING CODEs and/or DTCs present?	Yes	Go to the applicable PENDING CODE or DTC inspection. (See DTC TABLE [MZR 2.0 DISI i-stop].)
No	Go to the next step.
4	VERIFY CURRENT INPUT SIGNAL STATUS (KEY TO ON/IDLE) • Access the following PIDs using the M-MDS: (See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].) ― APP1 ― APP2 ― ECT ― IAT ― MAF ― RPM ― TP REL ― VSS • Is there any signal that is far out of specification when switch the ignition to ON and the engine idles? (See PCM INSPECTION [MZR 2.0 DISI i-stop].)	Yes	Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.
No	Go to the next step.
5	VERIFY CURRENT INPUT SIGNAL STATUS UNDER FREEZE FRAME DATA (MODE 2) CONDITION Caution • While performing this step, always operate the vehicle in a safe and lawful manner. • When the M-MDS is used to observe monitor system status while driving, be sure to have another technician with you, or record the data in the M-MDS using the PID/DATA MONITOR AND RECORD capturing function and inspect later. • Access the same PIDs as Step 4 while the simulating under the FREEZE FRAME DATA (Mode 2) condition. (See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].) • Is there any signal which causes drastic changes?	Yes	Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.
No	Go to the next step.
6	INSPECT CMP SENSOR • Inspect the CMP sensor. (See CAMSHAFT POSITION (CMP) SENSOR INSPECTION [MZR 2.0 DISI i-stop].) • Is there any malfunction?	Yes	Inspect the installation condition for damage to the timing chain and gears. • If there is a malfunction: ― Repair or replace the malfunctioning part according to the inspection results. • If it is normal: ― Replace the CMP sensor. (See CAMSHAFT POSITION (CMP) SENSOR REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].) Go to Step 27.
No	Go to the next step.
7	INSPECT INSTALLATION OF CKP SENSOR • Inspect if the CKP sensor is loosely installed. • Is the CKP sensor installed securely?	Yes	Go to the next step.
No	Retighten the CKP sensor, then go to Step 27.
8	INSPECT IGNITION SYSTEM OPERATION • Perform the Spark Test. (See ENGINE CONTROL SYSTEM OPERATION INSPECTION [MZR 2.0 DISI i-stop]) • Is the strong blue spark visible at each cylinder?	Yes	Go to Step 11.
No	Go to the next step.
9	INSPECT SPARK PULG • Inspect the spark plugs for all cylinders. (See SPARK PLUG INSPECTION [MZR 2.0 DISI i-stop].) • Is there any malfunction?	Yes	Replace the suspected spark plug, then go to Step 27. (See SPARK PLUG REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)
No	Go to the next step.
10	INSPECT IGNITION COIL • Inspect the ignition coils for all cylinders. (See IGNITION COIL INSPECTION [MZR 2.0 DISI i-stop].) • Is there any malfunction?	Yes	Replace the suspected ignition coil, then go to Step 27. (See IGNITION COIL REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)
No	Inspect the ignition coil related wiring harness condition (intermittent open or short) for all cylinders. Repair or replace the suspected wiring harness, then go to Step 27.
11	VERIFY CURRENT INPUT SIGNAL STATUS OF MAF SENSOR • Connect the M-MDS to the DLC-2. • Start the engine. • Access the MAF PID using the M-MDS. (See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].) • Race the engine and verify that the MAF PID value changes quickly according to change in the engine speed. • Is the MAF PID response normal? (See PCM INSPECTION [MZR 2.0 DISI i-stop].)	Yes	Go to Step 13.
No	Go to the next step.
12	INSPECT INTAKE AIR SYSTEM FOR AIR SUCTION • Inspect for air leakage between the following: ― MAF sensor and throttle body ― Throttle body and intake manifold Note • Engine speed may change when rust penetrating agent is sprayed on the air suction area. • Is there any malfunction?	Yes	Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.
No	Replace the MAF/IAT sensor, then go to Step 27. (See INTAKE-AIR SYSTEM REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)
13	INSPECT FUEL LINE PRESSURE (LOW-SIDE) • Inspect the fuel line pressure. (See FUEL LINE PRESSURE INSPECTION [MZR 2.0 DISI i-stop].) • Is there any malfunction?	Yes	If the fuel line pressure is too low: • Go to the next step. If the fuel line pressure is too high: • Replace the fuel pump unit, then go to Step 27. (See FUEL PUMP UNIT REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)
No	Go to Step 15.
14	INSPECT FUEL LINE FROM FUEL PUMP TO FUEL DELIVERY PIPE • Visually inspect the fuel line for fuel leakage. • Is there any leakage?	Yes	Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.
No	Inspect the fuel filters for foreign material or stain inside fuel filter (low-pressure side). Perform the following actions depend on the result above. • If foreign materials or stain is found inside fuel filter (low-pressure side): ― Clean the fuel tank and filter (low-pressure side). • If normal: ― Replace the fuel pump unit. (See FUEL PUMP UNIT REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].) Go to Step 27.
15	INSPECT VARIABLE VALVE TIMING CONTROL SYSTEM OPERATION • Perform the Variable Valve Timing Control System Operation Inspection. (See ENGINE CONTROL SYSTEM OPERATION INSPECTION [MZR 2.0 DISI i-stop].) • Is there any malfunction?	Yes	Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.
No	Go to the next step.
16	INSPECT PURGE SOLENOID VALVE OPERATION • Switch the ignition to off. • Connect the vacuum pump to the purge solenoid valve and apply vacuum to the solenoid. • Verify that the solenoid holds vacuum. • Switch the ignition to ON (engine off). • Access the EVAPCP PID of simulation item using the M-MDS. (See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].) • Set the purge solenoid value to 100% for the EVAPCP PID. • Apply vacuum while turning the solenoid from OFF to ON and simulating the EVAPCP PID with a 100% duty value. • Verify that the purge solenoid value releases vacuum while the solenoid is turned on. • Is the purge solenoid valve operation normal?	Yes	Go to the next step.
No	Replace the purge solenoid valve, then go to Step 27. (See PURGE SOLENOID VALVE REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)
17	INSPECT SEALING OF ENGINE COOLANT PASSAGE • Perform the “ENGINE COOLANT LEAKAGE INSPECTION”. (See ENGINE COOLANT LEAKAGE INSPECTION [MZR 2.0 DISI i-stop].) • Is there any malfunction?	Yes	Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.
No	Go to the next step.
18	INSPECT ENGINE COMPRESSION • Inspect the engine compression. (See COMPRESSION INSPECTION [MZR 2.0 DISI i-stop].) • Is there any malfunction?	Yes	Repair or replace the malfunctioning parts according to the inspection results, then go to Step 27.
No	Go to the next step.
19	INSPECT FUEL PRESSURE (HIGH-SIDE) • Access the FUEL_PRES PID using the M-MDS. (See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].) • Is the FUEL_PRES PID value within the specification? (See PCM INSPECTION [MZR 2.0 DISI i-stop].)	Yes	Go to Step 24.
No	Go to the next step.
20	IDENTIFY CAUSE BY FUEL PRESSURE SENSOR OR HIGH PRESSURE FUEL PUMP • Is the vehicle accelerate performance normally?	Yes	Go to the next step.
No	Go to Step 22.
21	INSPECT FUEL PRESSURE SENSOR • Inspect the fuel pressure sensor. (See FUEL PRESSURE SENSOR INSPECTION [MZR 2.0 DISI i-stop].) • Is there any malfunction?	Yes	Replace the fuel delivery pipe, then go to Step 27. (See FUEL INJECTOR REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)
No	Go to Step 24.
22	INSPECT SPILL VALVE CONTROL SOLENOID VALVE CONTROL CIRCUIT FOR SHORT TO GROUND • Switch the ignition to off. • Disconnect the high pressure fuel pump and PCM connectors. • Inspect for continuity between high pressure fuel pump terminal A (wiring harness-side) and body ground. • Is there continuity?	Yes	Repair or replace the wiring harness for a possible short to ground, then go to Step 27.
No	Go to the next step.
23	INSPECT HIGH PRESSURE FUEL PUMP • Replace the high pressure fuel pump. (See HIGH PRESSURE FUEL PUMP REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].) • Access the FUEL_PRES PID using the M-MDS. (See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].) • Is the FUEL_PRES PID value within the specification? (See PCM INSPECTION [MZR 2.0 DISI i-stop].)	Yes	Spill valve control solenoid valve (built-in high pressure fuel pump) or high pressure fuel pump malfunction • Go to Step 27.
No	Relief valve (built-in fuel delivery pipe) malfunction • Replace the fuel delivery pipe, then go to Step 27. (See FUEL INJECTOR REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)
24	INSPECT FUEL PRESSURE (LOW-SIDE) • Connect the fuel pressure gauge between fuel pump and high pressure fuel pump. • Measure the low side fuel pressure. (See FUEL LINE PRESSURE INSPECTION [MZR 2.0 DISI i-stop].) • Is the low side fuel pressure within the specification?	Yes	Go to the next step.
No	Inspect for following: • Fuel line restriction • Fuel filter clogging ― If there is a malfunction: • Repair or replace the malfunctioning part according to the inspection results. ― If all items normal: • Replace the fuel pump unit. (See FUEL PUMP UNIT REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].) Go to Step 27.
25	INSPECT EGR VALVE • Inspect the EGR valve. (See EGR VALVE INSPECTION [MZR 2.0 DISI i-stop].) • Is there any malfunction?	Yes	Replace the EGR valve, then go to Step 27. (See EGR VALVE REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)
No	Go to the next step.
26	INSPECT PCV VALVE OPERATION • Switch the ignition to off. • Remove the PCV valve. (See POSITIVE CRANKCASE VENTILATION (PCV) VALVE REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].) • Inspect the PCV valve. (See POSITIVE CRANKCASE VENTILATION (PCV) VALVE INSPECTION [MZR 2.0 DISI i-stop].) • Is there any malfunction?	Yes	Replace the PCV valve, then go to the next step. (See POSITIVE CRANKCASE VENTILATION (PCV) VALVE REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)
No	Go to the next step.
27	VERIFY DTC TROUBLESHOOTING COMPLETED • Make sure to reconnect all disconnected connectors. • Clear the DTC from the PCM memory using the M-MDS. (See AFTER REPAIR PROCEDURE [MZR 2.0 DISI i-stop].) • Perform the Drive Mode 03 (A/F sensor heater, HO2S heater, A/F sensor, HO2S and TWC Repair Verification Drive Mode). (See OBD DRIVE MODE [MZR 2.0 DISI i-stop].) • Is the PENDING CODE for this DTC present?	Yes	Repeat the inspection from Step 1. • If the malfunction recurs, replace the PCM. (See PCM REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].) Go to the next step.
No	Go to the next step.
28	VERIFY AFTER REPAIR PROCEDURE • Perform the “AFTER REPAIR PROCEDURE”. (See AFTER REPAIR PROCEDURE [MZR 2.0 DISI i-stop].) • Are any DTCs present?	Yes	Go to the applicable DTC inspection. (See DTC TABLE [MZR 2.0 DISI i-stop].)
No	DTC troubleshooting completed.

STEP

INSPECTION

ACTION

VERIFY FREEZE FRAME DATA (MODE 2)/SNAPSHOT DATA AND DIAGNOSTIC MONITORING TEST RESULTS HAVE BEEN RECORDED

• Have the FREEZE FRAME DATA (Mode 2)/snapshot data and DIAGNOSTIC MONITORING TEST RESULTS (misfire related) been recorded?

Yes

Go to the next step.

Record the FREEZE FRAME DATA (Mode 2)/snapshot data and DIAGNOSTIC MONITORING TEST RESULTS on repair order, then go to the next step.

VERIFY RELATED SERVICE INFORMATION AVAILABILITY

• Verify related Service Information availability.

• Is any related Service Information available?

Yes

Perform repair or diagnosis according to the available Service Information.

• If the vehicle is not repaired, go to the next step.

Go to the next step.

VERIFY RELATED PENDING CODE AND/OR DTC

• Switch the ignition to off, then to ON (engine off).

• Perform the Pending Trouble Code Access Procedure and DTC Reading Procedure.

(See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].)

• Are any other PENDING CODEs and/or DTCs present?

Yes

Go to the applicable PENDING CODE or DTC inspection.

(See DTC TABLE [MZR 2.0 DISI i-stop].)

Go to the next step.

VERIFY CURRENT INPUT SIGNAL STATUS (KEY TO ON/IDLE)

• Access the following PIDs using the M-MDS:

(See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].)

― APP1

― APP2

― ECT

― IAT

― MAF

― RPM

― TP REL

― VSS

• Is there any signal that is far out of specification when switch the ignition to ON and the engine idles?

(See PCM INSPECTION [MZR 2.0 DISI i-stop].)

Yes

Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.

Go to the next step.

VERIFY CURRENT INPUT SIGNAL STATUS UNDER FREEZE FRAME DATA (MODE 2) CONDITION

Caution

• While performing this step, always operate the vehicle in a safe and lawful manner.

• When the M-MDS is used to observe monitor system status while driving, be sure to have another technician with you, or record the data in the M-MDS using the PID/DATA MONITOR AND RECORD capturing function and inspect later.

• Access the same PIDs as Step 4 while the simulating under the FREEZE FRAME DATA (Mode 2) condition.

(See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].)

• Is there any signal which causes drastic changes?

Yes

Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.

Go to the next step.

INSPECT CMP SENSOR

• Inspect the CMP sensor.

(See CAMSHAFT POSITION (CMP) SENSOR INSPECTION [MZR 2.0 DISI i-stop].)

• Is there any malfunction?

Yes

Inspect the installation condition for damage to the timing chain and gears.

• If there is a malfunction:

― Repair or replace the malfunctioning part according to the inspection results.

• If it is normal:

― Replace the CMP sensor.

(See CAMSHAFT POSITION (CMP) SENSOR REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

Go to Step 27.

Go to the next step.

INSPECT INSTALLATION OF CKP SENSOR

• Inspect if the CKP sensor is loosely installed.

• Is the CKP sensor installed securely?

Yes

Go to the next step.

Retighten the CKP sensor, then go to Step 27.

INSPECT IGNITION SYSTEM OPERATION

• Perform the Spark Test.

(See ENGINE CONTROL SYSTEM OPERATION INSPECTION [MZR 2.0 DISI i-stop])

• Is the strong blue spark visible at each cylinder?

Yes

Go to Step 11.

Go to the next step.

INSPECT SPARK PULG

• Inspect the spark plugs for all cylinders.

(See SPARK PLUG INSPECTION [MZR 2.0 DISI i-stop].)

• Is there any malfunction?

Yes

Replace the suspected spark plug, then go to Step 27.

(See SPARK PLUG REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

Go to the next step.

INSPECT IGNITION COIL

• Inspect the ignition coils for all cylinders.

(See IGNITION COIL INSPECTION [MZR 2.0 DISI i-stop].)

• Is there any malfunction?

Yes

Replace the suspected ignition coil, then go to Step 27.

(See IGNITION COIL REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

Inspect the ignition coil related wiring harness condition (intermittent open or short) for all cylinders.

Repair or replace the suspected wiring harness, then go to Step 27.

VERIFY CURRENT INPUT SIGNAL STATUS OF MAF SENSOR

• Connect the M-MDS to the DLC-2.

• Start the engine.

• Access the MAF PID using the M-MDS.

(See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].)

• Race the engine and verify that the MAF PID value changes quickly according to change in the engine speed.

• Is the MAF PID response normal?

(See PCM INSPECTION [MZR 2.0 DISI i-stop].)

Yes

Go to Step 13.

Go to the next step.

INSPECT INTAKE AIR SYSTEM FOR AIR SUCTION

• Inspect for air leakage between the following:

― MAF sensor and throttle body

― Throttle body and intake manifold

Note

• Engine speed may change when rust penetrating agent is sprayed on the air suction area.

• Is there any malfunction?

Yes

Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.

Replace the MAF/IAT sensor, then go to Step 27.

(See INTAKE-AIR SYSTEM REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

INSPECT FUEL LINE PRESSURE (LOW-SIDE)

• Inspect the fuel line pressure.

(See FUEL LINE PRESSURE INSPECTION [MZR 2.0 DISI i-stop].)

• Is there any malfunction?

Yes

If the fuel line pressure is too low:

• Go to the next step.

If the fuel line pressure is too high:

• Replace the fuel pump unit, then go to Step 27.

(See FUEL PUMP UNIT REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

Go to Step 15.

INSPECT FUEL LINE FROM FUEL PUMP TO FUEL DELIVERY PIPE

• Visually inspect the fuel line for fuel leakage.

• Is there any leakage?

Yes

Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.

Inspect the fuel filters for foreign material or stain inside fuel filter (low-pressure side).

Perform the following actions depend on the result above.

• If foreign materials or stain is found inside fuel filter (low-pressure side):

― Clean the fuel tank and filter (low-pressure side).

• If normal:

― Replace the fuel pump unit.

(See FUEL PUMP UNIT REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

Go to Step 27.

INSPECT VARIABLE VALVE TIMING CONTROL SYSTEM OPERATION

• Perform the Variable Valve Timing Control System Operation Inspection.

(See ENGINE CONTROL SYSTEM OPERATION INSPECTION [MZR 2.0 DISI i-stop].)

• Is there any malfunction?

Yes

Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.

Go to the next step.

INSPECT PURGE SOLENOID VALVE OPERATION

• Switch the ignition to off.

• Connect the vacuum pump to the purge solenoid valve and apply vacuum to the solenoid.

• Verify that the solenoid holds vacuum.

• Switch the ignition to ON (engine off).

• Access the EVAPCP PID of simulation item using the M-MDS.

(See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].)

• Set the purge solenoid value to 100% for the EVAPCP PID.

• Apply vacuum while turning the solenoid from OFF to ON and simulating the EVAPCP PID with a 100% duty value.

• Verify that the purge solenoid value releases vacuum while the solenoid is turned on.

• Is the purge solenoid valve operation normal?

Yes

Go to the next step.

Replace the purge solenoid valve, then go to Step 27.

(See PURGE SOLENOID VALVE REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

INSPECT SEALING OF ENGINE COOLANT PASSAGE

• Perform the “ENGINE COOLANT LEAKAGE INSPECTION”.

(See ENGINE COOLANT LEAKAGE INSPECTION [MZR 2.0 DISI i-stop].)

• Is there any malfunction?

Yes

Repair or replace the malfunctioning part according to the inspection results, then go to Step 27.

Go to the next step.

INSPECT ENGINE COMPRESSION

• Inspect the engine compression.

(See COMPRESSION INSPECTION [MZR 2.0 DISI i-stop].)

• Is there any malfunction?

Yes

Repair or replace the malfunctioning parts according to the inspection results, then go to Step 27.

Go to the next step.

INSPECT FUEL PRESSURE (HIGH-SIDE)

• Access the FUEL_PRES PID using the M-MDS.

(See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].)

• Is the FUEL_PRES PID value within the specification?

(See PCM INSPECTION [MZR 2.0 DISI i-stop].)

Yes

Go to Step 24.

Go to the next step.

IDENTIFY CAUSE BY FUEL PRESSURE SENSOR OR HIGH PRESSURE FUEL PUMP

• Is the vehicle accelerate performance normally?

Yes

Go to the next step.

Go to Step 22.

INSPECT FUEL PRESSURE SENSOR

• Inspect the fuel pressure sensor.

(See FUEL PRESSURE SENSOR INSPECTION [MZR 2.0 DISI i-stop].)

• Is there any malfunction?

Yes

Replace the fuel delivery pipe, then go to Step 27.

(See FUEL INJECTOR REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

Go to Step 24.

INSPECT SPILL VALVE CONTROL SOLENOID VALVE CONTROL CIRCUIT FOR SHORT TO GROUND

• Switch the ignition to off.

• Disconnect the high pressure fuel pump and PCM connectors.

• Inspect for continuity between high pressure fuel pump terminal A (wiring harness-side) and body ground.

• Is there continuity?

Yes

Repair or replace the wiring harness for a possible short to ground, then go to Step 27.

Go to the next step.

INSPECT HIGH PRESSURE FUEL PUMP

• Replace the high pressure fuel pump.

(See HIGH PRESSURE FUEL PUMP REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

• Access the FUEL_PRES PID using the M-MDS.

(See ON-BOARD DIAGNOSTIC TEST [MZR 2.0 DISI i-stop].)

• Is the FUEL_PRES PID value within the specification?

(See PCM INSPECTION [MZR 2.0 DISI i-stop].)

Yes

Spill valve control solenoid valve (built-in high pressure fuel pump) or high pressure fuel pump malfunction

• Go to Step 27.

Relief valve (built-in fuel delivery pipe) malfunction

• Replace the fuel delivery pipe, then go to Step 27.

(See FUEL INJECTOR REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

INSPECT FUEL PRESSURE (LOW-SIDE)

• Connect the fuel pressure gauge between fuel pump and high pressure fuel pump.

• Measure the low side fuel pressure.

(See FUEL LINE PRESSURE INSPECTION [MZR 2.0 DISI i-stop].)

• Is the low side fuel pressure within the specification?

Yes

Go to the next step.

Inspect for following:

• Fuel line restriction

• Fuel filter clogging

― If there is a malfunction:

• Repair or replace the malfunctioning part according to the inspection results.

― If all items normal:

• Replace the fuel pump unit.

(See FUEL PUMP UNIT REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

Go to Step 27.

INSPECT EGR VALVE

• Inspect the EGR valve.

(See EGR VALVE INSPECTION [MZR 2.0 DISI i-stop].)

• Is there any malfunction?

Yes

Replace the EGR valve, then go to Step 27.

(See EGR VALVE REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

Go to the next step.

INSPECT PCV VALVE OPERATION

• Switch the ignition to off.

• Remove the PCV valve.

(See POSITIVE CRANKCASE VENTILATION (PCV) VALVE REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

• Inspect the PCV valve.

(See POSITIVE CRANKCASE VENTILATION (PCV) VALVE INSPECTION [MZR 2.0 DISI i-stop].)

• Is there any malfunction?

Yes

Replace the PCV valve, then go to the next step.

(See POSITIVE CRANKCASE VENTILATION (PCV) VALVE REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

Go to the next step.

VERIFY DTC TROUBLESHOOTING COMPLETED

• Make sure to reconnect all disconnected connectors.

• Clear the DTC from the PCM memory using the M-MDS.

(See AFTER REPAIR PROCEDURE [MZR 2.0 DISI i-stop].)

• Perform the Drive Mode 03 (A/F sensor heater, HO2S heater, A/F sensor, HO2S and TWC Repair Verification Drive Mode).

(See OBD DRIVE MODE [MZR 2.0 DISI i-stop].)

• Is the PENDING CODE for this DTC present?

Yes

Repeat the inspection from Step 1.

• If the malfunction recurs, replace the PCM.

(See PCM REMOVAL/INSTALLATION [MZR 2.0 DISI i-stop].)

Go to the next step.

VERIFY AFTER REPAIR PROCEDURE

• Perform the “AFTER REPAIR PROCEDURE”.

(See AFTER REPAIR PROCEDURE [MZR 2.0 DISI i-stop].)

• Are any DTCs present?

Yes

Go to the applicable DTC inspection.

(See DTC TABLE [MZR 2.0 DISI i-stop].)

DTC troubleshooting completed.