DTC P0134 [G6]

DTC P0134	O2S circuit no activity detected
DETECTION CONDITION	• The O2S signal does not exceed 0.45 V after the engine is started, or stays below 0.45 V for 180 s after the engine has reached normal operating temperature.
POSSIBLE CAUSE	• CMP sensor malfunction • ECT sensor malfunction • MAF sensor malfunction • TP sensor malfunction • VSS malfunction • Poor connection of CMP sensor connector • Poor connection of ECT sensor connector • Poor connection of MAF sensor connector • Poor connection of TP sensor connector • Poor connection of VSS connector • Open or short circuit in wiring harness CMP sensor related circuit • Open or short circuit in wiring harness ECT sensor related circuit • Open or short circuit in wiring harness MAF sensor related circuit • Open or short circuit in wiring harness TP sensor related circuit • Open or short circuit in wiring harness VSS related circuit • Leakage in exhaust system • Loose installation of O2S • Poor connection of O2S connector • Open or short circuit in wiring harness O2S related circuit • O2S malfunction • Poor connection of fuel injector connector • Open or short circuit in wiring harness fuel injector related circuit • Fuel injector malfunction • Leakage in intake-air system • Vacuum hose damage or looseness • Fuel pump malfunction • Fuel delivery hose and/or fuel filter clogging or leakage • Pressure regulator malfunction • Ignition coil and/or ignitor malfunction • Base engine malfunction (leakage coolant to combustion chamber) • Insufficient compression • PCM malfunction Warning • Following troubleshooting flow chart contains fuel system diagnosis and repair procedures. Read following warnings before performing fuel system service: ― Fuel vapor is hazardous. It can easily ignite, causing serious injury and damage. Always keep sparks and flames away from fuel. ― Fuel line spills and leakage are dangerous. Fuel can ignite and cause serious injuries or death and damage. Fuel can also irritate skin and eyes. To prevent this, always complete “BEFORE REPAIR PROCEDURE” and “AFTER REPAIR PROCEDURE” described in this manual. (See BEFORE SERVICE PRECAUTION [G6].) (See AFTER SERVICE PRECAUTION [G6].)

DTC P0134

O2S circuit no activity detected

DETECTION CONDITION

• The O2S signal does not exceed 0.45 V after the engine is started, or stays below 0.45 V for 180 s after the engine has reached normal operating temperature.

POSSIBLE CAUSE

• CMP sensor malfunction

• ECT sensor malfunction

• MAF sensor malfunction

• TP sensor malfunction

• VSS malfunction

• Poor connection of CMP sensor connector

• Poor connection of ECT sensor connector

• Poor connection of MAF sensor connector

• Poor connection of TP sensor connector

• Poor connection of VSS connector

• Open or short circuit in wiring harness CMP sensor related circuit

• Open or short circuit in wiring harness ECT sensor related circuit

• Open or short circuit in wiring harness MAF sensor related circuit

• Open or short circuit in wiring harness TP sensor related circuit

• Open or short circuit in wiring harness VSS related circuit

• Leakage in exhaust system

• Loose installation of O2S

• Poor connection of O2S connector

• Open or short circuit in wiring harness O2S related circuit

• O2S malfunction

• Poor connection of fuel injector connector

• Open or short circuit in wiring harness fuel injector related circuit

• Fuel injector malfunction

• Leakage in intake-air system

• Vacuum hose damage or looseness

• Fuel pump malfunction

• Fuel delivery hose and/or fuel filter clogging or leakage

• Pressure regulator malfunction

• Ignition coil and/or ignitor malfunction

• Base engine malfunction (leakage coolant to combustion chamber)

• Insufficient compression

• PCM malfunction

Warning

• Following troubleshooting flow chart contains fuel system diagnosis and repair procedures.

Read following warnings before performing fuel system service:

― Fuel vapor is hazardous. It can easily ignite, causing serious injury and damage. Always keep sparks and flames away from fuel.

― Fuel line spills and leakage are dangerous. Fuel can ignite and cause serious injuries or death and damage. Fuel can also irritate skin and eyes. To prevent this, always complete “BEFORE REPAIR PROCEDURE” and “AFTER REPAIR PROCEDURE” described in this manual.

(See BEFORE SERVICE PRECAUTION [G6].) (See AFTER SERVICE PRECAUTION [G6].)

STEP	INSPECTION	ACTION
1	VERIFY RELATED SERVICE INFORMATION AVAILABILITY • Check for related Service Information availability. • Is any related Service Information available?	Yes	Perform repair or diagnosis according to available Service Information. • If vehicle is not repaired, go to the next step.
No	Go to the next step.
2	VERIFY OTHER RELATED DTC IS STORED • Verify stored DTC. • Have DTCs P0100, P0115, P0120 and/or P1110 been stored?	Yes	Inspect and repair DTC P0100, P0115, P0120 or P1110 then go to Step 23.
No	Go to the next step.
3	VERIFY CURRENT INPUT SIGNAL STATUS UNDER DRIVING CONDITION • Clear DTC. • Verify RPM, ECT, MAF and VSS PIDs. • Drive in normal mode for approx. 3 min under same condition. • Is DTC P0134 stored? Note • If the M-MDS is not used, measure follow PCM terminal voltages with circuit tester. 1. SGT (terminal 2E) 2. ECT sensor (terminal 2Q) 3. Vehicle speed (terminal 1M) 4. MAF sensor (terminal 2O)	Yes	Trouble is in process. Go to the next step.
No	Go to “TROUBLESHOOTING, ENGINE SYMPTOM TROUBLESHOOTING, Intermittent concerns”.
4	VERIFY CURRENT INPUT SIGNAL STATUS UNDER IDLE CONDITION • Implement PID/DATA MONITOR AND RECORD (ECT, RPM, TP) from DIAGNOSTIC DATA LINK by using the M-MDS. Is there any signal that is far out of specification when ignition switch is on, and engine is run at idle? Note • If the M-MDS is not used, measure follow PCM terminal voltages with circuit tester. 1. ECT sensor (terminal 2Q) 2. SGT (terminal 2E) 3. TP sensor (terminal 2M) 4. MAF sensor (terminal 2O)	Yes	Implement “TROUBLESHOOTING, ENGINE DIAGNOSTIC INSPECTION, Input Signal System Investigation Procedure” and repair or replace, then go to Step 22.
No	Go to the next step.
5	VERIFY WHETHER MALFUNCTION IN WIRING HARNESS AND CONNECTOR OR ELSEWHERE • Continue monitoring items in previous step. • Is there any input signal which causes drastic changes when it is set to be in trouble condition?	Yes	Implement “TROUBLESHOOTING, ENGINE DIAGNOSTIC INSPECTION, Input Signal System Investigation Procedure” and repair or replace, then go to Step 22.
No	Go to the next step.
6	VERIFY EXHAUST GAS LEAKAGE • Inspect exhaust system upstream from oxygen sensor. • Is there any gas leakage?	Yes	Repair or replace faulty exhaust parts, then go to Step 22. (See EXHAUST SYSTEM INSPECTION [G6].)
No	Go to the next step.
7	VERIFY O2S INSTALLATION • Inspect installation of O2S. • Is it normal?	Yes	Go to the next step.
No	Install the O2S properly, then go to Step 22. (See OXYGEN SENSOR (O2S) REMOVAL/INSTALLATION [G6].)
8	VERIFY WHETHER MALFUNCTION IN O2S SIGNAL OR ELSEWHERE • Implement PID/DATA MONITOR AND RECORD (O2S) from DIAGNOSTIC DATA LINK by using the M-MDS. Is voltage on oxygen sensor as follows while racing engine (in neutral)? ― More than 0.45 V when accelerator pedal is suddenly pressed: rich condition ― Less than 0.45 V during fuel cut: lean condition Note • If the M-MDS is not used, measure PCM 2N terminal voltage with circuit tester.	Yes	Go to the next step.
No	Inspect and repair or replace faulty oxygen sensor harness, connector or terminal. If the O2S wiring harness and connector are normal, replace the O2S. (See OXYGEN SENSOR (O2S) REMOVAL/INSTALLATION [G6].) Then go to Step 22.
9	INSPECT FUEL INJECTOR WIRING HARNESS AND CONNECTOR • Inspect for open, poor connection, and other problems on following harnesses, connectors and terminals (for fuel injector at each cylinder): ― Front main relay to fuel injector • Are there any problems?	Yes	Repair or replace faulty harness, connector or terminal, then go to Step 22.
No	Go to the next step.
10	INSPECT FUEL INJECTOR OPERATION • Perform the Fuel Injector Operation Inspection. (See ENGINE CONTROL SYSTEM OPERATION INSPECTION [G6].) • Does the fuel injector operate properly?	Yes	Go to the next step.
No	Repair or replace malfunctioning part according to inspection result, then go to Step 22.
11	INSPECT INTAKE-AIR SYSTEM FOR AIR SUCTION • Inspect for air suction: ― From air cleaner to throttle body ― From throttle body to dynamic chamber ― From dynamic chamber to intake manifold • Visually inspect for cracks and damage, and inspect fluctuation after spraying rust penetrating agent, then select air suction area. • Can air suction be confirmed?	Yes	Repair or replace source of air suction, then go to Step 22.
No	Go to the next step.
12	INSPECT VACUUM HOSES FOR AIR SUCTION • Inspect for suction in vacuum hose which has negative pressure on intake manifold, in the same manner as previous step. • Can air suction be confirmed?	Yes	Repair or replace source of air suction, then go to Step 22.
No	Go to the next step.
13	INSPECT FUEL LINE PRESSURE • Inspect fuel line pressure under trouble condition. (See ENGINE CONTROL SYSTEM OPERATION INSPECTION [G6].) • Is fuel line pressure normal?	Yes	Go to Step 19.
No	Go to the next step.
14	VERIFY WHETHER MALFUNCTION IN FUEL PUMP OR ELSEWHERE • Inspect fuel pump maximum pressure. (See FUEL PUMP UNIT INSPECTION [G6].) • Is it normal?	Yes	Go to the next step.
No	Replace fuel pump, then go to Step 22. (See FUEL PUMP UNIT REMOVAL/INSTALLATION [G6].)
15	INSPECT WHETHER MALFUNCTION IN FUEL DELIVERY LINE OR FUEL RETURN LINE • Inspect for clogging in fuel filter (high-pressure). • Are there foreign materials on fuel side of fuel filter?	Yes	Go to the next step.
No	Go to Step 17.
16	INSPECT WHETHER MALFUNCTION IN FUEL FILTER (HIGH-PRESSURE) OR FUEL FILTER (LOW-PRESSURE) • Inspect inside of fuel tank for foreign materials and stains. • Is inside of fuel tank normal?	Yes	Replace fuel filter (high-pressure), then go to Step 22. (See FUEL FILTER (HIGH-PRESSURE) REMOVAL/INSTALLATION [G6].)
No	Clean inside of fuel tank and fuel filter (low-pressure). Replace fuel filter (high-pressure), then go to Step 22. (See FUEL FILTER (HIGH-PRESSURE) REMOVAL/INSTALLATION [G6].)
17	INSPECT FUEL RETURN LINE FOR LEAKAGE AND CLOGGING • Inspect for leakage and clogging in fuel line from fuel distributor to fuel pump. • Is it normal?	Yes	Go to the next step.
No	Repair or replace necessary, then go to Step 22.
18	INSPECT WHETHER MALFUNCTION IN PRESSURE REGULATOR OR FUEL LINE LEAKAGE • Inspect for leakage in fuel filter (high-pressure) to fuel tank (return side). • Is it normal?	Yes	Replace pressure regulator, then go to Step 22. (See PRESSURE REGULATOR REMOVAL/INSTALLATION [G6].)
No	Repair or replace necessary, then go to Step 22.
19	VERIFY WHETHER MALFUNCTION IN IGNITION SYSTEM OR ELSEWHERE • Verify blinking condition on each cylinder by setting timing light on high-tension lead under trouble condition. • Does it blink regularly and stably?	Yes	Go to Step 21.
No	Go to the next step.
20	INSPECT IGNITION COIL • Inspect resistance of ignition coil. (See IGNITION COIL INSPECTION [G6].) • Is it normal?	Yes	Go to the next step.
No	Replace ignition coil, then go to Step 22.
21	INSPECT ENGINE COOLANT LEAKAGE TO COMBUSTION CHAMBER Warning • Removing the radiator cap when the radiator is hot is dangerous. Scalding coolant and steam may shoot out and cause serious injury. • When removing the radiator cap, wrap a thick cloth around and turn it slowly. • Remove radiator cap. • Implement procedure to bleed air from engine coolant, then run engine at idle. • Are there any small bubbles which make engine coolant white at filling opening? Note • Large bubbles are normal since they are remaining air coming out from engine coolant passage.	Yes	Air gets in from poor sealing on head gasket or other areas between combustion chamber and engine coolant passage. Repair or replace faulty parts, then go to Step 22.
No	Inspect the engine compression and service if necessary. (See COMPRESSION INSPECTION [G6].) Go to the next step.
22	VERIFY TROUBLESHOOTING OF DTC P0134 COMPLETED • Make sure to reconnect all disconnected connectors. • Clear DTC from memory using the M-MDS. • Start engine and warm it up to normal operating temperature. • Run the engine at idle for 180 s or more. • Retrieve the DTCs using the M-MDS. • Is same DTC present?	Yes	Replace PCM, then go to next step.
No	Go to next step.
23	VERIFY AFTER REPAIR PROCEDURE • Perform “AFTER REPAIR PROCEDURE”. (See AFTER REPAIR PROCEDURE [G6].) • Is there any DTC present?	Yes	Go to applicable DTC inspection. (See DTC TABLE [G6].)
No	Troubleshooting completed.

STEP

INSPECTION

ACTION

VERIFY RELATED SERVICE INFORMATION AVAILABILITY

• Check for related Service Information availability.

• Is any related Service Information available?

Yes

Perform repair or diagnosis according to available Service Information.

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

Go to the next step.

VERIFY OTHER RELATED DTC IS STORED

• Verify stored DTC.

• Have DTCs P0100, P0115, P0120 and/or P1110 been stored?

Yes

Inspect and repair DTC P0100, P0115, P0120 or P1110 then go to Step 23.

Go to the next step.

VERIFY CURRENT INPUT SIGNAL STATUS UNDER DRIVING CONDITION

• Clear DTC.

• Verify RPM, ECT, MAF and VSS PIDs.

• Drive in normal mode for approx. 3 min under same condition.

• Is DTC P0134 stored?

Note

• If the M-MDS is not used, measure follow PCM terminal voltages with circuit tester.

1. SGT (terminal 2E)

2. ECT sensor (terminal 2Q)

3. Vehicle speed (terminal 1M)

4. MAF sensor (terminal 2O)

Yes

Trouble is in process.

Go to the next step.

Go to “TROUBLESHOOTING, ENGINE SYMPTOM TROUBLESHOOTING, Intermittent concerns”.

VERIFY CURRENT INPUT SIGNAL STATUS UNDER IDLE CONDITION

• Implement PID/DATA MONITOR AND RECORD (ECT, RPM, TP) from DIAGNOSTIC DATA LINK by using the M-MDS.

Is there any signal that is far out of specification when ignition switch is on, and engine is run at idle?

Note

• If the M-MDS is not used, measure follow PCM terminal voltages with circuit tester.

1. ECT sensor (terminal 2Q)

2. SGT (terminal 2E)

3. TP sensor (terminal 2M)

4. MAF sensor (terminal 2O)

Yes

Implement “TROUBLESHOOTING, ENGINE DIAGNOSTIC INSPECTION, Input Signal System Investigation Procedure” and repair or replace, then go to Step 22.

Go to the next step.

VERIFY WHETHER MALFUNCTION IN WIRING HARNESS AND CONNECTOR OR ELSEWHERE

• Continue monitoring items in previous step.

• Is there any input signal which causes drastic changes when it is set to be in trouble condition?

Yes

Implement “TROUBLESHOOTING, ENGINE DIAGNOSTIC INSPECTION, Input Signal System Investigation Procedure” and repair or replace, then go to Step 22.

Go to the next step.

VERIFY EXHAUST GAS LEAKAGE

• Inspect exhaust system upstream from oxygen sensor.

• Is there any gas leakage?

Yes

Repair or replace faulty exhaust parts, then go to Step 22.

(See EXHAUST SYSTEM INSPECTION [G6].)

Go to the next step.

VERIFY O2S INSTALLATION

• Inspect installation of O2S.

• Is it normal?

Yes

Go to the next step.

Install the O2S properly, then go to Step 22.

(See OXYGEN SENSOR (O2S) REMOVAL/INSTALLATION [G6].)

VERIFY WHETHER MALFUNCTION IN O2S SIGNAL OR ELSEWHERE

• Implement PID/DATA MONITOR AND RECORD (O2S) from DIAGNOSTIC DATA LINK by using the M-MDS.

Is voltage on oxygen sensor as follows while racing engine (in neutral)?

― More than 0.45 V when accelerator pedal is suddenly pressed: rich condition

― Less than 0.45 V during fuel cut: lean condition

Note

• If the M-MDS is not used, measure PCM 2N terminal voltage with circuit tester.

Yes

Go to the next step.

Inspect and repair or replace faulty oxygen sensor harness, connector or terminal.

If the O2S wiring harness and connector are normal, replace the O2S.

(See OXYGEN SENSOR (O2S) REMOVAL/INSTALLATION [G6].)

Then go to Step 22.

INSPECT FUEL INJECTOR WIRING HARNESS AND CONNECTOR

• Inspect for open, poor connection, and other problems on following harnesses, connectors and terminals (for fuel injector at each cylinder):

― Front main relay to fuel injector

• Are there any problems?

Yes

Repair or replace faulty harness, connector or terminal, then go to Step 22.

Go to the next step.

INSPECT FUEL INJECTOR OPERATION

• Perform the Fuel Injector Operation Inspection.

(See ENGINE CONTROL SYSTEM OPERATION INSPECTION [G6].)

• Does the fuel injector operate properly?

Yes

Go to the next step.

Repair or replace malfunctioning part according to inspection result, then go to Step 22.

INSPECT INTAKE-AIR SYSTEM FOR AIR SUCTION

• Inspect for air suction:

― From air cleaner to throttle body

― From throttle body to dynamic chamber

― From dynamic chamber to intake manifold

• Visually inspect for cracks and damage, and inspect fluctuation after spraying rust penetrating agent, then select air suction area.

• Can air suction be confirmed?

Yes

Repair or replace source of air suction, then go to Step 22.

Go to the next step.

INSPECT VACUUM HOSES FOR AIR SUCTION

• Inspect for suction in vacuum hose which has negative pressure on intake manifold, in the same manner as previous step.

• Can air suction be confirmed?

Yes

Repair or replace source of air suction, then go to Step 22.

Go to the next step.

INSPECT FUEL LINE PRESSURE

• Inspect fuel line pressure under trouble condition.

(See ENGINE CONTROL SYSTEM OPERATION INSPECTION [G6].)

• Is fuel line pressure normal?

Yes

Go to Step 19.

Go to the next step.

VERIFY WHETHER MALFUNCTION IN FUEL PUMP OR ELSEWHERE

• Inspect fuel pump maximum pressure.

(See FUEL PUMP UNIT INSPECTION [G6].)

• Is it normal?

Yes

Go to the next step.

Replace fuel pump, then go to Step 22.

(See FUEL PUMP UNIT REMOVAL/INSTALLATION [G6].)

INSPECT WHETHER MALFUNCTION IN FUEL DELIVERY LINE OR FUEL RETURN LINE

• Inspect for clogging in fuel filter (high-pressure).

• Are there foreign materials on fuel side of fuel filter?

Yes

Go to the next step.

Go to Step 17.

INSPECT WHETHER MALFUNCTION IN FUEL FILTER (HIGH-PRESSURE) OR FUEL FILTER (LOW-PRESSURE)

• Inspect inside of fuel tank for foreign materials and stains.

• Is inside of fuel tank normal?

Yes

Replace fuel filter (high-pressure), then go to Step 22.

(See FUEL FILTER (HIGH-PRESSURE) REMOVAL/INSTALLATION [G6].)

Clean inside of fuel tank and fuel filter (low-pressure).

Replace fuel filter (high-pressure), then go to Step 22.

(See FUEL FILTER (HIGH-PRESSURE) REMOVAL/INSTALLATION [G6].)

INSPECT FUEL RETURN LINE FOR LEAKAGE AND CLOGGING

• Inspect for leakage and clogging in fuel line from fuel distributor to fuel pump.

• Is it normal?

Yes

Go to the next step.

Repair or replace necessary, then go to Step 22.

INSPECT WHETHER MALFUNCTION IN PRESSURE REGULATOR OR FUEL LINE LEAKAGE

• Inspect for leakage in fuel filter (high-pressure) to fuel tank (return side).

• Is it normal?

Yes

Replace pressure regulator, then go to Step 22.

(See PRESSURE REGULATOR REMOVAL/INSTALLATION [G6].)

Repair or replace necessary, then go to Step 22.

VERIFY WHETHER MALFUNCTION IN IGNITION SYSTEM OR ELSEWHERE

• Verify blinking condition on each cylinder by setting timing light on high-tension lead under trouble condition.

• Does it blink regularly and stably?

Yes

Go to Step 21.

Go to the next step.

INSPECT IGNITION COIL

• Inspect resistance of ignition coil.

(See IGNITION COIL INSPECTION [G6].)

• Is it normal?

Yes

Go to the next step.

Replace ignition coil, then go to Step 22.

INSPECT ENGINE COOLANT LEAKAGE TO COMBUSTION CHAMBER

Warning

• Removing the radiator cap when the radiator is hot is dangerous. Scalding coolant and steam may shoot out and cause serious injury.

• When removing the radiator cap, wrap a thick cloth around and turn it slowly.

• Remove radiator cap.

• Implement procedure to bleed air from engine coolant, then run engine at idle.

• Are there any small bubbles which make engine coolant white at filling opening?

Note

• Large bubbles are normal since they are remaining air coming out from engine coolant passage.

Yes

Air gets in from poor sealing on head gasket or other areas between combustion chamber and engine coolant passage.

Repair or replace faulty parts, then go to Step 22.

Inspect the engine compression and service if necessary.

(See COMPRESSION INSPECTION [G6].)

Go to the next step.

VERIFY TROUBLESHOOTING OF DTC P0134 COMPLETED

• Make sure to reconnect all disconnected connectors.

• Clear DTC from memory using the M-MDS.

• Start engine and warm it up to normal operating temperature.

• Run the engine at idle for 180 s or more.

• Retrieve the DTCs using the M-MDS.

• Is same DTC present?

Yes

Replace PCM, then go to next step.

Go to next step.

VERIFY AFTER REPAIR PROCEDURE

• Perform “AFTER REPAIR PROCEDURE”.

(See AFTER REPAIR PROCEDURE [G6].)

• Is there any DTC present?

Yes

Go to applicable DTC inspection.

(See DTC TABLE [G6].)

Troubleshooting completed.