SFI SYSTEM (w/o Electronic Throttle Control System), Diagnostic DTC:P0130, P0134
| DTC Code | DTC Name |
|---|---|
| P0130 | Oxygen (A/F) Sensor Circuit (Bank 1 Sensor 1) |
| P0134 | Oxygen (A/F) Sensor Circuit No Activity Detected (Bank 1 Sensor 1) |
DESCRIPTION
In order to obtain a high purification rate for the carbon monoxide (CO), hydrocarbon (HC) and nitrogen oxide (NOx) components in the exhaust gas, a Three-Way Catalytic Converter (TWC) is used. For the most efficient use of the TWC, the air-fuel ratio must be precisely controlled so that it is always close to the stoichiometric air-fuel ratio. The heated oxygen sensor has the characteristic whereby its output voltage changes suddenly in the vicinity of the stoichiometric air-fuel ratio. This is used to detect the oxygen concentration in the exhaust gas and provide the ECM with feedback to control the air-fuel ratio. When the air-fuel ratio becomes lean, the oxygen concentration in the exhaust gas increases. The heated oxygen sensor informs the ECM of the lean condition (low voltage, i.e. less than 0.45 V). When the air-fuel ratio is richer than the stoichiometric air-fuel level, the oxygen concentration in the exhaust gas is reduced. And the heated oxygen sensor informs the ECM of the rich condition (high voltage, i.e. more than 0.45 V). The ECM judges by the voltage output of the heated oxygen sensor whether the air-fuel ratio is rich or lean and controls the injection time accordingly. If a malfunction of the heated oxygen sensor causes an output of abnormal voltage, the ECM is unable to perform accurate air-fuel ratio control. The heated oxygen sensor includes a heater which heats the zirconia element. The heater is controlled by the ECM. When the intake air volume is low (the temperature of the exhaust gas is low), a current flows to the heater in order to heat the sensor for accurate oxygen concentration detection.
| DTC No. | DTC Detection Condition | Trouble Area |
|---|---|---|
| P0130 | All of conditions below continue for 20 seconds during air-fuel ratio feedback control (3 trip detection logic).
|
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| P0130 | Heated oxygen sensor (sensor 1) output voltage is less than 0.06 V within 1 second after engine was started with engine coolant temperature 42°C (107°F) or less (last engine operation was stopped after warm-up). (3 trip detection logic) |
|
| P0130 | The conditions below continue for 20 seconds during air-fuel ratio feedback control (3 trip detection logic).
|
|
| P0134 | Heated oxygen sensor (sensor 1) output voltage is between 0.4 and 0.6 V for 20 seconds or more (3 trip detection logic). |
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| P0134 | All of the conditions below are met (3 trip detection logic).
|
|
| P0134 | ECM determines that internal resistance of heated oxygen sensor (sensor 1) is 20 kΩ or more (3 trip detection logic). |
|
Tech Tips
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The internal resistance of the heated oxygen sensor (sensor 1) cannot be measured using a tester.
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Sensor 1 refers to the sensor near the engine assembly.
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The output voltage of the heated oxygen sensor and the short-term fuel trim value can be read using the intelligent tester.
WIRING DIAGRAM
CONFIRMATION DRIVING PATTERN
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DTC P0130 is detected when the vehicle is driven in the city at an average vehicle speed of approximately 50 km/h (31 mph) for approximately 30 minutes.
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DTC P0134 is detected when the vehicle is driven in the city at an average vehicle speed of approximately 50 km/h (31 mph) for approximately 30 minutes.
INSPECTION PROCEDURE
Tech Tips
Read freeze frame data using the intelligent tester. The ECM records vehicle and driving condition information as freeze frame data the moment a DTC is stored. When troubleshooting, freeze frame data can help determine if the vehicle was moving or stationary, if the engine was warmed up or not, if the air-fuel ratio was lean or rich, and other data from the time the malfunction occurred.
PROCEDURE
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READ VALUE OF HEATED OXYGEN SENSOR
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Connect the intelligent tester to the DLC3.
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Start the engine and turn the intelligent tester ON.
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Select the following menu items: Powertrain / Engine and ECT / Data List / O2S B1 S1.
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Warm up the heated oxygen sensor at an engine speed of 2,500 rpm for approximately 90 seconds.
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Read the output voltage of the heated oxygen sensor during engine idling.
Standard Fluctuates between less than 0.4 V and more than 0.6 V (see the following figure). 
OK 
PERFORM CONFIRMATION DRIVING PATTERN Click here
NG 
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CHECK HARNESS AND CONNECTOR (HEATED OXYGEN SENSOR (SENSOR 1) - ECM)
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Disconnect the B21 heated oxygen sensor connector (sensor 1).
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Disconnect the B26 ECM connectors.
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Measure the resistance.
Standard resistance (check for open) Tester Connection Specified Condition OX (B21-3) - OX1A (B26-18) Below 1 Ω HT (B21-1) - HT1A (B26-21) Below 1 Ω E1 (B21-4) - E11 (B26-19) Below 1 Ω Standard resistance (check for short) Tester Connection Specified Condition OX (B21-3) or OX1A (B26-18) - Body ground 10 kΩ or higher HT (B21-1) or HT1A (B26-21) - Body ground 10 kΩ or higher -
Reconnect the heated oxygen sensor connector.
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Reconnect the ECM connectors.
NG 
REPAIR OR REPLACE HARNESS AND CONNECTOR
OK 
REPLACE HEATED OXYGEN SENSOR (SENSOR 1)
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PERFORM CONFIRMATION DRIVING PATTERN
Tech Tips
Clear all DTCs prior to performing the confirmation driving pattern.
NEXT
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CHECK IF DTC OUTPUT RECURS (DTC P0130 OR P0134)
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Connect the intelligent tester to the DLC3.
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Turn the ignition switch to ON and turn the intelligent tester ON.
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Select the following menu items: Powertrain / Engine and ECT / DTC / Pending.
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Read DTCs.
Result Display (DTC Output) Proceed To P0130 and/or P0134 A No output B
B
GO TO "CHECK FOR INTERMITTENT PROBLEMS"
A
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REPLACE HEATED OXYGEN SENSOR (SENSOR 1)
NEXT
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PERFORM CONFIRMATION DRIVING PATTERN
Tech Tips
Clear all DTCs prior to performing the confirmation driving pattern.
NEXT
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CHECK IF DTC OUTPUT RECURS (DTC P0130 OR P0134)
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Connect the intelligent tester to the DLC3.
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Turn the ignition switch to ON and turn the intelligent tester ON.
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Select the following menu items: Powertrain / Engine and ECT / DTC / Pending.
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Read DTCs.
Result Display (DTC Output) Proceed To P0130 and/or P0134 A No output B
B
END
A
REPLACE ECM
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