3Gr-Fse Engine Control System. Dtc P0171 System Too Lean (Bank 1)

The fuel trim is related to the feedback compensation value, not to the basic injection time. The fuel trim consists of both the short-term and the long-term fuel trims.
The short-term fuel trim is fuel compensation that is used to constantly maintain the air-fuel ratio at stoichiometric levels. The signal from the Air-Fuel Ratio (A/F) sensor indicates whether the air-fuel ratio is rich or lean compared to the stoichiometric ratio. This triggers a reduction in the fuel injection volume if the air-fuel ratio is rich and an increase in the fuel injection volume if it is lean.
factors such as individual engine differences, wear over time and changes in operating environment cause short-term fuel trim to vary from the central value. The long-term fuel trim, which controls overall fuel compensation, compensates for long-term deviations in the fuel trim from the central value caused by the short-term fuel trim compensation.
If both the short-term and long-term fuel trims are lean or rich beyond predetermined values, it is interpreted as a malfunction, and the ECM illuminates the MIL and sets a DTC.

DTC No.	DTC Detection Condition	Trouble Area
P0171 P0174	With warm engine and stable air-fuel ratio feedback, fuel trim considerably in error to lean side (2 trip detection logic)	Air induction system Injector blockage Mass Air Flow (MAF) meter Engine Coolant Temperature (ECT) sensor Fuel pressure Gas leakage from exhaust system Open or short in A/F sensor (bank 1, 2 sensor 1) circuit A/F sensor (bank 1, 2 sensor 1) A/F sensor heater (bank 1, 2 sensor 1) A/F HTR relay A/F sensor heater and A/F HTR relay circuits PCV valve and hose PCV hose connections ECM
P0172 P0175	With warm engine and stable air-fuel ratio feedback, fuel trim considerably in error to rich side (2 trip detection logic)	Injector leakage or blockage MAF meter ECT sensor Ignition system Fuel pressure Gas leakage from exhaust system Open or short in A/F sensor (bank 1, 2 sensor 1) circuit A/F sensor (bank 1, 2 sensor 1) A/F sensor heater (bank 1, 2 sensor 1) A/F HTR relay A/F sensor heater and A/F HTR relay circuits ECM

HINT:

When DTC P0171 or P0174 is set, the actual air-fuel ratio is on the lean side. When DTC P0172 or P0175 is set, the actual air-fuel ratio is on the rich side.
If the vehicle runs out of fuel, the air-fuel ratio is lean and DTC P0171 or P0174 may be set. The MIL is then illuminated.
When the total of the short-term and long-term fuel trim values is within the malfunction threshold (and the engine coolant temperature is more than 75°C [167°F]), the system is functioning normally.

MONITOR DESCRIPTION

Under closed-loop fuel control, fuel injection volumes that deviate from those estimated by the ECM cause changes in the long-term fuel trim compensation value. The long-term fuel trim is adjusted when there are persistent deviations in the short-term fuel trim values. Deviations from the ECM's estimated fuel injection volumes also affects the average fuel trim learning value, which is a combination of the average short-term fuel trim (fuel feedback compensation value) and the average long-term fuel trim (learning value of the air-fuel ratio). If the average fuel trim learning value exceeds the malfunction threshold, the ECM interprets this a fault in the fuel system and sets a DTC.
Example:
The average fuel trim learning value is 35 % or more or -30.5 % or less, the ECM interprets this as a fuel system malfunction.

Lexus Gs430, Gs300. Uzs190 Grs190.3Gr-Fse Engine Control System.Sfi System.
Dtc
P0171 System Too Lean (Bank 1)

WIRING DIAGRAM

Refer to DTC P2195 on page Click here.

INSPECTION PROCEDURE

HINT:

Intelligent tester only:

Malfunctioning areas can be identified by performing the Control the Injection Volume for A/F Sensor function provided in the Active Test. The Control the Injection Volume for A/F Sensor function can help to determine whether the Air-Fuel Ratio (A/F) sensor, Heated Oxygen (HO2) sensor and other potential trouble areas are malfunctioning.

The following instructions describe how to conduct the Control the Injection Volume for A/F Sensor operation using an intelligent tester.

Connect the intelligent tester to the DLC3.
Start the engine and turn the tester ON.
Warm up the engine at engine speed of 2,500 rpm for approximately 90 seconds.
On the tester, enter the following menus: Power train / Engine / Active Test / Control the Injection Volume for A/F Sensor.
Perform the Control the Injection Volume for A/F Sensor operation with the engine in an idling condition (press the RIGHT or LEFT button to change the fuel injection volume.)
Monitor the output voltages of the A/F and HO2 sensors (AFS B1 S1 and O2S B1 S2 or AFS B2 S1 and O2S B2 S2) displayed on the tester.

HINT:

The Control the Injection Volume for A/F Sensor operation lowers the fuel injection volume by 12.5 % or increases the injection volume by 24.8 %.
Each sensor reacts in accordance with increases and decreases in the fuel injection volume.

Standard:
Tester Display (Sensor)	Injection Volume	Status	Voltage
AFS B1S1 or AFS B2S1 (A/F)	+25 %	Rich	Less than 3.0
AFS B1S1 or AFS B2S1 (A/F)	-12.5 %	Lean	More than 3.35
O2S B1S2 or O2S B2S2 (HO2)	+25 %	Rich	More than 0.55
O2S B1S2 or O2S B2S2 (HO2)	-12.5 %	Lean	Less than 0.4

NOTICE:

The Air-Fuel Ratio (A/F) sensor has an output delay of a few seconds and the Heated Oxygen (HO2) sensor has a maximum output delay of approximately 20 seconds.

Case	A/F Sensor (Sensor 1) Output Voltage	HO2 Sensor (Sensor 2) Output Voltage	Main Suspected Trouble Area
1	Injection Volume +25 % -12.5 %	Injection Volume +25 % -12.5 %	-
1	Output Voltage More than 3.35 V Less than 3.0 V	Output Voltage More than 0.55 V Less than 0.4 V	-
2	Injection Volume +25 % -12.5 %	Injection Volume +25 % -12.5 %	A/F sensor A/F sensor heater A/F sensor circuit
2	Output Voltage Almost no reaction	Output Voltage More than 0.55 V Less than 0.4 V	A/F sensor A/F sensor heater A/F sensor circuit
3	Injection Volume +25 % -12.5 %	Injection Volume +25 % -12.5 %	HO2 sensor HO2 sensor heater HO2 sensor circuit
3	Output Voltage More than 3.35 V Less than 3.0 V	Output Voltage Almost no reaction	HO2 sensor HO2 sensor heater HO2 sensor circuit
4	Injection volume +25 % -12.5 %	Injection Volume +25 % -12.5 %	Injector Fuel pressure Gas leakage from exhaust system (Air-fuel ratio extremely lean or rich)
4	Output Voltage Almost no reaction	Output Voltage Almost no reaction

Following the Control the Injection Volume for A/F Sensor procedure enables technicians to check and graph the voltage outputs of both the A/F and HO2 sensors.
To display the graph, enter the following menus: Power train / Engine / Active Test / Control the Injection Volume for A/F Sensor and Data List / AFS B1 S1 and O2S B1 S2 or AFS B2 S1 and O2S B2 S2.

HINT:

Read freeze frame data using the intelligent tester. Freeze frame data records the engine conditions when malfunctions are detected. When troubleshooting, freeze frame data can help determine if the vehicle was running or stopped, 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.
A low A/F sensor voltage could be caused by a rich air-fuel mixture. Check for conditions that would cause the engine to run rich.
A high A/F sensor voltage could be caused by a rich air-fuel mixture. Check for conditions that would cause the engine to run lean.

1.CHECK ANY OTHER DTCS OUTPUT (IN ADDITION TO DTC P0171, P0172, P0174 OR P0175)

Connect the intelligent tester to the DLC3.

Turn the engine switch on (IG) and turn the tester ON.

Enter the following menus: Power train / Engine / DTC.

Read DTCs.

Result:

Display (DTC output)	Proceed to
P0171, P0172, P0174 or P0175	A
P0171, P0172, P0174 or P0175 and other DTCs	B

HINT:

If any DTCs other than P0171, P0172, P0174 or P0175 are output, troubleshoot those DTCs first.

GO TO DTC CHART

A

2.CHECK PCV HOSE

OK:: PCV hose is connected correctly and is not damaged.

REPAIR OR REPLACE PCV HOSE

OK

3.CHECK AIR INDUCTION SYSTEM

Check the air induction system for vacuum leakage.
OK:
No leakage from air induction system.

REPAIR OR REPLACE AIR INDUCTION SYSTEM

OK

4.PERFORM ACTIVE TEST USING INTELLIGENT TESTER (Control the Injection Volume for A/F Sensor)

Connect the intelligent tester to the DLC3.

Start the engine and turn the tester ON.

Warm up the engine at an engine speed of 2,500 rpm for approximately 90 seconds.

On the tester, enter the following menus: Power train / Engine / Active Test / Control the Injection Volume for A/F Sensor.

Perform the Control the Injection Volume for A/F Sensor operation with the engine in an idling condition (press the RIGHT or LEFT button to change the fuel injection volume).

Monitor the outputs voltages of A/F and HO2 sensors (AFS B1 S1 and O2S B1 S2 or AFS B2 S1 and O2S B2 S2) displayed on the tester.

HINT:

The Control the Injection Volume for A/F Sensor operation lowers the fuel injection volume by 12.5 % or increases the injection volume by 25 %.
Each sensor reacts in accordance with increases and decreases in the fuel injection volume.

Standard:
Tester Display (Sensor)	Injection Volume	Status	Voltage
AFS B1 S1 or AFS B2 S1 (A/F)	+25 %	Rich	Less than 3.0
AFS B1 S1 or AFS B2 S1 (A/F)	-12.5 %	Lean	More than 3.35
O2S B1 S2 or O2S B2 S2 (HO2)	+25 %	Rich	More than 0.55
O2S B1 S2 or O2S B2 S2 (HO2)	-12.5 %	Lean	Less than 0.4

Result:
Status AFS B1 S1 or AFS B2 S1	Status O2S B1 S2 or O2S B2 S2	A/F Condition and A/F Sensor Condition	Misfire	Suspected Trouble Area	Proceed to
Lean/Rich	Lean/Rich	Normal	-	-	C
Lean	Lean	Actual air-fuel ratio lean	May occur	PCV valve and hose PCV hose connections Injector blockage Gas leakage from exhaust system Air induction system Fuel pressure Mass Air Flow (MAF) meter Engine Coolant Temperature (ECT) sensor	A
Rich	Rich	Actual air-fuel ratio rich	-	Injector blockage or blockage Gas leakage from exhaust system Ignition system Fuel pressure MAF meter ECT sensor	A
Lean	Lean/Rich	A/F sensor malfunction	-	A/F sensor	B
Rich	Lean/Rich	A/F sensor malfunction	-	A/F sensor	B

Lean: During Control the Injection Volume for A/F Sensor, the A/F sensor output voltage (AFS) is consistently more than 3.35 V, and the HO2 sensor output voltage (O2S) is consistently less than 0.4 V.
Rich: During Control the Injection Volume for A/F Sensor, the AFS is consistently less than 3.0 V, and the O2S is consistently more than 0.55 V.

Go to step 12

Go to step 16

A

5.READ VALUE USING INTELLIGENT TESTER (COOLANT TEMP)

Connect the intelligent tester to the DLC3.

Turn the engine switch on (IG) and turn the tester ON.

Enter the following menus: Power train / Engine / Data List / Coolant Temp

Read the Coolant Temp twice, when the engine is both cold and warmed up.
Standard:
With cold engine: Same as ambient air temperature.
With warm engine: Between 75 and 95°C (167 and 203°F)

REPLACE ENGINE COOLANT TEMPERATURE SENSOR

OK

6.READ VALUE USING INTELLIGENT TESTER (MAF)

Connect the intelligent tester to the DLC3.

Turn the engine switch on (IG) and turn the tester ON.

Enter the following menus: Power train / Engine / Data List / MAF and Coolant Temp.

Allow the engine to idle until the Coolant Temp reaches 75°C (167°F) or more.

Read the MAF with the engine in an idling condition and at an engine speed of 2,500 rpm.
Standard:
MAF while engine idling: Between 2.1 g/s and 3.1 g/s (shift position: N, A/C: OFF).
MAF at an engine speed of 2,500 rpm: Between 7.8 g/s and 11.4 g/s (shift position: N, A/C: OFF).

REPLACE MASS AIR FLOW METER

OK

7.CHECK FUEL PRESSURE (LOW PRESSURE)

CHECK AND REPLACE FUEL PUMP, PRESSURE REGULATOR, FUEL PIPE LINE AND FILTER

OK

8.CHECK FUEL PRESSURE SENSOR

Connect the intelligent tester to the DLC3.

Turn the engine switch on (IG) and turn the tester ON.

Start the engine.

Enter the following menus: Power train / Engine / Data List / Fuel Press.

While revving the engine, check that the fuel pressure fluctuates.
OK:
Fuel pressure fluctuates.

REPLACE FUEL PRESSURE SENSOR

OK

9.CHECK FUEL PRESSURE (HIGH PRESSURE)

CHECK AND REPLACE FUEL PUMP, FUEL PRESSURE SENSOR, WIRING AND FUEL LEAKAGE

OK

10.CHECK FOR EXHAUST GAS LEAKAGE

OK:: No gas leakage.

REPAIR OR REPLACE EXHAUST SYSTEM

OK

11.CHECK FOR SPARKS AND IGNITION

HINT:

If the spark plugs or ignition system malfunctions, engine misfire may occur. The misfire count can be read using an intelligent tester. Enter the following menus: Power train / Engine / Data List / Cylinder #1 (to #6) Misfire Rate.

REPAIR OR REPLACE IGNITION SYSTEM

OK

12.INSPECT FUEL INJECTOR ASSEMBLY (INJECTION AND VOLUME)

HINT:

If the injectors malfunction, engine misfire may occur. The misfire count can be read using the intelligent tester. Enter the following menus: Power train / Engine / Data List / Cylinder #1 (to #6) Misfire Rate.

REPLACE FUEL INJECTOR ASSEMBLY

OK

13.INSPECT AIR FUEL RATIO SENSOR (HEATER RESISTANCE)

Disconnect the E68 or E65 A/F sensor connector.

Measure the resistance between the terminals of the A/F sensor connector.
Standard resistance (Bank 1 sensor 1):
Tester Connection
Specified Condition
HA1A (1) - +B (2)
1.8 Ω to 3.4 Ω at 20°C (68°F)
HA1A (1) - A1A- (4)
10 kΩ or higher
Standard resistance (Bank 2 sensor 1):
Tester Connection
Specified Condition
HA2A (1) - +B (2)
1.8 Ω to 3.4 Ω at 20°C (68°F)
HA2A (1) - A2A- (4)
10 kΩ or higher

Reconnect the A/F sensor connector.

REPLACE AIR FUEL RATIO SENSOR

OK

14.INSPECT A/F HTR RELAY

Remove the A/F HTR relay from the engine room No. 2 relay block.

Measure the resistance of the A/F HTR relay.
Standard resistance:
Tester Connection
Specified Condition
3 - 5
10 kΩ or higher
3 - 5
Below 1 Ω
(when battery voltage applied to terminals 1 and 2)

Reinstall the A/F HTR relay.

REPLACE A/F HTR RELAY

OK

15.CHECK HARNESS AND CONNECTOR (A/F SENSOR - ECM)

Disconnect the E68 and E65 A/F sensor connector.

Turn the engine switch on (IG).

Measure the voltage between the +B terminal of the A/F sensor connector and body ground.
Standard voltage:
Tester Connection
Specified Condition
+B (E68-2) - Body ground
9 to 14 V
+B (E65-2) - Body ground
9 to 14 V

Turn the engine switch off.

Disconnect the E45 ECM connector.

Measure the resistance.

Standard resistance (Check for open):

Tester Connection	Specified Condition
HA1A (E68-1) - HA1A (E45-6)	Below 1 Ω
A1A+ (E68-3) - A1A+ (E45-18)	Below 1 Ω
A1A- (E68-4) - A1A- (E45-17)	Below 1 Ω
HA2A (E65-1) - HA2A (E45-4)	Below 1 Ω
A2A+ (E65-3) - A2A+ (E45-28)	Below 1 Ω
A2A- (E65-4) - A2A- (E45-27)	Below 1 Ω

Standard resistance (Check for short):

Tester Connection	Specified Condition
HA1A (E68-1) or HA1A (E45-6) - Body ground	10 kΩ or higher
A1A+ (E68-3) or A1A+ (E45-18) - Body ground	10 kΩ or higher
A1A- (E68-4) or A1A- (E45-17) - Body ground	10 kΩ or higher
HA2A (E65-1) or HA2A (E45-4) - Body ground	10 kΩ or higher
A2A+ (E65-3) or A2A+ (E45-28) - Body ground	10 kΩ or higher
A2A- (E65-4) or A2A- (E45-27) - Body ground	10 kΩ or higher

Reconnect the ECM connector.

Reconnect the A/F sensor connector.

REPAIR OR REPLACE HARNESS AND CONNECTOR

OK

16.REPLACE AIR FUEL RATIO SENSOR

NEXT

17.PERFORM CONFIRMATION DRIVING PATTERN

(a) Connect the intelligent tester to the DLC3.
(b) Turn the engine switch on (IG) and turn the tester ON.
(c) Clear DTCs (Click here).
(d) Switch the ECM from normal mode to check mode using the tester (Click here).
(e) Start the engine and warm it up with all the accessories switched OFF.
(f) Drive the vehicle at between 60 km/h and 120 km/h (38 mph and 75 mph) and at an engine speed of between 1,400 rpm and 3,200 rpm for 3 to 5 minutes.
HINT:
If the system is still malfunctioning, the MIL will be illuminated during step (f).
NOTICE:
If the conditions in this test are not strictly followed, no malfunction will be detected.

NEXT

18.CHECK WHETHER DTC OUTPUT RECURS (DTC P0171, P0172, P0174 OR P0175)

On the intelligent tester, enter the following menus: Power train / Engine / DTC.

Read DTCS.

Result:

Display (DTC output)	Proceed to
No output	A
P0171, P0172, P0174 or P0175	B

Go to step 5

END

Tester Connection	Specified Condition
HA1A (1) - +B (2)	1.8 Ω to 3.4 Ω at 20°C (68°F)
HA1A (1) - A1A- (4)	10 kΩ or higher

Tester Connection	Specified Condition
HA2A (1) - +B (2)	1.8 Ω to 3.4 Ω at 20°C (68°F)
HA2A (1) - A2A- (4)	10 kΩ or higher

Tester Connection	Specified Condition
3 - 5	10 kΩ or higher
3 - 5	Below 1 Ω (when battery voltage applied to terminals 1 and 2)

Tester Connection	Specified Condition
+B (E68-2) - Body ground	9 to 14 V
+B (E65-2) - Body ground	9 to 14 V