Engine Control Module -- (2013 - 2014 MY)

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P000A	"A" Camshaft Position Slow Response Bank 1	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Difference between target position vs. actual position > 8.00° CRK For time > 1.3 to 2.9 s AND Signal change < 1.9 - 4.2 °CRK/s	Time after engine start, >3.0 to 10.0 s Engine speed 920 to 6000 RPM Oil temperature -48.0 to 143.0 °C Frequency (normal operation), 4 times	14.0 s	Multiple 2 DCY
P0010	"A" Camshaft Position Actuator Control Circuit/Open Bank 1	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Signal voltage, 4.70 to 5.40 V	Camshaft actuator solenoid valve, off Engine speed, >80.0 RPM	0.50 s	Continuous 2 DCY
P0011	"A" Camshaft Position - Timing Over-Advanced or System Performance Bank 1	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Difference between target position vs. actual position> 8.00 °CRK For time > 1.3 to 2.9 s AND Adjustment angle< 2.50 °CRK	Time after engine start, >3.0 to 10.0 s Engine speed 920.0 to 6000.0 RPM Modeled oil temperature -48.0 to 143.0 °C Frequency (normal operation), 4 times	14.0 s	Multiple 2 DCY
P0016	Crankshaft Position - Camshaft Position Correlation Bank 1 Sensor A	-- Check the Engine Speed Sensor -G28-. Refer to Engine Speed Sensor - G28-, CHECKING . OR-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	Permissible deviation, <-11.01 °CRK OR Permissible deviation, >11.01 Rev	---	20 rev	Multiple 2 DCY
P0030	HO2S Heater Control Circuit Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	Heater voltage 4.70 to 5.40 V	Time after engine start, > 5.0 s Heater commanded OFF	0.50 s	Continuous 2 DCY
P0031	HO2S Heater Control Circuit Low Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	Heater voltage 0.0 to 2.26 V	Time after engine start, >5.0 s Heater commanded OFF	0.50 s	Continuous 2 DCY
P0032	HO2S Heater Control Circuit High Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	Heater voltage > 5.50 V	Time after engine start, >5.0 s Heater commanded ON	0.50 s	Continuous 2 DCY
P0036	HO2S Heater Control Circuit Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Heater voltage, 2.34 - 3.59 V	Engine speed > 80.0 RPM Heater commanded OFF	0.50 s	Continuous 2 DCY
P0037	HO2S Heater Control Circuit Low Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Heater voltage < 2.34 V	Engine speed > 80.0 RPM Heater commanded OFF	0.50 s	Continuous 2 DCY
P0038	HO2S Heater Control Circuit High Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Heater voltage > 3.59 V	Engine speed, > 80.0 RPM Heater commanded ON	0.50 s	Continuous 2 DCY
P0043	HO2S Heater Control Circuit Low Bank 1 Sensor 3	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	SULEV Heater voltage < 3 V ULEV Heater voltage < 3 V	SULEV Time after engine start, >5.0 s Heater commanded OFF ULEV engine speed >80.0 RPM Heater commanded OFF	0.50 s	Continuous 2 DCY
P0044	HO2S Heater Control Circuit High Bank 1 Sensor 3	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Heater current, > 2.70 to 5.50 A	Engine speed, >80.0 RPM Heater commanded ON	0.50 s	Continuous 2 DCY
P0068	MAP/MAF - Throttle Position Correlation	-- Check the Mass Air Flow Sensor -G70-. Refer to Mass Airflow Sensor -G70-, CHECKING .	Plausibility with fuel systemload calculation < -50% OR Plausibility with fuel system load calculation > 50%	Engine speed 920.0 to 5000.0 RPM ECT> 55.0° C IAT @ manifold < 90° C Mass air flow 0.0 to 3000.0 kg/h Ratio manifold pressure to barometric pressure< 0.90 EVAP purge valve closed Lambda control closed loop Engine speed 960 to 5000 RPM ECT> 55.0° C IAT @ manifold < 90° C Mass air flow 0.0 to 3000.0 kg/h Ratiomanifold pressure to barometric pressure < 0.90 - EVAP purge valve = closed Lambda control = closed loop	29.8 s	Multiple 2 DCY
P0070	Ambient Air Temperature Sensor Circuit "A"	-- Refer to the appropriate repair information for proper diagnosis of the Outside Air Temperature Sensor -G17-.	AAT signal: short to battery / open circuit = failure	Time after ignition On > 2.0 s	1.0 s	Continuous 2 DCY
P0071	Ambient Air Temperature Sensor Circuit "A" Range/Performance	-- Refer to the appropriate repair information for proper diagnosis of the Outside Air Temperature Sensor -G17-.	Diff. ECT vs. IAT at engine start< 24.8 K (depending on engine off time) Diff. IAT vs. AAT at engine start> \|24.8\| K (depending on engine off time) Diff. AAT vs. ECT at engine start> \|24.8\|K (depending on engine off time)	Engine off time > 8.00 h BLOCKHEATER: ECT @ start< 1.5 K minus ECT @ condition Time after engine start 60.0 s SOLAR RADIATION CASE 1: AAT @ start<= 5.3K minus AAT @ condition Vehicle speed > 25 MPH For time> 30.0s SOLAR RADIATION CASE 2: IAT @ start<= 5.3K minus IAT @ condition Vehicle speed > 25 MPH For time> 30.0s	0.0 s	Once/DCY 2 DCY
P0072	Ambient Air Temperature Sensor Circuit "A" Low	-- Refer to the appropriate repair information for proper diagnosis of the Outside Air Temperature Sensor -G17-.	AAT signal: short to ground = failure	Time after ignition On > 2.0 s	1.0 s	Continuous 2 DCY
P0087	Fuel Rail/System Pressure - Too Low Bank 1	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Pressure control activity > 10.00 MPa AND Fuel trim activity 0.90 - 120 AND Difference between target pressure vs. actual pressure > -16.38 MPa	Engine speed, > 600 RPM EVAP purge adaptation < 22.00 - ECT>= 55.0° C IAT < 90° C Fuel cut off = not active Lambda control = closed loop	5.0 s	Multiple 2 DCY
P0088	Fuel Rail/System Pressure - Too High	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING	Fuel rail pressure > 13.9 MPa	---	3.0 s	2 DCY
P0089	Fuel Pressure Regulator 1 Performance	-- Check the Low Fuel Pressure Sensor -G410-. Refer to Low Fuel Pressure Sensor -G410-, CHECKING .	Difference between actual pressure vs. target pressure > 250.00kPa	Time after engine start > 15.0 s Fuel cut off = not active Time after fuel cut off > 15.0 s	7.0 s	Continuous 2 DCY
P0089	Fuel Pressure Regulator 1 Performance		Difference between target pressure vs. actual pressure > 200.00kPa	Time after engine start > 15.0 s Fuel cut off = not active Time after fuel cut off > 15.0 s
P008A	Low Pressure Fuel System Pressure - Too Low	-- Check the Low Fuel Pressure Sensor -G410-. Refer to Low Fuel Pressure Sensor -G410-, CHECKING .-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Actual pressure< 40.00 kPa	---	6.0 s	Continuous 2 DCY
P008B	Low Pressure Fuel System Pressure - Too High	-- Check the Low Fuel Pressure Sensor -G410-. Refer to Low Fuel Pressure Sensor -G410-, CHECKING .-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Actual pressure > 950.00 kPa	---	6.0 s	Continuous 2 DCY
P0100	Mass or Volume Air Flow Sensor "A" Circuit	-- Check the Mass Airflow Sensor -G70-. Refer to Mass Airflow Sensor -G70-, CHECKING .	MAF sensor signal 0 μs	Engine speed > 20 RPM	0.20 s	Multiple 2 DCY
P0101	Mass or Volume Air Flow Sensor "A" Circuit Range/Performance	-- Check the Mass Airflow Sensor -G70-. Refer to Mass Airflow Sensor -G70-, CHECKING .	Mass air flow vs lower threshold model < 0.0 to 417.0 kg/h Mass air flow vs upper threshold > 39.0 to 873.0 kg/h Load calculation > 23.0% Fuel system (mult.)< -23.0% Load calculation < -23.0% Fuel system (mult.)> 23.0%	Camshaft revolutions > 150.00 Time after engine start> 0.50 s ECT> 55° C IAT @ manifold < 90.0° C Mass air flow 0.0 to 450.0 kg/h Engine load 21.0 to 210.0% Ratio manifold pressure to barometric pressure< 0.90 EVAP purge valve closed Lambda control closed loop Engine speed 920.0 to 5000.0 RPM	2.0 s	Multiple 2 DCY
P0102	Mass or Volume Air Flow Sensor "A" Circuit Low	-- Check the Mass Airflow Sensor -G70-. Refer to Mass Airflow Sensor -G70-, CHECKING .	MAF sensor signal < 66 μs	Engine speed > 20 RPM	0.20 s	Multiple 2 DCY
P0103	Mass or Volume Air Flow Sensor "A" Circuit High	-- Check the Mass Airflow Sensor -G70-. Refer to Mass Airflow Sensor -G70-, CHECKING .	MAF sensor signal> 4500 μs	Engine speed > 20 RPM	0.20 s	Multiple 2 DCY
P0106	Manifold Absolute Pressure/Barometric Pressure Sensor Circuit Range/Performance	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING .	Boost pressure signal: <Altitude sensor -210 hPa >Altitude sensor +230 hPa	Altitude sensor, No DTC Boost pressure sensor, No DTC Engine speed, <1000 RPM AND Throttle position, <7.01% DK for 3.0 s Throttle position sensor, No DTC	1.0 s	2 DCY
P0111	Intake Air Temperature Sensor 1 Circuit Range/Performance Bank 1	-- Check the Intake Air Temperature Sensor -G42-. Refer to Intake Air Temperature Sensor -G42-, CHECKING .	Diff. ECT vs. IAT @ maifold at engine start > 24.8 K (depending on engine off time) Diff. IAT @ maifold vs. AAT at engine start > 24.8 K (depending on engine off time) Diff. AAT vs. ECT at engine start < 24.8 K (depending on engine off time)	Engine off time > 8.00 h BLOCKHEATER: ECT @ start< 1.5 K Minus ECT @ condition Time after engine start 60.0 s SOLAR RADIATION CASE 1: AAT @ start<= 5.3 K minus AAT @ condition Vehicle speed > 25 MPH For time> 30.0 s SOLAR RADIATION CASE 2: IAT @ start <= 5.3 K minus IAT @ condition Vehicle speed > 25 MPH For time > 30.0 s	0.0 s	Once/DCY 2 DCY
P0112	Intake Air Temperature Sensor 1 Circuit Low Bank 1	-- Check the Intake Air Temperature Sensor -G42-. Refer to Intake Air Temperature Sensor -G42-, CHECKING .	Signal voltage < 0.16 V	---	2.0 s	Continuous 2 DCY
P0113	Intake Air Temperature Sensor 1 Circuit High Bank 1	-- Check the Intake Air Temperature Sensor -G42-. Refer to Intake Air Temperature Sensor -G42-, CHECKING .	Signal voltage > 4.48 V	ECT @ startn.a OR Time after engine start> 20.0s ECT>= 60 °C Vehicle speed < = 6 MPH Mass air flow < = 24.00 kg/h	2.0 s	Continuous 2 DCY
P0116	Engine Coolant Temperature Sensor 1 Circuit Range/Performance	-- Check Engine Coolant Temperature Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .	Diff. max ECT vs. min ECT < 1.5 K	ECT @ start50 - 140 °C Substitute ECT> -48 °C DRIVING CONDITION H: Vehicle speed 25 to 75 MPH Mass air flow (lower threshold) 4.00 kg/h Mass air flow (upper threshold) 36.00 to 152.00 kg/h OR Fuel cut off = active For time required > 40.0 s Frequency = 1 time DRIVING CONDITION L: Vehicle speed 0.0 to 6.0 MPH Mass air flow (lower threshold) 4.00 kg/h Mass air flow (upper threshold) 4.00 to 180.00 kg/h For time required > 25.0 s Frequency = 3 times	117.0 s	Once/DCY 2 DCY
	Stuck in Range		no change on signal< 1.5 K signal in range (lower threshold) > 89 °C signal in range (upper threshold)< 110°C	Engine off time> 9900.0 - 15600.0 s ECT @ start < 89.0 °C to > 110.0 °C Substitute ECT > -48 °C DRIVING CONDITION H: Vehicle speed 25.0 to 75.0 MPH Mass air flow (lower threshold) 4.00 kg/h Mass air flow (upper threshold) 36.00 to 152.00 kg/h For time required > 40.0 s Frequency = 1 time DRIVING CONDITION L: Vehicle speed 0.0 to 6.0 MPH Mass air flow (lower threshold)4.00 kg/h Mass air flow (upper threshold) 4.00 to 180.00 kg/h For time required > 25.0 s Frequency = 3 times	117.0 s	Once/DCY 2 DCY
	Cross Check		Diff. ECT vs. IAT at engine start> 24.8 K (depending on engine off time) AND Diff. IAT @ manifold vs. AAT at engine start > 24.8 K (depending on engine off time) AND Diff. AAT vs. ECT at engine start > 24.8 K (depending on engine off time)	Engine off time > 8.00 h BLOCKHEATER: ECT @ start< 1.5 K Minus ECT @ condition: time after engine start 60.0 s SOLAR RADIATION CASE 1: AAT @ start<= 5.3K Minus AAT @ condition: vehicle speed > 25 MPH For time> 30.0 s SOLAR RADIATION CASE 2: IAT @ start <= 5.3 K Minus IAT @ condition: vehicle speed > 25 MPH For time> 30.0 s	0.0 s	Once/DCY 2 DCY
P0117	Engine Coolant Temperature Sensor 1 Circuit Low	-- Check the Engine Coolant Temperature Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .-- Check the coolant regulator. Refer to appropriate repair information.	ECT > 140° C	---	2.0 s	Continuous 2 DCY
P0118	Engine Coolant Temperature Sensor 1 Circuit High	-- Check the Engine Coolant Temperature Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .-- Check the coolant regulator. Refer to appropriate repair information.	ECT< -40° C	---	2.0 s	Continuous 2 DCY
P0121	Throttle/Pedal Position Sensor/Switch "A" Circuit Range/Performance	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .	TPS 1-TPS 2, > 5.10 to 6.30 % AND Actual TPS 1 -calc. value, > actual TPS 2 calc. value OR TPS 1 -calc value > 9.00%	Engine speed > 480.0 RPM	0.30 s	Multiple 2 DCY
P0122	Throttle/Pedal Position Sensor/Switch "A" Circuit Low	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .	Signal voltage, < 0.20 V	---	0.10 s	Multiple 2 DCY
P0123	Throttle/Pedal Position Sensor/Switch "A" Circuit High	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .	Signal voltage, > 4.81 V	---	0.10 s	Multiple 2 DCY
P0130	O2 Sensor Circuit Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	O2S ceramic temp. < 640.0° C	Modeled exhaust temp >300° C Fuel cut-off not active	12.0 s	Multiple 2 DCY
P0131	O2 Sensor Circuit Low Voltage Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	Virtual mass (VM) < 1.75 V OR Nernst voltage (UN)< 1.50 V OR Adjustment voltage (IA)< 0.30V OR Adjustment voltage (IP)< 0.30V	---	10.0 s	Continuous 2 DCY
P0132	O2 Sensor Circuit High Voltage Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	Virtual mass (VM) > 3.25 V OR Nernst voltage (UN)> 4.40 V OR Adjustment voltage (IA)> 7.00V OR Adjustment voltage (IP)> 7.00V	---	10.0 s	Continuous 2 DCY
P0133	O2 Sensor Circuit Slow Response Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	SYMMETRIC FAULT: Difference of R2L area ratio vs. L2R area ratio-0.40 - 0.40 Max value of both counters for area ratio R2L and L2R > = 4times Delay Time: Gradient ratio > = 0.00 Lower value of both area ratios R2L and L2R < 0.30 Transient Time: Gradient ratio > = 0.00 Gradient ratio < = 0.45 Lower value of both area ratios R2L and L2R < 0.30 - or lower value of both gradient ratios R2L and L2R < 0.00 ASYMMETRIC FAULT: Difference of R2L area ratio vs. L2R area ratio < -0.40; > 0.40 Values of both counters for area ratio R2L and L2R > = 4times Delay Time: Gradient ratio > = 0.00 Lower value of both area ratios R2L and L2R < 0.30 Transient Time: Gradient ratio >= 0.00 Gradient ratio <= 0.45 Lower value of both area ratios R2L and L2R < 0.30 OR Lower value of both gradient ratios R2L and L2R < 0.00	O2S front - min. operation temperature is reached > 715 °C O2S front - time since operation readiness > 10.0 s Engine speed, 920 to 4000 RPM Engine load 15.00 to 100.01% Gradient of engine load, <= 14.02% Exhaust system lag time calculation 0.1 to 0.30 s Gradient of exhaust system lag time calculation <= 0.08 s ECT>= 30° C Catalyst temperature >= 400° C Lambda control set-point prior to diagnostic fuel stepsA/F-Ratio stoichiometric Relative fuel amount from wall-applied compensation and EVAP purge < = 0.40 Time since last measurement> 3.0 s Gear shifting n.a. EVAP purge not active OR EVAP purge > 6.5 g 1st lambda control loop active For time > 2.0 s 2nd Lambda control loop not active Forced lambda oscillation not active AIR not active Tank leakage detectionnot active Diagnosis EVAP purge systemnot active Fuel cut off for any cylinders not active Open circuit pump current (IP) ready Exhaust gas mass after end of scavenging n.a. ONLY FLEX FUEL SYSTEMS WITHOUT ETHANOL SENSOR: Ethanol concentration adaptation not active	53.0 s	Once / DCY 2 DCY
P0135	O2 Sensor Heater Circuit Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	OUT OF RANGE: O2S ceramic temp.< 715° C Heater duty cycle > 90%	Modeled exhaust gas temp, > 300° C Heater control, Active	55.0 s	Multiple 2 DCY
P0135	O2 Sensor Heater Circuit Bank 1 Sensor 1		RATIONALITY CHECK: (SENSOR HEATING UP): O2S ceramic temp.< 715° C Time after O2S heater On 40.0 s	ECT @ start, > -11° C Engine shut-off time >300.0 s (during ECM keep alive-time after ignition off)< 300.0 s	40.0 s	Once / DCY 2 DCY
P0136	O2 Sensor Circuit Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Delta voltage One step at heater switching > 2.00 V andnumber of heater coupling>= 6 times	Sensor voltage <= 0.40 V or sensor voltage 0.50 to 1.26 V CASE 2: SENSOR THEORETICAL READY FOR OPERATION: For time> 12 s Sensor sufficient heated up if exhaust temperature >= 700° C For time > 18 s or heater power>= 50% for time > 18.0 s GENERAL: Dew point exceeded for time > 10 s Heater not active	10.24 s	Multiple 2 DCY
P0137	O2 Sensor Circuit Low Voltage Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Signal voltage < 0.06 V For time> 3.0 s AND Difference of sensor voltage with load pulse and voltage without load pulse (mean value of 3 measurements) < 0.01 V	CASE 1: sensor ready for operation Sensor voltage<= 0.40 V OR Sensor voltage0.50 to 1.26 V CASE 2: sensor theoretical ready for operation For time> 12.0 s Sensor sufficient heated up if exhaust temperature >= 700.0° C For time> 18.0 s OR Heater power >= 50% For time > 18.0 GENERAL: Engine running Dew point exceeded Fuel cut off not active Catalyst purge not active	3.0 s	Multiple 2 DCY
P0138	O2 Sensor Circuit High Voltage Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Signal voltage >1.26 V For time > 5.0 s	CASE 1: sensor ready for operation Sensor voltage<= 0.40 V OR Sensor voltage 0.50 to 1.26 V CASE 2: sensor theoretical ready for operation For time> 12 s Sensor sufficient heated up if exhaust temperature >= 700.0° C For time> 18.0 s OR Heater power >= 50.0% For time> 18.0 s GENERAL: Engine running Dew point exceeded lambda set value> 0, 995	5.0 s	Multiple 2 DCY
P013A	O2 Sensor Slow Response - Rich to Lean Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Arithmetric filtered max differential transient time at fuel cut off n.a. OR EWMA filtered max differential transient time at fuel cut off >= 0.70 s AND Number of checks >= 3.0	O2S front out of range ready, no fault O2S rear = ready Engine speed 560 to 6000 RPM Integrated exhaust gas mass since O2S rear ready > 0.40 kg Exhaust gas mass flow> 6.00 kg/h Modeled exhaust gas temperature fitted position O2S rear >= 450 °C Change of exhaust gas mass flow-250.00 to 150.00 kg/h Fuel cut off <90.0 s IF Fuel cut off > 90.0 s THEN Disabling till next fuel feed restart 20.0 s ADDITIONAL CONDITIONS: O2S rear voltage before start of measurement < 0.15 V O2S rear target voltage end of measurement >= 0.65 V OR Integrated negative O2 mass flow during catalyst purge >= 2800 mg Plus time delay 2.0 s CASE 1: (with scavenging) IF Scavenging-rate > n.a. THEN DISABLING UNTIL: Scavenging-rate < n.a. AND Integrated air mass > n.a. CASE 2: (without scavenging) Integrated air mass > 0.00 kg Engine running	10.0 s	Once/DCY 1 DCY
P013B	O2 Sensor Slow Response - Lean to Rich Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	EWMA filtered transient time at fuel cut-off, >= 1.2 s Number of checks (initial phase) and (step function), >3.00 -	O2S front out of range ready, no fault O2S rear ready Engine speed 560 to 6000 RPM Integrated exhaust gas mass since O2S rear ready > 0.40 kg Exhaust gas mass flow> 20.00 kg/h Modeled exhaust gas temperature fitted position O2S rear >= 580.0 °C Change of exhaust gas mass flow-20.00 to 50.00 kg/h Fuel feed restart active IF Fuel cut off > 90.0 s THEN Disabling till next fuel feed restart 20.0 s ADDITIONAL CONDITIONS: O2S rear voltage before start of measurement < 0.15 V O2S rear target voltage end of measurement >= 0.65 V OR Integrated negative O2 mass flow during catalyst purge >= 2800 mg Plus time delay 2.0 s CASE 1: (with scavenging) IF Scavenging-rate > n.a. THEN DISABLING UNTIL: Scavenging-rate < n.a. AND Integrated air mass > n.a. CASE 2: (without scavenging) Integrated air mass > 0.00 kg Engine running	10.0 s	Once/DCY 1 DCY
P013E	O2 Sensor Delayed Response - Rich to Lean Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Arithmetic filtered max differential delay time at rich to lean transition > n.a. OR EWMA filtered max differential delay time at rich to lean transition > 1.0 s AND Number of checks >= 3.00	O2S front out of range ready, no fault Heat supply >= n.a. Integrated exhaust gas mass > 1.00 kg Integrated exhaust gas mass flow after O2S rear ready > 0.50 kg Integrated exhaust gas mass flow during > 0.20 kg Catalyst temperature 500 - 830°C Exhaust gas mass flow40.00 to 140.00 kg/h Change of exhaust gas mass flow-65.00 to 65.00 kg/h Engine speed 800 to 5000 RPM O2S rear stuck lean / stuck rich ready, no fault SCAVENGING: Scavenging-rate < n.a. Integrated air mass n.a. Lambda control closed loop Lambda set value before n.a. For integrated exhaust gas mass n.a. Lambda set value n.a. For time n.a. BINARY SENSOR FRONT FITTED: O2S front voltage > n.a. LINEAR SENSOR FRONT FITTED: Lambda value < 0.99 THRESHOLD 1: O2S rear voltage >= 0.75 V Gradient O2S rear voltage -0.01 to 0.02 V/s Integrated negative O2 >= 50 mg OR THRESHOLD 2: O2S rear voltage > 1.25 V	40.0 s	Once/DCY 1 DCY
P013F	O2 Sensor Delayed Response - Lean to Rich Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	EWMA filtered max differential delay time at lean to rich transition >= 2.4 to 4.4 s Number of checks >= 3.00 - (initial phase and step function)	O2S front out of range ready, no fault GENERAL: Heat supply >= n.a. Integrated exhaust gas mass > 1.00 kg Integrated exhaust gas mass flow after O2S rear ready > 0.50 kg Integrated exhaust gas mass flow during > 0.20 kg Catalyst temperature 500 - 830°C Exhaust gas mass flow40.00 to 140.00 kg/h Change of exhaust gas mass flow-65.00 to 65.00 kg/h Engine speed 800 to 5000 RPM O2S rear stuck lean / stuck rich ready, no fault SCAVENGING: Scavenging-rate < n.a. Integrated air mass n.a. Lambda control closed loop Lambda set value before n.a. For time n.a. BINARY SENSOR FRONT FITTED: O2S front voltage > n.a. LINEAR SENSOR FRONT FITTED: Lambda value < 1.01 CASE 1: (Diagnosis in Catalyst State full) Time after engine start n.a. s THRESHOLD 1: O2S rear voltage <= 0.00 V Gradient O2S rear voltage -160.0 V/s Integrated negative O2 >= 50 mg OR THRESHOLD 2: O2S rear voltage < 0.55 V CASE 2: (Diagnosis at Fuel Feed Restart) Integrated exhaust gas mass flow > 50.0 kg Integrated exhaust gas mass > 50.0 kg Exhaust gas mass during >0.20 kg Catalyst temperature 500.0 to 830.0 °C Exhaust gas mass flow 6.00 to 140.0 kg/h Gradient of exhaust gas mass flow -3276.80 to 3276.70 kg/h Engine speed 520.0 to 4000.0 RPM O2S rear voltage > 0.15 V After fuel cut off for time >= 2.0 s AND O2 mass > 1000 mg	40.0 s	Once/DCY 1 DCY
P0140	O2 Sensor Circuit No Activity Detected Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Signal voltage, 0.40 - 0.60 V For time > 3.0 s AND Difference of sensor voltage with load pulse and voltage without load pulse (mean value of 3 measurements) > = 2.80V	CASE 1: sensor ready for operation Sensor voltage<= 0.40 V OR Sensor voltage0.50 to 1.26 V CASE 2: sensor theoretical ready for operation For time> 12 s Sensor sufficient heated up if exhaust temperature >= 700° C For time> 18 s OR Heater power >= 50% For time> 18.0 s GENERAL: Engine running General: dew point exceeded	30.0 s	Multiple 2 DCY
P0140	O2 Sensor Circuit No Activity Detected Bank 1 Sensor 2		Internal resistance > 40000.00 Ω AND Exhaust temperature > 600.0° C	CASE 1: sensor ready for operation Sensor voltage<= 0.40 V OR Sensor voltage0.50 to 1.26 V CASE 2: sensor theoretical ready for operation For time> 12 s Sensor sufficient heated up if exhaust temperature >= 700° C For time> 18 s OR Heater power >= 50% For time> 18.0 s GENERAL: Engine running General: dew point exceeded	30.0 s	Multiple 2 DCY
P0141	O2 Sensor Heater Circuit Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Heater resistance, 810 to 4560 Ω	Modeled exhaust gas temp, 250-700° C Engine shutoff time, > 60.0 s (during ECM keep alive-time after ignition off)< 300.0 s Fuel cut-off not active Number of checks 10 Heater commanded ON	15.0 s	Multiple 2 DCY
P0145	O2 Sensor Circuit Slow Response Bank 1 Sensor 3	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	EWMA filtered transient time at fuel cut-off, >0.40 s In voltage range, 401.4 to 201.2 mV Number of checks (initial phase), >3 Number of checks (step function), >3	Rich voltage, >=547.9 mV Lean voltage <=152.3 mV OR Max O2 mass flow (disable), >=6000 mg O2S rear, ready Fuel cut-off, active Front O2 sensor, lambda signal, >2.00 Modeled exhaust gas temp. >400° C Exhaust gas mass flow, >25.0 kg/h Rear O2 sensor internal resistance, <=131 KΩ Or resistance measurement, ready Front O2 sensor, sensor cross change, no fault Rear O2 sensor heater, wires and oscillating check, no fault Purge valve, no fault Trigger for step change, delta transient time, READ ERROR	4.5 s	2 DCY
P0169	Incorrect Fuel Composition	-- Quality of fuel is suspect. Check the Fuel Quality Sensor -G446-. Refer to Fuel Quality Sensor -G446-, CHECKING .	Comparison with fuel quantityincorrect	Internal Electronic Throttle Control Module fault	0.50 s 2.0 s	Continuous 2 DCY
P0171	System Too Lean Bank 1	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .-- Check the intake system for leaks (false air).	Lean @ idle Adaptive value >21% Lean @ part-load Adaptive value 26(only B8 ULEVVII	GENERAL: Number of injections after engine start >= 200.00 ECT, >63.0° C Lambda control, closed loop AND CASE 1: EVAP purge not active CASE 2: EVAP purge flow integral >= 0.0 g	35.0 s	Continuous 2 DCY
P0172	System Too Rich Bank 1	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .-- Check the intake system for leaks (false air).	Too rich at idle Adaptive value <5.02% (<6.0 only B8 ULEV) Too rich at part-load Adaptive value <21% (-26(only B8 ULEVVII)	GENERAL: Number of injections after engine start >= 200.00 ECT, >= 55.0° C Lambda control, closed loop High PCV purge load due to oil dilution not detected AND CASE 1: EVAP purge not active CASE 2: EVAP purge flow integral >= 0.0 g	35.0 s	Continuous 2 DCY
P0177	Fuel Composition Sensor Circuit Range/Performance	-- Check the Fuel Quality Sensor -G446-. Refer to Fuel Quality Sensor -G446-, CHECKING .	Signal fault Possibly in fuel change window after refueling event	Engine ON Change in ethanol sensor signal < 4.25% Eth	0.20 s 5.0 s 800.0 s	Continuous / Multipule Once / DCY / 2 DCY
P0178	Fuel Composition Sensor Circuit Low	-- Check the Fuel Quality Sensor -G446-. Refer to Fuel Quality Sensor -G446-, CHECKING .	Signal Voltage < 1.0 V	Engine Running	5.0 s	Continuous 2 DCY
P0179	Fuel Composition Sensor Circuit High	-- Check the Fuel Quality Sensor -G446-. Refer to Fuel Quality Sensor -G446-, CHECKING .	Signal Voltage > 2.2 V	Engine Running	5.0 s	Continuous 2 DCY
P0190	Fuel Pressure Regulator 1 Control Circuit/Open	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Signal voltage > 4.90 V	---	0.50 s	Continuous 2 DCY
P0191	Fuel Rail Pressure Sensor Circuit Range/Performance Bank 1	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Actual Pressure = > 21.30 MPa	Engine speed, > 1000 - 7000 RPM	3.0 s	Continuous 2 DCY
P0192	Fuel Rail Pressure Sensor Circuit Low Bank 1	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Signal voltage < 0.20 V	---	0.50 s	Continuous 2 DCY
P0201	Cylinder 1 Injector "A" Circuit	-- Check the Cylinder 1 Fuel Injector -N30-. Refer to FUEL INJECTORS, CHECKING .	Low side signal current < 2.10 A Internal logic failure	Engine speed, > 80.0 RPM Injection valve switched ON	0.50 s	Continuous 2 DCY
P0202	Cylinder 2 Injector "A" Circuit	-- Check the Cylinder 2 Fuel Injector -N31-. Refer to FUEL INJECTORS, CHECKING .	Low side signal current <2.10 A Internal logic failure	Engine speed, > 80.0 RPM Engine speed, > 80.0 RPM Injection valve =switched on	0.50 s	Continuous 2 DCY
P0203	Cylinder 3 Injector "A" Circuit	-- Check the Cylinder 3 Fuel Injector -N32-. Refer to FUEL INJECTORS, CHECKING .	Low side signal current <2.10 A Internal logic failure	Engine speed, > 80.0 RPM Engine speed, > 80.0 RPM Injection valve switched ON	0.50 s	Continuous 2 DCY
P0204	Cylinder 4 Injector "A" Circuit	-- Check the Cylinder 4 Fuel Injector -N33-. Refer to FUEL INJECTORS, CHECKING .	Low side signal current <2.10 A Internal logic failure	Engine speed, > 80.0 RPM Engine speed, > 80.0 RPM Injection valve switched ON	0.50 s	Continuous 2 DCY
P0221	Throttle/Pedal Position Sensor/Switch "B" Circuit Range/Performance	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .	TPS 1-TPS 2, > 5.10 to 6.30 % AND Actual TPS 2-calc. value, > actual TPS 1calc. value OR TPS 2-calc value > 9.00%	Engine speed > 480.0 RPM	0.30 s	Multiple 2 DCY
P0222	Throttle/Pedal Position Sensor/Switch "B" Circuit Low	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .	Signal voltage, < 0.20 V	---	0.10 s	Multiple 2 DCY
P0223	Throttle/Pedal Position Sensor/Switch "B" Circuit High	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .	Signal voltage, > 4.81 V	---	0.10 s	Multiple 2 DCY
P0234	Turbocharger/Supercharger "A" Overboost Condition	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING .	Diff. set value boost pressure vs actual boost pressure value, >20.00 to 128.00 kPa	Altitude < 2700 m	1.50 s	Multiple 2 DCY
P0236	Turbocharger/Supercharger Boost Sensor "A" Circuit Range/Performance	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING .-- Check the charge air system for proper seal. Refer to Engine Mechanical, Fuel Injection and Ignition, Charge Air System in the repair manual.	Diff. boost pressure signal vs altitude sensor signal, > 24.20 kPa Diff. boost pressure signal vs altitude sensor signal, < 14.20 kPa	Engine speed, <1000 RPM Throttle position, <11.50% Engine speed, <1000 RPM Throttle position, <11.50%	2.0 s	Multiple 2 DCY
P0237	Turbocharger/Supercharger Boost Sensor "A" Circuit Low	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING .-- Check the charge air system for proper seal. Refer to appropriate repair information.	Signal voltage, < 0.20 V	Engine speed > 80.0 RPM	0.20 s	Continuous 2 DCY
P0238	Turbocharger/Supercharger Boost Sensor "A" Circuit High	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING .-- Check the charge air system for proper seal. Refer to appropriate repair information.	Signal voltage > 4.88 V	Engine speed > 80.0 RPM Throttle position < 11.50 %	0.20 s	Continuous 2 DCY
P0243	Turbocharger/Supercharger Wastegate Solenoid "A"	-- Check the Wastegate Bypass Regulator Valve -N75-. Refer to Wastegate Bypass Regulator Valve -N75-, CHECKING .	Signal voltage, > 4.40 to 5.60 V	Boost pressure control valve, commanded OFF Engine speed, > 80.0 RPM	0.50 s	Continuous 2 DCY
P0245	Turbocharger/Supercharger Wastegate Solenoid "A" Low	-- Check the Wastegate Bypass Regulator Valve -N75-. Refer to Wastegate Bypass Regulator Valve -N75-, CHECKING .	Signal voltage, < 2.15 - 3.25 V	Boost pressure control valve, commanded OFF Engine speed, > 80.0 RPM	0.50 s	Continuous 2 DCY
P0246	Turbocharger/Supercharger Wastegate Solenoid "A" High	-- Check the Wastegate Bypass Regulator Valve -N75-. Refer to Wastegate Bypass Regulator Valve -N75-, CHECKING .	Signal current > 2.20 to 4.0 A	Boost pressure control valve, commanded ON Engine speed, > 80.0 RPM	0.05 s	Continuous 2 DCY
P025A	Fuel Pump Module "A" Control Circuit/Open	-- Check the Fuel Pump Control Module -J538- / Fuel Delivery Unit -GX1-. Refer to Fuel Pump Control Module - J538- / Fuel Delivery Unit -GX1-, CHECKING .	Signal voltage 4.8 to 5.3 V	Engine speed > 80.0 RPM	0.50 s	Continuous 2 DCY/No MIL
P025C	Fuel Pump Module "A" Control Circuit Low	-- Check the Fuel Pump Control Module -J538- / Fuel Delivery Unit -GX1-. Refer to Fuel Pump Control Module - J538- / Fuel Delivery Unit -GX1-, CHECKING .	Signal voltage < 2.7 - 3.25 V	Engine speed > 80.0 RPM	0.50 s	Continuous 2 DCY/No MIL
P025D	Fuel Pump Module "A" Control Circuit High	-- Check the Fuel Pump Control Module -J538- / Fuel Delivery Unit -GX1-. Refer to Fuel Pump Control Module - J538- / Fuel Delivery Unit -GX1-, CHECKING .	Signal current > 0.6 mA	Engine speed > 80.0 RPM	0.50 s	Continuous 2 DCY/No MIL
P0261	Cylinder 1 Injector "A" Circuit Low	-- Check the Cylinder 1 Fuel Injector -N30-. Refer to FUEL INJECTORS, CHECKING .	Signal current < 2.10 A	Engine speed, > 80.0 RPM High side signal current, > 4.20 A	0.50 s	Continuous 2 DCY
P0262	Cylinder 1 Injector "A" Circuit High	-- Check the Cylinder 1 Fuel Injector -N30-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 14.70 A	Engine speed, > 80.0 RPM Injection valve, switched ON	0.50 s	Continuous 2 DCY
P0264	Cylinder 2 Injector "A" Circuit Low	-- Check the Cylinder 2 Fuel Injector -N31-. Refer to FUEL INJECTORS, CHECKING .	Signal current < 2.10 A	Engine speed, > 80.0 RPM High side signal current, > 4.20 A	0.50 s	Continuous 2 DCY
P0265	Cylinder 2 Injector "A" Circuit High	-- Check the Cylinder 2 Fuel Injector -N31-. Refer to FUEL INJECTORS, CHECKING .	Signal current >14.70 A	Engine speed, > 80.0 RPM Injection valve, Commanded ON	0.50 s	Continuous 2 DCY
P0267	Cylinder 3 Injector "A" Circuit Low	-- Check the Cylinder 3 Fuel Injector -N32-. Refer to FUEL INJECTORS, CHECKING .	Signal current < 2.10 A	Engine speed, > 80.0 RPM High side signal current, > 4.20 A	0.50 s	Continuous 2 DCY
P0268	Cylinder 3 Injector "A" Circuit High	-- Check the Cylinder 3 Fuel Injector -N32-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 14.70 A	Engine speed, > 80.0 RPM Injection valve, Commanded ON	0.50 s	Continuous 2 DCY
P0270	Cylinder 4 Injector "A" Circuit Low	-- Check the Cylinder 4 Fuel Injector -N33-. Refer to FUEL INJECTORS, CHECKING .	Signal current < 2.10 A	Engine speed, > 80.0 RPM High side signal current, > 4.20 A	0.50 s	Continuous 2 DCY
P0271	Cylinder 4 Injector "A" Circuit High	-- Check the Cylinder 4 Fuel Injector -N33-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 14.70 A	Engine speed, > 80.0 RPM Injection valve, Commanded ON	0.50 s	Continuous 2 DCY
P0299	Turbocharger/Supercharger "A" Underboost Condition	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING .	Diff. set value boost pressure vs actual boost pressure value (filtered) > 15.00 kPa	Engine speed > 2200 to 2800 RPM Altitude < 2700 m Diff. set value boost pressure vs. basic boost pressure value > 20.00 kPa Boost pressure control = active Turbo charger bypass valve = closed	6.0 s	Multiple 2 DCY
P0300	Random/Multiple Cylinder Misfire Detected	-- Check the spark plugs visually.-- Check the intake system visually for leaks.-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Ignition Coils with Power Output Stage --. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Emission threshold misfire rate (MR) > 2.1% Catalyst damage misfire rate (MR) > 2.9 - 20.0%	CASE 1: ECT @ Start > = -11° C CASE 2: ECT @ Start > -11° C Then activation if ECT > 20 °C GENERAL: Active after engine startidle - 150 RPM + 1 camshaft rev Time after engine start > 0.0 s Engine torque, >=0 Nm Fuel cut off = Not active Rough road not detected	1000 Rev. Continuous 200 Rev. Continuous	2 DCY Immediately
P0301	Cylinder 1 Misfire Detected	-- Check the spark plugs visually.-- Check the intake system visually for leaks.-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Ignition Coils with Power Output Stage --. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Emission threshold misfire rate (MR) > 2.1% Catalyst damage misfire rate (MR) > 2.9 - 20.0%	CASE 1: ECT @ Start > = -11° C CASE 2: ECT @ Start > -11° C Then activation if ECT > 20 °C GENERAL: Active after engine startidle - 150 RPM + 1 camshaft rev Time after engine start > 0.0 s Engine torque, >=0 Nm Fuel cut off = Not active Rough road not detected	1000 Rev. Continuous 200 Rev. Continuous	2 DCY Immediately
P0302	Cylinder 2 Misfire Detected	-- Check the spark plugs visually.-- Check the intake system visually for leaks.-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Ignition Coils with Power Output Stage --. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Emission threshold misfire rate (MR) > 2.1% Catalyst damage misfire rate (MR) > 2.9 - 20.0%	CASE 1: ECT @ Start > = -11° C CASE 2: ECT @ Start > -11° C Then activation if ECT > 20 °C GENERAL: Active after engine startidle - 150 RPM + 1 camshaft rev Time after engine start > 0.0 s Engine torque, >=0 Nm Fuel cut off = Not active Rough road not detected	1000 Rev. Continuous 200 Rev. Continuous	2 DCY Immediately
P0303	Cylinder 3 Misfire Detected	-- Check the spark plugs visually.-- Check the intake system visually for leaks.-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Ignition Coils with Power Output Stage --. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Emission threshold misfire rate (MR) > 2.1% Catalyst damage misfire rate (MR) > 2.9 - 20.0%	CASE 1: ECT @ Start > = -11° C CASE 2: ECT @ Start > -11° C Then activation if ECT > 20 °C GENERAL: Active after engine startidle - 150 RPM + 1 camshaft rev Time after engine start > 0.0 s Engine torque, >=0 Nm Fuel cut off = Not active Rough road not detected	1000 Rev. Continuous 200 Rev. Continuous	2 DCY Immediately
P0304	Cylinder 4 Misfire Detected	-- Check the spark plugs visually.-- Check the intake system visually for leaks.-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Ignition Coils with Power Output Stage --. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Emission threshold misfire rate (MR) > 2.1% Catalyst damage misfire rate (MR) > 2.9 - 20.0%	CASE 1: ECT @ Start > = -11° C CASE 2: ECT @ Start > -11° C Then activation if ECT > 20 °C GENERAL: Active after engine startidle - 150 RPM + 1 camshaft rev Time after engine start > 0.0 s Engine torque, >=0 Nm Fuel cut off = Not active Rough road not detected	1000 Rev. Continuous 200 Rev. Continuous	2 DCY Immediately
P0321	Ignition/Distributor Engine Speed Input Circuit Range/Performance	-- Check the Engine Speed Sensor -G28-. Refer to Engine Speed Sensor - G28-, CHECKING .	Counted teeth versus reference = incorrect OR Monitoring reference gap = failure	---	1.50 s	Multiple 2 DCY
P0322	Ignition/Distributor Engine Speed Input Circuit No Signal	-- Check the Engine Speed Sensor -G28-. Refer to Engine Speed Sensor - G28-, CHECKING .	Camshaft Signals >3.00 Engine speed = no Signal	---	2.5 s	Multiple 2 DCY
P0324	Knock Control System Error	-- Check the Knock Sensor -G61-. Refer to Knock Sensor 1 -G61-, CHECKING .	Signal fault counter (combustion), > 24.0 OR Signal fault counter (measuring window), > 2.00	Engine speed, > 2500 RPM	0.50 s	Multiple 2 DCY
P0327	Knock/Combustion Vibration Sensor 1 Circuit Low Bank 1 or Single Sensor	-- Check the Knock Sensor -G61-. Refer to Knock Sensor 1 -G61-, CHECKING .	Lower threshold, < -0.70 V OR Lower threshold< 0.58 - 1.60 V	Engine speed, > 1000 RPM OR Engine speed, > 2000 RPM ECT> 41 °C Engine load> 42.80 - 60.00 %	0.50 s 3.0 s	Continuous 2 DCY
P0328	Knock/Combustion Vibration Sensor 1 Circuit High Bank 1 or Single Sensor	-- Check theKnock Sensor -G61-. Refer to Knock Sensor 1 -G61-, CHECKING	Upper threshold> 1.00V OR Upper threshold> 18.00 - 150.00 V	Engine speed, > 1000 RPM OR Engine speed, > 2000 RPM ECT, > 41° C Engine load> 42.80 - 60.00 %	0.50 s 3.0 s	Continuous 2 DCY
P0340	Camshaft Position Sensor "A" Circuit Bank 1 or Single Sensor	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	Cam adaption values out of range >20 ° KW <-20 ° KW Difference of adapted and actual values >9° KW	Engine speed sensor, No DTC Phase sensor, No DTC Cam adaptation, Active Engine speed sensor, No DTC Phase sensor, No DTC Camshaft adjustment, No DTC Engine start, Completed Cam adaptation, Completed Camshaft in ref pos. for >2.0 sec.	2.0 s	2 DCY
P0341	Camshaft Position Sensor "A" Circuit Range/Performance Bank 1 or Single Sensor	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	Signal pattern incorrect Defect counter 12.00	----	0.50 s	Continuous 2 DCY
P0342	Camshaft Position Sensor "A" Circuit Low Bank 1 or Single Sensor	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	Signal voltage permanently low and Crankshaft signals 8.0	---	0.50 s	Continuous 2 DCY
P0343	Camshaft Position Sensor "A" Circuit High Bank 1 or Single Sensor	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	Signal voltage permanently high crankshaft signals 8.0	---	0.50 s	Continuous 2 DCY
P0351	Ignition Coil "A" Primary Control Circuit/Open	-- Check the Ignition Coil 1 With Power Output Stage -N70-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current, 0.25 to 2.00 mA OR Internal check, failed	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P0352	Ignition Coil "B" Primary Control Circuit/Open	-- Check the Ignition Coil 2 With Power Output Stage -N127-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current, 0.25 to 2.00 mA OR Internal check, failed	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P0353	Ignition Coil "C" Primary Control Circuit/Open	-- Check the Ignition Coil 3 With Power Output Stage -N291-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current, 0.25 to 2.00 mA OR Internal check, failed	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P0354	Ignition Coil "D" Primary Control Circuit/Open	-- Check the Ignition Coil 4 With Power Output Stage -N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current, 0.25 to 2.00 mA OR Internal check, failed	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P0410	AIR System	-- Check the Secondary Air System. Refer to appropriate repair information.	Deviation SAI pressure, >20.0 hPa	Mass air flow, 7 to 150kg/h Delta engine load, -10 to 10% rev ECT, 5 to 39.8° C IAT, 5 to 40° C Altitude, <2700 m SAI pressure sensor, ready no fault.	10.0 s	Once/DCY 2 DCY
P0413	AIR System Switching Valve "A" Circuit Open	-- Check the Secondary Air System. Refer to appropriate repair information.	Signal voltage, 9.25 to 11.25 V	Air valve, commanded OFF Engine speed, >80.0 RPM	0.50 s	Continuous 2 DCY
P0414	AIR System Switching Valve "A" Circuit Shorted	-- Check the Secondary Air System. Refer to appropriate repair information.	Signal voltage <6.00 V	Air valve, commanded OFF Engine speed, >80.0 RPM	0.50 s	Continuous 2 DCY
P0415	AIR System Switching Valve "B" Circuit	-- Check the Secondary Air System. Refer to appropriate repair information.	Signal current 2.20 to 4.20 A	Air valve, commanded ON Engine speed, >80.0 RPM	0.50 s	Continuous 2 DCY
P0418	AIR System Control "A" Circuit	-- Check the Secondary Air System. Refer to appropriate repair information.	Signal voltage 4.50 to 5.50 V	Pump relay commanded OFF Engine speed, >80.0 RPM	0.50 s	Continuous 2 DCY
P0420	Catalyst System Efficiency Below Threshold Bank 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .-- Check the Three Way Catalytic Converter (TWC). Refer to THREE WAY CATALYTIC CONVERTER (TWC), CHECKING .	Measured OSC / OSC of borderline catalyst value for front catalyst, < 1.00	Time after engine start > n.a. OR Modeled exhaust gas temp dynamic < 35.° K Modeled exhaust gas temp. in catalyst system, lower range, 580 to 710° C Modeled exhaust gas temp in catalyst system, upper range, 680 to 845° C Minimum modeled exhaust gas temp. in catalyst system > 400 °C For time, > 60.0 s Filtered minimum modeled exhaust gas temp. in catalyst system >0.00° C Engine load 15.00 to 125.30 % EVAP purge loading not high Engine speed, 1200-3600 RPM Deviation between lambda set point and actual lambda value < 3.00% Lambda control closed loop Lambda control not at min or max limit AAT > -11.0 ° C Number of checks, no step change suspicion 1.0 Number of checks, step change suspicion 6.0 O2S front, ready O2S rear, ready AIR not active No misfire O2S front plausibility check in current driving cycle ready O2S front response monitoring in current driving cycle ready	70.0 s	Once/DCY 1 DCY


P0441	EVAP System Incorrect Purge Flow	-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .-- Check the Fuel Tank Leak Detection Control Module -J909-. Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	Deviation lambda control < 7.00% AND Deviation idle control < 30.00 %	CHOICE OF: EVAP purge flow integral >150.0 to 170.0 g OR Integrated air mass, 5500 to 8016 kg AND CHOISE OF: ECT, >55° C OR Substitute ECT, >80 °C AND GENERAL: Engine speed, Idle RPM Engine speed, < n.a. RPM Engine speed deviation, < 200 RPM Engine load 0.00 to 50.02% Engine load deviation <= 3.00% AAT > 4.0°C Altitude, <2700 m Lambda control, closed loop	18.20 s	Once/ DCY 2 DCY
P0442	EVAP System Leak Detected (small leak)	-- Check the EVAP System, for Leaks. Refer to EVAP SYSTEM, CHECKING FOR LEAKS . -- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .-- Check the Fuel Tank Leak Detection Control Module -J909-. Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	Time for pressure drop < 1.55 to 1.75 s	Time after engine start> 5 to 65530 s ECT, 4 to 120° C ECT at start, 4 to 50° C Engine off time, >21600 s Ambient air temp 4 to 59° C Ambient air temp drop after engine start, < 8 K Intake manifold vacuum, > 2560 hPa Altitude, < 2700 m Vehicle speed, > 40 km/h Once Selected gear, Any drive restart temp difference, >0.0 K Evap purge valveclosed LDP, Activated Delta ambient pressure, < 2.5 hPa Delta vehicle speed not >150 km/h	150.40 s	Once DCY 2 DCY
P0444	EVAP System Purge Control Valve "A" Circuit Open	-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .	Signal voltage> 4.40 to 5.40 V	EVAP purge valve, Commanded off Engine speed, > 80.0 RPM	0.50 s	Continuous 2 DCY
P0450	EVAP System Pressure Sensor/Switch Circuit	-- Check the Fuel Tank Leak Detection Control Module -J909- Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	Signal voltage> 0.39 to 0.55 V	CASE 1: Ignition ON Engine running CASE 2 Ignition off NVLD (EVAP-System) diagnostic mode active	0.50 s	Continuous 2 DCY
P0451	EVAP System Pressure Sensor/Switch Circuit Range/Performance	-- Check the Fuel Tank Leak Detection Control Module -J909- Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	Natural vacuum leak detection (NVLD) switch position closed	Ignition off Fuel level < 85.0% Fuel temperature increase>= 5.0 K For time >= 1.0 h AAT >= 4.0° C Barometric pressure > 73.00 kPa Time since ignition off > 1200 s Time since ignition off < 24 h	n.a.	Once DCY 2 DCY
P0452	EVAP System Pressure Sensor/Switch Circuit Low	-- Check the Fuel Tank Leak Detection Control Module -J909- Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	Signal voltage < 0.24 V	CASE 1: Ignition ON Engine running CASE 2 Ignition off NVLD (EVAP-System) diagnostic mode active	0.50 s	Continuous 2 DCY
P0453	EVAP System Pressure Sensor/Switch Circuit High	-- Check the Fuel Tank Leak Detection Control Module -J909- Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	Signal voltage> 3.0 V	CASE 1: Ignition ON Engine running CASE 2 Ignition off NVLD (EVAP-System) diagnostic mode active	0.50 s	Continuous 2 DCY
P0455	EVAP System Leak Detected (large leak)	-- Check the EVAP System, for Leaks. Refer to EVAP SYSTEM, CHECKING FOR LEAKS . -- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .-- Check the Fuel Tank Leak Detection Control Module -J909-. Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	Time for pressure drop < 0.95 s	Time after engine start> 5 to 65530 s ECT, 4 to 120° C ECT at start, 4 to 50° C Engine off time, >21600 s Ambient air temp 4 to 59° C Ambient air temp drop after engine start, < 12 K Intake manifold vacuum, > 2560 hPa Altitude, < 2700 m Vehicle speed, > 40 km/h once Selected gear, Any drive Restart temp difference, >0.0 K Evap purge valveclosed LDP, Activated Delta ambient pressure, < 2.50 hPa Delta vehicle speed not >150 km/h	120.0 s	Once/DCY 2 DCY
P0456	EVAP System Leak Detected (very small leak)	-- Check the EVAP System, for Leaks. Refer to EVAP SYSTEM, CHECKING FOR LEAKS . -- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .-- Check the Fuel Tank Leak Detection Control Module -J909- Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	<5.0 -6.5 s	Ignition off Fuel level < 85.0 % Fuel temperature drop >= 6.0° K For time >= 1.0 h AAT >= 5.0 Barometric pressure > 73.00 kPa Difference between barometric pressure @ stop and barometric pressure @ start > 1.5 h Start > 1.5 h Time since ignition off < 10.0 h	n.a.	Once DCY 2 DCY
P0458	EVAP System Purge Control Valve "A" Circuit Low	-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .	Signal voltage, 0.0 to 3.26 V	EVAP purge valve, Commanded off Engine speed, >80.0 RPM	0.50 s	Continuous 2 DCY
P0459	EVAP System Purge Control Valve "A" Circuit High	-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .	Signal current, > 2.20 A	EVAP purge valve, Commanded ON Engine speed, >80.0 RPM	0.50 s	Continuous 2 DCY
P0461	Fuel Level Sensor "A" Circuit Range/Performance	-- Check the Instrument cluster control module for proper functioning. Refer to appropriate repair information.	Difference between fuel consumption and fuel level changes <-12.00 to 12.00 l	GENERAL: Vehicle speed > 6.0 MPH AND CASE 1: FOR TANK FULL Fuel level > 96.00% Fuel consumption since last refueling or last plausibility check > 30.00 l CASE 2: FOR TANK NOT FULL Fuel level <= 96.00 % Fuel consumption since last refueling or last plausibility check > 15.00 l	1.0 s	Multiple 2 DCY
P0462	Fuel Level Sensor "A" Circuit Low	-- Check the Instrument cluster control module for proper functioning. Refer to appropriate repair information.	Instrument cluster module signal: short to ground, failure OR Instrument cluster module signal: signal range check, failure	Ignition ON	0.50 s	Continuous 2 DCY
P0463	Fuel Level Sensor "A" Circuit High	-- Check the Instrument cluster control module for proper functioning. Refer to appropriate repair information.	Instrument cluster module signal: short to battery / open circuit, failure	Ignition ON	0.50 s	Continuous 2 DCY
P0491	AIR System Insufficient Flow Bank 1	-- Check the Secondary Air System. Refer to appropriate repair information.	SAI pressure measured with SAI pressure sensor vs modeled < 0.6 (0.62) %	Mass air flow, 7 to 150kg/h Delta engine load, -10 to 10% rev ECT, 5 to 60° C IAT, 5 to 40° C Altitude, <2700 m SAI pressure sensor, ready no fault.	18.5 s	Once/DCY 2 DCY
P0501	Vehicle Speed Sensor "A" Circuit Range/Performance	-- Check the vehicle speed signal. Refer to VEHICLE SPEED SIGNAL, CHECKING .	Vehicle speed < 2 MPH	Fuel cut off = active Engine speed 1520 - 4520 RPM ECT> 40 °C	2.0 s	Multiple 2 DCY
P0503	Vehicle Speed Sensor "A" Circuit Intermittent/Erratic/High	-- Check vehicle speed signal. Refer to VEHICLE SPEED SIGNAL, CHECKING .	Vehicle speed > 200 km/h	---	0.50 s	Continuous 2 DCY
P0506	Idle Control System RPM - Lower Than Expected	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .-- Check the Engine Speed Sensor -G28-. Refer to Engine Speed Sensor - G28-, CHECKING .	OUT OF RANGE LOW: Engine speed deviation > 80.0 RPM AND RPM controller torque value >= calculated max. value	Time after engine start>= 0.0s Engine speed =idle Vehicle speed 0.0 MPH Altitude < 2700 m ECT> -11 °C IAT @ manifold > -48 °C External torque request = not demanded For Manual Transmission: Engine load< 19.99 to 63.00 %	4.0 s	Multiple 2 DCY
			Engine speed deviation <-80.0 RPM RPM controller torque value > = calculated max. value		4.0 s
			Integrated deviation of engine speed low and integrated deviation of engine speed high > 2000.0 RPM		3.0 s
P0507	Idle Control System RPM - Higher Than Expected	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .-- Check the Engine Speed Sensor -G28-. Refer to Engine Speed Sensor - G28-, CHECKING .	Engine speed deviation <-80.0 RPM AND RPM controller torque value<= calculated min. value OR Integrated number of fuel cut off transitions = n.a.	Time after engine start>= 0.0s Engine speed =idle Vehicle speed 0.0 MPH Altitude < 2700 m ECT> -11 °C IAT @ manifold > -48 °C External torque request = not demanded	7.0 s	Multiple 2 DCY
P050A	Cold Start Idle Control System Performance	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .-- Check the Engine Speed Sensor -G28-. Refer to Engine Speed Sensor - G28-, CHECKING .	Integrated deviation of engine speed low and integrated deviation of engine speed high> 2000 RPM	Catalyst heating active Engine speed =idle Vehicle speed 0.0 MPH Altitude < 2700 m External torque request = not demanded	3.0 s	Multiple 2 DCY
			Engine speed deviation >80.0 RPM AND RPM controller torque value>= calculated max. value	Catalyst heating active Engine speed =idle Vehicle speed 0.0 MPH Altitude < 2700 m External torque request = not demanded For Manual Transmission: Engine load < 19.99 to 63.00 %	4.0 s
			Engine speed deviation< -80.0 RPM AND RPM controller torque value<= calculated min. value OR Integrated number of fuel cut off transitions = n.a.	Time after engine start>= 0.0s Engine speed =idle Vehicle speed 0.0 MPH Altitude< 2700m External torque request = not demanded Commanded idle speed increase for catalyst heating = active For manual transmission: Engine load< 19.99 - 63.00 %	4.0 s
P050B	Cold Start Ignition Timing Performance	-- Check the Ignition Coils with Power Output Stage --. Refer to Ignition Coils With Power Output Stage --, CHECKING .-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	Difference between commanded spark timing vs. actual value > 20.00 - 35.00 %	Time during catalyst heating > 13.0 s Commanded spark retard during catalyst heating< 80.0% Catalyst heating = active Idle speed = active Vehicle speed0.0 MPH Delta engine load < = 49.99 % Delta engine speed< = 1000 RPM Engine load<= 75.00 to 100.01%	10.0 s	Once/DCY 2 DCY
P052A	Cold Start "A" Camshaft Position Timing Over-Advanced Bank 1	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Difference between target position vs. actual position > 12.0 °CRK	Time after engine start>= 15.0 s Engine speed>= 0 RPM Modeled oil temperature> = -13° C Commanded camshaft timing correction for catalyst heating = active	3.5 s	Once/DCY 2 DCY
P053F	Cold Start Fuel Pressure Performance	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Difference between target pressure vs. actual pressure, > 2.00 MPa OR Difference between target pressure vs. actual pressure, < -2.00 MPa	Time after engine start12.0 s Fuel cut off not active Time after fuel cut Off > 7.0 s Catalyst heatingactive	4.5 s	Multiple 2 DCY
P0601	Internal Control Module Memory Check Sum Error	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	Internal check sum, incorrect	---	---	Continuous 2 DCY
P0604	Internal Control Module Random Access Memory (RAM) Error	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	Write ability check, failed	---	---	Continuous 2 DCY
P0605	Internal Control Module Read Only Memory (ROM) Error	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	Checksum Incorrect	---	---	Continuous 2 DCY
P0606	Control Module Processor	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	Internal control module processor failure	Internal hardware check, electrical adjustment check, CAN communication check, voltage supply check, or other internal control module function failed	0.50 s	Continuous 2 DCY
P0627	Fuel Pump "A" Control Circuit /Open	-- Check the Fuel Pump Control Module -J538- / Fuel Delivery Unit -GX1-. Refer to Fuel Pump Control Module - J538- / Fuel Delivery Unit -GX1-, CHECKING	Internal error fuel pump control unit Feedback from fuel pump control unit Pump blocked short circuit to battery +, ground or open circuit	Battery voltage, > 9-16 V Engine start, Completed	15.0 s	No Mil
P062B	Internal Control Module Fuel Injector Control Performance	-- Check the Motronic Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay - J271-, CHECKING .-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	SPI communications check Identifier failure	Engine speed > 80.0 RPM	2.2 s	Continuous 2 DCY
P0634	Control Module Internal Temperature "A" Too High	-- Check the Motronic Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay - J271-, CHECKING .-- Replace the Engine Control Module -J623-. Refer to appropriate repair information. Check all ECM voltages and grounds before replacing.	Power stage temperature > 150°C	Engine speed > 80.0 RPM	0.50 s	Continuous 2 DCY/No MIL
P0638	Throttle Actuator Control Range/Performance Bank 1	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .	Time to open over reference point > 0.6 s AND Reference point -1.5%	Ignition ON Engine speed <= 300RPM Vehicle speed <= 0.0 MPH ECT >= 5 °C IAT >= 5 °C	0.0 s	Multiple 2 DCY
			Time to close below reference point > 0.30 s AND Reference point 1.0 %		0.0 s
			time to close to reference point > 0.6 s and reference point2.88%	Engine speed 0.0 RPM Vehicle speed 0.0 MPH ECT > 5.0 °C IAT @ manifold > 5.0 °C Case 1: Ignition ON Case 2: Engine shut-off-time > 0.50 s Number of checks 3.00	5.0 s
			TPS 1 signal voltage< 0.40 also > 0.80V OR TPS 2 signal voltage< 4.20 also > 4.60V	Engine speed 0.0 RPM Vehicle speed 0.0 MPH Case 1: Ignition ON ECT5.0 to 115 °C IAT 5.0 to 143 °C Case 2: Engine shut-off-time > 0.50 s ECT5 - 115°C IAT5 - 143°C	0.30 s
P0641	Sensor Reference Voltage "A" Circuit/Open	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	Signal voltage, deviation > +/- 0.3 V	---	0.50 s	Continuous 2 DCY
P0642	Sensor Reference Voltage "A" Circuit Low	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	Signal voltage, < 4.6-5 V	Threshold values depending on internal 5 V rev voltage	0.50 s	2 DCY
P0643	Sensor Reference Voltage "A" Circuit High	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	5 V supply voltage >4.99-5.41 V	Threshold values depending on internal 5 V rev voltage	0.50 s	2 DCY
P0651	Sensor Reference Voltage "B" Circuit/Open	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	Signal voltage, deviation > +/- 0.3 V	---	0.50 s	Continuous 2 DCY
P0652	Sensor Reference Voltage "B" Circuit Low	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	Signal voltage, < 4.6-5 V	Threshold values depending on internal 5 V rev voltage	0.50 s	2 DCY
P0653	Sensor Reference Voltage "B" Circuit High	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	5 V supply voltage >4.99-5.41 V	Threshold values depending on internal 5 V rev voltage	0.50 s	2 DCY
P0657	Actuator Supply Voltage "A" Circuit/Open	-- Check the Motronic Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay - J271-, CHECKING .	Signal voltage, 4.40 to 5.60 V	Relay, commanded = OFF Engine speed, > 80.0 RPM	0.50 s	Continuous 2 DCY
P0658	Actuator Supply Voltage "A" Circuit Low	-- Check the Motronic Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay - J271-, CHECKING .	Signal voltage < 2.15 to 3.25 V	Relay, commanded = OFF Engine speed, > 80.0 RPM	0.50 s	Continuous 2 DCY
P0659	Actuator Supply Voltage "A" Circuit High	-- Check the Motronic Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay - J271-, CHECKING .	Signal current > 1.10 A	Relay, commanded = ON Engine speed, > 80.0 RPM	0.50 s	Continuous 2 DCY
P0685	ECM/PCM Power Relay Control Circuit/Open	-- Check the Motronic Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay - J271-, CHECKING .	Signal voltage, 2.6-3.7 V Sense circuit voltage, >6 V	ECM keep alive time main relay, Commanded ON (Test pulse)	0.50 s	2 DCY
P0686	ECM/PCM Power Relay Control Circuit Low	-- Check the Motronic Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay - J271-, CHECKING .	Signal voltage, 2.6-3.7 V Sense circuit voltage, >6 V	ECM keep alive time main relay, Commanded ON (Test pulse)	0.50 s	2 DCY
P0687	ECM/PCM Power Relay Control Circuit High	-- Check the Motronic Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay - J271-, CHECKING .	Signal current, >1.4-0.7 A Sense circuit voltage, <6 V	Main relay, Commanded ON ECM keep alive time main relay, Commanded ON (Test pulse)	0.50 s	2 DCY
P0688	ECM/PCM Power Relay Sense Circuit	-- Check the Motronic Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay - J271-, CHECKING .	Sense voltage, <3.0 V Difference sense circuit voltage with camshaft actuator commanded OFF and on >2.5 V Battery voltage > 3 V	Main relay, commanded ON ECM keep alive time Switch off test - Failed	1.0 s 4.0 s 2.0 s	2 DCY
P0697	Sensor Reference Voltage "C" Circuit/Open	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	Signal voltage, deviation > +/- 0.3 V	---	0.50 s	Continuous 2 DCY
P0698	Sensor Reference Voltage "C" Circuit Low	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	Signal voltage, < 4.6-5 V	Threshold values dep. on internal 5 V rev voltage	0.40 s	2 DCY
P0699	Sensor Reference Voltage "C" Circuit High	-- Replace the Engine Control Module -J623-. Refer to appropriate repair information.	5 V supply voltage>4.99-5.41 V	Threshold values dep. on internal 5 V rev voltage	0.40 s	2 DCY
P11A1	Cam Shift Actuator "A" Cylinder 1 Circuit/Open	-- Check the Cam Adjustment Actuator 1 -F366-. Refer to Cam Adjustment Actuators --, CHECKING .	---	Switching Active Check for open / short circuit to Battery voltage. Switching not Active Check for Short to ground.	0.30 s	2 DCY
P11A2	Cam Shift Actuator "A" Cylinder 1 Range/Performance	-- Check the Cam Adjustment Actuator 1 -F366-. Refer to Cam Adjustment Actuators --, CHECKING .	0.00147 s	Begin diagnostic window, once every start up > 430.125 KW	0.40 s	2 DCY
P11A3	Cam Shift Actuator "B" Cylinder 1 Circuit/Open	-- Check the Cam Adjustment Actuator 2 -F367-. Refer to Cam Adjustment Actuators --, CHECKING .	---	Begin diagnostic window, once every start up Switching Active Check for open / short circuit to Battery voltage. Switching not Active Check for Short to ground.	0.30 s	2 DCY
P11A4	Cam Shift Actuator "B" Cylinder 1 Range/Performance	-- Check the Cam Adjustment Actuator 2 -F367-. Refer to Cam Adjustment Actuators --, CHECKING .	0.00147 s	Begin diagnostic window, once every start up > 430.125 KW	0.40 s	2 DCY
P11A5	Cam Shift Actuator "A" Cylinder 2 Circuit/Open	-- Check the Cam Adjustment Actuator 3 -F368-. Refer to Cam Adjustment Actuators --, CHECKING .	---	Switching Active Check for open / short circuit to Battery voltage. Switching not Active Check for Short to ground.	0.30 s	2 DCY
P11A6	Cam Shift Actuator "A" Cylinder 2 Range/Performance	-- Check the Cam Adjustment Actuator 3 -F368-. Refer to Cam Adjustment Actuators --, CHECKING .	0.00147 s	Begin diagnostic window, once every start up > 430.125 KW	0.40 s	2 DCY
P11A7	Cam Shift Actuator "B" Cylinder 2 Circuit/Open	-- Check the Cam Adjustment Actuator 4 -F369-. Refer to Cam Adjustment Actuators --, CHECKING .	---	Switching Active Check for open / short circuit to Battery voltage. Switching not Active Check for Short to ground.	0.30 s	2 DCY
P11A8	Cam Shift Actuator "B" Cylinder 2 Range/Performance	-- Check the Cam Adjustment Actuator 4 -F369-. Refer to Cam Adjustment Actuators --, CHECKING .	0.00147 s	Begin diagnostic window, once every start up > 430.125 KW	0.40 s	2 DCY
P1114	O2 Sensor Heater Circuit Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Heater resistance, (128-648)*(8-40)1.02-25.9 k Ω (dep. on mod. exhaust temp. and heater power)	Battery voltage, 10.7-16.1 V Modeled exhaust gas temp, 300-600° C Engine shutoff time, 300 s IAT, >6.75° C	15.0 s	2 DCY
P12A1	Fuel Pressure Sensor Rationality Check Inappropriately Low	-- If the actual fuel pressure does not match the scan tool reading: Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Pressure control activity, > 0.25 MPa AND Fuel trim activity, < 0.80 AND Difference between target pressure vs. actual pressure -16.38 - 16.38 MPa	Engine speed > 600 - 900 RPM Engine load 10.01 - 1535.98% ECT>= 55 °C IAT< 90° C EVAP purge adaptation < 22.00 Lambda control closed loop Fuel cut off not active Target pressure0.0 - 32.8 MPa	5.0 s	Multiple 2 DCY
P12A2	Fuel Pressure Sensor Rationality Check Inappropriately High	-- If the actual fuel pressure does not match the scan tool reading: Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Pressure control activity, > 0.25 MPa AND Fuel trim activity, < 1.64 AND Difference between target pressure vs. actual pressure -16.38 - 16.38 MPa	Engine speed > 600 - 900 RPM Engine load 10.01 - 1535.98% ECT>= 55 °C IAT< 90° C EVAP purge adaptation < 22.00 Lambda control closed loop Fuel cut off not active Target pressure0.0 - 32.8 MPa	5.0 s	Multiple 2 DCY
P12A4	Fuel Volume Metering Valve Functional Check Valve Stuck Closed	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Pressure control activity, < -10.00 MPa AND Fuel trim activity, 0.85 to 1.15 - AND Difference between target pressure vs. actual pressure < 16.38 MPa	Engine speed > 600 RPM EVAP purge adaptation < 22.00 - ECT>= 55 °C IAT @ manifold< 90 °C Lambda control = closed loop Fuel cut off not active	5.0 s	Multiple 2 DCY
P13EA	Cold Start Monitoring Part Load: Ignition timing monitor	-- Check the Ignition Coils with Power Output Stage --. Refer to Ignition Coils With Power Output Stage --, CHECKING .-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	Difference between commanded spark timing vs. actual value > 20.0 45.0%	Time during catalyst heating > 13.0 s Commanded spark retard during catalyst heating< 90.0% Catalyst heating = active Idle speed not active Vehicle speed >= 3.0 MPH Delta engine load < = 49.99 % Delta engine speed< = 1000 RPM	10.0 s	Once/DCY 2 DCY
P150A	Engine-Off-Time	-- Check ALL power and grounds to the ECM. The ECM must have a power supply when the key is off to run the timer and system checks. If OK, replace the ECM.	Difference between engine-off-time and ECM after-run time < -12.0 s	Ignition ON CANactive	2.0 s	Once/DCY 2 DCY
P150A	Engine-Off-Time		Difference between engine-off-time and ECM after-run time > 12.0 s	Key-on during ECM after-run time active CANactive	2.0 s	Once/DCY 2 DCY
P169A	ECM: Transport Mode	-- Perform readiness check. Refer to READINESS CODE .	Transport mode = active	FOR ACTIVATION: During ECM keep alive-time after ignition off Vehicle speed < 3.0 MPH Engine speed 0.0 RPM Max trip mileage since initial vehicle start-up < 62.15miles FOR HYBRID: Drive motor OFF	0.0 s	1 DCY
P2004	Intake Manifold Runner Control Stuck Open Bank 1	-- Check the Intake Manifold Runner Control Valve -N316-. Refer to Intake Manifold Runner Control Valve -N316-, CHECKING .-- Check the Intake Manifold Runner Position Sensor -G336-. Refer to Intake Manifold Runner Position Sensor -G336-, CHECKING .	Normal closed position, unable to reach Signal voltage, <2.62 or >4.65 V OR Normal open position, unable to reach Signal voltage, <0.35 or >2.38 V	ECM keep alive time Ignition, OFF Runner flaps, Commanded closed Battery voltage, >10 V Tumble flap, >5% ECT, -40.5-140° C IAT, -40.5-140° C Position sensor, No DTC Actuator, No DTC	25.0 s	Once/DCY 2 DCY
P2008	Intake Manifold Runner Control Circuit/Open Bank 1	-- Check the Intake Manifold Runner Control Valve -N316-. Refer to Intake Manifold Runner Control Valve -N316-, CHECKING .	Signal voltage 4.70 to 5.40 V	Tumble flap, commanded OFF Engine speed >80.0 RPM	0.50 s	Continuous 2 DCY
P2009	Intake Manifold Runner Control Circuit Low Bank 1	-- Check the Intake Manifold Runner Control Valve -N316-. Refer to Intake Manifold Runner Control Valve -N316-, CHECKING .	Signal voltage 0.00 to 3.26 V	Tumble flap, commanded OFF Engine speed >80.0 RPM	0.50 s	Continuous 2 DCY
P2010	Intake Manifold Runner Control Circuit High Bank 1	-- Check the Intake Manifold Runner Control Valve -N316-. Refer to Intake Manifold Runner Control Valve -N316-, CHECKING .	Signal current >2.20 A	Tumble flap, commanded ON Engine speed >80.0 RPM	0.50 s	Continuous 2 DCY
P2014	Intake Manifold Runner Position Sensor/Switch Circuit Bank 1	-- Check the Intake Manifold Runner Control Valve -N316-. Refer to Intake Manifold Runner Control Valve -N316-, CHECKING .-- Check the Intake Manifold Runner Position Sensor -G336-. Refer to Intake Manifold Runner Position Sensor -G336-, CHECKING .	Signal voltage, >4.75 V	---	0.30 s	Continuous 2 DCY
P2015	Intake Manifold Runner Position Sensor/Switch Circuit Range/Performance Bank 1	-- Check the Intake Manifold Runner Control Valve -N316-. Refer to Intake Manifold Runner Control Valve -N316-, CHECKING .-- Check the Intake Manifold Runner Position Sensor -G336-. Refer to Intake Manifold Runner Position Sensor -G336-, CHECKING .	Difference between target position vs. actual position >25 % AND Actual position<0.0 to >100.0 %		1.50 s	Multiple 2 DCY
			Difference between target position vs. actual position >25 % AND Actual position0.0 to 100.0 %	Flap commanded ON
			Difference between target position vs. actual position >25 % AND Actual position0.0 to 100.0 %	Flap commanded OFF
P2016	Intake Manifold Runner Position Sensor/Switch Circuit Low Bank 1	-- Check the Intake Manifold Runner Control Valve -N316-. Refer to Intake Manifold Runner Control Valve -N316-, CHECKING .-- Check the Intake Manifold Runner Position Sensor -G336-. Refer to Intake Manifold Runner Position Sensor -G336-, CHECKING .	Signal voltage, < 0.25 V	---	0.30 s	Continuous 2 DCY
P2024	EVAP Fuel Vapor Temperature Sensor Circuit	-- Check the Fuel Tank Leak Detection Control Module -J909-. Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	Signal voltage 4.70 to 5.40 V	CASE 1: Ignition ON CASE 2: Ignition OFF (during ECM keep alive-time)	0.50 s	Continuous 2 DCY
P2025	EVAP Fuel Vapor Temperature Sensor Performance	-- Check the Fuel Tank Leak Detection Control Module -J909-. Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	FUNCTIONAL CHECK: Reset counter > 3.0	Ignition ON Fuel level < 85% Engine running Last ECM keep alive mode finished	n.a.	Once/DCY 3 DCY
			OUT OF RANGE LOW: Smart module temperature < -39 °C	Cold start detected ECT @ cylinder block >-14.0 °C IAT @ manifold >-14.0 °C IAT cross check finished ECT cross check finished	1.0 s	Once/DCY 2 DCY
			CROSS CHECK: Difference between smart temperature and ECT >= 25.5 K AND Difference between smart temperature and IAT@ manifold >= 25.5	Cold start detected IAT cross check finished ECT cross check finished	1.0 s
			FUNCTIONAL CHECK: Time difference between ECU and smart module > 3.0 s	Ignition OFF	3.0 s
			COMMUNICATION WITH SMART TEMPERATURE SENSOR: Response time > 1000 ms AND Number of checks 3.0 OR Security bit incorrect AND Number of checks 3.0	CASE 1: Ignition ON Engine running CASE 2: Ignition OFF (during ECM keep alive-time)	5.0 s	Continuous 2 DCY
			SIGNAL DYNAMIC CHECK: Gradient smart temperature > 20 K/10 mi	Ignition OFF Fuel level < 85% NVLD (EVAP-System) diagnostic mode active	300 s	Once/DCY 2 DCY
			OUT OF RANGE HIGH: CASE 1: Smart module temperature > 119 °C CASE 2: Smart module temperature > 119 °C	CASE 1: Ignition OFF NVLD (EVAP-System) diagnostic mode active CASE 2: Ignition ON Engine running	300 s	Once/DCY 2 DCY
P2026	EVAP Fuel Vapor Temperature Sensor Circuit Low Voltage	-- Check the Fuel Tank Leak Detection Control Module -J909-. Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	Signal voltage, < 0.00 - 3.25 V	CASE 1: Ignition ON CASE 2: Ignition OFF (during ECM keep alive-time)	5.0 s	Continuous 2 DCY
P2027	EVAP Fuel Vapor Temperature Sensor Circuit High Voltage	-- Check the Fuel Tank Leak Detection Control Module -J909-. Refer to Fuel Tank Leak Detection Control Module -J909 - / Fuel Tank Pressure Sensor -G400-, CHECKING .	Signal current > 2.20 A	CASE 1: Ignition ON CASE 2: Ignition OFF (during ECM keep alive-time)	5.0 s	Continuous 2 DCY
P2067	Fuel Level Sensor "B" Circuit Low	-- Check the Instrument cluster control module for proper functioning. Refer to appropriate repair information.	Instrument cluster module signal: short to ground, failure OR Instrument cluster module signal: signal range check, failure	Ignition ON	0.50 s	Continuous 2 DCY
P2068	Fuel Level Sensor "B" Circuit High	-- Check the Instrument cluster control module for proper functioning. Refer to appropriate repair information.	Instrument cluster module signal: short to battery / open circuit, failure	Ignition ON	0.50 s	Continuous 2 DCY
P2088	"A" Camshaft Position Actuator Control Circuit Low Bank 1	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Signal voltage, < 0.00 to 3.25 V	camshaft valve off Engine speed, >80.0 RPM	0.50 s	Continuous 2 DCY
P2089	"A" Camshaft Position Actuator Control Circuit High Bank 1	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Signal current, >2.20 A	Camshaft actuator solenoid valve ON Engine speed, >80.0 RPM	0.50 s	Continuous 2 DCY
P2096	Post Catalyst Fuel Trim System Too Lean Bank 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	I-portion of 2nd lambda control loop < -0.045 -	GENERAL: Modeled exhaust gas temp., 450.00 to 900.00 °C For time > 0.0 s Lambda control in closed loop Lambda control, not at min or max limit 2nd lambda control, closed loop O2S front, ready O2S rear, ready O2S heater front = active O2S heater rear = active Fuel cut off = not active Catalyst heating = not active AIR = not active AND CASE 1: Exhaust gas mass flow 25.00 to 250.00 kg/h CASE 2: Exhaust gas mass flow within time 15.0 s	152.6 s	Continuous 2 DCY
P2097	Post Catalyst Fuel Trim System Too Rich Bank 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	I-portion of 2nd lambda control loop > 0.045 -	GENERAL: Modeled exhaust gas temp., 450.00 to 900.00 °C For time > 0.0 s Lambda control in closed loop Lambda control, not at min or max limit 2nd lambda control, closed loop O2S front, ready O2S rear, ready O2S heater front = active O2S heater rear = active Fuel cut off = not active Catalyst heating = not active AIR = not active AND CASE 1: Exhaust gas mass flow 25.00 to 250.00 kg/h CASE 2: Exhaust gas mass flow within time 15.0 s	152.6 s	Continuous 2 DCY
P2101	Throttle Actuator "A" Control Motor Circuit Range/Performance	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .	Duty cycle >80% AND ECM power stage = no failure Deviation throttle valve angles vs throttle value setpoint > 4.00 to 50.00%	---	5.0 s	Continuous 2 DCY
P2106	Throttle Actuator Control System - Forced Limited Power	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .	SHORT TO BATTERY VOLTAGE OR SHORT TO GROUND: Internal check, failed	---	0.50 s	Continuous 2 DCY
			OPEN CIRCUIT: Internal check, failed	Duty cycle, >80% OR Deviation throttle valve angles vs calculated value, 4.0 to 50.0%
			CURRENT MONITORING: Internal check, failed	---
			FUNCTIONAL CHECK: Internal check, failed	---
P2110	Throttle Drive Actuator Forced Limited RPM	-- Check the Throttle Valve Control Module -GX3-. Refer to Throttle Valve Control Module - GX3-, CHECKING .	Engine load Out of range	---	---	2 DCY
P2122	Throttle/Pedal Position Sensor/Switch "D" Circuit Low	-- Check the Accelerator Pedal Module -GX2-. Refer to Accelerator Pedal Module - GX2-, CHECKING .	Signal voltage < 0.65 V	---	0.50 s	Continuous 2 DCY
P2123	Throttle/Pedal Position Sensor/Switch "D" Circuit High	-- Check the Accelerator Pedal Module -GX2-. Refer to Accelerator Pedal Module - GX2-, CHECKING .	Signal voltage >4.79 V	---	0.50 s	Continuous 2 DCY
P2127	Throttle/Pedal Position Sensor/Switch "E" Circuit Low	-- Check the Accelerator Pedal Module -GX2-. Refer to Accelerator Pedal Module - GX2-, CHECKING .	Signal voltage < 0.28 V	---	0.50 s	Continuous 2 DCY
P2128	Throttle/Pedal Position Sensor/Switch "E" Circuit High	-- Check the Accelerator Pedal Module -GX2-. Refer to Accelerator Pedal Module - GX2-, CHECKING .	Signal voltage >2.43 V	---	0.50 s	Continuous 2 DCY
P2138	Throttle/Pedal Position Sensor/Switch "D"/"E" Voltage Correlation	-- Check the Accelerator Pedal Module -GX2-. Refer to Accelerator Pedal Module - GX2-, CHECKING .	Signal voltage sensor 1 vs 2, > 0.14 - 0.70 V	Signal voltage sensor 1, > 445 mV Signal voltage sensor 2, > 445 mV	0.24 s	Continuous 2 DCY
P2146	Fuel Injector Group "A" Supply Voltage Circuit/Open	-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .	SHORT TO GROUND (HIGH SIDE) : Signal current, >14.90 A SHORT TO BATTERY VOLTAGE (HIGH SIDE) : OR CORE CONNECTION (HIGH SIDE - LOW SIDE): Signal current< 2.60 A	Engine speed >80.0 RPM Engine speed >80.0 RPM Low side signal current> 2.70 A	0.50 s	Continuous 2 DCY
P2149	Fuel Injector Group "B" Supply Voltage Circuit/Open	-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .	SHORT TO GROUND (HIGH SIDE) : Signal current, >14.90 A SHORT TO BATTERY VOLTAGE (HIGH SIDE) : OR CORE CONNECTION (HIGH SIDE - LOW SIDE): Signal current < 2.60 A	Engine speed >80.0 RPM Engine speed >80.0 RPM Low side signal current> 2.70 A	0.50 s	Continuous 2 DCY
P2177	System Too Lean Off Idle Bank 1	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .-- Check the intake system visually for leaks (false air).-- Check the vacuum lines visually for leaks.	Aadaptive value > 26.00 %	CASE 1: Integrated air mass < = 3.00 kg ECT> 50.0 °C CASE 2: Integrated air mass > 3.00 kg Minimum of: ECT > 50.0 °C or ECT > 43 - 55 °C GENERAL: Number of injections after engine start> 250 - Engine speed 560 to 960 RPM Engine load0.0 to 49.0% IAT@ manifold < 90.0 °C Delta part load adaptation = completed Lambda control = closed loop EVAP purge valve = closed High PCV purge load due to oil dilution =not detected	10.0 s	Continuous 2 DCY
P2178	System Too Rich Off Idle Bank 1	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .-- Check the intake system visually for leaks (false air).-- Check the vacuum lines visually for leaks.	Adaptive value < 26.0 %	CASE 1: Integrated air mass< = 3.00 kg ECT> 50.0 °C CASE 2: Integrated air mass > 3.00 kg Minimum of: ECT > 50.0 °C OR ECT > 43 to 55 GENERAL: Number of injections after engine start> 250 - Engine speed 560 - 920 RPM Engine load2 - 47 % IAT < 90 °C Delta part load adaptation = completed Lambda control = closed loop EVAP purge valve = closed High PCV purge load due to oil dilution =not detected	10.0 s	Continuous 2 DCY
P2181	Cooling System Performance	-- Check Engine Coolant Temperature Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .-- Check the Coolant Recirculation Pump -V50- Refer to the appropriate repair information.-- Check the Coolant Thermostat. Refer to appropriate repair information.	Cooling system temp too low after a sufficient air mass flow integral, 55 to 80 °C	MONITOR ENTRY CONDITIONS: ECT @ start -7.0 to 60.0 °C AND AAT-7.0 to 3004.0 °C OR IAT @ manifold n.a. BEGIN OF AIR MASS INTEGRATION: ECT > 30.0 °C CONDITIONS FOR DIAGNOSIS: Mass air flow < 3276.70 kg/h Delta barometric pressure< 1.70 kPa Delta AAT < 3003.6 K AND Accum. time required < 40.0 - 250.0 s OR Accum. integrated air mass < n.a. ACCUMULATION ENABLE IF: Fuel cut off = not active OR Engine load > 399.99 % OR Engine load < -399.99 % START OF FAULT DECISION: Integrated air mass > 4.50 to 15.00 kg CONDITIONS AT FAULT DECISION: (average values since start) Mass air flow (lower threshold)>= 23.00 to 80.00 kg/h Mass air flow (upper threshold) <= 50.00 to 180.00 kg/h Vehicle speed (lower threshold) > = 21.0 to 23.0 MPH Vehicle speed (upper threshold) < = 75.0 MPH	0 (Unified 1000.0) s	Once/DCY 2 DCY
P2187	System Too Lean at Idle Bank 1	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .-- Check the intake system visually for leaks (false air).-- Check the vacuum lines visually for leaks.	Adaptive value > 5.02 %	CASE 1: Integrated air mass < = 3.00 kg ECT> 50.0 °C CASE 2: Integrated air mass > 3.00 kg Minimum of: ECT > 50.0 °C or ECT > 43 - 55 °C GENERAL: Number of injections after engine start> 250 - Engine speed 560 to 960 RPM Engine load0.0 to 49.0% IAT@ manifold < 90.0 °C Delta part load adaptation = completed Lambda control = closed loop EVAP purge valve = closed High PCV purge load due to oil dilution =not detected	10.0 s	Continuous 2 DCY
P2188	System Too Rich at Idle Bank 1	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .-- Check the intake system visually for leaks (false air).-- Check the vacuum lines visually for leaks.	Adaptive value < -6.0%	CASE 1: Integrated air mass < = 3.00 kg ECT> 50.0 °C CASE 2: Integrated air mass > 3.00 kg Minimum of: ECT > 50.0 °C or ECT > 43 - 55 °C GENERAL: Number of injections after engine start> 250 - Engine speed 560 to 960 RPM Engine load0.0 to 49.0% IAT@ manifold < 90.0 °C Delta part load adaptation = completed Lambda control = closed loop EVAP purge valve = closed High PCV purge load due to oil dilution =not detected	10.0 s	Continuous 2 DCY
P2195	O2 Sensor Signal Biased/Stuck Lean Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	Delta lambda of 2nd lambda control loop, > 0.070 -	GENERAL: Modeled exhaust gas temp 450.00 - 900.00° C For time > 0.0 s Delta engine load < 20.05 Lambda control = closed loop 2nd lambda control = closed loop O2S front, ready = no fault O2S rear, ready = no fault O2S heater front ready = no fault O2S heater rear, ready, no fault Fuel cut off, not active Catalyst heating, not active AIR, not active AND CASE 1: Exhaust gas mass flow, 25.0 to 250.00 kg/h CASE 2: Exhaust gas mass flow, 16.0 to 25.00 kg/h Within time 15.0 s AND CASE 1: 1st lambda control loop, not at min or max limit 2nd lambda control loop, active CASE 2: 1st lambda control loop at min limit. O2S front < 1.0 O2S rear voltage < 0.4 V CASE 3: 1st lambda control loopat max limit O2S front > 1.0 O2S rear voltage > 0.6 V	152.6 s	Multiple 2 DCY
P2196	O2 Sensor Signal Biased/Stuck Rich Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	Delta lambda of 2nd lambda control loop, < - 0.070	GENERAL: Modeled exhaust gas temp 450.00 - 900.00° C For time > 0.0 s Delta engine load < 20.05 Lambda control = closed loop 2nd lambda control = closed loop O2S front, ready = no fault O2S rear, ready = no fault O2S heater front ready = no fault O2S heater rear, ready, no fault Fuel cut off, not active Catalyst heating, not active AIR, not active AND CASE 1: Exhaust gas mass flow, 25.0 to 250.00 kg/h CASE 2: Exhaust gas mass flow, 16.0 to 25.00 kg/h Within time 15.0 s AND CASE 1: 1st lambda control loop, not at min or max limit 2nd lambda control loop, active CASE 2: 1st lambda control loop at min limit. O2S front < 1.0 O2S rear voltage < 0.4 V CASE 3: 1st lambda control loopat max limit O2S front > 1.0 O2S rear voltage > 0.6 V	152.6 s	Multiple 2 DCY
P2231	O2 Sensor Signal Circuit Shorted to Heater Circuit Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	Delta O2S signal front, >190uA	Engine speed, <2700 RPM Engine load, <60% heater duty cycle, 20.0 to 80.0% Modeled exhaust, <800.1° C Lambda set value READ ERROR Lambda, 0.95 to 1.05 O2S Heater no fault	15.0 s	Multiple 2 DCY
P2237	O2 Sensor Positive Current Control Circuit/Open Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	O2S signal front 1.49 to 1.51 AND Difference between maximum and minimum value of O2S voltage signal front < 32.00 V AND Delta lambda controller> 0.10 OR Lambda control at min or max limit	O2S ceramic temp, >715° C Lambda control, Closed loop Mass air integral, > 0.8 kg Lambda set value, 0.97 to 1.03 O2S ceramic temp, >715 °C Electrical adjustment, not active Heater control, closed loop EVAP purge valve, ready no fault O2S ceramic temp, >715° C Lambda modulation >0.02 Lambda control, Closed loop Heater control, active O2S ceramic temp.> 715° C Lambda modulation> 0.01 Lambda controlclosed loop Heater control closed loop	5.0 s	Continuous 2 DCY
P2237			O2S signal front1.49 to 1.51 V AND Difference between maximum and minimum value of O2S voltage signal front < 32.00 V AND No reaction on commanded stepwise change of lambda-setpoint <> 1		3.0 s	Continuous 2 DCY
P2243	O2 Sensor Reference Voltage Circuit/Open Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	O2S signal front < 0.3 to > 3.25 V AND Internal resistance > 1000Ω	Heater control = active	20.0 s	Continuous 2 DCY
P2251	O2 Sensor Negative Current Control Circuit/Open Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	O2S voltage signal front 1.45 to 1.53 V AND Internal resistance > 1000Ω	Modeled exhaust gas temp. < 750° C No fuel cut off > 2.0 s Heater control active	25.0 s	Continuous 2 DCY
P2257	AIR System Control "A" Circuit Low	-- Check the Secondary Air System. Refer to appropriate repair information.	Signal voltage <3.00 V	Pump relay commanded OFF Engine speed >80.0 RPM	2.0 s	Continuous 2 DCY
P2258	AIR System Control "A" Circuit High	-- Check the Secondary Air System. Refer to appropriate repair information.	Signal current 0.60 to 1.20 A	Pump relay commanded ON Engine speed >80.0 RPM	2.0 s	Continuous 2 DCY
P2270	O2 Sensor Signal Biased/Stuck Lean Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Sensor voltage< 0.76V	O2S rear = ready Integrated exhaust gas mass flow after O2S rear ready >= 5.00 kg Engine running IF Integrated exhaust mass flow>= 5.00 kg OR Error suspicion set THEN Enabling lambda ramp Slope of the lambda ramp 0.10 1/s Target lambda of the lambda ramp 0.72 Exhaust gas mass during >= 0.18 kg Target lambda reached <= 0.72. IF Fuel cut off > 2.0 s. THEN DISABLING FOR: Time delay after fuel cut off 2.0 s ADDITIONAL CONDITIONS: Scavenging-rate n.a. Modeled exhaust gas temperature fitted position O2S rear 340.0 to 840.0 °C Engine speed 800.0 to 7000.0 RPM Mass air flow 20.0 to 200.0 kg/h Within time 0.0 s	30.0 s	Once/DCY 2 DCY
P2271	O2 Sensor Signal Biased/Stuck Rich Bank 1 Sensor 2	-- Check the Oxygen Sensor 1 After Catalytic Converter -GX7-. Refer to Oxygen Sensor 1 After Catalytic Converter -GX7-, CHECKING .	Sensor voltage> 0.15V	GENERAL: O2S rear, ready Integrated exhaust gas mass flow after O2S rear ready >= 0.20 kg Engine running CASE 1: (during lambda ramp activation) IF Integrated exhaust gas mass flow n.a. OR Error suspicion n.a. THEN Enabling lambda ramp n.a. Slope of the lambda ramp n.a. Target lambda of the lambda ramp n.a. Exhaust gas mass during n.a. Target lambda reached n.a. IF Fuel cut off n.a. THEN DISABLING FOR: Time delay after fuel cut off n.a. ADDITIONAL CONDITIONS: Scavenging-rate n.a. Modeled exhaust gas temperature fitted position O2S rear n.a. Engine speed n.a. Mass air flow n.a. Within time n.a. CASE 2: (during fuel cut off) Modeled exhaust gas temperature fitted position O2S rear 340.0 to 840.0 °C O2S front lambda value (for wide range sensor) > 4.0 g O2S front voltage (for binary sensor) n.a. Fuel cut off active Integrated O2 mass flow during fuel cut off >= 4.0 g	30.0 s	Once/DCY 2 DCY
P2279	MAP/MAF - Throttle Position Correlation	-- Check for air leaks between MAF and throttle body, oil fill cap not seated or oil dipstick not seated in tube. Also any engine gaskets that can cause additional air to enter the crankcase can set this fault. If a vacuum leak or crankcase seal is at cause, the idle may be rough or unstable.	Threshold to detect a defective system >1.45 - AND Ratio of the tie system defective during the measurement window to the whole duration of the measurement window >0.60 -	Time after engine start >60.0 s Engine load < 40.1% Mass air flow < 6553.50 kg/h ECT > 50° C IAT @ manifold < 100.0° C Lambda control value < 5% Lambda set value 0.95 - 1.05 - Vehicle speed < 6 MPH Lambda control active Engine speed idle Barometric pressure < 2700m Purge valve closed	16.0 s	Multiple 2 DCY
P2293	Fuel Pressure Regulator 2 Performance	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Difference between target pressure vs. actual pressure, > 2.00 MPa Difference between target pressure vs. actual pressure, < -2.00 MPa	Time after engine start, >13.0 s Fuel cut off = not active Time after fuel cut Off > 6.0 s	3.0 s OR 7.0 s	Continuous 2 DCY
P2294	Fuel Pressure Regulator 2 Control Circuit/Open	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Signal voltage 1.40 - 3.20 V	Fuel control valve = commanded OFF Fuel pump = commanded ON	0.50 s	Continuous 2 DCY
P2295	Fuel Pressure Regulator 2 Control Circuit Low	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Signal Voltage 1.40 - 3.20 V	Fuel Control Valve, commanded OFF	0.50 s	Continuous 2 DCY
P2296	Fuel Pressure Regulator 2 Control Circuit High	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Signal voltage >3.20 V	Fuel Control Valve, commanded ON	0.50 s	Continuous 2 DCY
P2300	Ignition Coil "A" Primary Control Circuit Low	-- Check the Ignition Coil 1 With Power Output Stage -N70-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current >24.0 mA	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P2301	Ignition Coil "A" Primary Control Circuit High	-- Check the Ignition Coil 1 With Power Output Stage -N70-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal voltage > 5.1 to 7.0 V	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P2303	Ignition Coil "B" Primary Control Circuit Low	-- Check the Ignition Coil 2 With Power Output Stage -N127-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current >24.0 mA	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P2304	Ignition Coil "B" Primary Control Circuit High	-- Check the Ignition Coil 2 With Power Output Stage -N127-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal voltage > 5.1 to 7.0 V	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P2306	Ignition Coil "C" Primary Control Circuit Low	-- Check the Ignition Coil 3 With Power Output Stage -N291-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current >24.0 mA	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P2307	Ignition Coil "C" Primary Control Circuit High	-- Check the Ignition Coil 3 With Power Output Stage -N291-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal voltage > 5.1 to 7.0 V	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P2309	Ignition Coil "D" Primary Control Circuit Low	-- Check the Ignition Coil 4 With Power Output Stage -N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current >24.0 mA	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P2310	Ignition Coil "D" Primary Control Circuit High	-- Check the Ignition Coil 4 With Power Output Stage -N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal voltage > 5.1 to 7.0 V	Engine speed, >680.0 RPM	2.0 s	Continuous 2 DCY
P2414	O2 Sensor Exhaust Sample Error Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	THRESHOLD 1: Signal voltage 3.10 - 4.81 V THRESHOLD 2: Signal Voltage (Depending on gain factor, that actual is used for sensor characteristic, the threshold is switched) 2.5 - 3.10 V	Lambda set value, 1.6 O2S ceramic temp.,> 715.00° C Fuel cut off = not active Heater control = closed loop SAI = not active If low fuel signal then wait, > 600.00 s	20.0 s	Multiple 2 DCY
P2431	AIR System Air Flow/Pressure Sensor Circuit Range/Performance Bank 1	-- Check the Secondary Air System. Refer to appropriate repair information.	Difference between SAI pressure and ambient pressure, NOT -25.0 to 25.00 hPa	---	0.50 s	Once/DCY 2 DCY
P2432	AIR System Air Flow/Pressure Sensor Circuit Low Bank 1	-- Check the Secondary Air System. Refer to appropriate repair information.	Signal voltage, <.40 V	---	0.50 s	Continuous 2 DCY
P2433	AIR System Air Flow/Pressure Sensor Circuit High Bank 1	-- Check the Secondary Air System. Refer to appropriate repair information.	Signal voltage, >4.65 V	---	0.50 s	Continuous 2 DCY
P2440	AIR System Switching Valve Stuck Open Bank 1	-- Check the Secondary Air System. Refer to appropriate repair information.	SAI pressure meadured with SAI pressure sensor vs modeled while SAI valve closed. <0.55%	ECT, 5 to 39° C IAT, 5 to 40° C Altitude, <2700m SAI pressure sensor, ready no fault	---	---
P2539	Low Pressure Fuel System Sensor Circuit	-- Check the Low Fuel Pressure Sensor -G410-. Refer to Low Fuel Pressure Sensor -G410-, CHECKING .-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Signal voltage > 4.79 V	---	2.0 s	Continuous 2 DCY
P2540	Low Pressure Fuel System Sensor Circuit Range/Performance	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Actual pressure Deviation < 800 kPa <80 kPa	---	5.0 s	2 DCY
P2541	Low Pressure Fuel System Sensor Circuit Low	-- Check the Low Fuel Pressure Sensor -G410-. Refer to Low Fuel Pressure Sensor -G410-, CHECKING .-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Signal voltage < 0.21 V	---	2.0 s	Continuous 2 DCY
P2626	O2 Sensor Pumping Current Trim Circuit/Open Bank 1 Sensor 1	-- Check the Oxygen Sensor 1 Before Catalytic Converter -GX10-. Refer to Oxygen Sensor 1 Before Catalytic Converter -GX10-, CHECKING .	O2S signal front> 4.81 V	Modeled exhaust temp, < 750° C O2S ceramic temp, >715° C Fuel cut off, Active Heater control, closed loop If low fuel signal, then wait, > 120.0 s	2.0 s	Continuous 2 DCY
P2637	Torque Management Feedback Signal "A"	-- Check the CAN-Bus terminal resistance, Transmission Control Module (TCM) -J217- to Engine Control Module (ECM) - J623-. Refer to CAN-BUS POWERTRAIN, CHECKING (8-SPD 0BK)	CAN message signal error flag, = 1	Ignition, ON CAN Bus, OK DME CAN connection, OK	0.50 s	Continuous 2 DCY
P2714	Pressure Control Solenoid "D" Performance/Stuck Off	-- Check Automatic Transmission Pressure Regulating Valve 4 -N218-. Refer to appropriate repair information.	PWM hardware detection, 0 or 100%	Low side and high side FET, activated Power supply, > 8.7 V Voltage drop at FET, < = 1 V Solenoid supply, > 9 V	0.50 s	Continuous 2 DCY
P2715	Pressure Control Solenoid "D" Stuck On	-- Check Automatic Transmission Pressure Regulating Valve 4 - N218 -. Refer to appropriate repair information.	PWM hardware detection, 0 or 100%	Low side and high side FET, activated Power supply, > 8.7 V Voltage drop at FET, < = 1 V Solenoid supply, > 9 V	0.50 s	Continuous 2 DCY
P2716	Pressure Control Solenoid "D" Electrical	-- Check Automatic Transmission Pressure Regulating Valve 4 -N218-. Refer to appropriate repair information.	Current higher or lower than threshold, <730 mA EDS output voltage at short to ground or open circuit ~ 0, 5 V smaller than EDS supply voltage Static leakage current flow	Off operation mode	0.50 s	Continuous 2 DCY
P2723	Pressure Control Solenoid "E" Performance/Stuck Off	-- Check Automatic Transmission Pressure Regulating Valve 5 -N233-. Refer to appropriate repair information.	PWM hardware detection, 0 or 100%	Low side and high side FET, activated Power supply, > 8.7 V Voltage drop at FET, < = 1 V Solenoid supply, > 9 V	0.50 s	Continuous 2 DCY
P2725	Pressure Control Solenoid "E" Electrical	-- Check Automatic Transmission Pressure Regulating Valve 5 -N233-. Refer to appropriate repair information.	Current higher or lower than threshold, <730 mA EDS output voltage at short to ground or open circuit ~ 0, 5 V smaller than EDS supply voltage Static leakage current flow	Off operation mode	0.50 s	Continuous 2 DCY
P2732	Pressure Control Solenoid "F" Performance/Stuck Off	-- Check Automatic Transmission Pressure Regulating Valve 6 -N371-. Refer to appropriate repair information.	PWM hardware detection, 0 or 100%	Low side and high side FET, activated Power supply, > 8.7 V Voltage drop at FET, < = 1 V Solenoid supply, > 9 V	0.50 s	Continuous 2 DCY
P2733	Pressure Control Solenoid "F" Stuck On	-- Check Automatic Transmission Pressure Regulating Valve 6 -N371-. Refer to appropriate repair information.	PWM hardware detection, 0 or 100%	Low side and high side FET, activated Power supply, > 8.7 V Voltage drop at FET, < = 1 V Solenoid supply, > 9 V	0.50 s	Continuous 2 DCY
P2734	Pressure Control Solenoid "F" Electrical	-- Check Automatic Transmission Pressure Regulating Valve 6 -N371-. Refer to appropriate repair information.	EDS output voltage at short to ground or open circuit ~ 0, 5 V smaller than EDS supply voltage Static leakage current flow	Off operation mode	0.50 s	Continuous 2 DCY
P2735	Pressure Control Solenoid "F" Intermittent	-- Check Automatic Transmission Pressure Regulating Valve 6 -N371-. Refer to appropriate repair information.	PWM hardware detection, 0 or 100%	Low side and high side FET, activated Power supply, > 8.7 V Voltage drop at FET, < = 1 V Solenoid supply, > 9 V	0.50 s	Continuous 2 DCY
P303F	Cold Start Injector Circuit Short to Ground	-- Check the Cold Start Injector -N17-. Refer to Cold Start Injector - N17-, CHECKING .	Signal voltage < 3.0 V	Cold start injection valve = switched OFF Engine speed > 80RPM	0.50 s	Continuous 2 DCY
P3081	Engine Coolant Temperature measured engine coolant temp. below reference model	-- Check Engine Coolant Temperature Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .	Diff. reference model temperature vs. ECT > 9.8K	---	4.0 s	Continuous 2 DCY
U0001	High Speed CAN Communication Bus	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	CAN message, No feedback	Time after ignition On, > 500 ms	0.25 s	Continuous 2 DCY
U0002	High Speed CAN Communication Bus Performance	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	Global time out, receiving no message	Time after ignition On, >500 ms	0.45 s	Continuous 2 DCY
U0100	Lost Communication With ECM/PCM "A"	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	Failure of all CAN engine messages, Time out more than 490 ms Failure of all CAN engine messages but not all CAN messages, Time out more than 1010 ms	No bus off error No error failure of all CAN messages No error failure of all CAN engine messages Terminal 15 Voltage, > 9 V for more than 500 ms > 500 ms after reset	1.0 s	---
U0101	Lost Communication with TCM	-- Check the CAN-Bus terminal resistance, Transmission Control Module -J217- to Engine Control Module -J623-. Refer to CAN-BUS POWERTRAIN, CHECKING (8-SPD 0BK) .	Received CAN message, no message	Time after ignition On, >500 ms	0.50 s	Continuous 2 DCY
U0121	Lost Communication With Anti-Lock Brake System (ABS) Control Module	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	Received CAN message, no message	Time after ignition On, 500 ms	0.50 s	Continuous 2 DCY
U0140	Lost Communication With Body Control Module	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	Time out, no message	Time after ignition On > 500 ms	2.0 s	Continuous 2 DCY
U0146	Lost Communication With Gateway "A"	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	Received CAN message, no message	Time after ignition On >500 ms	0.50 s	Continuous 2 DCY
U0155	Lost Communication With Instrument Panel Cluster (IPC) Control Module	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	Received CAN message, no message	Time after ignition On >500 ms	2.0 s	Continuous 2 DCY
U0302	Software Incompatibility With Transmission Control Module	-- Replace the Transmission Control Module -J217-. Refer to appropriate repair information.	Received AT vehicle data TCM signal	Time after ignition On >500 ms	5.0 s	Continuous 2 DCY
U0323	Software Incompatibility With Instrument Panel Control Module	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	AAT value (module not encoded for ambient temp sensor) FDh	Ignition ON	2.0 s	Continuous 2 DCY
U0402	Invalid Data Received From TCM	-- Check the CAN-Bus terminal resistance, Selector Lever -E313- to Engine Control Module -J623-. Refer to appropriate SYSTEM WIRING DIAGRAM.	Received CAN messageimplausible message	Time after ignition On >500 ms	3.0 s	Continuous 2 DCY
U0404	Invalid Data Received From Gear Shift Control Module "A"	-- Check the CAN-Bus terminal resistance, Selector Lever -E313- to Engine Control Module -J623-. Refer to appropriate SYSTEM WIRING DIAGRAM.	If the value of message counter is permanent, constant, or change exceeds a threshold, increment an event counter maximum change of message counter > 5	No failure of selector lever CAN messages Terminal 15 voltage > 4 V for more than 500 ms	50 ms	Continuous 2 DCY
U0415	Invalid Data Received From Anti-Lock Brake System (ABS) Control Module	-- Refer to proper repair or electrical information for diagnosing and repair of system.-- Check the vehicle speed signal. Refer to VEHICLE SPEED SIGNAL, CHECKING .-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	OUT OF RANGE HIGH: Vehicle speed > 202 MPH	---	2.0 s	Continuous 2 DCY
			CAN COMMUNICATION WITH BSCM: Received data, implausible message	Time after ignition On > 500 ms	4.0 s
			CAN COMMUNICATION WITH VEHICLE SPEED SENSOR: Speed sensor signal: initialization error, 407.296MPH		1.98 s
			Speed sensor signal: low voltage error 407.290MPH		1.98 s
			Speed sensor signal: sensor error 407.303MPH		0.48 s
U0422	Invalid Data Received From Body Control Module	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	AAT value (initialization), Audi, FEh	Ignition ON CAN: BCM (Body Control Unit)	3.0 s	Multiple 2 DCY
U0423	Invalid Data Received From Instrument Panel Cluster Control Module	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	Received CAN messageimplausible message	Time after ignition On >500 ms	3.0 s	Continuous 2 DCY
U0447	Invalid Data Received From Gateway "A"	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	Received data, implausible message	Time after ignition On >500 ms	3.0 s	Continuous 2 DCY
U1103	ECM: Production Mode	-- Vehicle in production mode	Production mode = Active	FOR ACTIVATION: During ECM keep alive-time after ignition off Vehicle speed < 3.0MPH Engine speed 0.0 RPM Max trip mileage since initial vehicle start-up < 62.15miles FOR HYBRID: Drive motor OFF	0.0 s	1 DCY