Engine Control Module --, 2010-2014 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	Intake Camshaft Position Slow Response	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Signal change > 8° CRK for > 2.9 s and adjustment angle < 2.5° CRK	Time after engine start > 3 s Frequency 4 times Frequency at cold start 2 times	14 s	2 DCY
P0010	Intake Camshaft Position Actuator Circuit Open Bank 1	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Signal voltage, > 4.7 - 5.4 V	Camshaft valve off Engine speed > 80 RPM	0.5 s	2 DCY
P0011	Intake Camshaft Position Timing - Over-Advanced	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Signal change > 8° CRK for > 2.9 s and adjustment angle < 2.5° CRK	Time after engine start > 3 s Oil temperature -48 to 143.30 °C Frequency 4 times Engine speed 600 to 6000 RPM	14 s	2 DCY
P0016	Crankshaft Position - Camshaft Position Correlation	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .-- Check the Engine Speed Sensor -G28-. Refer to Engine Speed Sensor -G28-, CHECKING	Permissible deviation < -11° CRK OR Permissible deviation > 11° CRK	---	20 rev.	Multiple 2 DCY
P0030	HO2S Heater Control Circuit Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	Heater voltage 4.70 - 5.40 V	Time after engine start > 5 s Heater commanded off	0.5 s	2 DCY
P0031	HO2S Heater Control Circuit Low Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	Heater voltage < 0 to 3.26 V	Time after engine start > 5 s Heater commanded off	0.5 s	2 DCY
P0032	HO2S Heater Control Circuit High Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	Signal current > 5.50 A	Time after engine start > 5 s Heater commanded on	0.5 s	2 DCY
P0036	HO2S Heater Control Circuit Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Heater voltage, 4.50 - 5.50 V	Time after engine start > 5 s Heater, Commanded off	0.5 s	2 DCY
P0037	HO2S Heater Control Circuit Low Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Heater voltage < 3.00 V	Time after engine start > 5 s Heater, Commanded off	0.5 s	2 DCY
P0038	HO2S Heater Control Circuit High Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Heater current, > 2.70 - 5.50 A	Time after engine start > 5 s Heater, Commanded on	0.5 s	2 DCY
P0042	HO2S Heater Control Circuit Bank 1 Sensor 3	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Heater voltage 2.34 to 3.59 V	Engine speed > 80 RPM Heater commanded off	0.5 s	2 DCY
P0043	HO2S Heater Control Circuit Low Bank 1 Sensor 3	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Heater voltage < 2.34 V	Engine speed > 80 RPM Heater commanded off	0.5 s	2 DCY
P0044	HO2S Heater Control Circuit High Bank 1 Sensor 3	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Heater voltage > 3.59 V	Engine speed > 80 RPM Heater commanded on	0.5 s	2 DCY
P0068	MAF vs Throttle Position Correlation	-- Check the Mass Air Flow Sensor -G70-. Refer to Mass Airflow Sensor -G70-, CHECKING .-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module - J338-, CHECKING .	Plausibility with fuel system Load calculation < -22% Plausibility with fuel system Load calculation > 22%	Engine speed 1280 - 6000 RPM ECT > 63 °C IAT < 90 °C Mass air flow 0 - 300 kg/h Engine load 20 - 100% EVAP purge valve closed Fuel system monitor running Lambda control closed loop	139.4 s	2 DCY
P0070	Outside Air Temperature Sensor Circuit	-- Check the Outside Air Temperature Sensor -G17-. Refer to the correct repair information.	Ambient air temperature < -50° C	CAN active	6 s	2 DCY
P0071	Outside Air Temperature Sensor Range/Performance	-- Check the Outside Air Temperature Sensor -G17-. Refer to the correct repair information.	Difference in value between ECT and AAT at engine start (depending on engine off time) > 25 K and Difference in value between AAT and IAT at engine start (depending on engine off time) > 25 K	Engine off time > 5 hours ECT @ engine start < 2 K minus AAT @ engine start <= 3 K Vehicle speed > 40 km/h minus ECT @ time after engine start 60 s AAT @ engine start < 5.2 °C minus AAT @ condition veh speed > 25 mph for time > 30 s IAT @ engine start < 5.2 °C minus IAT @ condition veh speed > 25 mph for time > 30 s	0 s	2 DCY
P0072	Outside Air Temperature Sensor Circuit Low	-- Check the Outside Air Temperature Sensor -G17-. Refer to the correct repair information.	Ambient air temperature > 77° C	CAN active	6 s	2 DCY
P0087	Fuel Rail/System Pressure - Too Low	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING .	Fuel trim activity 0.90 - 1.15 [-] Pressure controller activity > 2 MPa Difference between target and actual pressure > -16.4	Engine speed > 600 RPM EVAP purge adaptation < 22 [-] ECT >= 63° C IAT < 90° C Lambda control closed loop	5 s	2 DCY
P0100	Mass Air Flow Circuit Fault	-- Check the Mass Air Flow Sensor -G70-. Refer to Mass Airflow Sensor -G70-, CHECKING .	MAF sensor signal 0 μs	Engine speed > 20 RPM	0.2 s	2 DCY
P0101	Mass Air Flow Circuit Range/Performance	-- Check the Mass Air Flow Sensor -G70-. Refer to Mass Airflow Sensor -G70-, CHECKING .	Mass air flow vs. upper threshold model > 60 to 800 kg/h lower threshold model < 0 to 400 kg/h Load calculation > 18% Fuel system < -18%	Time after engine start, 150 camshaft revolutions Throttle position < 99.6% Engine speed 1280 - 6000 RPM ECT > 63 °C IAT < 90 °C Mass air flow 0 - 450 kg/h Engine load 20 - 100% Lambda control closed loop EVAP purge valve closed No low fuel signal	2 s	2 DCY
P0102	Mass Air Flow Circuit Low Input	-- Check the Mass Air Flow Sensor -G70-. Refer to Mass Airflow Sensor -G70-, CHECKING .	MAF sensor signal < 66 μs	Engine speed > 20 RPM	0.2 s	2 DCY
P0103	Mass Air Flow Circuit High Input	-- Check the Mass Air Flow Sensor -G70-. Refer to Mass Airflow Sensor -G70-, CHECKING .	MAF sensor signal > 4500 μs	Engine speed > 20 RPM	0.2 s	2 DCY
P0106	Manifold Absolute Pressure/Barometric Pressure Circuit Range/Performance	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING . If there is no fault found with the Charge Air Pressure sensor or wiring, check for any related TSB's. The Altitude (Baro) sensor is located within the ECM and will require replacement of the ECM if faulty. Check the Baro reading with a scan tool vs. actual Baro for the area. If Baro is off by more than 10%, replace the ECM. Refer to the Repair Information.	Difference of boost pressure signal vs altitude sensor signal > 230 hPa OR Difference of boost pressure signal vs altitude sensor signal < -130 hPa	Engine speed < 1000 RPM Throttle position < 11.50%	2 s	2 DCY
P0111	Intake Air Temperature Sensor 1 Circuit Range/Performance	-- Check the Intake Air Temperature Sensor -G42-. Refer to Intake Air Temperature Sensor -G42-, CHECKING .	Difference in value IAT - ECT @ engine start (depending on engine off time) > 25°C Difference in value IAT - AAT @ engine start > 25°C (depending on engine off time)	Engine off time > 5 hours ECT @ engine start < 2 K minus AAT @ engine start <= 3 K Vehicle speed > 40 km/h minus ECT @ time after engine start 60 s AAT @ engine start < 5.2°C	0 s	2 DCY
P0112	Intake Air Temperature Sensor 1 Circuit Low Input	-- Check the Intake Air Temperature Sensor -G42-. Refer to Intake Air Temperature Sensor -G42-, CHECKING .	IAT > 141.0° C	---	2 s	2 DCY
P0113	Intake Air Temperature Sensor 1 Circuit High Input	-- Check the Intake Air Temperature Sensor -G42-. Refer to Intake Air Temperature Sensor -G42-, CHECKING .	IAT < -46° C	---	2 s	2 DCY
P0116	Engine Coolant Temperature Sensor 1 Circuit Range/Performance	-- Check the Engine Coolant Temperature (ECT) Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .	No change on signal < 2 K or signal in range > 89°C with no change on signal 1.5 °K	ECT @ start 50 - 140°C (stuck hi) or 50.30 - 88.4°C (stuck low) V Temp 2: Substitute ECT > -48°C Mass air flow 28 to 84 kg/h driving conditions Veh speed 0 - 20 km/h Mass air flow 12 - 36 and 36 - 152 kg/h Time required > 40.0 s	72 s	2 DCY
P0117	Engine Coolant Temperature Sensor 1 Circuit Low Input	-- Check the Engine Coolant Temperature (ECT) Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .-- Check the coolant thermostat. Refer to the Repair Information.	ECT >140°C	---	2 s	2 DCY
P0118	Engine Coolant Temperature Sensor 1 Circuit High Input	-- Check the Engine Coolant Temperature (ECT) Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .-- Check the coolant thermostat. Refer to the Repair Information.	ECT < -40° C	---	2 s	2 DCY
P0121	Accelerator Pedal Position Sensor / Accelerator Pedal Position Sensor 2 Circuit Range/Performance	-- Check the Accelerator Pedal Position Sensor 1 -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	TPS 1 - TPS 2 > 6.30% Actual TPS 1 calculated value > TPS 2 calculated value TPS 1 calc. value > 9.00%	Engine speed > 480 RPM	0.3 s	2 DCY
P0122	Accelerator Pedal Position Sensor / Accelerator Pedal Position Sensor 2 Circuit Low Input	-- Check the Accelerator Pedal Position Sensor 1 -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	Signal voltage < 0.20 V	---	0.1 s	2 DCY
P0123	Accelerator Pedal Position Sensor / Accelerator Pedal Position Sensor 2 Circuit High Input	-- Check the Accelerator Pedal Position Sensor 1 -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	Signal voltage > 4.81 V	---	0.1 s	2 DCY
P0130	HO2S Circuit Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	O2S ceramic temp. < 640°C	Modeled exhaust temp > 300°C Fuel cutoff not active	12 s	2 DCY
P0131	HO2S Circuit, Bank 1 Sensor 1 Low Voltage	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	VM > 1.75 V UN > 1.50 V IA or IP > 0.30 V	---	10 s	2 DCY
P0132	HO2S Circuit, Bank 1 Sensor 1 High Voltage	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	VM > 3.25 V UN > 4.40 V IA or IP > 7 V	---	10 s	2 DCY
P0133	HO2S Circuit Slow Response Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	Signal dynamic slope check O2S signal front vs. modeled O2S signal ratio < 0.35 and > 0.01 Lower value of both counters for area ratios L to R and R to L > = 5 times Oscillation check Lambda amplitude signal > 20% Cycles > 8 Time lambda > lambda amplitude 400 m s Delay check Delay modeled lambda signal minus measured signal > 460 m s Cycles > 12	Engine speed, 1200 - 2800 RPM Engine load, 18 - 80% Delta engine load <= 7.99% Actual lambda, 0.85-1.15 Lambda control, Closed loop EVAP purge flow < 18- Determination of max and min slope ratios 0.01 - 4 O2S front - time since operation readiness > 36 s O2S ceramic temp > 715°C Determination of measurement window, 500 m s Oscillation and delay check Lambda control, Closed loop Engine load 20 - 80% Engine speed 1340 - 3500 RPM Delta engine load < 3% Actual lambda 0.75 - 1.25	96 s Oscillation and delay check 200 s	2 DCY
P0135	HO2S Heater Circuit Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	Heater duty cycle, >100% O2S ceramic temperature, < 715°C Time after O2S heater on 40 s	Heater control, Active Modeled exhaust gas temp, > 300°C ECT at start > -11°C Engine shutoff time > 300 s	40 - 55 s	2 DCY
P0136	HO2S Circuit Bank 1 Sensor 2 Malfunction	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Delta voltage one step at heater switching > 2.00 V Number of checks >= 4	Sensor voltage <= 0.40 V or 0.50 to 1.08 V.	40 s	2 DCY
P0137	HO2S Circuit Low Voltage Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Cold condition Signal voltage, < 0.06 V for 3 s Warm condition Signal voltage < 0.01 V Reaction at closed loop enrichment - no reaction	ECT at engine off, > 60°C ECT < 39.8°C Sensor voltage <= 0.40 V or 0.50 to 1.08 V Warm condition Sensor sufficient heated if exhaust temperature >= 650°C Modeled exhaust gas temp. 200.006 - 800.006°C for 60 s	3 s	2 DCY
P0138	HO2S Circuit High Voltage Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Signal voltage > 1.08 V for > 5 s	Sensor voltage <= 0.40 V Exhaust gas temp. >= 650°C for 18 s	5 s	2 DCY
P0139	HO2S Circuit Slow Response Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	EWMA filtered transient time at fuel cutoff > 0.0 s In voltage range of 201 - 401 mV Number of checks, >= 3	Rich voltage enable > = 547.9 mV Lean voltage < = 201.2 mV Fuel cutoff active O2S rear ready Modeled exhaust gas temp > 400 °C Front HO2S sensor lambda signal > 2.00 V	100 s	1 DCY
P013A	HO2S Circuit Slow Response Rich to Lean Bank 1 Sensor 3	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	EWMA filtered max differential transient time at fuel cutoff >= 0.65 s Number of checks >= 1	time of fuel cut off<= 90.0 Sec time after last fuel cut off>= 20.0 Sec deviation between expected and measured front O2-sensor lambda signal < 6.00 O2S rear readiness,>10 Sec oscillation check completed after time since fuel cut off at first cylinder>= 0.5 Sec exhaust temperature at sensor >340° C exhaust mass flow> 12.00 kg/h exhaust mass flow dynamic within range -250.00...150.00 kg/h sensor voltage at start of measurement> 0.52 V target sensor voltage end of measurement<= 0.18 V engine speed 800...6000 rpm	10 s	multiple 2 DCY
P013B	HO2S Circuit Slow transient time Lean to Rich Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	EWMA filtered max differential transient time at fuel cutoff >= 1.50 s Number of checks >= 1.0 [-]	O2S front out of range = ready, no fault O2S rear = ready engine speed 800 - 6000 [rpm] integrated exhaust mass since O2S rear ready> 0.04 [kg] exhaust mass flow> 20.00 [kg/h] modeled exhaust temperature fitted position O2S rear>= 340[°C] change of exhaust mass flow -50.00 - 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 HO2S mass flow during catalyst purge>= 4000 [mg] plus time delay 0.0[s] Case 1 (with scavenging): integrated air mass = n.a. scavenging-rate =n.a Case 2 (without scavenging): integrated air mass > 0 [kg] engine running	10 s	Once / DCY 1 DCY
P013E	HO2S Circuit check of delay time Rich to Lean Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	arithmetic filtered max differential delay time at lean to rich transition =n.a. OR EWMA filtered max differential delay time at lean to rich transition > 1.0 [s] and number of checks >= 3.00[-]	O2S front out of range = ready, no fault general: heat supply= n.a. integrated exhaust mass> 1.00 [kg] integrated exhaust mass flow after O2S rear ready > 0.50 [kg] integrated exhaust mass during> 0.20 [kg] catalyst temperature 400 - 850 [°C] exhaust mass flow 40.00 - 180.00 [kg/h] change of exhaust mass flow -65.00 -65.00 [kg/h] engine speed = 1320 - 5000 [rpm] O2S rear stuck lean / stuck rich = ready, no fault scavenging: scavenging-rate = n.a. integrated air mass = n.a lambda control = 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> 1[-] CASE 1: (Diagnosis in Catalyst State full) time after engine start = n.a. - Threshold 1 O2S rear voltage< 0 [V] gradient O2S rear voltage-160 [V/s] HO2S mass flow >= 50 [mg] - Threshold 2 O2S rear voltage < 0.4 [V] CASE 2: (Diagnosis at Fuel Feed Restart) integrated exhaust mass flow n.a integrated exhaust mass = n.a. exhaust mass during = n.a. catalyst temperature = n.a exhaust mass flow = n.a gradient of exhaust mass flow = n.a. engine speed = n.a. O2S rear voltage = n.a. after fuel cut off = n.a for time = n.a. HO2S mass = n.a.	40 s	Once / DCY 1 DCY
P013F	HO2S Circuit check of delay time Lean to Rich Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	arithmetic filtered max differential delay time at lean to rich transition =n.a. OR EWMA filtered max differential delay time at lean to rich transition > 1.5 [s] and number of checks >= 3.00[-]	O2S front out of range = ready, no fault general: heat supply= n.a. integrated exhaust mass> 1.00 [kg] integrated exhaust mass flow after O2S rear ready > 0.50 [kg] integrated exhaust mass during> 0.20 [kg] catalyst temperature 400 - 850[°C] exhaust mass flow 40.00 - 180.00 [kg/h] change of exhaust mass flow -65.00 -65.00 [kg/h] engine speed = 1320 - 5000 [rpm] O2S rear stuck lean / stuck rich = ready, no fault scavenging: scavenging-rate = n.a. integrated air mass = n.a lambda control = 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> 1[-] CASE 1: (Diagnosis in Catalyst State full) time after engine start = n.a. - Threshold 1 O2S rear voltage< 0 [V] gradient O2S rear voltage-160 [V/s] HO2S mass flow >= 50 [mg] - Threshold 2 O2S rear voltage < 0.4 [V] CASE 2: (Diagnosis at Fuel Feed Restart) integrated exhaust mass flow n.a integrated exhaust mass = n.a. exhaust mass during = n.a. catalyst temperature = n.a exhaust mass flow = n.a gradient of exhaust mass flow = n.a. engine speed = n.a. O2S rear voltage = n.a. after fuel cut off = n.a for time = n.a. HO2S mass = n.a.	40 s	Once / DCY 1 DCY
P0140	HO2S Circuit No Activity Detected Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Signal voltage Signal voltage, 0.40 - 0.60 V for > 3 s Internal resistance > 40000 ohm	Sensor voltage <= 0.40 V or 0.50 to 1.08 V Sensor threshold. Modeled exhaust gas temp. 700°C for > 10 s Heater power >= 50%	38 s	2 DCY
P0141	HO2S Heater Circuit Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Heater resistance, 702 - 5250 Ω	Heater commanded on Modeled exhaust gas temp, 250 - 650° C Number of checks 10 Engine shutoff time > 60 s Fuel cutoff not active	15 s	2 DCY
P0142	HO2S Sensor Circuit Bank 1 Sensor 3	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Delta voltage one step at heater > 2.0 V number of checks, 4	Modeled exhaust gas temp 700° C for > 10 s Dew point exceeded and lower exhaust gas temp limit exceeded for 60 s	40 s	2 DCY
P0143	HO2S Sensor Circuit Low Voltage Bank 1 Sensor 3	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Cold/Warm condition Signal voltage < 0.06 V for > 3 s	Cold condition Sensor voltage <= 0.40 V or 0.50 to 1.08 V Modeled exhaust gas temp. 700 °C for > 10 s Heater power >= 50% for > 10 s	3 s	2 DCY
P0144	HO2S Sensor Circuit High Voltage Bank 1 Sensor 3	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Signal voltage > 1.08 V for > 5 s	Cold condition Sensor voltage <= 0.40 V or 0.50 to 1.08 V Modeled exhaust gas temp. 700 °C for > 10 s Heater power >= 50% for > 10 s	5 s	2 DCY
P0145	HO2S Sensor Circuit Slow Response Bank 1 Sensor 3	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	EWMA filtered transient time at fuel cutoff > 1.2 s In voltage range of 201.2 - 401.4 mV Number of checks, 3	Rich voltage enable > = 548 mV Lean voltage < = 201.2 mV Fuel cutoff active O2S rear ready Modeled exhaust gas temp > 400 °C Front HO2S sensor lambda signal > 2.00 V	100 s	2 DCY
P0146	HO2S Sensor Circuit No Activity Detected Bank 1 Sensor 3	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Signal voltage 0.40 - 0.60 V for > 3 s Internal resistance > 40000 Ohm	Cold condition Sensor voltage <= 0.40 V or 0.50 to 1.08 V Modeled exhaust gas temp. 650°C for > 18 s Heater power >= 50% for > 10 s	38 s	2 DCY
P0147	HO2S Sensor Heater Circuit Bank 1 Sensor 3	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Heater (ECM internal) resistance 792 - 4560 ohm	Modeled exhaust gas temp 250 - 650 °C Engine shutoff time > 60 s Fuel cutoff not active Number of checks 10 Heater commanded on	15 s	2 DCY
P0169	Electronic Throttle Control Module function monitoring: injection time	Check the Throttle Valve Control Module -J338- Refer to Throttle Valve Control Module - J338-, CHECKING .	comparison with fuel quantity = incorrect Internal check failed	Engine speed > 1200 RPM	0.52 to 2.08 s	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 -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING .-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .-- Check the intake system for leaks, or engine gaskets, oil cap loose/missing that can allow air in the via the PCV system.-- Check the vacuum lines for leaks	At idle Adaptive value > 5.02% At part load Adaptive value > 21%	At idle Engine speed, 560 - 1200 RPM Engine load, 9 - 45% Mass air flow 5-23 kg/h ECT > 63°C IAT < 90°C Part load adaptation ready Lambda control, Closed loop EVAP purge valve, Closed No low fuel signal At part load Throttle position < 99.6% Engine speed 1320 - 5000 RPM Engine load 20 - 100% Mass air flow 27 - 450 kg/h ECT > 63°C IAT < 90°C Lambda control closed loop EVAP purge valve closed No low fuel signal	10 s	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 -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING .-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .	At idle Adaptive value < -5.02% At part load Adaptive value < -21%	At idle Engine speed, 560 - 1200 RPM Engine load, 9 - 45% Mass air flow 5-23 kg/h ECT > 63°C IAT < 90°C Part load adaptation ready Lambda control, Closed loop EVAP purge valve, Closed No low fuel signal At part load Throttle position < 99.6% Engine speed 1320 - 5000 RPM Engine load 20 - 100% Mass air flow 27 - 450 kg/h ECT > 63°C IAT < 90°C Lambda control closed loop EVAP purge valve closed No low fuel signal	10 s	2 DCY
P0190	Fuel High Pressure Sensor Circuit Open or Short to Battery Voltage	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING	Signal voltage > 4.8 V	---	0.5 s	2 DCY
P0191	Fuel High Pressure Sensor Circuit Range / Performance	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING	Actual pressure > 20.6 MPa	Time after engine start > 0 s Engine speed > 90 RPM	3 s	2 DCY
P0192	Fuel High Pressure Sensor Circuit Short to ground	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING	Signal voltage < 0.2 V	---	0.5 s	2 DCY
P0201	Injector Circuit Open Cylinder 1	-- Check the Fuel Injectors -N30-. Refer to FUEL INJECTORS, CHECKING .	Low side signal current < 2.1 A Internal logic failure	Engine speed, > 80 RPM Injection valve switched on	0.5 s	2 DCY
P0202	Injector Circuit Open Cylinder 2	-- Check the Fuel Injectors -N31-. Refer to FUEL INJECTORS, CHECKING .	Low side signal current < 2.1 A Internal logic failure	Engine speed, > 80 RPM Injection valve switched on	0.5 s	2 DCY
P0203	Injector Circuit Open Cylinder 3	-- Check the Fuel Injectors -N32-. Refer to FUEL INJECTORS, CHECKING .	Low side signal current < 2.1 A Internal logic failure	Engine speed, > 80 RPM Injection valve switched on	0.5 s	2 DCY
P0204	Injector Circuit Open Cylinder 4	-- Check the Fuel Injectors -N33-. Refer to FUEL INJECTORS, CHECKING .	Low side signal current < 2.1 A Internal logic failure	Engine speed, > 80 RPM Injection valve switched on	0.5 s	2 DCY
P0221	Accelerator Pedal Position Sensor 1/Accelerator Pedal Position Sensor 2 Circuit Range/Performance	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module - J338-, CHECKING .	TPS 1 - TPS 2 > 6.30% Actual TPS 2 calculated value > TPS 1 calculated value TPS 2 - calc. value > 9.00%	Engine speed > 480 RPM	0.3 s	2 DCY
P0222	Accelerator Pedal Position Sensor / Accelerator Pedal Position Sensor 2 Circuit Short to Ground	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module - J338-, CHECKING .	Signal voltage < 0.20 V	---	0.1 s	2 DCY
P0223	Accelerator Pedal Position Sensor / Accelerator Pedal Position Sensor 2 Circuit Short to Battery Voltage	-- Check the Accelerator Pedal Position Sensor 1 -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	Signal voltage > 4.81 V	---	0.1 s	2 DCY
P0234	Turbocharger Overboost Condition	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING -- Check the Wastegate Bypass Regulator Valve -N75-. Refer to Wastegate Bypass Regulator Valve -N75-, CHECKING .	Difference of set value boost pressure vs altitude sensor signal > 260 - 1275 hPa	Altitude < 2700 m	1.2 s	2 DCY
P0236	Turbocharger Boost Sensor Circuit Range/Performance	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING	Difference of boost pressure signal vs. altitude sensor signal > 230 hPa or < -130 hPa	Engine speed < 1000 RPM Throttle position < 6.81%	2 s	2 DCY
P0237	Turbocharger Boost Sensor Circuit Short to Ground	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING	Signal voltage < 0.2 V	Engine speed > 80 RPM	0.5 s	2 DCY
P0238	Turbocharger Boost Sensor Circuit High	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor - G31-, CHECKING	Signal voltage > 4.88 V	Engine speed > 80 RPM and throttle position < 6.81%	0.5 s	2 DCY
P0243	Turbocharger Wastegate Solenoid Circuit Open	-- Check the Wastegate Bypass Regulator Valve -N75-. Refer to Wastegate Bypass Regulator Valve -N75-, CHECKING .	- Signal voltage > 5.6 - 4.4 V	Charge (boost) pressure control valve, commanded off Engine speed > 80 RPM	0.5 s	2 DCY
P0245	Turbocharger Wastegate Solenoid Circuit Short to Ground	-- Check the Wastegate Bypass Regulator Valve -N75-. Refer to Wastegate Bypass Regulator Valve -N75-, CHECKING .	Signal voltage < 3.25 - 2.15 V	Charge (boost) pressure control valve, commanded off Engine speed, > 80 RPM	0.5 s	2 DCY
P0246	Turbocharger Wastegate Solenoid Circuit Short to Battery Voltage	-- Check the Wastegate Bypass Regulator Valve -N75-. Refer to Wastegate Bypass Regulator Valve -N75-, CHECKING .	Signal current > 2.2 to 4 A	Charge (boost) pressure control valve, commanded on Engine speed, > 80 RPM	0.5 s	2 DCY
P025A	Fuel Pump Module Control Circuit Open	-- Check the Fuel Pump Control Module -J538-. Refer to Fuel Pump Control Module - J538- / Transfer Fuel Pump - G6-, CHECKING .	Signal voltage 4.40 - 5.60 V	Engine speed > 80 RPM	0.5 s	2 DCY
P025C	Fuel Pump Module Control Circuit Low	-- Check the Fuel Pump Control Module -J538-. Refer to Fuel Pump Control Module - J538- / Transfer Fuel Pump - G6-, CHECKING .	Signal voltage 2.15 - 3.25 V	Engine speed > 80 RPM	0.5 s	2 DCY
P025D	Fuel Pump Module Control Circuit High	-- Check the Fuel Pump Control Module -J538-. Refer to Fuel Pump Control Module - J538- / Transfer Fuel Pump - G6-, CHECKING .	Signal current > 1.10 A	Engine speed > 80 RPM	0.5 s	2 DCY
P0261	Cylinder 1 Injector Circuit Low	-- Check the Fuel Injector -N30-. Refer to FUEL INJECTORS, CHECKING .	Signal current < 2.1 A	Injection valve, Commanded on Engine speed, > 80 RPM High side signal current, > 4.20 A	0.5 s	2 DCY Actual TPS 2 calculated value > TPS 1 calculated value
P0262	Cylinder 1 Injector Circuit High	-- Check the Fuel Injector -N30-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 14.70 A	Injection valve, Commanded on Engine speed, > 80 RPM	0.5 s	2 DCY
P0264	Cylinder 2 Injector Circuit Low	-- Check the Fuel Injector -N31-. Refer to FUEL INJECTORS, CHECKING .	Signal current < 2.1 A	Injection valve, Commanded on Engine speed, > 80 RPM High side signal current, > 4.20 A	0.5 s	2 DCY
P0265	Cylinder 2 Injector Circuit High	-- Check the Fuel Injector -N31-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 14.70 A	Injection valve, Commanded on Engine speed, > 80 RPM	0.5 s	2 DCY
P0267	Cylinder 3 Injector Circuit Low	-- Check the Fuel Injector -N32-. Refer to FUEL INJECTORS, CHECKING .	Signal current < 2.1 A	Injection valve, Commanded on Engine speed, > 80 RPM High side signal current, > 4.20 A	0.5 s	2 DCY
P0268	Cylinder 3 Injector Circuit High	-- Check the Fuel Injector -N32-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 14.70 A	Injection valve, Commanded on Engine speed, > 80 RPM	0.5 s	2 DCY
P0270	Cylinder 4 Injector Circuit Low	-- Check the Fuel Injector -N33-. Refer to FUEL INJECTORS, CHECKING .	Signal current < 2.1 A	Injection valve, Commanded on Engine speed, > 80 RPM High side signal current, > 4.20 A	0.5 s	2 DCY
P0271	Cylinder 4 Injector Circuit High	-- Check the Fuel Injector -N33-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 14.70 A	Injection valve, Commanded on Engine speed, > 80 RPM	0.5 s	2 DCY
P0299	Turbocharger Underboost	-- Check the charge air system for proper seal. Refer to the Repair Information.-- Check the charge air pressure sensor. Refer to Charge Air Pressure Sensor - G31-, CHECKING .	Difference of set boost pressure vs actual boost pressure value > 150 hPa	Engine speed > 2800 RPM Altitude < 2700 m Difference of set value boost pressure vs basic boost pressure value > 250 hPa Boost pressure control active Turbo charger bypass valve closed	6 s	2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P0300	Random Misfire Detected	-- Check the Spark plugs.-- Check the intake system for leaks.-- Check Fuel Injectors -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING -- Check the Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Emission threshold 1st interval Misfire Rate (MR), > 2.65% Catalyst damage misfire rate (MR), > 3% - 20%	Time from start, 0 s IAT, > -48° C Time after engine start, Idle +/- 150 RPM and 1 cam rev. Engine torque, > 5.47-23.4% Camshaft revolutions 1 Engine speed range, 440-6800 RPM Fuel cutoff, Not active ECT at start, > -48 °C	1000 Rev. 200 Rev.	2 DCY Immediate
P0301	Cylinder 1 Misfire Detected	-- Check the Spark plugs.-- Check the intake system for leaks.-- Check Fuel Injectors -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING -- Check the Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Emission threshold 1st interval Misfire Rate (MR), > 2.65% Catalyst damage misfire rate (MR), > 3% - 20%	Time from start, 0 s IAT, > -48° C Time after engine start, Idle +/- 150 RPM and 1 cam rev. Engine torque, > 5.47-23.4% Camshaft revolutions 1 Engine speed range, 440-6800 RPM Fuel cutoff, Not active ECT at start, > -48 °C	1000 Rev. 200 Rev.	2 DCY Immed.
P0302	Cylinder 2 Misfire Detected	-- Check the Spark plugs.-- Check the intake system for leaks.-- Check Fuel Injectors -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING -- Check the Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Emission threshold 1st interval Misfire Rate (MR), > 2.65% Catalyst damage misfire rate (MR), > 3% - 20%	Time from start, 0 s IAT, > -48° C Time after engine start, Idle +/- 150 RPM and 1 cam rev. Engine torque, > 5.47-23.4% Camshaft revolutions 1 Engine speed range, 440-6800 RPM Fuel cutoff, Not active ECT at start, > -48 °C	1000 Rev. 200 Rev.	2 DCY Immed.
P0303	Cylinder 3 Misfire Detected	-- Check the Spark plugs.-- Check the intake system for leaks.-- Check Fuel Injectors -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING -- Check the Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Emission threshold 1st interval Misfire Rate (MR), > 2.65% Catalyst damage misfire rate (MR), > 3% - 20%	Time from start, 0 s IAT, > -48° C Time after engine start, Idle +/- 150 RPM and 1 cam rev. Engine torque, > 5.47-23.4% Camshaft revolutions 1 Engine speed range, 440-6800 RPM Fuel cutoff, Not active ECT at start, > -48 °C	1000 Rev. 200 Rev.	2 DCY Immed.
P0304	Cylinder 4 Misfire Detected	-- Check the Spark plugs.-- Check the intake system for leaks.-- Check Fuel Injectors -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING -- Check the Ignition Coils with Power Output Stage -N70, N127, N291, N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Emission threshold 1st interval Misfire Rate (MR), > 2.65% Catalyst damage misfire rate (MR), > 3% - 20%	Time from start, 0 s IAT, > -48° C Time after engine start, Idle - 150 RPM Engine torque, > 5.47-23.4% Camshaft revolutions 1 Engine speed range, 480-6800 RPM Fuel cutoff, Not active ECT at start, > -10.50 °C	1000 Rev. 200 Rev.	2 DCY Immed.
P0321	Engine Speed Input Circuit Performance	-- Check the Engine Speed Sensor -G28-. Refer to Engine Speed Sensor -G28-, CHECKING .	Comparison of counted teeth vs reference = incorrect monitoring reference gap failure	---	1.5 s	2 DCY
P0322	Engine Speed Input Circuit No Signal	-- Check the Engine Speed Sensor -G28-. Refer to Engine Speed Sensor -G28-, CHECKING .	Camshaft signal > 3 Engine speed, no signal	---	2.5 s	2 DCY
P0324	Knock Control System Error	-- Check the Knock Sensor -G61-. Refer to Knock Sensor 1 -G61-, CHECKING .	Signal fault counter (combustion) > 24 or Signal fault counter (measuring window) > 2.00	Engine speed 2500 RPM	0.5 s	2 DCY
P0327	Knock Sensor 1 Circuit Low	-- Check the Knock Sensor -G61-. Refer to Knock Sensor 1 -G61-, CHECKING .	Lower threshold < -0.70 V or for signal range check Lower threshold < 0 - 1.60 V	Engine speed, > 1000 RPM or for signal range check ECT > 41°C Engine load > 35 - 60% Engine speed > 2000 RPM	0.5 s	2 DCY
P0328	Knock Sensor 1 Circuit High	-- Check the Knock Sensor -G61-. Refer to Knock Sensor 1 -G61-, CHECKING .	Upper threshold > 1.00 V or for signal range check > 15 - 115.87 V	Engine speed, > 1000 RPM or for signal range check ECT > 40.5°C Engine load > 35 - 60% Engine speed > 2000 RPM	0.5 s	2 DCY
P0340	Camshaft Position Sensor Circuit	-- 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 s	2 s	2 DCY
P0341	Camshaft Position Sensor Circuit Performance	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	Signal pattern incorrect Defect counter 12 [-]	---	0.5 s	2 DCY
P0342	Camshaft Position Sensor Circuit Low	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	Signal voltage low Crankshaft signals = 8 [-]	---	0.5 s	2 DCY
P0343	Camshaft Position Sensor Circuit High	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	Signal voltage high Crankshaft signals = 8 [-]	---	0.5 s	2 DCY
P0351	Ignition Coil A Primary Circuit	-- Check the Ignition Coil with Power Output Stage -N70-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current 0.25 to -2.0 mA Internal check failed	Engine speed > 680 RPM	2 s	Continuous 2 DCY
P0352	Ignition Coil B Primary Circuit	-- Check the Ignition Coil with Power Output Stage -N127-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current 0.25 to -2.0 mA Internal check failed	Engine speed > 680 RPM	2 s	Continuous 2 DCY
P0353	Ignition Coil C Primary Circuit	-- Check the Ignition Coil with Power Output Stage -N291-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current 0.25 to -2.0 mA Internal check failed	Engine speed > 680 RPM	2 s	Continuous 2 DCY
P0354	Ignition Coil D Primary Circuit	-- Check the Ignition Coil with Power Output Stage -N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current 0.25 to -2.0 mA Internal check failed	Engine speed > 680 RPM	2 s	Continuous 2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P0420	Catalyst System Efficiency Below Threshold	-- Check the Three Way Catalytic Converter (TWC). Refer to CATALYTIC CONVERTER, CHECKING .-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Front: Oxygen storage capacity (OSC) vs OSC of borderline catalyst < 1.00 Front catalyst < 1.50 Main catalyst < 1.00 Main: Oxygen storage capacity (OSC) vs OSC of borderline catalyst < 0.40 Front catalyst<.90 while value for front catalyst < 2.00	Front: Time after engine start > 0 s Delta exhaust mass flow < 23.1 kg/h Exhaust gas mass flow, lower range 40.0 - 130.0 kg/h Exhaust gas mass flow upper range 60.0 - 130.0 kg/h Modeled exhaust gas temp, lower range > 460 °C Modeled exhaust gas temp, upper range 640 - 780 °C Engine speed 1320 - 3520 RPM Number of checks, 4 O2S front/rear, ready/no faults SAS, not active No misfire Main: Time after engine start > 80 s Delta exhaust mass flow < 30 kg/h Exhaust gas mass flow, lower range 25.0 - 80.0 kg/h Exhaust gas mass flow upper range 60.0 - 160.0 kg/h Modeled exhaust gas temp, lower range 435 - 660 °C Modeled exhaust gas temp, upper range 530 - 740 °C Engine speed 1200 - 3520 RPM Number of checks, 4 O2S front/rear, ready/no faults SAS, not active No misfire	15 to 40 s	Once/DCY 2 DCY
P0441	Evaporative Emission System Incorrect Purge Flow	-- 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 Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Deviation < 8% lambda controller and 35% idle controller	Evap purge flow integral 25 - 120 g Integrated air mass 1.50 - 2.50 kg Engine speed = idle Engine speed deviation < 80 RPM ECT > 65 °C or substitute 80 °C IAT > 4 °C Altitude < 2700 m Lambda control, closed loop	120 s	Once/DCY 2 DCY
P0442	Evaporative Emission 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 Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Time for pressure drop < 1.6 - 1.8 s	Time after engine start 12 - 65530 s ECT 3.8 - 120 °C ECT at start 5 - 50 °C Engine off time > 21600 s Ambient air temp 5 - 59 °C Ambient air temp drop after start < 8 °K Intake manifold vac. > -2560 hPa Altitude < 2700 m Veh. speed >= 0 Veh speed once > 40 km/h Any drive gear Restart temp diff. > 0 °K Purge valve closed LDP active	139 s	once per / DCY 2 DCY
P0444	Evaporative Emission System Purge Control Valve Circuit Open	-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .	Signal voltage > 4.70 - 5.40 V	EVAP purge valve Commanded Off Engine speed > 80 RPM	0.5 s	2 DCY
P0447	Evaporative Emission System Vent Control Circuit Open	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Signal voltage > 4.70 - 5.40 V	EVAP purge valve Commanded Off	0.5 Sec	2 DCY
P0448	Evaporative Emission System Vent Control Circuit Shorted to B+ or ground	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Short to B+ - Signal current > 2.2 - 4.0 A Short to Ground - Signal voltage < 2.74 - 3.26 V	Short to B+ - EVAP pump solenoid valve commanded ON Short to ground - EVAP pump commanded Off	0.5 Sec	2 DCY
P0455	Evaporative Emission System Leak Detected Gross Leak/No Flow	-- 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 Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Time for pressure drop < 1 s	Time after engine start 12 - 65530 s ECT 5 - 120 °C ECT at start 5 - 50 °C Engine off time > 21600 s Ambient air temp 5 - 59 °C Ambient air temp drop after start < 12 °K Intake manifold vac. > -2560 hPa Altitude < 2700 m Veh. speed >= 0 Veh speed once > 40 km/h Any drive gear Restart temp diff. > 0 °K Purge valve closed LDP active	136 s	2 DCY
P0456	Evaporative Emission 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 Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Time for pressure drop, < 4.5 - 6.0 s	Time after engine start 12 - 1000 s ECT 3.8 - 120 °C ECT at start 3.8 - 50.3 °C Engine off time > 21600 s Ambient air temp 3.8 - 59.3 °C Ambient air temp drop after start < 4.5 °K Intake manifold vac. > -2560 hPa Intake manifold vac. > -2560 hPa Altitude < 2700 m Veh. speed >= 0 Veh speed once > 40 km/h Any drive gear Restart temp diff. > 0 K Purge valve closed LDP active	180 s	once per / DCY 2 DCY
P0458	Evaporative Emission System Purge Control Valve Circuit Low	-- Check the Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .	Signal voltage 0 - 3.26 V	EVAP purge valve, Commanded off Engine speed > 80 RPM	0.5 s	2 DCY
P0459	Evaporative Emission System Purge Control Valve Circuit High	-- Check the Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .	Signal current > 2.2 A	EVAP purge valve, Commanded On Engine speed > 80 RPM	0.5 s	2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P050A	Cold Start Idle Air Control System Performance	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module - J338-, CHECKING .	Out of range low: Engine speed deviation < -80 RPM Out of range high: Engine speed deviation > 80 RPM	Out of range low: Time after engine start > 0 s Engine speed, idle Veh speed 0 km/h Altitude < 2700 m IAT > -48.0 °C Catalyst heating active ECT < 143 °C Lambda control active EVAP purge adaptation < 22 External torque request active	3 - 5 s	2 DCY
P050B	Cold Start Ignition Timing Performance	Check for any Engine Speed sensor or Ignition Coil faults and diagnose them first. If NO other codes are set, replace the ECM. -- Engine Control Module -J623-. Refer to the Repair Information.	Difference between commanded spark timing vs. actual value > 20%	Time during catalyst heating > 12 s Commanded spark retard during catalyst heating < 100% Idle speed not active Vehicle speed >= 5 km/h Delta engine load <= 10.01% Delta engine speed <= 100 RPM	10 s	Once/DCY 2 DCY
P0501	Vehicle Speed Sensor Range/Performance	-- Check vehicle speed signal. Refer to VEHICLE SPEED SIGNAL, CHECKING .	VSS signal < 6 MPH	Engine torque > 120 Nm Engine speed > 2800 RPM	2000 mSec.	2 DCY
P0503	Vehicle Speed Sensor Intermittent/Erratic/High	-- Check vehicle speed signal. Refer to VEHICLE SPEED SIGNAL, CHECKING .	Vehicle speed > 180 MPH	---	0.5 s	2 DCY
P0506	Idle Air Control System RPM Lower Than Expected	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module - J338-, CHECKING .	Integrated engine speed deviation > 2000 RPM OR engine speed deviation > 80 RPM	Engine speed, idle Vehicle speed 0 MPH Altitude < 2700 m IAT, > -48 °C ECT, > -48 °C Time after engine start > 0 s Lambda control active	3 to 5 s	2 DCY
P0507	Idle Air Control System RPM Higher Than Expected	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module - J338-, CHECKING .	Idle speed Deviation < -80 RPM	Engine speed, idle Vehicle speed 0 MPH Altitude < 2700 m IAT, > -48 °C ECT, > -48 °C Time after engine start > 0 s Lambda control active	6 s	2 DCY
P052A	Cold Start Camshaft Position Timing Over-Advanced	Make sure correct viscosity oil is used. -- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Difference between target and actual position > 6° CRK	Time after engine start >= 15 s Engine speed >= 0 RPM Modeled oil temperature >= -13 °C Catalyst heating active	5 s	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: > 1.50 MPa OR < -1.50 MPa	Time after engine start 3 s Fuel cutoff not active Catalyst heating active	3 s	2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P0606	ECM Processor Fault	-- Replace the Engine Control Module -J623-. Refer to the Repair Information.	ECM internal check failure or BARO failure (located in the ECM).	Key on or engine running	2 s	2 DCY Continuous
P062B	Internal Control Module Fuel Injector Control Performance	-- Replace the Engine Control Module -J623-. Refer to the Repair Information.	Internal logic failure	Engine speed > 80 RPM	2.2 s	2 DCY
P0638	Throttle Actuator Control Range/Performance	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module - J338-, CHECKING .	Time to close to reference point > 0.6 s and reference point 2.88% TPS 1 signal 0.40 - 0.60 V TPS 2 signal 4.20 - 4.60 V TPS 1 and TPS 2 4.82 - 5.18 V	Engine speed 0 RPM Vehicle speed 0 km/h ECT > 5.3 to 114.8°C IAT > 5.3 to 143.8°C Engine shutoff time 5 s Number of checks = 2	0.3 to 5 s	2 DCY
P0641	Sensor Reference Voltage A Circuit Open	-- If a related sensor voltage code is also set, refer to that sensor for diagnosis first. If no other related codes set, replace the Engine Control Module -J623-. Refer to the Repair Information.	Signal voltage deviation > +/- 0.3 V	---	0.5 s	2 DCY
P0651	Sensor Reference Voltage B Circuit Open	-- If a related sensor voltage code is also set, refer to that sensor for diagnosis first. If no other related codes set, replace the Engine Control Module -J623-. Refer to the Repair Information.	Signal voltage deviation > +/- 0.3 V	---	0.5 s	2 DCY
P0657	Actuator Supply Voltage Circuit Open	-- Check the Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay -J271-, CHECKING .	Signal voltage, > 4.4 - 5.6 V	Relay, commanded off Engine speed > 80 RPM	0.5 s	2 DCY
P0658	Actuator Supply Voltage Circuit Low	-- Check the Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay -J271-, CHECKING .	Signal voltage, < 2.15 - 3.25 V	Relay, commanded off Engine speed > 80 RPM	0.5 s	2 DCY
P0659	Actuator Supply Voltage Circuit High	-- Check the Engine Control Module Power Supply Relay -J271-. Refer to Motronic Engine Control Module Power Supply Relay -J271-, CHECKING .	Signal current > 1.1 A	Relay, commanded on Engine speed > 80 RPM	0.5 s	2 DCY
P0697	Sensor Reference Voltage Circuit Open	-- If a related sensor voltage code is also set, refer to that sensor for diagnosis first. If no other related codes set, replace the Engine Control Module -J623-. Refer to the Repair Information.	Signal voltage deviation > +/- 0.3 V	---	0.5 s	2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P117A	Bank 1 Sensor 2 Control Limit Reached	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	I portion of 3rd lambda control loop > 0.030 [-]	Engine speed 1200 to 4000 RPM Modeled exhaust gas temp 350 to 1000 °C Engine load 21.8 to 99.8% 1st, 2nd, 3rd lambda control in closed loop O2S rear and heater ready, no faults	800 s	2 DCY
P12A1	Fuel Rail Pressure Sensor Inappropriately Low	-- 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 > 0.20 MPa Fuel trim activity < 0.80 Difference between actual pressure vs target pressure -16.38 to 16.38 MPa	Engine speed > 600 RPM EVAP purge adaption < 22.0 ECT >= 63 °C IAT < 90 °C Lambda control closed loop Fuel cutoff not active	5 s	2 DCY
P12A2	Fuel Rail Pressure Sensor Inappropriately High	-- 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 < -0.05 MPa Fuel trim activity > 1.65 Difference between target pressure and actual pressure -16.38 to 16.38 MPa	Engine speed > 600 RPM EVAP purge adaption < 22.0 ECT >= 63 °C IAT < 90 °C Lambda control closed loop Fuel cutoff not active	5 s	2 DCY
P12A4	Fuel Rail Pump Control Valve Stuck Closed	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Fuel trim activity. 90 to 1.15 Pressure control activity < -6 MPa System Deviation < 16.38 MPa	Engine speed > 600 RPM EVAP purge adaption < 22.0 ECT >= 63 °C IAT < 90 °C Lambda control closed loop Fuel cutoff not active	5 s	2 DCY
P13EA	Cold Start Ignition Timing Performance Off Idle	Check for any Engine Speed sensor or Ignition Coil faults and diagnose them first. If NO other codes are set, replace the ECM. -- Engine Control Module -J623-. Refer to the Repair Information.	Difference between commanded spark timing vs. actual value > 40%	Time during catalyst heating > 12 s Commanded spark retard during catalyst heating < 100% Idle speed not active Vehicle speed >= 5 km/h Delta engine load <= 10.01% Delta engine speed <= 100 RPM	10 s	Once/DCY 2 DCY
P150A	Engine Off Timer Performance	-- If ignition off B+ is lost to ECM, this code will set. Check power and ground inputs to ECM first. Refer to Wiring Diagrams for pin locations. If all power/grounds to ECM are present, replace the Engine Control Module -J623-. Refer to the Repair Information.	Difference between engine off time and ECM after run time < -12 s or > 12 s	Key on after ECM after run time active Key on during ECM after run time active CAN active	6.0 s	2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P2008	Intake Manifold Runner Control Circuit Open	-- Check the Intake Manifold Runner Control Valve -N316-. Refer to Intake Manifold Runner Control Valve -N316-, CHECKING .	Signal voltage 4.70 - 5.40 V	Tumble flap commanded off Engine speed > 80 RPM	0.5 s	2 DCY
P2009	Intake Manifold Runner Control Circuit Low	-- Check the Intake Manifold Runner Control Valve -N316-. Refer to Intake Manifold Runner Control Valve -N316-, CHECKING .	Signal voltage 0 to 3.26 V	Tumble flap commanded off Engine speed > 80 RPM	0.5 s	2 DCY
P2010	Intake Manifold Runner Control Circuit High	-- 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 RPM	0.5 s	2 DCY
P2014	Intake Manifold Runner Position Sensor Circuit	-- Check the Intake Manifold Runner Position Sensor -G336-. Refer to Intake Manifold Runner Position Sensor -G336-, CHECKING .	Signal voltage > 4.75 V	---	0.3 s	2 DCY
P2015	Intake Manifold Runner Position Sensor Circuit Range/Performance	-- Check the Intake Manifold Runner Position Sensor -G336-. Refer to Intake Manifold Runner Position Sensor -G336-, CHECKING .	Deviation runner flap target position vs actual position > 25% Actual position 0 to 100%	Flap commanded on or off Adaptation ready	1.5 s	2 DCY
P2016	Intake Manifold Runner Position Sensor Circuit Low	-- Check the Intake Manifold Runner Position Sensor -G336-. Refer to Intake Manifold Runner Position Sensor -G336-, CHECKING .	Signal voltage < 0.25 V	---	0.3 s	2 DCY
P2088	A Camshaft Position Actuator Control Circuit Low	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Signal voltage 0 - 3.25 V	Camshaft valve off Engine speed > 80 RPM	0.5 s	2 DCY
P2089	A Camshaft Position Actuator Control Circuit High	-- Check the Camshaft Adjustment Valve 1 -N205-. Refer to Camshaft Adjustment Valve 1 -N205-, CHECKING .	Signal current > 2.2 A	Camshaft valve on Engine speed > 80 RPM	0.5 s	2 DCY
P2096	Post Catalyst Fuel Trim System Too Lean	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING -- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING	I-portion of 2nd lambda control < -0.040 [-]	Modeled exhaust gas temp 450 to 850 °C for time > 20.0 [s] Exhaust gas mass flow 14 to 300 kg/h Lambda control in closed loop, not at min or max limit O2S front ready, no DTC O2S rear ready, no DTC HO2S heaters active Not in fuel cutoff, SAI off Catalyst heating not active	60 s	2 DCY
P2097	Post Catalyst Fuel Trim System Too Rich	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING -- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING	I-portion of 2nd lambda control > 0.040 [-]	Modeled exhaust gas temp 450 to 850 °C Exhaust gas mass flow 14 to 300 kg/h Lambda control in closed loop, not at min or max limit O2S front ready, no DTC O2S rear ready, no DTC HO2S heaters active Not in fuel cutoff, SAI off Catalyst heating not active	60 s	2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P2101	Throttle Actuator Control Motor Circuit Range/Performance	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module - J338-, CHECKING .	Duty cycle > 80% Deviation throttle value angles vs. calculated value 4 - 50% ECM power stage no failure	---	0.5 - 5 s	2 DCY
P2106	Throttle Actuator Control System - Forced Limited Power	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module - J338-, CHECKING .	Internal check failed	Duty cycle > 80% or deviation throttle value angles vs. calculated value > 4 - 50%	0.5 - 5 s	2 DCY
P2122	APP Sensor 1/APP Sensor 2 Circuit D Low Input	-- Check the Accelerator Pedal Position Sensor 1 -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	Signal voltage < 0.61 V	---	0.5 s	2 DCY
P2123	APP Sensor 1/APP Sensor 2 Circuit D High Input	-- Check the Accelerator Pedal Position Sensor 1 -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	Signal voltage > 4.79 V	---	0.5 s	2 DCY
P2127	APP Sensor 1/APP Sensor 2 Circuit E Low Input	-- Check the Accelerator Pedal Position Sensor 1 -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	Signal voltage < 0.27 V	---	0.5 s	2 DCY
P2128	APP Sensor 1/APP Sensor 2 Circuit E High Input	-- Check the Accelerator Pedal Position Sensor 1 -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	Signal voltage > 2.43 V	---	0.5 s	2 DCY
P2138	APP Sensor 1/APP Sensor 2 Circuit D/E Voltage Correlation	-- Check the Accelerator Pedal Position Sensor 1 -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	Signal voltage: Difference between signal APP1 and APP2 > 0.17 - 0.70 V	Signal voltage sensor 1 > 445.0 mv Signal voltage sensor 2 > 445.0 mv	0.24 s	2 DCY
P2146	Fuel Injector Group A Supply Voltage Circuit Open	-- Check the Fuel Injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .	Signal current, < 2.6 A or Signal current > 14.90 A	Engine speed > 80 RPM or Low side signal current > 2.70 A	0.5 s	2 DCY
P2149	Fuel Injector Group B Supply Voltage Circuit Open	-- Check the Fuel Injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .	Signal current, < 2.6 A or Signal current > 14.90 A	Engine speed > 80 RPM or Low side signal current > 2.70 A	0.5 s	2 DCY
P2177	system too lean @ part load	-- Check the Fuel Injectors -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING .-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .-- Check the intake system for leaks (false air).-- Check the vacuum lines for leaks	Adaptive value > 28%	Engine speed 1280 to 6000 RPM Engine load 20 to 100% Mass air flow 30 to 300 kg/h ECT > 63 °C IAT < 90 °C Lambda control closed loop Evap purge valve closed	10 s	2 DCY
P2178	System Too Rich Off Idle	-- Check the Fuel Injectors -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING .-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .	Adaptive value < -21%	Engine speed 1280 to 6000 RPM Engine load 20 to 100% Mass air flow 30 to 300 kg/h ECT > 63 °C IAT < 90 °C Lambda control closed loop Evap purge valve closed	10 s	2 DCY
P2181	Cooling System Performance	-- Check Engine Coolant Temperature (ECT) Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING -- Check the Coolant Pump -V50- Refer to the Repair Information.-- Check the Coolant Thermostat. Refer to the Repair Information.	Cooling system temperature too low after a sufficient mass air flow integral 74 - 84 °C	Begin of air mass integration when engine temp > 30 °C ECT at start, - 7 - 64 °C Ambient air temp -7 °C Fuel cutoff not active and engine load 0 - 400% Delta ambient pressure < 1.5 kPa Integrated air mass depending on engine temp at start and ambient air temperature 4 - 23 kg/h Accumulated fuel cutoff < 40 - 250 s At time of fault decision Average mass air flow 20 - 154 kg/h Average veh. speed 33.4 - 120 km/h	2 s	2 DCY
P2184	Engine Coolant Temperature Sensor 2 Circuit Low	-- Check the Engine Coolant Temperature (ECT) Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .	ECT outlet > 141 °C	---	2 s	2 DCY
P2185	Engine Coolant Temperature Sensor 2 Circuit High	-- Check the Engine Coolant Temperature (ECT) Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .	ECT outlet < -43 °C	---	2 s	2 DCY
P2187	System Too Lean At Idle	-- Check the intake system for leaks (air not metered through the MAF).-- Check the vacuum lines for leaks-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING -- Check the Fuel Injectors -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING .-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	Adaptive value > 5.02%	Engine speed 520 to 1200 RPM Engine load < 17 to 45% Mass air flow 5 to 26 kg/h ECT > 63 °C IAT < 90 °C Delta part load adaptation ready Lambda closed loop EVAP purge valve closed	10 s	2 DCY
P2188	System Too Rich At Idle	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor - G247-, CHECKING -- Check the Fuel Injectors -N30, N31, N32, N33, -. Refer to FUEL INJECTORS, CHECKING .-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .-- Check the EVAP Canister Purge Regulator Valve 1 -N80-. Refer to EVAP Canister Purge Regulator Valve 1 - N80-, CHECKING .	Adaptive value < -5.02%	Engine speed 520 to 1200 RPM Engine load < 17 to 45% Mass air flow 5 to 26 kg/h ECT > 63 °C IAT < 90 °C Delta part load adaptation ready Lambda closed loop EVAP purge valve closed	10 s	2 DCY
P2195	HO2S Sensor Signal Out of Range Lean Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	Delta lambda of 2nd lambda control loop > 0.080 [-]	Modeled exhaust gas temp 450 - 850 °C Delta engine load < 20% Exh. gas mass flow 14 - 300 kg/h Lambda control, 2nd lambda control, closed loop O2S front, rear and heaters ready - no fault Fuel cutoff, catalyst heating, SAI - not active 1st lambda control loop not at min or max 2nd lambda control loop active	95 s	2 DCY
P2196	HO2S Sensor Signal Out of Range Rich Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	Delta lambda of 2nd lambda control loop < -0.080 [-]	Modeled exhaust gas temp 450 - 850 °C Delta engine load < 20% Exh. gas mass flow 14 - 300 kg/h Lambda control, 2nd lambda control, closed loop O2S front, rear and heaters ready - no fault Fuel cutoff, catalyst heating, SAI - not active 1st lambda control loop not at min or max 2nd lambda control loop active	95 s	2 DCY
P2231	HO2S Sensor Bank 1 Sensor 1 Signal Circuit Shorted to Heater Circuit	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	Delta O2S signal front > 190 uA	Engine speed, < 2700 RPM Engine load < 60% Heater duty cycle, 20 - 80% Modeled exhaust gas temp < 800.1°C lambda 0.95 - 1.05 Heater control, closed loop, no fault	15 s	2 DCY
P2237	HO2S Sensor Positive Current Control Circuit Open Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	O2S signal front 1.49 - 1.51 V Delta lambda controller > 0.10	O2S ceramic temp, 715 °C Lambda control, Closed loop Modeled exhaust gas temp > 700 °C Lambda modulation > 0.02 Heater control closed loop	5 to 8 s	2 DCY
P2243	HO2S Sensor Reference Voltage Circuit Open Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	O2S signal front > 3.25 V and Internal resistance > 1000 Ohm O2S signal front < 0.30 V and Internal resistance > 1000 Ohm	Heater control active	20 s	2 DCY
P2251	HO2S Sensor Negative Current Control Circuit Open Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING	O2S signal front 1.47 to 1.53 V and internal resistance > 1000 Ohm	Modeled exhaust gas temp < 700 °C No fuel cutoff > 2 s Heater control active	25 s	2 DCY
P2270	HO2S Sensor Signal Stuck Lean Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	O2S signal rear < -2.00 mV Enrichment after stuck lean 27.9%	Mass air flow 25 to 150 kg/h Modeled exhaust gas temp > 350 °C HO2S readiness > 30 s 2nd lambda control closed loop	95 s	2 DCY
P2271	HO2S Sensor Signal Stuck Rich Bank 1 Sensor 2	-- Check the Oxygen Sensor After Three Way Catalytic Converter -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING .	Sensor voltage of >= 0.15 V After oxygen mass flow > 3000 mg Number of checks >= 1	Time of fuel cutoff <= 90 s Time after last fuel cutoff >= 20 s HO2S rear ready Exhaust temp at sensor >= 385 °C Exhaust mass flow > 12 kg/h Exhaust mass flow dynamic within range -80 to 80 kg/h	10 s	2 DCY
P2274	HO2S Sensor Signal Stuck Lean Bank 1 Sensor 3	-- Check the Heated Oxygen Sensor (HO2S) -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING	O2S rear signal not oscillating at reference < 0.62 to 0.65 V Enrichment after stuck lean 27.9%	Mass air flow 25 to 150 kg/h O2S rear readiness > 30 s Modeled exhaust gas temp > 350 °C 2nd lambda control closed loop	215 s	2 DCY
P2275	HO2S Sensor Signal Stuck Rich Bank 1 Sensor 3	-- Check the Heated Oxygen Sensor (HO2S) -G130-. Refer to Oxygen Sensor After Three Way Catalytic Converter -G130- CHECKING	O2S sensor voltage >= 0.15 V After oxygen mass flow (fuel cutoff) > 4500 mg Number of checks >= 1	Time of fuel cutoff <= 90 s Time after last fuel cutoff >= 20 s O2S rear ready Exhaust temp at sensor >= 385 °C Exhaust mass flow > 12 kg/h Exhaust mass flow dynamic within range -80 to 80 kg/h Sensor voltage at start of measurement > 0.45 V	10 s	2 DCY
P2279	Intake Air System Leak	Check for air leaks between MAF and throttle body, oil fill cap not tight or oil dipstick not seated in tube. Also any engine gaskets that can cause additional air to enter the crankcase can set this fault as the PCV system is not metered. If a vacuum leak or crankcase gasket sealing is at cause, the idle may be rough or unstable.	Threshold to detect a defective system > 1.33 - 1.60	Time after engine start > 60 s Engine load < 40% Mass air flow < 6553.50 kg/h ECT > 49.50 °C IAT < 99.80 °C Lambda control value >.95 Lambda set value.95 - 1.05 Veh speed < 1 km/h Lambda control active Engine speed - idle Altitude < 2700 m O2S front - no fault	23 s	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: > 1.50 MPa OR < -1.50 MPa	Time after engine start 3 s Fuel cutoff not active	3.5 s	2 DCY
P2294	Fuel Pressure Regulator 2 Control Circuit	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve - N276-, CHECKING .	Signal voltage 1.40 - 3.20 V OR Signal pattern incorrect	Fuel control valve, Commanded Off Fuel pump, Commanded On	0.5 s	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	0.5 s	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	0.5 s	2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P2300	Ignition Coil A Primary Control Circuit Low	-- Check the Ignition Coil with Power Output Stage -N70-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current > 24.0 mA	Engine speed > 680 RPM	2 s	Continuous 2 DCY
P2301	Ignition Coil A Primary Control Circuit High	-- Check the Ignition Coil with Power Output Stage -N70-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal voltage > 5.1 - 7.0 V	Engine speed > 680 RPM	2 s	Continuous 2 DCY
P2303	Ignition Coil B Primary Control Circuit Low	-- Check the Ignition Coil with Power Output Stage -N127-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current > 24.0 mA	Engine speed > 680 RPM	2 s	Continuous 2 DCY
P2304	Ignition Coil B Primary Control Circuit High	-- Check the Ignition Coil with Power Output Stage -N127-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal voltage > 5.1 - 7.0 V	Engine speed > 680 RPM	2 s	Continuous 2 DCY
P2306	Ignition Coil C Primary Control Circuit Low	-- Check the Ignition Coil with Power Output Stage -N291-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current > 24.0 mA	Engine speed > 680 RPM	2 s	Continuous 2 DCY
P2307	Ignition Coil C Primary Control Circuit High	-- Check the Ignition Coil with Power Output Stage -N291-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal voltage > 5.1 - 7.0 V	Engine speed > 680 RPM	2 s	Continuous 2 DCY
P2309	Ignition Coil D Primary Control Circuit Low	-- Check the Ignition Coil with Power Output Stage -N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal current > 24.0 mA	Engine speed > 680 RPM	2 s	Continuous 2 DCY
P2310	Ignition Coil D Primary Control Circuit High	-- Check the Ignition Coil with Power Output Stage -N292-. Refer to Ignition Coils With Power Output Stage --, CHECKING .	Signal voltage > 5.1 - 7.0 V	Engine speed > 680 RPM	2 s	Continuous 2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P240A	-	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Signal voltage > 4.70 - 5.40 V	EVAP pump heater commanded Off	0.5 Sec	2 DCY
P240B	-	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Signal voltage < 2.74 - 3.26 V	EVAP pump heater commanded Off	0.5 Sec	2 DCY
P240C	-	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Signal current > 2.2 - 4.0 A	EVAP pump heater commanded ON	0.5 Sec	2 DCY
P2400	Evaporative Emission System Leak Detection Pump Control Circuit Open	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Signal voltage > 4.4 - 5.6 V	LDP Commanded off Engine speed, 80 RPM	0.5 s	2 DCY
P2401	Evaporative Emission System Leak Detection Pump Control Circuit Short to Ground	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Signal voltage > 2.15 - 3.25 V	LDP Commanded Off Engine speed, 80 RPM	0.5 s	2 DCY
P2402	Evaporative Emission System Leak Detection Pump Control Circuit Short to Battery Voltage	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Signal current > 3 A	LDP Commanded On Engine speed, 80 RPM	0.5 s	2 DCY
P2403	Evaporative Emission System Leak Detection Pump Sense Circuit Open	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Low signal voltage > 0.5 s	Time after engine start 5.0 - 65530 ECT 5 - 120 °C ECT at start 5 - 50 °C Engine off time > 21600 Altitude < 2700 m Integrated purge flow > 12 g Restart temp diff > 0 °K Veh speed >= 0 km/h Veh speed ones > 30 km/h Any drive gear EVAP purge valve ready, no faults LDP commanded off	0.5 s	Once/DCY 2 DCY
P2404	Evaporative Emission System Leak Detection Pump Sense Range/Performance	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	High signal voltage > 12 s Number of checks = 30 cumulative time of high signal voltage during pumping > 10 s	Time after engine start 12 - 65530 Engine off time > 21600 ECT 5 - 120 °C ECT at start 5 - 50 °C Ambient air temp 5 - 59 °C Altitude < 2700 m Intake manifold vacuum > -2560 hPa Restart temp diff > 0 °K Veh speed >= 0 km/h Veh speed ones > 30 km/h Any drive gear EVAP purge valve ready, no faults LDP commanded off	12 -151 s	Once / DCY 2 DCY
P2407	Evaporative Emission System Leak Detection Pump Sense Circuit Intermittent/Erratic	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Fluctuation of EVAP pump current during reference measurement engine off > 2mA Or drop of EVAP pump current during pump phase of 3 sec > 6mA	ECT @ start >= 4° C difference between ECT and IAT @ start <= 15K engine off time >= 5 sec airbag not activated	800 Sec	2 DCY
P2407			Fluctuation of EVAP pump current during reference measurement engine on > 2mA Or drop of EVAP pump current during pump phase of 3 sec > 6mA	ECT @ start < 60° C AAT < 35° C time since last engine start>= 600 sec intake manifold vacuum > 30 kPa delta vehicle speed < 16 mph RPM > 20 rpm front OS2 ready	19 Sec	2 DCY
P2414	HO2S Sensor Exhaust Sample Error Bank 1, Sensor 1	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	Threshold 1 Signal voltage 3.1 - 4.81 V Threshold 2 O2S signal 2.5 - 3.2 V	Lambda set value < 1.6 Fuel cut off, Not active Heater control, closed loop SAI not active O2S ceramic temp > 720 °C If low fuel signal then wait > 0 s	15 s	2 DCY
P2450	Evaporative Emission System Switching Valve Performance/Stuck Open	-- Check the Leak Detection Pump -V144-. Refer to Leak Detection Pump - V144-, CHECKING .	Engine off EVAP pump current difference between reference measurement to idle < 3mA	ECT @ start >= 4° C difference between ECT and IAT @ start <= 15K engine off time >= 5 sec airbag not activated	13.5 Sec	2 DCY
P2450			Engine on EVAP pump current difference between reference measurement to idle >3mA	ECT @ start < 60° C AAT < 35° C time since last engine start>= 600 sec intake manifold vacuum > 30 kPa delta vehicle speed < 16 mph RPM > 20 rpm front OS2 ready	4 Sec	2 DCY
P2568	Direct Ozone Reduction Catalyst Temperature Sensor Circuit Range/Performance	-- Check the CAN-Bus terminal resistance. Refer to LIN-BUS CIRCUIT, CHECKING .	ID check failure Temperature sensor functional check failure	Engine speed > 400 RPM ECT at engine start < 35.3 °C	250 s	2 DCY
P2569	Direct Ozone Reduction Catalyst Temperature Sensor Circuit Low	-- Check the CAN-Bus terminal resistance. Refer to LIN-BUS CIRCUIT, CHECKING .	Electrical error via LIN failure (grounded)	---	2 s	2 DCY
P2570	Direct Ozone Reduction Catalyst Temperature Sensor Circuit High	-- Check the CAN-Bus terminal resistance. Refer to LIN-BUS CIRCUIT, CHECKING .	Electrical error via LIN failure (short to battery, open circuit)	---	2 s	2 DCY
P2626	HO2S Sensor Pumping Current Trim Circuit/Open Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor (HO2S) -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	O2S signal front > 4.81 V	Modeled exhaust temp < 700 °C O2S ceramic temp > 715 °C Fuel cut off, Active Heater control closed loop No low fuel signal	1.5 s	2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P3081	Engine Temperature Too Low	-- Check the Engine Coolant Temperature (ECT) Sensor -G62-. Refer to Engine Coolant Temperature Sensor -G62-, CHECKING .-- Check the engine coolant thermostat. Refer to the Repair Information.	Difference between ECT and modeled ECT > 10 °K	---	4 s	2 DCY

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
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 mSec.	250 mSec.	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 failure	Time after ignition on, 500 mSec.	450 mSec.	2 DCY
U0101	Lost Communication with TCM	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	Time Out failure. No message received by ECM	Time after ignition on, 500 mSec.	500 mSec.	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 .	CAN communication with ABS Time Out - no message	Time after ignition on, 500 mSec.	500 mSec.	2 DCY
U0146	Lost Communication With Gateway A	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	CAN communication with gateway Time Out - no message	Time after ignition on, 500 mSec.	500 mSec.	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 .	No CAN messages received	Time after ignition on, 500 mSec.	2000 mSec.	2 DCY
U0302	Software Incompatibility with Transmission Control Module	-- Check for software updates and TSB's. Reprogram as necessary. If none are found, replace the Direct Shift Gearbox (DSG) Mechatronic -J743-. Refer to the Repair Information.	AT vehicle ECM coded as MT vehicle	Time after ignition on, 500 mSec.	5000 mSec.	2 DCY
U0402	Invalid Data Received From Gear Shift Control Module A	-- Check for software updates and TSB's. Reprogram as necessary. If none are found, replace the Direct Shift Gearbox (DSG) Mechatronic -J743-. Refer to the Repair Information.	Transmission Data implausible message	Time after ignition on, 500 mSec.	60 mSec.	2 DCY
U0415	CAN Communication With ABS Error	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	Speed sensor initialization failed Speed sensor low voltage error failed Implausible message received	Time after ignition on, 500 mSec.	50 to 2100 mSec.	2 DCY
U0422	Invalid Data Received From Body Control Module (IPC)	-- Check the AAT sensor. Refer to Mass Airflow Sensor -G70-, CHECKING . If no fault is found, replace the Instrument Panel Cluster (IPC). Refer to the Repair Information.	Ambient temperature value initialization failure.	Status ambient temperature from instrument cluster no fault Electrical check ambient temperature sensor no fault	2.0 s	2 DCY
U0423	Invalid Data Received From Instrument Panel Cluster Control Module	-- Check the AAT sensor. Refer to Mass Airflow Sensor -G70-, CHECKING .	Implausible CAN message received OR ambient temperature value = 00	Time after ignition on, 500 mSec.	3 s	2 DCY
U0447	Lost Communication With Gateway	-- Check the CAN-Bus terminal resistance. Refer to CAN-BUS TERMINAL RESISTANCE, CHECKING .	CAN message implausible	Time after ignition on, 500 mSec.	300 mSec.	2 DCY
U102E	Fan identification sensor Implausible signal	-- Check the CAN-Bus terminal resistance. Refer to LIN-BUS CIRCUIT, CHECKING .	LIN message incorrect	---	0.5 s	2 DCY
U102F	Fan identification sensor No Communication	-- Check the CAN-Bus terminal resistance. Refer to LIN-BUS CIRCUIT, CHECKING .	LIN communication time out	---	0.5 s	2 DCY
U1030	Local data bus Electrical malfunction	-- Check the CAN-Bus terminal resistance. Refer to LIN-BUS CIRCUIT, CHECKING .	LIN communication not active	---	0.5 s	2 DCY