Engine Control Module

DTC	Error Message	Diagnostic Procedure	Malfunction Criteria and Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P0016	Crankshaft Position - Camshaft Position Correlation Bank 1 Bank 2	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	adaptivie value > 139° CA	engine speed > 700 RPM	0.5 s	Continuous 2 DCY
P0018	Crankshaft Position - Camshaft Position Correlation Bank 1 Bank 2	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	adaptivie value < 75° CA	engine speed > 700 RPM	0.5 s	Continuous 2 DCY
P0030	HO2S Heater Control Circuit Bank 1 Sensor	-- Check the Oxygen Sensor Heater -Z19-. Refer to Oxygen Sensor Heater -Z19-, CHECKING .	Heater current < 8 to 40 mA	duty cycle 0.4 to 99.6% heater commanded on	5.2 s	Continuous 2 DCY
P0031	HO2S Heater Control Circuit Low Bank 1 Sensor 1	-- Check the Oxygen Sensor Heater -Z19-. Refer to Oxygen Sensor Heater -Z19-, CHECKING .	Heater voltage < 1.9 to 2.22 V	duty cycle 99.6% heater commanded off	5.2 s	Continuous 2 DCY
P0032	HO2S Heater Control Circuit High Bank 1 Sensor 1	-- Check the Oxygen Sensor Heater -Z19-. Refer to Oxygen Sensor Heater -Z19-, CHECKING .	Heater current > 8 to 11 A	duty cycle > 4% heater commanded on	5.2 s	Continuous 2 DCY
P0045	Turbocharger Boost Control Solenoid "A" Circuit Open	-- Check the Turbocharger Control Module -J724-. Refer to Turbocharger Control Module 1 -J724-, CHECKING .	open circuit diagnostic signal from power stage > 0.8 (Out1) V short to ground and < 2 (Out2) V	power stage = OFF state	600 ms	Continuous 2 DCY
P0047	Turbocharger Boost Control Solenoid "A" Circuit Low	-- Check the Turbocharger Control Module -J724-. Refer to Turbocharger Control Module 1 -J724-, CHECKING .	short to ground power stage current>8 to 18 A	power stage = ON State	480 ms	Continuous 2 DCY
P0048	Turbocharger Boost Control Solenoid "A" Circuit High	-- Check the Turbocharger Control Module -J724-. Refer to Turbocharger Control Module 1 -J724-, CHECKING .	short to battery power stage current> 8 to 18 A	power stage = ON State	480 ms	Continuous 2 DCY
P0050	HO2S Heater Control Circuit Bank 2 Sensor 1	-- Check the Oxygen Sensor Heater -Z19-. Refer to Oxygen Sensor Heater -Z19-, CHECKING .	Heater current < 8 to 40 mA	duty cycle 0.4 to 99.6% heater commanded on	5.2 s	Continuous 2 DCY
P0051	HO2S Heater Control Circuit Low Bank 2 Sensor 1	-- Check the Oxygen Sensor Heater -Z19-. Refer to Oxygen Sensor Heater -Z19-, CHECKING .	Heater voltage < 1.9 to 2.22 V	duty cycle 99.6% heater commanded off	5.2 s	Continuous 2 DCY
P0052	HO2S Heater Control Circuit High Bank 2 Sensor 1	-- Check the Oxygen Sensor Heater -Z19-. Refer to Oxygen Sensor Heater -Z19-, CHECKING .	Heater current > 8 to 11 A	duty cycle > 4% heater commanded on	5.2 s	Continuous 2 DCY
P0068	MAP/MAF - Throttle Position Correlation	-- Check the Mass Air Flow (MAF) Sensor -G70-. Refer to Mass Air Flow Sensor -G70-, CHECKING .	deviation throttle controller < 43 or > 43%	pressure quotient < 0.53 engine speed 600 to 6000 RPM time after engine start > 70 s fuel cut-off not active throttle position >4.5% fuel trim activity -15 to 15%	5 s	Continuous 2 DCY
P0070	ambient air temp sensor short to B+	Refer to the Repair Manual for Instrument Cluster/Sensor diagnosis.	ambient air temp <45.0 °C	CAN active	2 s	multiple 2 DCY
P0071	AAT T1 Ambient Air Temperature	Refer to the Repair Manual for Instrument Cluster/Sensor diagnosis.	Temperature difference to ECT, ECT 2, >40K Temperature difference to T2', FTS >45K		2 s	Continuous 2 DCY
P0072	ambient air temp sensor short to ground	Refer to the Repair Manual for Instrument Cluster/Sensor diagnosis.	signal range check low AAT < -40° C	communication time after T15 "on" > 1 s	2 s	Continuous 2 DCY
P0073	AAT T1 Ambient Air Temperature	Refer to the Repair Manual for Instrument Cluster/Sensor diagnosis.	signal range check high AAT > 80° C	communication time after T15 "on" > 1 s	2 s	Continuous 2 DCY
P007C	Intake Air Temperature Sensor after intercooler 1	-- Check the Intake Air Temperature (IAT) Sensor -G42- Refer to Mass Air Flow Sensor -G70-, CHECKING	IAT < 0.099 V		2 s	Continuous 2 DCY
P007D	Intake Air Temperature Sensor after intercooler 1	-- Check the Intake Air Temperature (IAT) Sensor -G42- Refer to Mass Air Flow Sensor -G70-, CHECKING	IAT > 3.20 V		2 s	Continuous 2 DCY
P0087	Fuel Rail/System Pressure	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING	control deviation > 17.000 to 20.000 kPa AND pressure < 12.000 to 12.500 kPa	engine revolutions > 20 RPM	0.75 to 30 s	Continuous 2 DCY
P0088	Fuel Rail/System Pressure	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING	control deviation < 20000 to 30000 kPa AND pressure >21500 kPa	engine revolutions > 20 RPM	0.24 s	Continuous 2 DCY
P0089	Fuel Pressure Regulator 1 Performance	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .	Actual pressure Deviation deviation fuel press control < 28% > 35% target press minus actual press > 0.17 MPa target press minus actual press > 0.17 MPa	engine speed 500 to 3000 RPM Time after engine start > 30 s ECT 70 to 95° C delta fuel press low < 25kPa fuel cut-off not active engine speed 500 to 4500 RPM Time after engine start > 30 s ECT 70 to 95° C engine speed 500 to 4500 RPM Time after engine start > 80 s ECT 70 to 95° C high press pump setpoint 0.01g fuel cut-off not active	5 s	Continuous 2 DCY
P008A	Low Pressure Fuel System Pressure - Too Low	-- Check the pressure in the fuel system for out of spec conditions before diagnosing the pressure sensor-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING	< 0.08 MPa	engine speed 500 to 6000 RPM time after engine start > 30 s	5 s	Continuous 2 DCY
P008B	Low Pressure Fuel System Pressure - Too High	-- Check the pressure in the fuel system for out of spec conditions before diagnosing the pressure sensor-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING	actual press > 0.8 MPa	engine speed 500 to 6000 RPM time after engine start > 30 s	5 s	Continuous 2 DCY
P0090	Fuel Pressure Regulator 1 Control Circuit	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .	diagnostic signal from power stage 2.97 < 4.7V	output stage =signal high	0.23 s	Continuous 2 DCY
P0091	Fuel Pressure Regulator 1 Control Circuit Low	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .	diagnostic signal from power stage < 2.97 V	output stage =signal high	0.23 s	Continuous 2 DCY
P0092	Fuel Pressure Regulator 1 Control Circuit High	-- Check the Fuel Pressure Regulator Valve -N276-. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .	diagnostic signal from power stage > 3 A	output stage =signal low	0.23 s	Continuous 2 DCY
P00A2	Intake Air Temperature Sensor after intercooler 2 short to ground	-- Check the Intake Air Temperature (IAT) Sensor -G42- Refer to Mass Air Flow Sensor -G70-, CHECKING	IAT < 0.1 V		2 s	Continuous 2 DCY
P00A3	Intake Air Temperature Sensor after intercooler 2 open circuit	-- Check the Intake Air Temperature (IAT) Sensor -G42- Refer to Mass Air Flow Sensor -G70-, CHECKING	IAT > 3.20 V		2 s	Continuous 2 DCY
P00AF	position control loop	-- Check the charge air system for proper seal. Refer to TURBOCHARGER, G-CHARGER	stuck boost pressure valve open control deviation\| >8% stuck boost pressure valve closed actual position <= 30 % characteristic value<0.45 to 4.5 (amplitude of air mass)f(ambient pressure, ambient temperature)	boost pressure=74 to 110KPa engine speed<880RPM vehicle speed=0RPM accelerator pedal position=0% torque demand of engine auxiliaries <4Nm friction moment<110Nm ambient temperature>-7°C engine coolant temperature>65° C throttle valve position=65 to 95 % DPF regeneration mode=off steady state condition of air mass=true	3500 ms 10 s	Continuous 2 DCY
P0100	Mass or Volume Air Flow A Circuit	-- Check the Manifold Absolute Pressure (MAP) Sensor -G71-. Refer to Mass Air Flow Sensor -G70-, CHECKING .	MAF sensor signal, 0 μs	-	0.50 s	Continuous 2 DCY
P0101	Mass Air flow sensor	-- Check the Manifold Absolute Pressure (MAP) Sensor -G71-. Refer to Mass Air Flow Sensor -G70-, CHECKING .	rationality PCV disconnection ratio of modeled and measured air mass flow > 1.15 - < 0.85 -	EGR valve closed = 100 % throttle valve signal > 94 % intake runner flaps signal > 94 % engine speed = 1100.. 2500 RPM boost pressure = 50.. 200 kPa engine coolant temperature = 60.. 110° C ambient pressure > 50 kPa fuel quantity < 0.5 mg/Str	10 s 5 s	Continuous 2 DCY
P0102	Mass Air flow sensor	-- Check the Manifold Absolute Pressure (MAP) Sensor -G71-. Refer to Mass Air Flow Sensor -G70-, CHECKING .	signal range check low MAF sensor signal (< 0.083 ms) > 900 kg/h		1s	Continuous 2 DCY
P0103	Mass Air flow sensor	-- Check the Manifold Absolute Pressure (MAP) Sensor -G71-. Refer to Mass Air Flow Sensor -G70-, CHECKING .	signal range check high MAF sensor signal (>4.5 ms) <= 0 kg/h	engine running	1 s	Continuous 2 DCY
P0104	Mass Air flow sensor	-- Check the Manifold Absolute Pressure (MAP) Sensor -G71-. Refer to Mass Air Flow Sensor -G70-, CHECKING .	Circuit Continuity Check MAF sensor signal period=not measurable	engine condition=running	0.8 s	Continuous 2 DCY
P0111	Intake Air Temperature Circuit Performance	-- Check IAT Sensor -G42-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .	stuck high check Temperature difference to > ECT, ECT 2, 35 K Temperature difference to > FTS 40 K Temperature difference to > T1 45 K		20 s continuous driving with velocity exceeding 25 mph	once/DCY 2 DCY
P0112	Intake Air Temperature Circuit Low Input	-- Check IAT Sensor -G42-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .	short to ground signal voltage < 162 mV		480 s	Continuous 2 DCY
P0113	Intake Air Temperature Circuit High Input	-- Check IAT Sensor -G42-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .	open circuit or short to battery plus signal voltage > 3255 mV		480 s	Continuous 2 DCY
P0116	ECT Sensor 1	-- Check Engine Coolant Temperature Sensor -G62-. Refer to Engine Coolant Temperature Sensor - G62-, CHECKING .-- Check the coolant regulator. Refer to Engine Mechanical, Fuel Injection and Ignition, Cooling System Components.	stuck high check Temperature difference to ECT2, 30 K Temperature difference to T2', FTS 35 K Temperature difference to T1 40K		20 s continuous driving with velocity exceeding 25 mph	once/DCY 2 DCY
P0117	Engine Coolant Temperature Sensor 1 Circuit Low Input	-- Check Engine Coolant Temperature Sensor -G62-. Refer to Engine Coolant Temperature Sensor - G62-, CHECKING .-- Check the coolant regulator. Refer to Engine Mechanical, Fuel Injection and Ignition, Cooling System Components.	short to ground signal voltage < 224mV		480 ms	continuous 2 DCY
P0118	Engine Coolant Temperature Sensor 1 Circuit Open	-- Check Engine Coolant Temperature Sensor -G62-. Refer to Engine Coolant Temperature Sensor - G62-, CHECKING .-- Check the coolant regulator. Refer to Engine Mechanical, Fuel Injection and Ignition, Cooling System Components.	open circuit or short to battery plus signal voltage > 4921 mV		480 ms	continuous 2 DCY
P0121	Throttle/Pedal Position Sensor/Switch "A" Circuit Range/Performance	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Throttle Valve Control Module -J338-, CHECKING	TPS 1-TPS 2, > 1.5% AND relative mass air inegral > 100 to at 0.45 s	Engine start completed TPS no fault	2 s
P0122	Throttle/Pedal Position Sensor/Switch "A" Circuit Low	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Throttle Valve Control Module -J338-, CHECKING	Signal voltage, <0.117 V		2 s	continuous 2 DCY
P0123	Throttle/Pedal Position Sensor/Switch "A" Circuit High	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Throttle Valve Control Module -J338-, CHECKING	Signal voltage, > 4.6 V		2 s	continuous 2 DCY
P0128	Engine Coolant Temperature Threshold temperature	-- Check the Engine Coolant Temperature Sensor -G62-. Refer to Engine Coolant Temperature Sensor - G62-, CHECKING .	measured temperature < 66° C while modeled temperature > 76° C	ECT @ engine start = -7 to 56.5° C engine speed > 500 RPM	900 s	Once 2 DCY
P012B	Charger inlet pressure rationality check	-- Check the Charge Air Pressure Sensor -G31-. Refer Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING	press. difference in cross check between boost press. sensor 1/2; IM press, ambient press sensor press. difference in cross check between boost press. sensor 1/2; IM press.	engine speed 0 RPM time after engine stop 10 s vehicle speed 0 MPH pressure quotient 0.25 to 0.8 engine speed 600 to 60000 RPM time after engine start > 10 s	5 s	Continuous 2 DCY
P012C	Charger inlet pressure short to ground	-- Check the Charge Air Pressure Sensor -G31-. Refer Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING	signal voltage < 0.2 V		2 s	Continuous 2 DCY
P012D	Charger inlet pressure short to B+	-- Check the Charge Air Pressure Sensor -G31-. Refer Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING	signal voltage >4.8 V		2 s	Continuous 2 DCY
P0130	O2 Sensor Circuit Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	Short circuit to battery virtual ground (VM) > 3 V Nernst voltage (UN)> 4 V adjustment voltage (IA/IP) > 1.5 V Short circuit to ground virtual ground (VM) < 2V Nernst voltage (UN)< 1.75V adjustment voltage (IA/IP)< 0.9 to 0.3V	heater control =active heater control =active	2 s 2 s	continuous 2 DCY
P0131	O2 Sensor Circuit Low Voltage Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	signal voltage < 0.13 V		3 s	continuous 2 DCY
P0132	O2 Sensor Circuit High Voltage Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	oxygen signal > 3.2 V	calibration of internal resistance or O2 signal = not active heater control = active dew point = exceeded O2 heater temperature > 720° C but < 840° C modeled exhaust pressure < 170 kPa	2 s	continuous 2 DCY
P0133	O2 Sensor Circuit Slow Response Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	Oxygen 30% to 60% time > 5 s	heater control = active fuel quantity before fuel cut off > 12 mg/stroke change of fuel quantity before fuel cut off < 3 mg/stroke for > 2 s Fuel quantity in fuel cut off < 0.5 mg/stroke Time to fuel cut off < 1.5 s battery voltage > 10.7 V engine speed > 1150 RPM	10 s	Continuous 2 DCY
P0135	O2 Sensor Heater Circuit Bank 1 Sensor 1	-- Check the Oxygen Sensor Heater -Z19-. Refer to Oxygen Sensor Heater -Z19-, CHECKING .	Rationality Check A/F sensor temperature > 840° C Rationality Check A/F sensor temperature < 720° C Short circuit to battery signal current > 2.2 A Short circuit to ground signal voltage <2.15 V Open circuit signal voltage >4.4V	Rationality Check fuel cut off = not active time since last fuel cut off > 30 s dew point = exceeded calibration of internal resistance or O2 signal = not active heater control = active Short circuit to battery dew point = exceeded Short circuit to ground dew point = exceeded Open circuit dew point = exceeded	30 s 60 5	continuous 2 DCY
P150A	Engine off timer	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.	Rationality check ECM time - IPC time > 12 s. (Instrument panel cluster)	engine off ignition on	1 s	Once 2 DCY
P0151	O2 Sensor Circuit Low Voltage Bank 2 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	signal voltage < 0.13 V		3 s	continuous 2 DCY
P0152	O2 Sensor Circuit High Voltage Bank 2 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	signal voltage > 5.5 V		3 s	continuous 2 DCY
P0153	O2 Sensor Circuit Slow Response Bank 2 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	response check- lambda value vs modeled lambda value > 0.7998	Engine speed, 700-3000 RPM modeled exhaust temperature 500 to 950 °C ECT > 60 °C engine speed deviation 518 RPMs EVAP canister load < 40% mass air flow 0.426 to 1.2 g/Rev delta mass air flow < 0.26664 g/Rev	65 s	once DCY 2 DCY
P0155	O2 Sensor Heater Circuit Bank 2 Sensor 1	-- Check the Oxygen Sensor Heater -Z19-. Refer to Oxygen Sensor Heater -Z19-, CHECKING .	O2S not ready after dewpoint exceeded > 40 s	O2S front dewpoint exceeded O2S front no other faults lambda control active Heater control, Active	40 s	once DCY 2 DCY
P0171	EGR Fuel mean value adapation	-- Check the fuel pressure --. Refer to the Repair Manual.-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. 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 limit high difference between measured vs. modeled injection quantity <5.8 to 10 mg/stroke	engine speed >= 600 RPM & <= 4000 [rpm] injection quantity >= 10 mg/stroke & <= 60 mg/stroke post injection quantity = 0 mg/stroke	2 s	continuous 2 DCY
P0172	EGR Fuel mean value adapation	-- Check the fuel pressure --. Refer to the Repair Manual.-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. 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 limit low difference between measured vs. modeled injection quantity < -5.8 to -10 mg/stroke	engine speed >= 600 RPM & <= 4000 [rpm] injection quantity >= 10mg/stroke & <= 60mg / stroke post injection quantity = 0 mg/stroke	2 s	continuous 2 DCY
P0174	Fuel System Too Lean, Additive (Bank 1, Bank 2)	-- Check the fuel pressure --. Refer to the Repair Manual.-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. 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	lean @ idle Adaptive value > 0.0063 g/Rev	Engine speed, < 864 RPM mass fuel flow < 0.0375 g/Rev mass air flow, < 7.5 g/rev/s ECT, >63.0 °C accelerator PP value < 250 % integrated mass air flow > 25g lambda control, closed loop evap purge valve, closed	35 s	continuous 2 DCY
P0174	Fuel System Too Lean, Multiplicative (Bank 1, Bank 2)	-- Check the fuel pressure --. Refer to the Repair Manual.-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. 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	too rich at idle Adaptive value >25%	Engine speed, < 864 RPM mass fuel flow < 0.0375 g/Rev mass air flow, < 7.5 g/rev/s ECT, >63.0 °C accelerator PP value < 250 % integrated mass air flow > 25g lambda control, closed loop evap purge valve, closed	35 s	continuous 2 DCY
P0175	System Too Rich-Additive (Bank 1, Bank 2)	-- Check the fuel pressure --. Refer to the Repair Manual.-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. 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	too rich at idle Adaptive value < 0.0075 g/Rev)	Engine speed, < 864 RPM mass fuel flow < 0.0375 g/Rev mass air flow, < 7.5 g/rev/s ECT, >63.0 °C accelerator PP value < 250 % integrated mass air flow > 25g lambda control, closed loop evap purge valve, closed	35 s	continuous 2 DCY
P0175	System Too Rich- Multiplicative (Bank 1, Bank 2)	-- Check the fuel pressure --. Refer to the Repair Manual.-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. 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	too rich at idle Adaptive value < 25%	Engine speed, < 864 RPM mass fuel flow < 0.0375 g/Rev mass air flow, < 7.5 g/rev/s ECT, >63.0 °C accelerator PP value < 250 % integrated mass air flow > 25g lambda control, closed loop evap purge valve, closed	35 s	continuous 2 DCY
P0181	Fuel Temperature Sensor (FTS)	-- Check Fuel Temperature Sensor -G81-. Refer to Fuel Temperature Sensor -G81-, CHECKING .	stuck high check Temperature difference to > ECT, ECT 2, 35 K Temperature difference to > T2 40 K Temperature difference to > T1 45 K		20 s continuous driving with velocity exceeding 25 mph	once/DCY 2 DCY
P0182	Fuel Temperature Sensor	-- Check Fuel Temperature Sensor -G81-. Refer to Fuel Temperature Sensor -G81-, CHECKING .	short to ground signal voltage < 100 mV		140 ms	Continuous 2 DCY
P0183	Fuel Temperature Sensor	-- Check Fuel Temperature Sensor -G81-. Refer to Fuel Temperature Sensor -G81-, CHECKING .	open circuit or short to battery plus signal voltage > 4900 mV		140 ms	Continuous 2 DCY
P0190	Fuel Pressure Regulator 1 Control Circuit/Open	-- Check the pressure in the fuel system for out of spec conditions before diagnosing the pressure sensor-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .	Signal voltage > 4.6 V		2 s	Continuous 2 DCY
P0191	Fuel Rail Pressure Sensor Circuit Range/Performance Bank 1	-- Check the pressure in the fuel system for out of spec conditions before diagnosing the pressure sensor-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .	signal voltage< 428 (-40 bar) mV	ECU keep alive time active	0.1 s	Once/DCY 2 DCY
P0191	Fuel Rail Pressure Sensor Circuit Range/Performance Bank 1		adaptation of FRPR > 125 %	fuel temperature = 5 to 70° C RP set point 5.000 to 8.000 kPA electric power deviation in FRPR < 2 %	130 s	Once/DCY 2 DCY
P0192	Fuel Rail Pressure Sensor Circuit Low Bank 1	-- Check the pressure in the fuel system for out of spec conditions before diagnosing the pressure sensor-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .	Signal voltage < 0.2 V		480 ms	Continuous 2 DCY
P0193	Fuel Rail Pressure Sensor open circuit	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .	signal voltage > 4.8 V		480 ms	Continuous 2 DCY
P0201	Injection Valves cylinder 1	-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	open circuit signal from power stage > 60 V short to battery at Low-Side diagnostic signal from power stage internal signal short circuit over load voltage level < 30 V short circuit Low- and Low-Side Injector voltage after Charging < 70 % Nominal voltage Injector voltage before Charging < 55 % Nominal voltage Injector voltage after Charging < 55 % Nominal voltage	injection condition = injection ON	4 injections	Continuous 2 DCY
P0202	Injection Valves cylinder 2	-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	open circuit signal from power stage > 60 V short to battery at Low-Side diagnostic signal from power stage internal signal short circuit over load voltage level < 30 V short circuit Low- and Low-Side Injector voltage after Charging < 70 % Nominal voltage Injector voltage before Charging < 55 % Nominal voltage Injector voltage after Charging < 55 % Nominal voltage	injection condition = injection ON	4 injections	Continuous 2 DCY
P0203	Injection Valves cylinder 3	-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	open circuit signal from power stage > 60 V short to battery at Low-Side diagnostic signal from power stage internal signal short circuit over load voltage level < 30 V short circuit Low- and Low-Side Injector voltage after Charging < 70 % Nominal voltage Injector voltage before Charging < 55 % Nominal voltage Injector voltage after Charging < 55 % Nominal voltage	injection condition = injection ON	4 injections	Continuous 2 DCY
P0204	Injection Valves cylinder 4	-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	open circuit signal from power stage > 60 V short to battery at Low-Side diagnostic signal from power stage internal signal short circuit over load voltage level < 30 V short circuit Low- and Low-Side Injector voltage after Charging < 70 % Nominal voltage Injector voltage before Charging < 55 % Nominal voltage Injector voltage after Charging < 55 % Nominal voltage	injection condition = injection ON	4 injections	Continuous 2 DCY
P0205	Injection Valves cylinder 5	-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	open circuit signal from power stage > 60 V short to battery at Low-Side diagnostic signal from power stage internal signal short circuit over load voltage level < 30 V short circuit Low- and Low-Side Injector voltage after Charging < 70 % Nominal voltage Injector voltage before Charging < 55 % Nominal voltage Injector voltage after Charging < 55 % Nominal voltage	injection condition = injection ON	4 injections	Continuous 2 DCY
P0206	Injection Valves cylinder 6	-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	open circuit signal from power stage > 60 V short to battery at Low-Side diagnostic signal from power stage internal signal short circuit over load voltage level < 30 V short circuit Low- and Low-Side Injector voltage after Charging < 70 % Nominal voltage Injector voltage before Charging < 55 % Nominal voltage Injector voltage after Charging < 55 % Nominal voltage	injection condition = injection ON	4 injections	Continuous 2 DCY
P0221	Throttle/Pedal Position Sensor/Switch "B" Circuit Range/Performance	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Throttle Valve Control Module -J338-, CHECKING	TPS 1-TPS 2 > 1.5% AND relative mass air inegral > 100 to at 0.45 s	Engine start completed TPS no fault	2 s
P0222	Throttle/Pedal Position Sensor/Switch "B" Circuit Low	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Throttle Valve Control Module -J338-, CHECKING	Signal voltage, <0.117 V		2 s	Continuous 2 DCY
P0223	Throttle/Pedal Position Sensor/Switch "B" Circuit High	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Throttle Valve Control Module -J338-, CHECKING	Signal voltage, > 4.6 V		2 s	Continuous 2 DCY
P022A	charge air cooler bypass actuator	-- Check the Charge Air Cooler Bypass Control Module. Refer to Charge Air Cooler Bypass Control Unit -J865-, CHECKING .	open circuit signal from power stage > 3.26 V and < 5.4 V	power stage commanded off ignition off power stage commanded on	480 ms	Continuous 2 DCY
P022B	charge air cooler bypass actuator	-- Check the Charge Air Cooler Bypass Control Module. Refer to Charge Air Cooler Bypass Control Unit -J865-, CHECKING .	short to ground signal from power stage <= 3.26 V	power stage commanded off ignition off	480 ms	Continuous 2 DCY
P022C	charge air cooler bypass actuator	-- Check the Charge Air Cooler Bypass Control Module. Refer to Charge Air Cooler Bypass Control Unit -J865-, CHECKING .	short to battery plus signal from power stage > 1.5 V and > 50 mA	power stage commanded on	480 ms	Continuous 2 DCY
P0234	Turbocharger/Supercharger Overboost Condition Rationality check high	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .-- Check the charge air system for proper seal.	comparison of desired boost pressure value and desired value control deviation < -22 kPa	boost pressure control mode = closed loop fuel quantity > 15 mg/Str engine speed > 1650 RPM	4.5 s	Continuous 2 DCY
P0235	Boost pressure control	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .-- Check the charge air system for proper seal. Refer to Engine Mechanical, Fuel Injection and Ignition, Charge Air System	Boost pressure sensor signal vs target value > 27 to 0.50 kPa, depending on altitude	time after start 70 s engine speed 4000 to 7200 RPM ECT > 5 °C TIA > 5 °C modeled charge pressure quotient 1.25 to.2.2	5 s	Continuous 2 DCY
P0236	Turbocharger/Supercharger Boost Sensor	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .-- Check the charge air system for proper seal. Refer to Engine Mechanical, Fuel Injection and Ignition, Charge Air System	absolute value of pressure difference between boost pressure and ambient pressure > 14 kPa	engine speed < 250 RPM	200 s	Once 2 DCY
P0237	Turbocharger/Supercharger Boost Sensor	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .-- Check the charge air system for proper seal. Refer to appropriate service manual.	short to ground sensor voltage < 0.4 V		480 s	Continuous 2 DCY
P0238	Turbocharger/Supercharger Boost Sensor	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .-- Check the charge air system for proper seal. Refer to appropriate service manual.	short to battery plus sensor voltage > 4.9 V		480 s	Continuous 2 DCY
P0240	Turbocharger/Supercharger Boost Sensor rationality check	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .-- Check the charge air system for proper seal. Refer to appropriate service manual.	pressure difference in cross check between boost pressure sensor 1/2; IM pressure, ambient pressure > 7 kPa pressure difference in cross check between boost pressure sensor 1/2; IM pressure > 12 to 27 kPa pressure difference in cross check between pressure sensor 1 and 2 > 12.51 kPa AND fuel trim activity (bank with deviation is considered to be defective > 151%	engine speed 0 RPM time after engine stop 10 s vehicle speed 0 MPH modelled pressure quotient 0.25 to 0.8 engine speed 600 to 6000 RPM time after engine start > 10 s modelled charge pressure quotient > 1.2 engine speed 600 to 6000 RPM time after engine start > 10 s	5 s
P0241	Turbocharger/Supercharger Boost Sensor -short to ground	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .-- Check the charge air system for proper seal. Refer to appropriate service manual.	signal voltage < 0.2 V		2 s	Continuous 2 DCY
P0242	Turbocharger/Supercharger Boost Sensor short to B+	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .-- Check the charge air system for proper seal. Refer to appropriate service manual.	signal voltage > 4.8 V		5 s	Continuous 2 DCY
P0243	Turbocharger/Supercharger Wastegate Solenoid A	-- Check the Wastegate Bypass Regulator Valve -N75-.	Signal voltage, > 4.40 to 5.60 V	boost pressure control valve, commanded off Engine speed, > 80 RPM	0.5 s	Continuous 2 DCY
P0245	Turbocharger/Supercharger Wastegate Solenoid A Low	-- Check the Wastegate Bypass Regulator Valve -N75-.	Signal voltage, < 2.15 to 3.25 V	boost pressure control valve, commanded off Engine speed, > 80 RPM	0.5 s	Continuous 2 DCY
P0246	Turbocharger/Supercharger Wastegate Solenoid A High	-- Check the Wastegate Bypass Regulator Valve -N75-.	Signal current, >2.20 A	boost pressure control valve, commanded on Engine speed, > 80 RPM	0.5 s	Continuous 2 DCY
P024A	charge air cooler bypass module	-- Check the Charge Air Cooler Bypass Control Module. Refer to Charge Air Cooler Bypass Control Unit -J865-, CHECKING .	initialization error signal no change		ECU initialization time	OnceDCY 2 DCY
P024B	Charge Air Cooler Bypass Control "A" Stuck	-- Check the Charge Air Cooler Bypass Control Module. Refer to Charge Air Cooler Bypass Control Unit -J865-, CHECKING .	function error signal low		ECU initialization time	OnceDCY 2 DCY
P025A	Fuel PumpOpen circuit	-- Check the fuel pump. Refer to the Repair Manual for diagnosis.	Signal current < 0.8 mA	fuel pump commanded off	2 s	Continuous 2 DCY
P025C	Fuel Pump Short to ground	-- Check the fuel pump. Refer to the Repair Manual for diagnosis.	Signal voltage< 2.0 V	fuel pump commanded off	4.5 s	Continuous 2 DCY
P025D	Fuel Pump Short to B+	-- Check the fuel pump. Refer to the Repair Manual for diagnosis.	Signal current > 1.0 A	fuel pump commanded on	2 s	Continuous 2 DCY
P0261	Cylinder 1 Injector Circuit short to ground	-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	Signal current < 10 A AND signal voltage < 3.5 V	injector commanded on injector commanded off	3 s	Continuous 2 DCY
P0262	Cylinder 1 Injector Circuit short to b+	-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 16 A	injector commanded on	3 s	Continuous 2 DCY
P0263	Cylinder 1 Contribution/Balance	-- Check Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check cylinder compression. Refer to Repair Manual.	injection time with no torque> 0.192 to 0.396ms < 0.107 to 0.177 ms	engine speed>1300 1000 RPM fuel temperature> 0°C gear>3 fuel cut off=active ECT> 65° C intake air temperature> 0° C boost pressure >85 kPa DPF regeneration=not active	10 to 40 s.	Continuous 2 DCY
P0266	Cylinder 2 Contribution/Balance	-- Check Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check cylinder compression. Refer to Repair Manual.	injection time with no torque> 0.192 to 0.396 ms < 0.107 to 0.177 ms	engine speed>1300 1000 RPM fuel temperature> 0°C gear> 3 fuel cut off=active ECT> 65° C intake air temperature> 0° C boost pressure >85 kPa DPF regeneration=not active	10 to 40 s.	Continuous 2 DCY
P0269	Cylinder 3 Contribution/Balance	-- Check Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check cylinder compression. Refer to Repair Manual.	injection time with no torque> 0.192 to 0.396ms < 0.107 to 0.177 ms	engine speed>1300 1000 RPM fuel temperature> 0°C gear>3 fuel cut off=active ECT> 65° C intake air temperature> 0° C boost pressure >85 kPa DPF regeneration=not active	10 to 40 s.	Continuous 2 DCY
P026A	Charge Air Undercooling	-- Check the charge air system for proper seal. Refer to TURBOCHARGER, G-CHARGER	filtered charge air cooler efficiency<0.7	air mass flow = 100 to 400kg/h vehicle speed > 40 km/h engine coolant temperature > 50° C boost pressure / ambient pressure > 1.2 engine operation mode= normal ambient temperature > -7.00° C	150 s	Once 2 DCY
P0272	Cylinder 4 Contribution/Balance	-- Check Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check cylinder compression. Refer to Repair Manual.	injection time with no torque> 0.192 to 0.396ms < 0.107 to 0.177 ms	engine speed>1300 1000 RPM fuel temperature> 0°C gear>3 fuel cut off=active ECT> 65° C intake air temperature> 0° C boost pressure >85 kPa DPF regeneration=not active	10 to 40 s.	Continuous 2 DCY
P0275	Cylinder 5 Contribution/Balance	-- Check Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check cylinder compression. Refer to Repair Manual.	injection time with no torque > 0.192 to 0.396 ms <0.107 to 0.177 ms	engine speed > 1300 1000 RPM fuel temperature> 0°C gear>3 fuel cut off=active ECT> 65° C intake air temperature> 0° C boost pressure >85 kPa DPF regeneration=not active	10 to 40 s.	Continuous 2 DCY
P0278	Cylinder 6 Contribution/Balance	-- Check Fuel Injectors --. Refer to FUEL INJECTORS, CHECKING .-- Check cylinder compression. Refer to Repair Manual.	injection time with no torque> 0.192 to 0.396ms < 0.107 to 0.177ms	engine speed > 1300 1000 RPM fuel temperature > 0°C gear> 3 fuel cut off = active ECT> 65° C intake air temperature > 0° C boost pressure > 85 kPa DPF regeneration =not active	10 to 40 s.	Continuous 2 DCY
P0299	Turbocharger/Supercharger Underboost Rationality check low	-- Check the charge air system for proper seal. Refer to TURBOCHARGER, G-CHARGER	comparison of desired boost pressure value and desired value control deviation > 30 to 100 kPa	boost pressure control mode = closed loop fuel quantity > 15 mg/Str engine speed > 1650 rpm	12 s	Continuous 2 DCY
P050A	Idle Air Control System RPM Lower Or Higher Than Expected	-- 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	time after engine start >0.0 s driver torque demand none vehicle speed 0 km/h altitude <2700 m IAT >-48 °C evap purge valve closed catalyst heating active FOR MANUAL TRANSMISSIONS: engine load <40 to 75% catalyst heating active time after engine start >0.0 s driver torque demand none vehicle speed 0 km/h altitude <2700 m IAT >-48 °C catalyst heating active	4 s	multiple 2 DCY
P146D	SCR Heater Circuit 1 Current Sensor-short to battery plus	-- Check the Heater For Reducing Agent Line Reducing Agent Line Heater (Heating Circuit 2) - Z104-, CHECKING	signal voltage> 4700mV		480 s	continuous 2 DCY
P146F	SCR Heater Circuit 2 Current Sensor-short to battery plus	-- Check the Heater For Reducing Agent Tank Reducing Agent Tank Heater Z102, CHECKING	signal voltage>4700mV		480 s	continuous 2 DCY
P0300	Random Misfire Detected	-- Check the intake system for leaks.-- Check the fuel pressure. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	instantaneous engine speed monitoring calculated based on values from last two engine revolutions Error threshold: 82 % misfire over 440 crankshaft revolutions	engine speed 600.. 1100 RPM fuel quantity 4.. 25 mg/str coolant temp > 30° C time since start > 5 s	< 880 Rev	Once DCY 2 DCY
P0301	Cylinder 1 Misfire Detected	-- Check the intake system for leaks.-- Check the fuel pressure. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	instantaneous engine speed monitoring calculated based on values from last two engine revolutions Error threshold: 82 % misfire over 440 crankshaft revolutions	engine speed 600.. 1100 RPM fuel quantity 4.. 25 mg/str coolant temp > 30° C time since start > 5 s	< 880 Rev	Once DCY 2 DCY
P0302	Cylinder 2 Misfire Detected	-- Check the intake system for leaks.-- Check the fuel pressure. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	instantaneous engine speed monitoring calculated based on values from last two engine revolutions Error threshold: 82 % misfire over 440 crankshaft revolutions	engine speed 600.. 1100 RPM fuel quantity 4.. 25 mg/str coolant temp > 30° C time since start > 5 s	< 880 Rev	Once DCY 2 DCY
P0303	Cylinder 3 Misfire Detected	-- Check the intake system for leaks.-- Check the fuel pressure. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	instantaneous engine speed monitoring calculated based on values from last two engine revolutions Error threshold: 82 % misfire over 440 crankshaft revolutions	engine speed 600.. 1100 RPM fuel quantity 4.. 25 mg/str coolant temp > 30° C time since start > 5 s	< 880 Rev	Once DCY 2 DCY
P0304	Cylinder 4 Misfire Detected	-- Check the intake system for leaks.-- Check the fuel pressure. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	instantaneous engine speed monitoring calculated based on values from last two engine revolutions Error threshold: 82 % misfire over 440 crankshaft revolutions	engine speed 600.. 1100 RPM fuel quantity 4.. 25 mg/str coolant temp > 30° C time since start > 5 s	< 880 Rev	Once DCY 2 DCY
P0305	Cylinder 5 Misfire Detected	-- Check the intake system for leaks.-- Check the fuel pressure. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	instantaneous engine speed monitoring calculated based on values from last two engine revolutions Error threshold: 82 % misfire over 440 crankshaft revolutions	engine speed 600.. 1100 RPM fuel quantity 4.. 25 mg/str coolant temp > 30° C time since start > 5 s	< 880 Rev	Once DCY 2 DCY
P0306	Cylinder 6 Misfire Detected	-- Check the intake system for leaks.-- Check the fuel pressure. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .-- Check the Fuel injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	instantaneous engine speed monitoring calculated based on values from last two engine revolutions Error threshold: 82 % misfire over 440 crankshaft revolutions	engine speed 600.. 1100 RPM fuel quantity 4.. 25 mg/str coolant temp > 30° C time since start > 5 s	< 880 Rev	Once DCY 2 DCY
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	engine off engine speed >400 RPM	0.5 s	Continuous 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 >6 Engine speed, no signal	engine off engine speed >400 RPM	0.50 s	Continuous 2 DCY
P0335	Engine speed sensor	-- Check the Engine Speed Sensor -G28- Refer to Engine Speed Sensor -G28-, CHECKING	open circuit > 1 V short to grnd < 1.5 V short to B+ > 3.5 V signal check no signal		0.4	Continuous 2 DCY
P0336	Engine speed sensor	-- Check the Engine Speed Sensor -G28- Refer to Engine Speed Sensor -G28-, CHECKING	RPM signal comparison with phase sensor not synchronous counted versus reference teeth > 1 actual time value vs modeled time value > 1.375	engine speed > 416 RPM engine speed > 416 RPM engine speed > 480 RPM	0.4 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 .	signal activity check signal voltage no altering @ 4 Rev	Engine speed > 32 RPM	0.4 s	Continuous 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 .	actual time value vs min. time value < 1	engine speed > 32 RPM	0.1 s	Continuous 2 DCY
P0342	Camshaft Position Sensor A Circuit Low Input (Bank 1 or single sensor)	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	signal voltage low and crankshaft signals, 8.0		0.50 s	Continuous 2 DCY
P0343	Camshaft Position Sensor A Circuit High Input (Bank 1 or single sensor)	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	signal voltage low and crankshaft signals, 8.0		0.50 s	Continuous 2 DCY
P0345	Camshaft Position Sensor A Circuit (Bank 1 or single sensor)	-- Check the Camshaft Position Sensor -G40-. Refer to Camshaft Position Sensor -G40-, CHECKING .	signal activity check signal voltage no altering @ 4 Rev	Engine speed > 32 RPM	0.4 s	Continuous 2 DCY
P0346	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 .	adaptive value vs target value > 12.4 ° CA actual time value vs modeled time value 1 to 3.5	engine speed > 416 RPM duty cycle commanded off	2 s	Continuous 2 DCY
P0381	Glow Indicator Lamp (wait-to-start lamp)	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	error message from instrument panel receipt bit for lamp request bit (via CAN) not equal with lamp request bit	glow system = preglow	350 ms	Once 2 DCY
P0383	Glow Plug Control Module Control Circuit Low	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	short to ground diagnostic signal from power stage = 0 V	glow system = not active	500 ms	Continuous 2 DCY
P0384	Glow Plug Control Module Control Circuit High	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	Diagnostic signal from power stage = 0 V	Glow system = not active	500 ms	Continuous 2 DCY
P040B	EGR Gas Temperature Sensor	-- Check EGR Temperature Sensor -G98-. Refer to EGR Temperature Sensor -G98-, CHECKING .	stuck low check value of modelled - measured TEGR > f(value of modelled TEGR)° C 30 to 70 40 to 80K 30 to 70 40 to 80[K] stuck high check Temperature difference to > 60 K. T3, T4,, T4', T5, T6	time since engine start> 300 s engine coolant temperature > 10° C DPF regeneration = not active EGR valve=0 to 93	8 s	Continuous 2 DCY
P040C	EGR Gas Temperature Sensor	-- Check EGR Temperature Sensor -G98-. Refer to EGR Temperature Sensor -G98-, CHECKING .	short to ground- signal voltage < 678 mV		480 ms	Continuous 2 DCY
P040D	EGR Gas Temperature Sensor	-- Check EGR Temperature Sensor -G98-. Refer to EGR Temperature Sensor -G98-, CHECKING .	signal voltage> 2606 mV		480	Continuous 2 DCY
P0401	EGR "A" Flow Insufficient Detected	-- Check EGR Vacuum Regulator Solenoid Valve -N18-. Refer to EGR Valve 1 -GX5- / EGR Motor -V338- / EGR Potentiometer -G212-, CHECKING .	control deviation < f(engine speed, quantity, target air mass flow)	EGR = closed loop fuel quantity = 6 to 17 mg/str engine speed = 660 to 2500 RPM DPF regeneration mode = off	10 s	Continuous 2 DCY
P0402	EGR "A" Flow Excessive Detected	-- Check EGR Vacuum Regulator Solenoid Valve -N18-. Refer to EGR Valve 1 -GX5- / EGR Motor -V338- / EGR Potentiometer -G212-, CHECKING .	ratio of modeled and measured air mass flow > 1.3 -	EGR valve closed = 100 % throttle valve signal > 94 % intake runner flaps signal > 94 % engine speed = 1100.. 2500 RPM boost pressure = 50.. 200 kPa engine coolant temperature = 60.. 110° C ambient pressure > 50 kPa fuel quantity < 0.5 mg/Str	5 s	Continuous 2 DCY
P0403	EGR "A" Control Circuit/Open	-- Check EGR Vacuum Regulator Solenoid Valve -N18-. Refer to EGR Valve 1 -GX5- / EGR Motor -V338- / EGR Potentiometer -G212-, CHECKING .	open circuit diagnostic signal from power stage > 0.8 (Out1) V and < 2 (Out2) V short to battery diagnostic signal from power stage = 8 to 18 A short Circuit to ground diagnostic signal from power stage short Circuit over load diagnostic signal from power stage = 8 to 18 A under voltage diagnostic signal from power stage > 5 V or diagnostic signal from power stage > 5 V	power stage = OFF state power stage = ON state power stage = ON state power stage = ON state power stage = ON state	600 ms 480 ms 480 ms 480 ms 480 ms	Continuous 2 DCY
P0403	EGR "A" Control Circuit/Open	-- Check EGR Vacuum Regulator Solenoid Valve -N18-. Refer to EGR Valve 1 -GX5- / EGR Motor -V338- / EGR Potentiometer -G212-, CHECKING .	stuck valve closed \|control deviation\| > 10 % stuck valve open actual position <= 17 %		4000 ms	Continuous 2 DCY
P0404	EGR "A" Control Circuit Range/Performance	-- Check EGR Vacuum Regulator Solenoid Valve -N18-. Refer to EGR Valve 1 -GX5- / EGR Motor -V338- / EGR Potentiometer -G212-, CHECKING .	stuck valve closed control deviation\|>10% stuck valve open control deviation>10%	coldstart emission strategy =active	5500 s	Continuous 2 DCY
P0405	EGR Sensor "A" Circuit Low	-- Check EGR Vacuum Regulator Solenoid Valve -N18-. Refer to EGR Valve 1 -GX5- / EGR Motor -V338- / EGR Potentiometer -G212-, CHECKING .	out of range low position sensor signal < 210 mV	ECT >-20° C	480 ms	Continuous 2 DCY
P0406	EGR Sensor "A" Circuit High	-- Check EGR Vacuum Regulator Solenoid Valve -N18-. Refer to EGR Valve 1 -GX5- / EGR Motor -V338- / EGR Potentiometer -G212-, CHECKING .	out of range high position sensor signal >= 4690 mV	ECT >-20° C	480 ms	Continuous 2 DCY
P0420	Catalyst System Bank 1 Efficiency Below Threshold	-- Check the Three Way Catalytic Converter (TWC). Refer to CATALYTIC CONVERTER, CHECKING .	ratio of measured and modeled heat quantity < 0.3	modeled heat quantity flow > 1600W modeled cat temp. > 210° C integrated post injection >= 60g within 300 s	time until integrated post injection rate >= 60g, but less than 300s, not fixed	Immediate
P0425	Catalyst Temperature Sensor Circuit	-- Check the Exhaust Gas Temperature Sensor. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING	short to battery plus or open circuit signal voltage > 1652 mV		480 ms	Continuous 2 DCY
P0426	Catalyst Temperature Sensor Circuit Range/Performance	-- Check the Exhaust Gas Temperature Sensor. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING	stuck high check Temperature difference to TEGR, T3, T4, T5, T6 > 60 K stuck low check mean value of modelled - measured T4' > 100 K		300 s	Continuous 2 DCY
P0427	Catalyst Temperature Sensor Bank 1 Low Input	-- Check the Exhaust Gas Temperature Sensor. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING	short to ground signal voltage < 330 mV		480 ms	Continuous 2 DCY
P04DD	Cold Start EGR "A" Flow Insufficient Detected	-- Check EGR Vacuum Regulator Solenoid Valve -N18-. Refer to EGR Valve 1 -GX5- / EGR Motor -V338- / EGR Potentiometer -G212-, CHECKING .	control deviation < f(engine speed, injection quantity, target air mass flow)	EGR =closed loop fuel quantity=6 to 17mg/str engine speed=660 to 2500 RPM DPF regeneration mode=off	10 s	Continuous 2 DCY
P04DE	Cold Start EGR "A" Flow Excessive Detected	-- Check EGR Vacuum Regulator Solenoid Valve -N18-. Refer to EGR Valve 1 -GX5- / EGR Motor -V338- / EGR Potentiometer -G212-, CHECKING .	ratio of modeled and measured air mass flow>f(turbo charger position)	EGR valve closed = 100 % throttle valve signal > 94 % intake runner flaps signal > 94 % engine speed = 1100.. 2500 RPM boost pressure = 50.. 200 kPa engine coolant temperature = 60.. 110° C ambient pressure > 50 kPa fuel quantity < 0.5 mg/Str	4 s	Continuous 2 DCY
P0501	Vehicle Speed Sensor Performance	-- Check the speed signal input. Refer to SPEED SIGNAL, CHECKING .	Vehicle speed < 6 km/h	Engine speed < 2800 RPM	10480 ms	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 .	comparison of actual and desired idle speed control deviation < 10%	engine condition = running coolant temperature = -7.04.. 106.94° C vehicle speed < 1 [km/h] accelerator pedal position = 0 %	25000 ms	Continuous 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 .	comparison of actual and desired idle speed control deviation > 10%	engine condition = running coolant temperature = -7.04.. 106.94° C vehicle speed < 1 [km/h] accelerator pedal position = 0 %	25000 ms	Continuous 2 DCY
P0544	EGR Gas Temperature Sensor EGT1	-- Check the Exhaust Gas Temperature Sensor. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING	short to battery plus-signal voltage >2606 mV		480 ms	Continuous 2 DCY
P0545	EGR Gas Temperature Sensor EGT1	-- Check the Exhaust Gas Temperature Sensor. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING	short to ground-signal voltage < 678 mV		480 ms	Continuous 2 DCY
P050A	Idle Air Control System RPM Higher Or Lower Than Expected	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module -J338-, CHECKING .	control deviation>10%	engine condition = running coolant temperature = -7.04.. 106.94° C vehicle speed <1 km/h accelerator pedal position=0% cold start emission reduction strategy=active	25000 ms	multiple 2 DCY
P050E	plausibility check of the exhaust gas temperature (downstream DPF) via modeled exhaust gas heat quantity	-- Check the Reduction Agent Injector --. Refer to Reducing Agent Injector -N474-, CHECKING	Exhaust gas temperature (downstream DPF)<100° C	modeled exhaust gas heat quantity >100 kJ Ambient temperature >-40° C		once / DCY 2 DCY
P0601	Internal Control Module Memory Check Sum Error	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	Internal check sum, incorrect		2 s	Continuous 2 DCY
P0603	internal hardware check	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	SPI communication lost		1.5 s	Continuous 2 DCY
P0604	Internal Control Module Random Access Memory (RAM) Error	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	Write ability check, failed	none		Once/DCY 2 DCY
P0605	Internal Control Module Read Only Memory (ROM) Error	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	Checksum Incorrect		1 s	Continuous 2 DCY
P0606	CAN: Internal Fault	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	CAN controller RAM check RAM error memory checksum error	ignition = on	none	Once 2 DCY
P0607	Ambient air pressure sensor	-- Check the Charge Air Sensor/Intake Air Sensor. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING	short to ground sensor voltage < 0.265 V short to battery plus sensor voltage > 3.9 V	oxygen sensor raw signal calibration = active	480 ms	Continuous 2 DCY
P0627	Fuel Pump "A" Control Circuit /Open	-- Check the Transfer Pump voltage input. Refer to the Transfer Pump voltage supply checking in Repair Manual for diagnosis.	Diagnostic signal from power stage < 2.5 V or > 4.5 V	Power stage = Off state	480 ms	Continuous 2 DCY
P0629	Fuel pump (inside tank, 1bar)- short to battery	-- Check the Transfer Pump voltage input. Refer to the Transfer Pump voltage supply checking in Repair Manual for diagnosis.	diagnostic signal from power stage > 2.2 A	power stage = ON State	0.48 s	Continuous 2 DCY
P0634	ECM Internal Temperature Too High	-- Replace the Engine Control Module -J623- Refer to the Repair Manual for procedure.	power stage temperature >175° C		480 ms	Continuous 2 DCY
P0638	Throttle Actuator Control Range/Performance Bank 1	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module -J338-, CHECKING .	Rationality check: duty cycle >0.4 s at 98% AND actual TPS- calc value - ref. point < 1.5°	engine start not active	.045 s	Continuous 2 DCY
P0641	Sensor supply	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	open circuit diagnostic signal from power stage > 0.94 UG1, 2, 3/UVDD5		none	Continuous 2 DCY
P0642	Sensor Reference Voltage A Circuit Low	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	Signal voltage, < 4.615 V		0.15 s	Continuous 2 DCY
P0643	Sensor Reference Voltage A Circuit High	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	5 V supply voltage >5.434 V		0.15 s	Continuous 2 DCY
P0651	Sensor supply	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	open circuit diagnostic signal from power stage < 0.98 UG1, 2, 3/UVDD5		none	Continuous 2 DCY
P0652	Sensor Reference Voltage B Circuit Low	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	Signal voltage, < 4.615 V		0.15 s	Continuous 2 DCY
P0653	Sensor Reference Voltage B Circuit High	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	5 V supply voltage >5.434 V		0.15 s	Continuous 2 DCY
P0657	Actuator Supply Voltage A Circuit / Open	-- Check the Engine Control Module Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY RELAY, CHECKING	Signal current < 0.8 mA	Relay, commanded on	1.5 s	Continuous 2 DCY
P0658	Actuator Supply Voltage A Circuit Low	-- Check the Engine Control Module Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY RELAY, CHECKING	Signal voltage, > 2.0 V	Relay, commanded off	1.5 s	Continuous 2 DCY
P0659	Actuator Supply Voltage "A" Circuit High	-- Check the Engine Control Module Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY RELAY, CHECKING	Signal current >1.0 A	Relay, commanded on	1.5 s	Continuous 2 DCY
P0670	Glow Plug Module 1 Control Circuit electrical malfunction electrical circuit	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	open circuit diagnostic signal from power stage = 0 V internel self test from GCU message from glow control unit = Errorbit	glow system = not active	500 ms 3 s	Continuous 2 DCY
P0671	Cylinder 1 Glow Plug Circuit	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check glow plug #1 glow current <= 2.20 A	glow system = active	1.5 s	Continuous 2 DCY
P0672	Cylinder 2 Glow Plug Circuit	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check glow plug #2 glow current <= 2.20 A	glow system = active	1.5 s	Continuous 2 DCY
P0673	Cylinder 3 Glow Plug Circuit	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check glow plug #3 glow current <= 2.20 A	glow system = active	1.5 s	Continuous 2 DCY
P0674	Cylinder 4 Glow Plug Circuit	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check glow plug #4 glow current <= 2.20 A	glow system = active	1.5 s	Continuous 2 DCY
P0675	Cylinder 5 Glow Plug Circuit	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check glow plug #5 glow current <= 2.20 A	glow system = active	1.5 s	Continuous 2 DCY
P0676	Cylinder 6 Glow Plug Circuit	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check glow plug #6 glow current <= 2.20 A	glow system = active	1.5 s	Continuous 2 DCY
P066A	Cylinder 1 Glow Plug Control Circuit Low	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check (Overcurrent) glow plug #1 glow current >= 70.00 A	glow system = active	50 ms	Continuous 2 DCY
P066C	Cylinder 2 Glow Plug Control Circuit Low	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check (Overcurrent) glow plug #2 glow current >= 70.00 A	glow system = active	50 ms	Continuous 2 DCY
P066E	Cylinder 3 Glow Plug Control Circuit Low	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check (Overcurrent) glow plug #3 glow current >= 70.00 A	glow system = active	50 ms	Continuous 2 DCY
P067A	Cylinder 4 Glow Plug Control Circuit Low	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check (Overcurrent) glow plug #4 glow current >= 70.00 A	glow system = active	50 ms	Continuous 2 DCY
P067C	Cylinder 5 Glow Plug Control Circuit Low	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check (Overcurrent) glow plug #5 glow current >= 70.00 A	glow system = active	50 ms	Continuous 2 DCY
P067E	Cylinder 6 Glow Plug Control Circuit Low	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	current check (Overcurrent) glow plug #6 glow current >= 70.00 A	glow system = active	50 ms	Continuous 2 DCY
P06B9	Cylinder 1 Glow Plug Circuit Range/Performance	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	resistor check glow plug circuit, glow plug #1 Glow Plug Resistance (anytime) > 1.2 Ω	glow system = active	4 s	Continuous 2 DCY
P06BA	Cylinder 2 Glow Plug Circuit Range/Performance	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	resistor check glow plug circuit, glow plug #2 Glow Plug Resistance (anytime) > 1.2 Ω	glow system = active	4 s	Continuous 2 DCY
P06BB	Cylinder 3 Glow Plug Circuit Range/Performance	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	resistor check glow plug circuit, glow plug #3 Glow Plug Resistance (anytime) > 1.2 Ω	glow system = active	4 s	Continuous 2 DCY
P06BC	Cylinder 4 Glow Plug Circuit Range/Performance	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	resistor check glow plug circuit, glow plug #4 Glow Plug Resistance (anytime) > 1.2 Ω	glow system = active	4 s	Continuous 2 DCY
P06BD	Cylinder 5 Glow Plug Circuit Range/Performance	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	resistor check glow plug circuit, glow plug #5 Glow Plug Resistance (anytime) > 1.2 Ω	glow system = active	4 s	Continuous 2 DCY
P06BE	Cylinder 6 Glow Plug Circuit Range/Performance	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	resistor check glow plug circuit, glow plug #6 Glow Plug Resistance (anytime) > 1.2 Ω	glow system = active	4 s	Continuous 2 DCY
P068A	Main Relay	-- Check the Engine Control Module Power Supply Relay -J271-. Refer to VOLTAGE SUPPLY RELAY, CHECKING .	ECM/PCM Power Relay De-Energized Performance - Too Early Error Counter	power stage = ON State	3 times	Once 2 DCY
P0684	Glow Control Unit	-- Check Automatic Glow Time Control Module -J179-. Refer to Automatic Glow Time Control Module -J179- AND GLOW PLUGS, CHECKING .	monitoring of communication with GCU message from glow control unit = missing monitoring of supply voltage message from glow control unit = Errorbit	ECT < 30° C	3 s	Continuous 2 DCY
P0697	Sensor supply	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	open circuit diagnostic signal from power stage > 1.06 UG1, 2, 3/UVDD5		none	Continuous 2 DCY
P0698	Sensor Reference Voltage C Circuit Low	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	Signal voltage, < 4.6-5 V	Threshold values dep. on internal 5 V rev voltage	0.4 s	2 DCY
P0699	Sensor Reference Voltage C Circuit High	-- Replace the Engine Control Module -J623-. Refer to appropriate service manual.	5 V supply voltage>4.99-5.41 V	Threshold values dep. on internal 5 V rev voltage	0.4 s	2 DCY
P06FE	CSERS	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module -J338-, CHECKING .	function error	signallow	4 s	Continuous 2 DCY
P12A1	Fuel Rail Pressure Sensor Inappropriately Low	-- Check the pressure in the fuel system for out of spec conditions before diagnosing the pressure sensor-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .	deviation fuel rail pressure control > 0.60 g/Rev AND deviation lambda control < 22.5%	engine speed 580 to 3480 RPM time after engine start > 8 s evap canister load < 25% lambda control closed loop fuel cut off not active high pressure pump setpoint 0.015 to 0.105 g/Rev	5 s	Continuous 2 DCY
P12A2	Fuel Rail Pressure Sensor Inappropriately High	-- Check the pressure in the fuel system for out of spec conditions before diagnosing the pressure sensor-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .	deviation fuel rail pressure control > 0.51 g/Rev AND deviation lambda control > 30%	engine speed 580 to 3480 RPM time after engine start > 8 s evap canister load < 25% lambda control closed loop fuel cut off not active high pressure pump setpoint 0.015 to 0.105 g/Rev	5 s	Continuous 2 DCY
P12A4	Fuel Rail Pump Control Valve Stuck Closed	-- Check the Fuel Pressure Sensor -G247-. Refer to Fuel Pressure Sensor -G247-, CHECKING .	deviation fuel rail pressure control < 0.120 g/Rev AND actual press. above target press. -15 to 15%	engine speed 580 to 3480 RPM time after engine start > 8 s evap canister load < 25% lambda control closed loop fuel cut off not active high pressure pump setpoint 0.015 to 0.105 g/Rev	5 s	Continuous 2 DCY
P149D	Urea transfer pump-open circuit	-- Check and/or repair wiring harness-- Replace the Urea transfer pump-- Check the appropriate Repair Manual	diagnostic signal from power stage > 4.5 V	power stage = OFF state	480 ms	Continuous 2 DCY
P149E	Urea transfer pump-short to ground	-- Check and/or repair wiring harness-- Replace the Urea transfer pump-- Check the appropriate Repair Manual	diagnostic signal from power stage < 2.97 V	power stage = OFF state	480 ms	Continuous 2 DCY
P149F	Urea transfer pump-short to battery	-- Check and/or repair wiring harness-- Replace the Urea transfer pump-- Check the appropriate Repair Manual	power stage current>3A	power stage = ON state	480 ms	Continuous 2 DCY
P1419	EGR Cooler Bypass Valve 2	-- Check the EGR Cooler Switch-over Valve 2 N381. Refer to EGR Cooler Switch-Over Valve -N345- / EGR Cooler Switch-Over Valve 2 -N381-, CHECKING	short to battery power stage current>2.2 A	power stage = signal low	480 ms	Continuous 2 DCY
P1499	EGR Cooler Bypass Valve 2	-- Check the EGR Cooler Switch-over Valve 2 N381. Refer to EGR Cooler Switch-Over Valve -N345- / EGR Cooler Switch-Over Valve 2 -N381-, CHECKING	open circuit signal from power stage < 4.97 V	power stage = signal high	480 ms	Continuous 2 DCY
P148F	EGR Cooler Bypass Valve 2	-- Check the EGR Cooler Switch-over Valve 2 N381. Refer to EGR Cooler Switch-Over Valve -N345- / EGR Cooler Switch-Over Valve 2 -N381-, CHECKING	short to ground signal from power stage < 2.97 V	power stage = signal high	480 ms	Continuous 2 DCY
P149D	Urea transfer pump	Check the tank connections, and power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present, Replace the Reduction Agent Tank Module assembly.	power stage voltage>2, 97 or < 4, 7[V]	power stage= OFF state	480ms	Continuous 2 DCY
P20EE	SCR Efficieny	-- Check the Reduction Agent Injector --. Refer to Reducing Agent Injector -N474-, CHECKING	Difference between calculated and measured efficiency > 0.25	Status NOx-Sensor Downstream = ready Status NOx-Sensor Upstream = ready urea dosing = active Adaptation = not active DPF regeneration = not active SCR-Catalyst temp gradient (dep on upstream temp SCR - EGT4) < 0.2 to 0.34 K/s SCR catalyst modeled temperature = 240 to 350° C Nox-concentration upstream < 1500 ppm Ambient pressure>70kPa Ambient temperature>-12° C	Integrated NOx-Massflow upstream >= 0.4	Continuous 2 DCY
P200A	Intake Manifold Runner Control out of range	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	signal voltage < 0.7 V	time after engine start 1 s	2 s	Continuous 2 DCY
P2002	Diesel Particular Filter-Threshold	-- Check theExhaust Pressure Sensor -G450-. Refer to Differential Pressure Sensor -G505-, CHECKING . If the pressure sensors are OK, a Service Bay Regeneration should be performed using a VAS 5052 (available for rental) or equivalent scan tool	PM efficiency differential pressure < f(volumetric flow rate.soot load) kPa missing substrate differential pressure < f(volumetric flow rate) kPa	calculated temperature of diesel particular filter > 250 to 450° calculated DPF loading > 10 g exhaust gas flow rate > 300 m³ /h T ambient (T1) > -7° C regeneration mode = off exhaust volumetric flow rate > 400 m³ /h delta exhaust volumetric flow rate < \|20\| m³ /h/s within time period=1 s ambient temperature>-7° C	2 s	Multiple 2 DCY Once 2 DCY
P200B	Intake Manifold Runner Control overtravel	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	signal voltage < 0.7 V	time after engine start 1 s	2 s	Continuous 2 DCY
P2004	Intake Manifold Runner Control Bank 1 Stuck Open	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	stuck valve open control deviation > 10 % actual position <= 40 actual position <= 40 [%]%		1400 ms	Continuous 2 DCY
P2005	Intake Manifold Runner Control Bank 2 Stuck Open	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	stuck valve open control deviation > 10 % actual position <= 40 actual position <= 40 [%]%		1400 ms	Continuous 2 DCY
P2006	Intake Manifold Runner Control Bank 1 Stuck Closed	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	stuck valve closed control deviation > 10 % actual position > 40%		1400 ms	Continuous 2 DCY
P2007	Intake Manifold Runner Control Bank 2 Stuck Closed	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	stuck valve closed control deviation > 10 % actual position > 40%		1400 ms	Continuous 2 DCY
P2008	Intake Manifold Runner Control Bank 1 Stuck Open	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	open circuit diagnostic signal from power stage > 0.8 (Out1) V and < 2 (Out2) V short circuit over load diagnostic signal from power stage = 8 to 18 A Under voltage diagnostic signal from power stage > 5 V < 3.4 V	power stage = OFF state	600 ms	Continuous 2 DCY
P2009	Intake Manifold Runner Bank 1 Control Circuit Low	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	short to ground signal voltage > 0.2. V		480 ms	Continuous 2 DCY
P2010	Intake Manifold Runner Control Circuit High, Bank 1	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	short to battery diagnostic signal from power stage = 8 to 18 A	power stage = ON State	480 ms	Continuous 2 DCY
P2011	Intake Manifold Runner Bank 2 Control Circuit Stuck Open	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	open circuit diagnostic signal from power stage > 0.8 (Out1) V and < 2 (Out2) V short circuit over load diagnostic signal from power stage = 8 to 18 A Under voltage diagnostic signal from power stage > 5 V < 3.4 V	power stage = OFF state power stage = ON state	600 ms	Continuous 2 DCY
P2012	Intake Manifold Runner Bank 2 Control Circuit Low	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	short to ground signal voltage > 0.2. V		480 ms	Continuous 2 DCY
P2013	Intake Manifold Runner Bank 2 Control Circuit High	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	short to battery diagnostic signal from power stage = 8 to 18 A	power stage = ON State	480 ms	Continuous 2 DCY
P2014	Intake Manifold Runner Position Sensor/Switch Circuit Bank 1 Short to ground	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	Signal voltage, < 0.2 V		2 s	Continuous 2 DCY
P2015	intake manifold runner flaps position control loop	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	out of range sensor voltage < 3550 mV sensor voltage > 1450 mV OR out of range high position sensor signal > 4450 mV and < 4750 mV OR out of range low position sensor signal < 550 mV and > 250 mV		200 ms	ECM keep alive time 2 DCY
P2016	intake manifold runner flaps position control loop	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	out of range low position sensor signal <= 250 mV		480 ms	Continuous 2 DCY
P2017	intake manifold runner flaps position control loop	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	out of range high position sensor signal >= 4750 mV		480 ms	Continuous 2 DCY
P2019	Intake Manifold Runner Position Sensor/Switch Circuit Bank 1 Open circuit	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	Signal voltage, < 0.2 V		2 s	Continuous 2 DCY
P2020	Intake Manifold Runner Position Sensor Circuit Bank 2 Range/Performance	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	out of range sensor voltage < 3550 mV sensor voltage > 1450 mV OR out of range high position sensor signal > 4450 mV and < 4750 mV OR out of range low position sensor signal < 550 mV and > 250 mV		200 ms	ECM keep alive time 2 DCY
P2021	Intake Manifold Runner Position Sensor Circuit Bank 2 Low	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	out of range low position sensor signal <= 250 mV		480 ms	Continuous 2 DCY
P2022	Intake Manifold Runner Position Sensor Circuit Bank 2 High	-- Check the Intake Flap Motor -V157-. Refer to Intake Flap Motor -V157- / Intake Flap Motor 2 -V275-, CHECKING .	out of range high position sensor signal >= 4750 mV		480 ms	Continuous 2 DCY
P2031	Exhaust Temperature Sensor 2	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	short to battery plus or open circuit signal voltage > 2606 mV		480 ms	Continuous 2 DCY
P2032	Exhaust Temperature Sensor 2	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	short to ground signal voltage < 678 mV		480 ms	Continuous 2 DCY
P2047	SCR System Components Dosing valve open circuit	-- Check the Reduction Agent Injector --. Refer to Reducing Agent Injector -N474-, CHECKING	diagnostic signal from power stage 2, 97 or < 4, 7V	power stage = OFF state	2000 ms	Continuous 2 DCY
P2048	SCR System Components Dosing valve-short to ground	-- Check the Reduction Agent Injector --. Refer to Reducing Agent Injector -N474-, CHECKING	analog measure>1600 mA	power stage = ON state	2000 ms	Continuous 2 DCY
P2049	SCR System Components Dosing valve short to battery	-- Check the Reduction Agent Injector --. Refer to Reducing Agent Injector -N474-, CHECKING	analog measure<200 mA	power stage = ON state	2000 ms	Continuous 2 DCY
P20BB	SCR Heater Circuit 1-short to ground	Heating 1 circuit is the tank heater. No tank module assembly components are serviced separately (at the time of writing). Replacement of the Reducing Agent Tank Module assembly is necessary if the tank module power and grounds are present, and no heater connection faults exist between the heating module (on the side of the tank) and the tank heating element connectors.	diagnostic signal from power stage < 2.97 V	power stage = OFF state	0.48 s	Continuous 2 DCY
P20BC	SCR Heater Circuit 1-short to battery	Heating 1 circuit is the tank heater. No tank module assembly components are serviced separately (at the time of writing). Replacement of the Reducing Agent Tank Module assembly is necessary if the tank module power and grounds are present, and no heater connection faults exist between the heating module (on the side of the tank) and the tank heating element connectors.	diagnostic signal from power stage > 2.2 A	power stage = ON state	0.48 s	Continuous 2 DCY
P20B9	SCR Heater Circuit 1-open circuit	Heating 1 circuit is the tank heater. No tank module assembly components are serviced separately (at the time of writing). Replacement of the Reducing Agent Tank Module assembly is necessary if the tank module power and grounds are present, and no heater connection faults exist between the heating module (on the side of the tank) and the tank heating element connectors.	power stage voltage2, 97 or < 4, 7[V]	power stage = OFF state	0.48 s	Continuous 2 DCY
P20BD	SCR Heater Circuit 2-open circuit	-- Check the Reducing Agent Wire Heater. Refer to Reducing Agent Line Heater (Heating Circuit 2) - Z104-, CHECKING	diagnostic signal from power stage > 4.5V	power stage = OFF state	0.48 s	Continuous 2 DCY
P20BF	SCR Heater Circuit 2-short to ground	-- Check the Reducing Agent Wire Heater. Refer to Reducing Agent Line Heater (Heating Circuit 2) - Z104-, CHECKING	power stage voltage2, 97 or < 4, 7[V]	power stage = OFF state	0.48 s	Continuous 2 DCY
P20C0	SCR Heater Circuit 2-short to battery	-- Check the Reducing Agent Wire Heater. Refer to Reducing Agent Line Heater (Heating Circuit 2) - Z104-, CHECKING	diagnostic signal from power stage > 2.2 A	power stage = ON state	0.48 s	Continuous 2 DCY
P202A	SCR Heater Control Circuit 1-rationality check	Check the tank connections, and power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present, Replace the Reduction Agent Tank Module assembly.	conductance during heating<=0.1S	heating=on	1000 ms	Once DCY 2 DCY
P202B	SCR Heater Control Circuit 1-open circuit/short to battery plus	Check the tank connections, and power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present, Replace the Reduction Agent Tank Module assembly.	Open circuit max. conductance at engaging>0.85S Short to B + max. conductance at engaging<0.5 s	time since engaging > 55 s	0.48 s	Once DCY 2 DCY
P202C	SCR Heater Control Circuit 1-short to ground	Check the tank connections, and power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present, Replace the Reduction Agent Tank Module assembly.	max. power at engaging >0.85s	time since engaging > 55 s	480 ms	Once DCY 2 DCY
P20B5	SCR Heater Control Circuit 2-rationality check	-- Check the Reducing Agent Wire Heater. Refer to Reducing Agent Line Heater (Heating Circuit 2) - Z104-, CHECKING	conductance during heating<=0.1 s	heating=on	1000 ms	Once DCY 2 DCY
P20B7	SCR Heater Control Circuit 2-open circuit/short to battery plus	-- Check the Reducing Agent Wire Heater. Refer to Reducing Agent Line Heater (Heating Circuit 2) - Z104-, CHECKING	max. conductance at engaging<0.4 s		480 ms	Once DCY 2 DCY
P20B8	SCR Heater Control Circuit 2-short to ground	-- Check the Reducing Agent Wire Heater. Refer to Reducing Agent Line Heater (Heating Circuit 2) - Z104-, CHECKING	max. conductance at engaging>1s	time since engaging > 10 s	480 ms	Once DCY 2 DCY
P203B	Urea Tank Level Reed Sensors-rationality check	Check the Reduction Agent Tank connections, and power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present and no connection faults are found, Replace the Reduction Agent Tank Module assembly.	both reed sensor signals = 382 to 2350 mV and and out of regular range for > 15 s		480 ms	Continuous 2 DCY
P203C	Urea Tank Level Reed Sensors-open circuit or short to ground	Check the Reduction Agent Tank connections, and power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present and no connection faults are found, Replace the Reduction Agent Tank Module assembly.	signal voltage < 250 mV		480 ms	Continuous 2 DCY
P203D	Urea Tank Level Reed Sensors-short to battery plus	Check the Reduction Agent Tank connections, and power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present and no connection faults are found, Replace the Reduction Agent Tank Module assembly.	signal voltage > 2350 mV		480 ms	Continuous 2 DCY
P204A	Urea Pressure Sensor	-- Check the Reduction Agent Pressure Sensor --. Refer to Reducing Agent Metering System Pressure Sensor -G686-, CHECKING .	short to ground or open circuit signal voltage < 380 mV		480 ms	Continuous 2 DCY
P204B	Urea Pressure Sensor-rationality	-- Check the Reduction Agent Pressure Sensor --. Refer to Reducing Agent Metering System Pressure Sensor -G686-, CHECKING .	actual pressure before pressure built up > 500 hPa	T6 > 100° C Ambient temperature > -3 ° C or defrosting completed Urea tank temperature > -7 °C engine speed > 600 RPM	200 ms	once/DCY 2 DCY
P204D	Urea Pressure Sensor-short to battery plus	-- Check the Reduction Agent Pressure Sensor --. Refer to Reducing Agent Metering System Pressure Sensor -G686-, CHECKING .	signal voltage > 4800 mV	T6 > 100 °C Ambient temperature > -3 °C or defrosting completed Urea tank temperature > -7 °C Engine speed > 600 rpm	200 ms	once 2 DCY
P205A	Urea tank temperature sensor-open circuit or short to battery plus	-- Check the Reducing Agent Tank Temperature Sensor --. Refer to Reducing Agent Temperature Sensor -G685-, CHECKING	signal voltage > 4697mV		800 ms	Continuous 2 DCY
P205B	Urea tank temperature sensor-rationality check	-- Check the Reducing Agent Tank Temperature Sensor --. Refer to Reducing Agent Temperature Sensor -G685-, CHECKING	absolute value of temperature difference to ECT>30K	Engine off time > 9 h rising of urea temperature within 25 minutes < 1.5 K	480 ms	Continuous 2 DCY
P205C	Urea tank temperature sensor-short to ground	-- Check the Reducing Agent Tank Temperature Sensor --. Refer to Reducing Agent Temperature Sensor -G685-, CHECKING	signal voltage< 303mV		800 ms	Continuous 2 DCY
P207F	SCR improper reductant	Consult the appropriate service manual for detailed descriptions of the required fluids and/or chemicals required.	Difference between calculated and measured efficiency > 0.5 * calculated efficiency @ refill event	Status NOx-Sensor Downstream=ready Status NOx-Sensor Upstream=ready urea dosing=active Adaptation =not active DPF regeneration=not active SCR-Catalyst temp gradient (dep. on T6 EGT4 (upstream SCR)) <0.2 to 0.34K/s SCR catalyst modeled temperature=240 to 350° C Nox-concentration upstream<1500 ppm		continuous. immed.
P208A	Urea pump-open circuit	Check the power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present, Replace the Reduction Agent Tank Module assembly.	deviation between nominal and actual control value > 0.75%		480 ms	Continuous 2 DCY
P208C	Urea pump-short to ground	Check the power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present, Replace the Reduction Agent Tank Module assembly.	diagnostic signal from power stage permanently < 0.46 * U_Batt V		480 ms	Continuous 2 DCY
P208D	Urea pump-short to battery plus	Check the power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present, Replace the Reduction Agent Tank Module assembly.	diagnostic signal from power stage permanently > 0.6 * U_Batt V		480 ms	Continuous 2 DCY
P208E	Urea pump-rationality check	Check the power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present, Replace the Reduction Agent Tank Module assembly.	missing number of signal peaks >50 100	urea dosingactive	1000 s	Continuous 2 DCY
P2080	Exhaust Gas Temperature Sensor Circuit Range/Performance	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	stuck high check Temperature difference to > 60 K. TEGR, T4,, T4', T5, T6 stuck low check mean value of modelled - measured EGT1 200 K or -200K	engine off time > 9 h decrease of AAT and T2' < 5 K at vehicle speed > 25 mph for > 20 s decrease of ECT < 5 K for 60 s	20 s continuous driving with velocity exceeding 25 mph	Once 2 DCY
P2084	Exhaust Gas Temperature Sensor 2 Circuit Range/Performance	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	stuck high check Temperature difference to > 60 K. TEGR, EGT1, Egt3, EGT4 stuck low check mean value of modelled - measuredEGT2 > 100 K			Once 2 DCY
P2096	Post Catalyst Fuel Trim System out of range high Bank 1 Bank 2	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	integral part of trim control, post cat > 10%	modeled cat temp., > 400.00 °C trim control post cat closed loop engine speed 640 to 4000 RPM lambda control, closed loop engine load 15 to 70% Δ set value 0.985 to 1.005 delta engine speed < 7500 RPM Δ mass air flow < 15 g/Rev accelerator PP value < 1000% mass air flow 9.4 to 528 kg/h	120 s	Continuous 2 DCY
P2097	Post Catalyst Fuel Trim System out of range low Bank 1 Bank 2	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	integral part of trim control, post cat < 10%	modeled cat temp., > 400.00 °C trim control post cat closed loop engine speed 640 to 4000 RPM lambda control, closed loop engine load 15 to 70% Δ set value 0.985 to 1.005 delta engine speed < 7500 RPM Δ mass air flow < 15 g/Rev accelerator PP value < 1000% mass air flow 9.4 to 528 kg/h	120 s	multiple 2 DCY
P2098	Post Catalyst Fuel Trim System out of range high Bank 1 Bank 2	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	integral part of trim control, post cat > 10%	modeled cat temp., > 400.00 °C trim control post cat closed loop engine speed 640 to 4000 RPM lambda control, closed loop engine load 15 to 70% Δ set value 0.985 to 1.005 delta engine speed < 7500 RPM Δ mass air flow < 15 g/Rev accelerator PP value < 1000% mass air flow 9.4 to 528 kg/h	120 s	Continuous 2 DCY
P2099	Post Catalyst Fuel Trim System out of range low Bank 1 Bank 2	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	integral part of trim control, post cat < 10%	modeled cat temp., > 400.00 °C trim control post cat closed loop engine speed 640 to 4000 RPM lambda control, closed loop engine load 15 to 70% Δ set value 0.985 to 1.005 delta engine speed < 7500 RPM Δ mass air flow < 15 g/Rev accelerator PP value < 1000% mass air flow 9.4 to 528 kg/h	120 s	Continuous 2 DCY
P208E	SCR System Components Dosing valve- rationality	-- Check theReduction Agent InjectorRefer to Reducing Agent Injector -N474-, CHECKING	missing number of signal peaks > 50	urea dosing active ambient pressure = 700 to 1300 [hPa] SCR urea pressure = 3500 to 6500 [hPa] dosing valve coil temperature = 10 to 120 [°C]	25 to 500 s	Continuous 2 DCY
P20F4	Reductant Pump "A" Control Circuit High	Check the power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present, Replace the Reduction Agent Tank Module assembly.	SCR-Adaption Value >= 1.79	adaption = completed	1 Adaption	once per adaptation Immediately
P20F5	Reductant Pump "A" Control Circuit Low	Check the power and grounds to the Reduction Agent Tank Module. If all voltage and ground inputs to the module are present, Replace the Reduction Agent Tank Module assembly.	adaptive value limit high SCR-Adaption Value <= 0.51	adaption = completed	1 Adaption	once per adaptation Immediately
P20E8	Reductant Pressure Too Low	-- Check the Reduction Agent Pressure Sensor. Refer to Reducing Agent Metering System Pressure Sensor -G686-, CHECKING	45 (Q7) attempts"3500 hPa	SCR system state = pressure control	100 s	Continuous 2 DCY
P20E9	Reductant Pressure Too High	-- Check the Reduction Agent Pressure Sensor. Refer to Reducing Agent Metering System Pressure Sensor -G686-, CHECKING	pressure @ dosing end>500 Q7 [hPa]	SCR system state = pressure reduction	10 s	Continuous 2 DCY
P2BA7	NOx limits exceeded.Empty Reducing Agent Tank	Refill with AdBlue® fluid and recheck system.	calculated urea tank level = 0			Continuous 1 DCY
P2100	throttle valve actuator	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module -J338-, CHECKING .	open circuit signal from power stage > 3.26 V and < 5.4 V	power stage commanded off ignition off	480 ms	Continuous 2 DCY
P2101	Throttle Actuator "A" Control Motor Circuit Range/Performance	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module -J338-, CHECKING .	initialization error signal no change		ECU initialization time	Once 2 DCY
P2102	Throttle Actuator "A" Control Motor Circuit Low	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module -J338-, CHECKING .	short to ground signal from power stage <= 3.26 V	power stage commanded off ignition off	480 ms	Continuous 2 DCY
P2103	Throttle Actuator "A" Control Motor Circuit High	-- Check the Throttle Valve Control Module -J338-. Refer to Throttle Valve Control Module -J338-, CHECKING .	short to battery plus signal from power stage > 1.5 V and > 50 mA	power stage commanded on	480 ms	Continuous 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 .	ECM power stage	engine start completed	0.45 s	Continuous 2 DCY
P2122	Throttle/Pedal Position Sensor/Switch "D" Circuit Low	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- / Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	out of range low signal voltage < 0.646 V		200 ms	Continuous 2 DCY
P2123	Throttle/Pedal Position Sensor/Switch "D" Circuit High	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- / Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	out of range high signal voltage > 4, 889 V		200 ms	Continuous 2 DCY
P2127	Throttle/Pedal Position Sensor/Switch "E" Circuit Low	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- / Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	out of range low signal voltage < 0.276 V		200 ms	Continuous 2 DCY
P2128	Throttle/Pedal Position Sensor/Switch "E" Circuit High	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- / Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	out of range high signal voltage > 2, 644 V		200 ms	Continuous 2 DCY
P2138	Throttle/Pedal Position Sensor/Switch "D"/"E" Voltage Correlation	-- Check the Throttle Position (TP) Sensor -G79- /Accelerator Pedal Position Sensor 2 -G185-. Refer to Accelerator Pedal Position Sensor -G79- / Accelerator Pedal Position Sensor 2 -G185-, CHECKING .	rationality check signal voltage > 0.143 to.0.260 V sensor 1 * 0.5 vs. sensor 2	sensor voltage sensor 1 * 0.5 > 0.445 V sensor 2 > 0.445 V limp-home mode inactive	430 ms	Continuous 2 DCY
P2146	Injection Valves	-- Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .	ECU internal error diagnostic signal in power stage internal signal	injection condition = injection ON	4 injections	Continuous 2 DCY
P2147	Injector Circuit short to ground	-- Check the Fuel injectors -N30, N31, N32, N33-. Refer to FUEL INJECTORS, CHECKING .	signal current > 12 A	injector commanded on	3 s	Continuous 2 DCY
P2148	Injector Circuit short to b+	-- Check the Fuel Injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 33 A	injector commanded on	3 s	Continuous 2 DCY
P2149	Fuel Injector Group B Supply Voltage Circuit / Short to ground	-- Check the Fuel Injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	Signal current >14.90 A	Engine speed >80 RPM	0.5 s	Continuous 2 DCY
P2150	Injector Circuit short to ground	-- Check the Fuel Injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	signal current > 12 A	injector commanded on	3 s	Continuous 2 DCY
P2151	Injector Circuit short to b+	-- Check the Fuel Injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 33 A	injector commanded on	3 s	Continuous 2 DCY
P2152	Fuel Injector Group "C" Supply Voltage Circuit/Open	-- Check the Fuel Injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	ECU internal error diagnostic signal in power stage internal signal	injection condition = injection ON	4 injections	Continuous 2 DCY
P2153	Injector Circuit short to ground	-- Check the Fuel Injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	signal current > 12 A	injector commanded on	3 s	Continuous 2 DCY
P2154	Injector Circuit short to b+	-- Check the Fuel Injectors -N30, N31, N32, N33, N83, N84-. Refer to FUEL INJECTORS, CHECKING .	Signal current > 33 A	injector commanded on	3 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 Pump -V50- Refer to the appropriate service manual.-- Check the Coolant Thermostat. Refer to the appropriate service manual..	ECT < 75 °C mass air integral 3.5 to 24.0 kg	ECT at start, 7 to 57 °C delta ambient pressure < 1.5 kPa vehicle speed 19 to 75 mph accumalated fuel cut-off < 120 s mass air flow 50 to 200 kg/h	500 s	once/DCY 2 DCY
P2183	ECT Sensor 2	-- Check theEngine Coolant Temperature Sensor 2 -G83-. Refer to Engine Coolant Temperature Sensor On Radiator Outlet -G83-, CHECKING .	stuck high check Temperature difference to > ECT, 30 K Temperature difference to > T2, FTS, 35 K Temperature difference to > T1, 40 K		20 s continuous driving with velocity exceeding 25 mph	once/DCY 2 DCY
P2184	ECT Sensor 2 Engine coolant temperature (upstream engine)	-- Check theEngine Coolant Temperature Sensor 2 -G83-. Refer to Engine Coolant Temperature Sensor On Radiator Outlet -G83-, CHECKING .	short to ground signal voltage < 224 mV		480 ms	Continuous 2 DCY
P2185	ECT Sensor 2 Engine coolant temperature (upstream engine)	-- Check theEngine Coolant Temperature Sensor 2 -G83-. Refer to Engine Coolant Temperature Sensor On Radiator Outlet -G83-, CHECKING .	open circuit or short to battery plus signal voltage > 4921 mV		480 ms	Continuous 2 DCY
P2195	O2 Sensor Signal Biased/Stuck Lean Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	measured oxygen concentration @fuel cut off > 25.6% measured oxygen concentration @part load > calculated + 6.5 %	EGR valve = closed heater control = active DPF regeneration = not active fuel cut off = active air mass > 250 [mg/stroke integrated air mass flow > 180 [g] engine speed > 1100 [rpm heater control = active DPF regeneration = not active fuel mass < 5.. 14 [mg/stroke air mass = 200.. 370 [mg/stroke integrated air mass flow > 180 [g] engine speed = 630.. 850 [rpm	5 to 10 s 20 to 30 s	Continuous 2 DCY Continuous
P2196	O2 Sensor Signal Biased/Stuck Rich Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	measured oxygen concentration @fuel cut off < 14.7 %	EGR valve = closed heater control = active DPF regeneration = not active fuel cut off = active air mass > 250 [mg/stroke integrated air mass flow > 180 [g] engine speed > 1100 rpm	5 to 10 s	Continuous 2 DCY
P2197	O2 Sensor Signal Biased/Stuck Lean Bank 2 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	lambda value > 1.1 V	modeled exhaust gas temp., 500.00 to 750.00 °C ECT > 60 °C exhaust gas mass flow, 20.00 to 180.00 kg/h engine speed > 992 RPM lambda control, closed loop lambda control, post cat-closed loop deviation engine speed < 150 Rev engine load 30 to 300 kg/h delta engine load > 0.15 g/Rev lambda deviation < 3% integrated mass air flow 150g O2S signal rear > 0.852 V deviation lambda control > 35%	100 s	Continuous 2 DCY
P2198	O2 Sensor Signal Biased/Stuck Rich Bank 2 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	lambda value < 0.9 V	modeled exhaust gas temp., 500.00 to 750.00 °C ECT > 60 °C exhaust gas mass flow, 20.00 to 180.00 kg/h engine speed > 992 RPM lambda control, closed loop lambda control, post cat-closed loop deviation engine speed < 150 Rev engine load 30 to 300 kg/h delta engine load > 0.15 g/Rev lambda deviation < 3% integrated mass air flow 150g O2S signal rear < 0.049 V deviation lambda control < 35%	100 s	Continuous 2 DCY
P2200	NOx Sensor Bank 1, Sensor 1	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	internal malfunction criteria in the sensor control module and error bit to engine control module NOx sensor status ratio (false/total time) > 0.5	exhaust temperature upstream SCR (T4) = 100 to 600° C dew point = exceeded measured A/F ratio (O2S) > 1 Nox control = first activation or forced activation>300s exhaust temperature upstream SCR (T4) 100 to 600° C steady state condition (actual-filtered A/F ratio (O2S)) < 0 to 0.2 for > 5 s	2 s 3*15 s	Continuous 2 DCY
P2201	NOx Sensor (upstream)	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	dynamic check Nox 70% to Nox 40% time > 5 s or 40% value is not reached within > 7 s rationality check ratio > 3 (measured Nox value/calculated Nox value)-1 rationality check or < -0.75	Air mass =200 to 365mg/stroke NOX sensor heater control = active ambient temperature=-7 to 50° C T3 EGT1 (exhaust gas temperature upstream NMHC catalyst)>80° C DPF regeneration = not active time since last DPF regeneration>60 s ECT>65° C fuel quantity= 6 to 14 mg/stroke engine speed 600 to 850 RPM EGR sensor position=70 to 93 % calculated Nox-Value=75 to 250 ppm Time since engine start>120s Air mass =200 to 365mg/stroke NOX sensor heater control = active ambient temperature=-7 to 50° C T3 EGT1 (exhaust gas temperature upstream NMHC catalyst)>80° C DPF regeneration = not active time since last DPF regeneration>60 s ECT>65° C fuel quantity= 9..20 mg/stroke engine speed 600 to 850 RPM EGR sensor position=70 to 93 % calculated Nox-Value=75 to 250 ppm Time since engine start>120s	6 s	Continuous 2 DCY
P2201	NOx-Sensor Bank 1, Sensor 1	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	NOx Offset value max average NOx Offset value > 50 ppm NOx Offset value min average NOx Offset value < -30 ppm	fuel cut off = active integrated air mass >300 to 1000 g engine speed = 1000 to 3500 RPM dew point = exceeded exhaust temperature upstream SCR (T4) = 100 to 600° C engine operation mode = normal NOx control = active	11 s	Multiple 2 DCY
P2202	NOx-Sensor Bank 1, Sensor 1	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	NOx value < 105 ppm	dew point = exceeded NOx control = active	2 s	Continuous 2 DCY
P2203	NOx-Sensor Bank 1, Sensor 1	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	NOx value > 1655 ppm	dew point = exceeded NOx control = active	2 s	Continuous 2 DCY
P2209	NOx-Sensor Heater, Bank 1, Sensor 1	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	NOx control = not active after > 400 s	exhaust temperature upstream SCR (T4) = 100 to 600° C dew point = exceeded	1 s	Once 2 DCY
P2227	Turbocharger/Supercharger Boost Sensor A Plausibility check.	-- Check the Charge Air Pressure Sensor -G31-. Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING .-- Check the charge air system for proper seal. Refer to appropriate service manual.	press. diff. in cross check between boost press. sensor 1/2; IM press., abient press. >7 kPa	engine speed 0 RPM time after engine stop 10 s	3 s	Continuous 2 DCY
P2231	O2 Sensor Signal Circuit Shorted to Heater Circuit Bank 1 Sensor 1	-- Check the Oxygen Sensor Heater -Z19-. Refer to Oxygen Sensor Heater -Z19-, 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 s	multiple 2 DCY
P2237	O2 Sensor Positive Current Control Circuit/Open Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	measured oxygen concentration < 0.005 -	fuel cut off = not active time since last fuel cut off > 30 s calibration of internal resistance or O2 signal = not active modeled O2 concentration > 0.067 for = 5 s O2 heater temperature > 720° C < 840° C dew point = exceeded reference pump current = active oxygen pump current = active engine operation mode = normal for > 200 ms regeneration = not active	2 s	Continuous 2 DCY
P2240	O2 Sensor Positive Current Control Circuit/Open Bank 2 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	signal activity check-failed	O2S front- no other faults	35 s	Continuous 2 DCY
P2243	O2 Sensor Reference Voltage Circuit/Open Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	internal resistance voltage > 3 V AND oxygen signal < -1.3 V or > 1.5 V	fuel cut off = not active time since last fuel cut off > 30 s calibration of internal resistance or O2 signal = not active heater control = active for > 10 s dew point = exceeded	2 s	Continuous 2 DCY
P2247	O2 Sensor Reference Voltage Circuit/Open Bank 2 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	functional check heater failed AND intrusivive check temperature measurement failed		35 s	Continuous 2 DCY
P2251	O2 Sensor Negative Current Control Circuit/Open Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	Circuit Continuity Check internal resistance voltage > 3 V AND oxygen signal > -0.1 V and < 0.1 V	fuel cut off = not active time since last fuel cut off > 30 s calibration of internal resistance or O2 signal = not active heater control = active for > 10 s dew point = exceeded	2 s	continuous 2 DCY
P2254	O2 Sensor Negative Current Control Circuit/Open Bank 2 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	functional check heater failed AND signal activity check failed	fuel cut off = not active time since last fuel cut off > 30 s calibration of internal resistance or O2 signal = not active heater control = active for > 10 s dew point = exceeded	45 s	continuous 2 DCY
P2263	Turbocharger/Supercharger Boost System Performance	-- Check theTurbocharger/Supercharger Boost System. Refer to Turbocharger Control Module 1 -J724-, CHECKING .	stuck boost pressure valve control deviation > 8 %		3100 ms	Continuous 2 DCY
P2279	boost pressure hose leakage	-- Check the Charge Air Pressure Sensor -G31- Refer to Charge Air Pressure Sensor -G31- /Intake Air Temperature Sensor -G42-, CHECKING	functional check by modeled air mass flow ratio of measured and modeled air mass flow < 0.45	engine speed 1700..4000 RPM ambient pressure > 50 kPa boost pressure < 200 [kPa] fuel quantity > 0 [mg/Str] difference between boost pressure and ambient pressure<6 to 12 kPa depended on ECT=-40 to 0° otherwise<12KPa	3 s	Continuous 2 DCY
P2293	Fuel Pressure Regulator 2 Performance	-- Check the Fuel Pressure Regulator Metering Valve 2 -N290-. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .	difference between target pressure vs. actual pressure, >1.50mPa difference between target pressure vs. actual pressure, < -1.50 mPa	time after engine start, 10.0 s fuel cut off, not active	3.5 s	multiple 2 DCY
P2294	Fuel Pressure Regulator 2 Control Circuit	-- Check the Fuel Pressure Regulator Metering Valve 2 -N290-. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .	power stage voltage>2.97 < 4.7 V	output stage=signal high	290 s	Continuous 2 DCY
P2295	Fuel Pressure Regulator 2 Control Circuit Low	-- Check the Fuel Pressure Regulator Metering Valve 2 -N290-. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .	power stage voltage<2.97 V	output stage=signal high	290 s	Continuous 2 DCY
P2296	Fuel Pressure Regulator 2 Control Circuit High	-- Check the Fuel Pressure Regulator Metering Valve 2 -N290-. Refer to Fuel Pressure Regulator Valve -N276-, CHECKING .	power stage current>3A	output stage=signal low	220 s	Continuous 2 DCY
P229E	NOx-Sensor Bank 1, Sensor 2	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	internal malfunction criteria in the sensor control module and error bit to engine control module NOx sensor status ratio (false/total time) > 0.5 s	exhaust temperature upstream SCR (T6) = 100 to 600 ° C dew point = exceeded measured A/F ratio (O2S) > 1 Nox control = first activation or forced activation>300s dew point = exceeded exhaust temperature upstream SCR (T6) 100 to 600 steady state condition (actual-filtered A/F ratio (O2S)) < 0 to 0.2 for > 5 s	2 s 3.15 s	multiple 2 DCY
P229F	NOx Sensor Circuit Range/Performance Bank 1 Sensor 2	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	Average NOx Offset value > 50 ppm average NOx Offset value <-30ppm	fuel cut off=active integrated air mass >300 to 1000g Engine speed 1000 - 3500 rpm dew point=exceeded exhaust temperature upstream SCR (T6 EGT4)=100 to 600° C engine operation mode=normal NOx control=active modeled SCR temperature<50 to 500° for>60 s modeled ammonia load in SCR<0.6 g for>30 s	11 s	Continuous 2 DCY
P22A0	NOx-Sensor Bank 1, Sensor 2 Sensor low	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	NOx value < - 105 -101 ppm	dew point = exceeded NOx control = active	2 s	continuous 2 DCY
P22A1	NOx-Sensor Bank 1, Sensor 2	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	NOx value > 1655 ppm	dew point = exceeded NOx control = active	2 s	continuous 2 DCY
P22A7	NOx-Sensor Heater, Bank 1, Sensor 2	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	NOx control = not active after > 400 s	exhaust temperature upstream SCR (T6) = 100 to 600° C dew point = exceeded	1 s	Once 2 DCY
P220A	NOx-Sensor Heater, Bank 1, Sensor 1	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	battery voltage - sensor supply voltage > 1.5 V sensor supply voltage < 12 V	dew point = exceeded exhaust temperature upstream SCR (T4 EGT2)100 to 600° C	2 s	continuous 2 DCY
P220B	NOx-Sensor Heater, Bank 1, Sensor 2	-- Check theNOx Sensor Module --. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING .	battery voltage - sensor supply voltage > 1.5 V sensor supply voltage < 12 V	dew point = exceeded exhaust temperature upstream SCR (T4 EGT2)100 to 600° C	2 s	continuous 2 DCY
P2414	O2 Sensor Exhaust Sample Error Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	O2S signal front > 3.1 V	lambda control active engine torque positive engine speed no idle	25 s	Continuous 2 DCY
P2415	O2 Sensor Exhaust Sample Error Bank 2 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	O2S signal front > 3.1 V	O2S signal front > 3.1 V	25 s	Continuous 2 DCY
P2425	Exhaust Gas Recirculation Cooling Valve Control Circuit Open	-- Check theEGR Cooler Switch Over Valve --. Refer to EGR Cooler Switch-Over Valve -N345- / EGR Cooler Switch-Over Valve 2 -N381-, CHECKING .	open circuit signal from power stage < 4.7 V	power stage = OFF State	480 ms	Continuous 2 DCY
P2426	Exhaust Gas Recirculation Cooling Valve Control Circuit Low	-- Check theEGR Cooler Switch Over Valve --. Refer to EGR Cooler Switch-Over Valve -N345- / EGR Cooler Switch-Over Valve 2 -N381-, CHECKING .	short to ground signal from power stage < 2.97 V	power stage = OFF State	480 ms	Continuous 2 DCY
P2427	Exhaust Gas Recirculation Cooling Valve Control Circuit High	-- Check theEGR Cooler Switch Over Valve --. Refer to EGR Cooler Switch-Over Valve -N345- / EGR Cooler Switch-Over Valve 2 -N381-, CHECKING .	short to battery signal from power stage > 2.2 A	power stage = ON State	480 ms	Continuous 2 DCY
P2452	Diesel Particulate Filter Differential Pressure Sensor Circuit	-- Check theExhaust Pressure Sensor --. Refer to Differential Pressure Sensor -G505-, CHECKING .	short to battery plus sensor voltage > 4.9 V		480 ms	Continuous 2 DCY
P2453	Diesel Particulate Filter Differential Pressure Sensor Circuit Range/Performance	-- Check theExhaust Pressure Sensor --. Refer to Differential Pressure Sensor -G505-, CHECKING .	Pressure drop > 3 kPa or < -3 kPa	engine off	480 ms	Once 2 DCY
P2454	Diesel Particulate Filter Differential Pressure Sensor Circuit Low	-- Check theExhaust Pressure Sensor --. Refer to Differential Pressure Sensor -G505-, CHECKING .	short to ground sensor voltage < 0.2 V		480 ms	Continuous 2 DCY
P2458	monitoring of incomplete regeneration	-- Check theExhaust Pressure Sensor --. Refer to Differential Pressure Sensor -G505-, CHECKING .	time of regeneration duration > 3600 s	regeneration =active	1 to 3600 s	during DPF regeneration/ 2DCY
P2459	"monitoring of Regeneration frequency by comparison of measured and modelled soot mass"	-- Check theExhaust Pressure Sensor --. Refer to Differential Pressure Sensor -G505-, CHECKING .	measured soot mass >f(volumetric flow rate)g	last regeneration=successful actual regeneration=triggered		during DPF regeneration/ 2DCY
P2463	Diesel Particulate Filter - Soot Accumulation	Service Bay Regeneration must be performed using a VAS 5052 (available for rental) or equivalent scan tool	soot mass exceeds maximum value calculated DPF loading > 40 g		0.2 s	Continuous 2 DCY
P2470	Exhaust Gas Temperature Sensor Circuit Low Bank 1 Sensor 4	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	short to ground signal voltage < 678 mV		480 ms	Continuous 2 DCY
P240F	EGR Slow Response	-- Check EGR Vacuum Regulator Solenoid Valve -N18-. Refer to EGR Valve 1 -GX5- / EGR Motor -V338- / EGR Potentiometer -G212-, CHECKING .	calculated characteristical value >70 (for positive gradients of desired air mass flow) calculated characteristical value >50 (for negative gradients of desired air mass flow)	engine speed=1100 to 3000 RPM fuel quantity=6 to 40mg/str ambient pressure>74.5 kPa engine coolant temperature>50° C ambient temperature>-7° C EGR valve=15 to 95 % desired air mass<800mg/str DPF regeneration mode=off	2 X 15 s	Multiple 2 DCY
P242A	Exhaust Gas Temperature Sensor Circuit Bank 1 Sensor 3	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	short to battery plus or open circuit signal voltage > 2606 mV		480 ms	Continuous 2 DCY
P242B	Exhaust Gas Temperature Sensor Circuit Bank 1 Sensor 3 Range/Performance	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	stuck high check Temperature difference to TEGR, EGT!, EGT2, EGT4, > 60 K stuck low check mean value of modelled - measured EGT3, > 100 K		500 s	Continuous 2 DCY
P242C	Exhaust Gas Temperature Sensor Circuit Low Bank 1 Sensor 3	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	short to ground signal voltage < 678 mV		480 ms	Continuous 2 DCY
P244C	Exhaust Temperature Too Low For Particulate Filter Regeneration Bank 1	If no Exhaust Temperature Sensor codes are set, a Service Bay Regeneration should be performed using a VAS 5052 (available for rental) or equivalent scan tool	Minimum of exhaust gas temperature (T5) not reached within a certain time interval time to closed loop<120 to 300 s	T5 EGT3<350° C engine speed > 1000 RPM fuel mass > 15 mg/stroke regeneration mode with post injection = on gradient of accelerator pedal position<12% / s	10 - 300 s.	Immediate
P245B	EGR Cooler Performance Main cooler	-- Check theEGR Cooler Switch Over Valve --. Refer to EGR Cooler Switch-Over Valve -N345- / EGR Cooler Switch-Over Valve 2 -N381-, CHECKING .	measured temperature gradient < 0.8	engine speed = 900.. 2000 RPM delta engine speed = +-350 RPM fuel quantity = 6 to 26 mg/Str delta fuel quantity = +-10 mg/Str EGR valve > 0 to 88 % delta EGR valve = +-50 % EGR mass flow > 24 to 65 kg/h SCR temperature (T6) > 150° C EGR temperature < 300 °C time since engine start > 450 s	11 s	Once 2 DCY
P246E	Exhaust Gas Temperature Sensor Circuit Bank 1 Sensor 4	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	short to battery plus or open circuit signal voltage > 2606 mV		480 ms	Continuous 2 DCY
P246F	Exhaust Gas Temperature Sensor Circuit Bank 1 Sensor 4 Range/Performance	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	Temperature difference to TEGR, EGT1, EGT2, EGT3, T6 > 60 K OR Mean value of modeled - measured EGT4 > 100 K		500 s	Continuous 2 DCY
P247A	Exhaust Gas Temperature Out of Range Bank 1 Sensor 3	-- Check theExhaust Gas Temperature Sensor --. Refer to EXHAUST GAS TEMPERATURE SENSORS 1- 4, CHECKING .	control deviation (T5 EGT3)>200K control deviation (T5 EGT3)<-100K	engine speed>1000 RPM Fuel mass > 10 mg/stroke Regeneration with post injection = On Temperature controller set value > 90 % EGT3 > 350 °C Temperature change T5 (absolute value) < 3 °K/s. gradient of accelerator pedal position<12% / s Regeneration with post injection = On Temperature controller set value < 10% Fuel mass > 10 mg/stroke Engine speed > 1000 RPM EGT3 > 350 °C temperature change T5 EGT3 (absolute value)<3K/s	50 s	during DPF regeneration immed.
P2564	Turbocharger Boost Control Position Sensor Circuit Low	-- Check theTurbocharger Control Module --. Refer to Turbocharger Control Module 1 -J724-, CHECKING .	out of range low position sensor signal<150 mV		1300 ms	Continuous 2 DCY
P2565	Turbocharger Boost Control Position Sensor Circuit High	-- Check theTurbocharger Control Module --. Refer to Turbocharger Control Module 1 -J724-, CHECKING .	Sensor signal voltage > 4.85 V		480 ms	Continuous 2 DCY
P2626	O2 Sensor Pumping Current Trim Circuit/Open Bank 1 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	O2S signal front > 4.7 V	Modeled exhaust temp, > 380 °C Fuel cut off, > 2 s	4 s	Continuous 2 DCY
P2629	O2 Sensor Pumping Current Trim Circuit/Open Bank 2 Sensor 1	-- Check the Heated Oxygen Sensor -G39-. Refer to Heated Oxygen Sensor -G39-, CHECKING .	O2S signal front > 4.7 V	Modeled exhaust temp, > 380 °C Fuel cut off, > 2 s	4 s	Continuous 2 DCY
P2632	Fuel Pump "B" Control Circuit Open	-- Check theAuxiliary Fuel Pump -V393-. Refer to Auxiliary Fuel Pump -V393-, CHECKING	diagnostic signal from power stage > 4.5 V	power stage = OFF	0.29 s	Continuous 2 DCY
P2633	Fuel Pump "B" Control Circuit Low	-- Check theAuxiliary Fuel Pump -V393-. Refer to Auxiliary Fuel Pump -V393-, CHECKING	Grounded circuit diagnostic signal from output driver	power stage = OFF	480 ms	Continuous 2 DCY
P2634	Fuel Pump "B" Control Circuit High	-- Check theAuxiliary Fuel Pump -V393-. Refer to Auxiliary Fuel Pump -V393-, CHECKING	diagnostic signal from power stage > 2.7 A	Power stage = On	480 ms	Continuous 2 DCY
P261A	Coolant Pump "B" Control Circuit High	-- Check theEGR Cooler Pump --. Refer to EGR Cooler Pump -V400-, CHECKING .	open circuit signal voltage < 4.8 to 5.3 V	pump speed = 50 to 90 % coolant temperature before EGR cooler >-10° C	480 ms	Continuous 2 DCY
P261C	Coolant Pump "B" Control Circuit High	-- Check theEGR Cooler Pump --. Refer to EGR Cooler Pump -V400-, CHECKING .	short to ground signal voltage < 3 V	pump speed = 50 to 90 % coolant temperature before EGR cooler >-10° C	480 ms	Continuous 2 DCY
P261D	Coolant Pump "B" Control Circuit High	-- Check theEGR Cooler Pump --. Refer to EGR Cooler Pump -V400-, CHECKING .	short to battery plus signal voltage > 2.2 to 4.0 A	pump speed = 50 to 90 % coolant temperature before EGR cooler >-10° C	480 ms	Continuous 2 DCY
P308D	Fuel Pump Control Unit	Refer to the appropriate shop manual for service	Signal current>35 A	ignition =on	1.2 s	Continuous 2 DCY
P308E	Fuel Pump Control Unit	Refer to the appropriate shop manual for service	temperature >129° C	ignition =on	2.2 s	Continuous 2 DCY
P3081	Engine Temperature Too Low	-- Check Engine Coolant Temperature Sensor -G62-. Refer to Engine Coolant Temperature Sensor - G62-, CHECKING .	step 1 modeled ECT > 30 °C AND ECT < 30 °C and modeled ECT> 30 °C ECT < 25 °C	ECT < 60 °C	2 s	Continuous 2 DCY
P310E	Exhaust gas recirculation cooler bypass valve 2 Implausible signal	-- Check theEGR Cooler Switch Over Valve --. Refer to EGR Cooler Switch-Over Valve -N345- / EGR Cooler Switch-Over Valve 2 -N381-, CHECKING .	Measured temperature < 0.8	engine speed = 900.. 2000 RPM delta engine speed = +-350 RPM fuel quantity = 6 to 26 mg/Str delta fuel quantity = +-10 mg/Str EGR valve > 0 to 88 % delta EGR valve = +-50 % EGR mass flow > 24 to 65 kg/h SCR temperature (T6) > 150° C EGR temperature < 300 °C time since engine start > 450 s	11 s	Once 2 DCY
P3348	Activation turbocharger control unit bank 1 Electrical malfunction in circuit	-- Check theTurbocharger Control Module --. Refer to Turbocharger Control Module 1 -J724-, CHECKING .	power stage current>8 to 18 A	power stage = ON State	480 ms	Continuous 2 DCY
U0001	CAN: CAN-Bus	-- Check the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .	reading back sent message CAN message no feedback	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	250 ms	Continuous 2 DCY
U0002	CAN communication check	-- 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 battery voltage = 9.5 - 16.5 Volt	450 ms	Continuous 2 DCY
U0028	reading back sent message	-- Check the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .	CAN message no feedback	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	250 ms	Continuous 2 DCY
U0029	CAN: CAN-Bus	-- Check the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .	Global time out. Receiving no messages.	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	450 ms	Continuous 2 DCY
U0100	Lost Communication with ECM/PCM A	-- Check the CAN-Bus terminal resistance. Refer to TCM TO ECM CAN BUS TERMINAL RESISTANCE, CHECKING .	Failure of all CAN engine messages, Time out more than 500 ms	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	> 500 ms	Continuous 2 DCY
U0101	CAN communication with TCM	-- Check the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .	CAN message from TCUno message	time after ignition on>" 500 " ms battery voltage= 9.5 - 16.5 V	500 ms	Continuous 2 DCY
U0106	CAN communication with NOX-Sensor	-- Check the NOx Sensor. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING	CAN message from NOX1 no message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	> 500 ms	Continuous 2 DCY
U0101	Lost Communication with TCM	Check TCM communication with a scan tool. If no TCM communication with scan tool and all other modules communicate, check TCM power and grounds. If OK, replace TCM Module.	CAN message from TCU no message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	> 500 ms	Continuous 2 DCY
U0121	CAN: Brake Unit	-- Check the CAN-Bus terminal resistance between the ECM and the ABS Control Module. Refer to CAN BUS TO ABS CONTROL MODULE, CHECKING .	CAN communication with Brake Unit CAN message from Brake Unit no message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	> 500 ms	Continuous 2 DCY
U0140	CAN gateway	Check BCM communication with a scan tool. If no BCM communication with scan tool and all other modules communicate, check BCM power and grounds. If OK, replace BCM Module.	CAN message from Body Computer Module no message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	1000 ms	Continuous 2 DCY
U0145	CAN: Brake Unit	Refer to the Repair Manual for ABS diagnosis.	CAN communication with Brake Unit data from Brake Unit implausible message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	60 ms	Continuous 2 DCY
U0146	CAN gateway	If only 1 module has set this code, the gateway is operational and the fault will be with the module that set the code. Check module power and grounds. If OK, replace module.	CAN message from Gateway no message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	1000 ms	Continuous 2 DCY
U0155	CAN communication with Instrument Cluster	Check IPC communication with a scan tool. If no IPC communication with scan tool and all other modules communicate, check IPC power and grounds. If OK, replace IPC Module.	CAN message from Instrument Cluster Module no message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	2000 ms	Continuous 2 DCY
U0302	Software Incompatibility with Transmission Control Module	Check for correct software in ECM and TCM. If software is incorrect, reflash module with correct software	MT vehicle ECM coded as AT vehicle	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	100 ms	Continuous 2 DCY
U0323	CAN: Instrument cluster Audi only	Check IPC software for correct version. Reflash if necessary	Instrument Cluster wrong coded error bit = set 2 s	communication time after T15 "on" > 1	2 s	Continuous 2 DCY
U0402	CAN communication with TCM	May have VIN error or incorrect software. Check VIN and software number for correct data.	invalid data received from TCM implausible message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	60 ms	Continuous 2 DCY
U0404	Invalid Data Received From Gear Shift Control Module	May have VIN error or incorrect software. Check VIN and software number for correct data.	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 Control Module	-- Check the CAN-Bus terminal resistance between the ECM and the ABS Control Module. Refer to CAN BUS TO ABS CONTROL MODULE, CHECKING .	Error bit = set Implausible data from ABS OR Speed sensor signal = 325 km/h	time after ignition on> 500 ms battery voltage= 9.5 - 16.5 V	50 s.	Continuous 2 DCY
U0422	CAN: Instrument cluster	May have VIN error. Check VIN in each module for correct data	ambient temp. value (initialization), Audi, 01h	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	2.0 s	Continuous 2 DCY
U0423	CAN communication with Instrument Cluster	May have VIN error. Check VIN in each module for correct data	Error message sent from instrument cluster = invalid data	communication time after T15 "on">1 s	600 ms	Continuous 2 DCY
U0447	CAN communication with Gateway	-- Check the CAN-Bus terminal resistance. Refer to CAN BUS TERMINAL RESISTANCE, CHECKING .	data received from Gateway implausible message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	300 ms	Continuous 2 DCY
U1006	CAN communication with NOX-Sensor	-- Check the NOx Sensor. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING	CAN message from NOX1no message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	500 ms	Continuous 2 DCY
U1024	Ambient Air Temperature	May have VIN error. Check VIN in each module for correct data	Instrument Cluster wrong coded error bit=set	communication time after T15 "on">1	480 ms	Continuous 2 DCY
U1034	CAN communication with NOX-Sensor	-- Check the NOx Sensor. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING	data rom NOX1 implausible message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	60 ms	Continuous 2 DCY
U1035	NOx Sensor 1 Bank 2 Implausible signal	-- Check the NOx Sensor. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING	data from NOX2 implausible message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	60 ms	Continuous 2 DCY
U1036	NOx Sensor 1 Bank 2 No Communication	-- Check the NOx Sensor. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING	CAN message from NOX2 no message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt	> 500 ms	Continuous 2 DCY
U101C	CAN: NOX	-- Check the NOx Sensor. Refer to NOX SENSOR CONTROL MODULE 1 - 2, CHECKING	data from NOX2implausible message	time after ignition on > 500 ms battery voltage = 9.5 - 16.5 Volt