mini cooper on board diagnostic codes

mini cooper on board diagnostic codes

Stroke Adaptation Number of Stops Exceeded, VVT Guiding Sensor Solenoid Loss (Bank 1), VVT Eccentric Shaft Sensor Parity Error (Bank 1), VVT Eccentric Shaft Sensor Gradient Error (Bank 1), VVT Reference Sensor Reset Error (Bank 1), Valvetronic actuator motor, position sensors: Signal Implausible, VVT Supply Voltage Sensors High Input (Bank 1), Valvetronic, adjustment range: Travel range not initialized, Valvetronic, adjustment range: Travel limit not learned owing to environmental conditions, VVT Self-Learning Function Storage of Learning Values in EEPROM Not Possible, VVT Load Shedding Relay Control Circuit Input High, VVT Load Shedding Relay Control Circuit Input Low, VVT Load Shedding Relay Control Circuit Input, VVT Sensor Supply Voltage Low Input (Bank 1), VVT Self Learning Function Faulty Adjustment Range (Bank 1), Valvetronic, adjustment range: Range check fault, Valvetronic, adjustment range: Range check, deviation from base learning routine, VVT Self Learning Function Faulty Lower Learning Range (Bank 1), VVT Self Learning Function No Positions Stored (Bank 1), VVT Control Motor Position Control Deviation (Bank 1), Valvetronic system: Closed loop deviation too high, VVT Actuator Monitoring Recognition of Direction of Rotation Plausibility (Bank 1), Valvetronic actuator motor, control-activation Short Circuit to positive, Valvetronic actuator motor, control-activation Short Circuit to ground, Valvetronic actuator motor, control-activation: Open circuit, Cold Start Intake Air Temperature - Too Low, VVT Limp Home Request Full Stroke Position Reached (Bank 1), VVT Limp Home Request Air Mass Plausibility (Bank 1), VVT Overload Protection Control Motor Input Temperature (Bank 1), VVT Overload Protection Current Too High (Bank 1), Charge air temperature: Plausibility, temperature too high, Charge air temperature: Signal, remains stationary, Rail-pressure sensor, operating range: Pressure to high, Rail-pressure sensor, operating range: Pressure to low, Charge air temperature sensor, plausability, cold start: Temperature too high, Charge air temperature sensor, plausability, cold start: Temperature too low, Coolant temperature sensor, plausability, cold start: Temperature too low, Coolant temperature sensor, plausability, cold start: Temperature too high, Rail-pressure sensor, signal: No variation, Valvetronic, adjustment range: Initial learning outside tolerance, Valvetronic, driver circuit component protection: System deactivation, Valvetronic actuator motor, position sensors: Short circuit or line break (open circuit), DME, internal fault, Valvetronic control: Malfunction, Valvetronic actuator motor, position sensors: Malfunction in voltage supply, Valvetronic, overload protection: Driver circuit overloaded, Valvetronic, overload protection: Actuator motor overloaded, Boost pressure - barometric pressure, comparison: Boost air pressure too high, Boost pressure - barometric pressure, comparison: Boost air pressure too low, Differential Pressure Sensor Intake Manifold Pressure Too Low (Bank 1), Differential Pressure Sensor Intake Manifold Pressure Too High (Bank 1), Throttle Position Sensor 'A' and 'B' Range / Performance, Internal Code (Service / End-of-line Test), Ambient Temperature Sensor Faulty CAN Signal, Mass or Volume Air Flow va O2 Sensor Too High (Bank 1), Mass or Volume Air Flow va O2 Sensor Too Low (Bank 1), Intake Temperature Sensor Bank 1 Maximum Temperature Implausible, Differential Pressure Sensor Intake Manifold Pressure Offset (Bank 1), Engine Coolant Temperature Sensor 1 Minimum Temperature Implausible, Throttle valve angle - Intake manifold pressure, comparison: Pressure too low, Manifold Absolute Pressure to Throttle Angle - Too High, Mass or Volume Air Flow 1 Correction Signal Plausibility Too Long, Mass or Volume Air Flow 'A' Maximum Exceeded, Mass or Volume Air Flow 'A' Minimum Fallen Below, Throttle / Pedal Position Sensor / Switch 'A' / 'B' Synchronous Operation Correlation (Bank 1), Engine Oil Separator Heating Circuit High, Engine Oil Separator Heating Circuit Open, Differential Pressure Sensor Intake Manifold High Input (Bank 1), Differential Pressure Sensor Intake Manifold Low Input (Bank 1), Manifold Absolute Pressure Sensor High (Bank 1), Manifold Absolute Pressure Sensor Low (Bank 1), Fuel trim, Injector aging long term adaptation too high (Bank 1), Throttle valve, operation: Resistance to motion, too slow, arometric pressure, operating range: Pressure too high, Barometric Pressure, operating range: Pressure implausible, Boost Pressure Control, deactivation: Boost pressure build-up blocked, Boost Pressure Control, Boost Pressure too high, Boost Pressure Control, Boost Pressure too low, Manifold Absolute Pressure Maximum Pressure Implausible, Manifold Absolute Pressure Minimum Pressure Implausible, Turbocharger / Supercharger Boost Pressure, Pressure Front of Throttle Valve too High, Turbocharger / Supercharger Boost Pressure, Pressure Front of Throttle Valve too Low, Turbocharger / Supercharger Boost Pressure, Maximum Pressure Front of Throttle Valve Implausible, Turbocharger / Supercharger Boost Pressure, Minimum Pressure Front of Throttle Valve Implausible, Absolute Pressure Sensor, intake manifold, plausibility, shutdown phase : Pressure too high, Boost Pressure Sensor, plausibility, shutdown phase : Pressure too low, Boost Pressure Sensor, plausibility, shutdown phase : Pressure too high, Barometric Pressure Sensor, plausibility, shutdown phase : Pressure too low, Barometric Pressure Sensor, plausibility, shutdown phase : Pressure too high, Boost Pressure - barometric pressure, comparison: Boost pressure too high, Boost Pressure - barometric pressure, comparison: Boost pressure too low, Camshaft Position Sensor Rationality Check (Inlet - Outlet), Intake Camshaft: Angular offset to crankshaft is outside tolerance range, Exhaust Camshaft: Angular offset to crankshaft is outside tolerance range, Knock Control Super Knocking Caused by Defective Ignition Coil, Knock Control Super Knocking Caused by Defective Knock Sensor, Knock Control Torque Limitation Caused by Too High Number of Super Knocking, Knock Control Permanent Limitation Caused by Too High Number of Super Knocking, Knock Control Fuel Cutoff Due to Super Knocking, Knock Control Fuel Cutoff Due to Super Knocking Cylinder 1, Super knock on cylinder 1: Injection Deactivation, Knock Control Fuel Cutoff Due to Super Knocking Cylinder 2, Knock Control Fuel Cutoff Due to Super Knocking Cylinder 3, Knock Control Fuel Cutoff Due to Super Knocking Cylinder 4, Knock sensor, electrical: Signal input 'A', short circuit to ground, Knock sensor, electrical: Signal input 'A', short circuit to positive, Knock sensor, electrical: Signal input 'B', short circuit to ground, Knock sensor, electrical: Signal input 'B', short circuit to positive, VANOS intake: Closed loop control fault, camshaft sticks, Exhaust camshaft, mechanical: Assembly faulty, Exhaust camshaft, mechanical: Incorrect installation, Ignition-angle adjustment at part load, cold start: Ignition angle advanced too far, Tank fuel-level sensor, left signal: CAN value implausible, Tank fuel-level sensor, right signal: CAN value implausible, DMTL Tank Leakage (Diagnostic Module Tank Leakage), DMTL, system fault: Abort due to current fluctuations during reference measurement, DMTL Pump current too high during switching solenoid test, DMTL, system fault: Pump current reaches limit during valve test, DMTL, system fault: Pump current too low during reference measurement, DMTL, system fault: Pump current too high during reference measurement, Fuel level / Fuel consumption correlation, Tank fuel-level sensor: Fuel consumption rate does not correlate with change fuel level, Battery Sensor Extended Communication Circuit, Intelligent battery sensor, signal: Software fault, Fuel Rail Pressure Too Low-Cold Start Cycle, Faulty Engine Control Module (DME) or programming, Tank fuel level sensor, right, signal: Short circuit to ground, 'A' Camshaft Position Actuator Control Circuit Low (Bank 1), VANOS intake side solenoid valve, control activation: Short circuit to ground, 'A' Camshaft Position Actuator Control Circuit High (Bank 1), VANOS intake side solenoid valve, control activation: Short circuit to positive, 'B' Camshaft Position Actuator Control Circuit Low (Bank 1), VANOS exhaust side solenoid valve, control activation: Short circuit to ground, 'B' Camshaft Position Actuator Control Circuit High (Bank 1), VANOS exhaust side solenoid valve, control activation: Short circuit to positive, Post Catalyst Fuel Trim System too lean (Bank 1), Pre-catalyst oxygen sensor, mixture fine tuning: Exhaust gas behind catalytic converter too lean, Before catalyst oxygen sensor, system check: Signal stuck at rich, Post Catalyst Fuel Trim System too rich (Bank 1), Pre-catalyst oxygen sensor, mixture fine tuning: Exhaust gas behind catalytic converter too rich, Before catalyst oxygen sensor, system check: Signal stuck at lean, Throttle Actuator 'A' Control Motor Circuit Open, Throttle Actuator 'A' Control Motor Circuit Low, Throttle Actuator 'A' Control Motor Circuit High, DME, Internal Fault, throttle valve control: Overheated or current too high, Throttle / Pedal position sensor 'D' Circuit, Throttle / Pedal position sensor 'D' Circuit Low, Throttle / Pedal position sensor 'D' Circuit High, Throttle / Pedal position sensor 'E' Circuit Low, Throttle / Pedal position sensor 'E' Circuit High, Throttle / Pedal position sensor 'D ' 'E' Voltage Correlation, Fuel Injector Group 'A' Supply Voltage Circuit Open, Fuel Injector Group 'A' Supply Voltage Circuit Low, Fuel Injector Group 'A' Supply Voltage Circuit High, Pre-catalyst oxygen sensor, plausibility: Mixture behind catalytic converter to rich, Pre-catalyst oxygen sensor, plausibility: Mixture behind catalytic converter to lean, Barometric Pressure Sensor 'A' Circuit Low, Barometric Pressure Sensor 'A' Circuit High, O2 Sensor Reference Circuit Continuity (Bank 1 Sensor 1), O2 Sensor Reference Voltage Circuit Open (Bank 1 Sensor 1), Oxygen Sensor before catalytic converter, electrical: Open Circuit, virtual ground, O2 Sensor Signal Stuck Lean (Bank 1 Sensor 2), O2 Sensor Signal Stuck Rich (Bank 1 Sensor 2), DMTL lead diagnosis pump, control activation: Open circuit, DMTL lead diagnosis pump, control activation: Short circuit to ground, DMTL lead diagnosis pump, control activation: Short circuit to positive, DMTL, heater, activation: Short circuit to ground, DMTL, heater, activation: Short circuit to positive, O2 Sensor Oxygen Sample Error (Bank 1 Sensor 1), Oxygen sensor before catalytic converter, installation: Sensor is not installed correctly in exhaust system, DMTL solenoid valve, control activation: Open Circuit, DMTL solenoid valve, control activation: Short circuit to ground, DMTL solenoid valve, control activation: Short circuit to positive, EVAP evaporative emissions valve: Sticks in closed position, EVAP evaporative emissions valve: jammed open, ECM/PCM Power Relay Sense Circuit Range / Performance, O2 Sensor Pumping Circuit Open (Bank 1 Sensor 1), Pressure Control Solenoid 'D' Control Circuit Range / Performance, Pressure Control Solenoid 'D' Control Circuit Low, Pressure Control Solenoid 'D' Control Circuit High, Pressure Control Solenoid 'E' Control Circuit Range / Performance, Pressure Control Solenoid 'E' Control Circuit Low, Pressure Control Solenoid 'E' Control Circuit High, Pressure Control Solenoid 'F' Control Circuit Range / Performance, Pressure Control Solenoid 'F' Control Circuit Low, Pressure Control Solenoid 'F' Control Circuit High, Torque Converter Clutch Pressure Control Solenoid Control Circuit Range / Performance, Torque Converter Clutch Pressure Control Solenoid Control Circuit High, Torque Converter Clutch Pressure Control Solenoid Control Circuit Low, Boost Pressure Control Deviation, plausibility (low or high boost pressure detected), Fuel Rail Pressure, Preassure-Rate-Controlled, Maximum Pressure Exceeded, Adaptation Value too high (Bank 1 Sensor ), O2 Sensor IC supply Voltage too Low (Bank 1 Sensor 1), O2 Sensor Ceramic Internal Resistance Adjusted Value Plausibility (Bank 1 Sensor 1), O2 Sensor Lambda Controller Value above threshold due to open pumping circuit (Bank 1 Sensor 1), Oxygen sensor before catalytic converter, pumping current wire: Oxygen sensor control valve above threshold due to open pump wire, O2 Sensor Signal too low during coast down fuel cut off (Bank 1 Sensor 1), O2 Sensor Disturbed SPI WRAF-IC (bank 1 Sensor 1), DME, internal fault, oxygen sensor before catalytic converter: Communication fault, O2 Sensor Initialization Error WRAF-IC (Bank 1 Sensor 1), DME, internal fault, oxygen sensor before catalytic converter" Initialization fault, Sensor operating temperature not reached (Bank 1 Sensor 1), High pressure fuel system, fuel pressure, maximum pressure exceeded, High pressure fuel system, fuel pressure, pressure falls below minimum threshold, Fuel system: Pressure too high, emergency running mode with low pressure, Fuel system: Pressure briefly too high, RPM and load factor limited, Fuel pressure: Pressure drop below minimum, injection deactivation to protect catalyst, Fuel Rail Pressure Pressure-Rate-Controlled, fallen below minimum pressure, Cylinder 1 High Pressure Injector Low Side Circuit Open, Cylinder 1 High Pressure Injector Low Side Circuit Low, Cylinder 1 High Pressure Injector Low Side Circuit High, Cylinder 1 High Pressure Injector Low Side Booster Time Error, Cylinder 2 High Pressure Injector Low Side Circuit Open, Cylinder 2 High Pressure Injector Low Side Circuit Low, Cylinder 2 High Pressure Injector Low Side Circuit High, Cylinder 2 High Pressure Injector Low Side Booster Time Error, Cylinder 3 High Pressure Injector Low Side Circuit Open, Cylinder 3 High Pressure Injector Low Side Circuit Low, Cylinder 3 High Pressure Injector Low Side Circuit High, Cylinder 3 High Pressure Injector Low Side Booster Time Error, Cylinder 4 High Pressure Injector Low Side Circuit Open, Cylinder 4 High Pressure Injector Low Side Circuit Low, Cylinder 4 High Pressure Injector Low Side Circuit High, Cylinder 4 High Pressure Injector Low Side Booster Time Error, Cylinder 1 High Pressure Injector High Side Circuit Shorted to Coil, Cylinder 2 High Pressure Injector High Side Circuit Shorted to Coil, Cylinder 3 High Pressure Injector High Side Circuit Shorted to Coil, Cylinder 4 High Pressure Injector High Side Circuit Shorted to Coil, Engine Coolant Temperature Signal Stuck Low, Engine Coolant Temperature Gradient too High, PT CAN communications fault: CAN bus off or CAN bus defective, CAN message monitoring ASC/DSC Alive check, Ambient pressure sensor maximum pressure implausible, Ambient pressure sensor minimum pressure implausible, Control Module Monitoring Ignition Timing Plausibility, Control Module Monitoring Relative Charge Plausibility, DME, internal fault Version encoding monitor, Control Module Monitoring Version coding plausibility, Control Module Monitoring Injection time relative fuel quantity plausibility, Control Module Monitoring Fuel Correction Error, DMW, internal fault: Mixture correction factor plausibility monitor, Control Module Monitoring TPU Chip defective, Control Module Monitoring Air Mass Flow Balancing, Control Ramge Monitoring, Control Module Monitoring Fuel Pressure Sender, Alternator, plausibility, temperature, over temperature calculated, Alternator, plausibility, electrical: Calculated, DME, internal fault, electric accelerator pedal monitor: RPM sensor, DME, internal fault Level 1 injection quantity limitation monitor, DME, internal fault Level 2 injection quantity limitation monitor, DME, internal fault, electric accelerator pedal monitor: Ignition timing monitoring, DME, internal fault Relative Fuel mass plausibility monitor, DME, internal fault, electric accelerator pedal monitor: AD converter test voltage check, DME, internal fault, electric accelerator pedal monitor: Airflow calibration, DME, internal fault, electric accelerator pedal monitor, Implausible drivetrain conversion ratio, DME, internal fault: monitoring of specified lambda value. Click here to learn about cookie settings. This short must be made after the diagnostic trouble code flashes completely one time, but before the warning light stays on continuously. Oxygen sensor behind catalytic converter, electrical: Open circuit, O2 Sensor Circuit Low Voltage (Bank1 Sensor 2), O2 Sensor Circuit High Voltage (Bank1 Sensor 2), O2 Sensor Circuit Slow Response (Bank1 Sensor 2), Oxygen sensor behind catalytic converter, again: Failure to reach overrun voltage threshold, O2 Sensor Slow Response - Rich to Lean (Bank 1 Sensor 2), Oxygen sensor behind catalytic converter, dynamic response, from lean to rich, Slow response, O2 Sensor Delayed Response - Rich to Lean (Bank 1 Sensor 2), O2 Sensor Circuit No Activity Detected (Bank 1 Sensor 2), Oxygen sensor behind catalytic converter, electrical: Heating-cycle coupling to signal, O2 Sensor Heater Circuit (Bank 1 Sensor 2), Oxygen sensor behind catalytic converter, operation: Internal resistance too high, Fuel Rail Pressure Sensor 'A' Circuit Low, Rail-pressure sensor, electrical: Short circuit to positive, Throttle/Pedal Position Sensor/Switch 'B' Circuit Range/Performance, Throttle/Pedal Position Sensor/Switch 'B' Circuit Low, Throttle/Pedal Position Sensor/Switch 'B' Circuit High, Boost pressure control, upper value: Boot pressure too high, Turbocharger Boost Sensor 'A' Circuit Low, Turbocharger Boost Sensor 'A' Circuit High, Charge Air Cooler Coolant Pump Control Circuit High, Boost-pressure control, lower value: Boost pressure too low, Combustion miss, multiple cylinders: Fuel injection deactivation, Combustion miss, multiple cylinders: Increased exhaust emissions, Combustion miss, multiple cylinders: Increased exhaust emissions after start sequence, Combustion miss, cylinder 1: Fuel injection deactivation, Combustion miss, cylinder 1: Increased exhaust emissions, Combustion miss, cylinder 1: Increased exhaust emissions after start sequence, Combustion miss, cylinder 2: Fuel injection deactivation, Combustion miss, cylinder 2: Increased exhaust emissions, Combustion miss, cylinder 2: Increased exhaust emissions after start sequence, Combustion miss, cylinder 3: Fuel injection deactivation, Combustion miss, cylinder 3: Increased exhaust emissions, Combustion miss, cylinder 3: Increased exhaust emissions after start sequence, Combustion miss, cylinder 4: Fuel injection deactivation, Combustion miss, cylinder 4: Increased exhaust emissions, Combustion miss, cylinder 4: Increased exhaust emissions after start sequence, Knock control, fault check: Malfunction, system fault, Knock Sensor 1 Circuit Low (Bank 1 or Single Sensor), Knock sensor signal: Electrical fault KS (loose contact) of KS loose, Knock Sensor 1 Circuit High (Bank 1 or Single Sensor), Knock sensor signal: Engine produces excessive mechanical noise or crankshaft outside tolerance (sensitivity), Crankshaft sensor: Interference on crankshaft signal, Camshaft Position Sensor 'A' Circuit Bank (Bank 1 or Single Sensor), Camshaft Position Sensor 'A' Performance (Bank 1), Intake camshaft sensor: Signal implausible, Camshaft Position Sensor 'A' Circuit Low (Bank 1), Intake camshaft position sensor: Signal too low, Ignition Coil 'A' Primary / Secondary Circuit, Ignition Coil 'B' Primary / Secondary Circuit, Ignition Coil 'C' Primary / Secondary Circuit, Ignition Coil 'D' Primary / Secondary Circuit, Camshaft Position Sensor 'B' Circuit (Bank 1), Camshaft Position Sensor 'B' Circuit Performance (Bank 1), Exhaust camshaft sensor: signal implausible, Camshaft Position Sensor 'B' Circuit Low (Bank 1), VVT-System Min. OBD-II Trouble Codes When your vehicle has a problem and your check engine light comes on, the On-Board Diagnostics (OBD) system in your vehicle will also trigger a code that can be used to diagnose what might be wrong. indicates that your car's computer has detected an engine misfire that's random and/or appearing on multiple cylinders. In order to read the error codes, you need an OBDII Code Reader like our p/n G2NME5001. . A similar symbol exists for the rear warning lights. Any big box auto parts store will read OBD-II DTC codes as a courtesy service. Hold short until air bag diagnostic monitor tone sounds (approximately five seconds). Code P0300. Many mechanics will prefer to visit your home to replace your cars engine battery, rather than have you drive to them. Please Select your car type Below: Positive Crankcase Ventilation Heater Control Circuit High (Check PCV Electrical connector(s)). . The diagnostic trouble code is the code your OBD generates to tell you something is wrong. MINI trouble codes can be accessed using BMW's GROUP TESTER ONE (GT-1) or DISplus hardware system. When illuminating green, this is operating perfectly but when yellow, a fault may exist. Measured temperature of oxygen sensor before catalytic converter: Failure to achieve operating temperature in warm-up phase. This means your cruise control has been activated and is ready to use. On the Mini dashboard, if the fault light is flashing, reduce speed and moderate engine load. 2002-2006 R50 MINI Cooper and R53 Cooper S Hatchback, 2005-2008 R52 MINI Cooper and Cooper S Convertibles. Apparently, when battery voltage drops below the threshold value, the ELV light can be triggered and the steering column may become locked. message (EGS torque request, 0xB5): omitted, Lost communication with Vehicle Mode Status, Message monitoring vehicle mode status checksum error, PT CAN, message (speed of vehicle. 'A' Camshaft Position Slow Response (Bank 1), Fuel Volume Regulator Control Circuit Open, Fuel Volume Regulator Control Circuit Low, Fuel Volume Regulator Control Circuit High, VANOS intake-side solenoid valve, control-activation: Open circuit, 'A' Camshaft Position Timing Over-Advanced or System Performance (Bank 1), 'A' Camshaft Position Timing Over-Retarded (Bank 1), VANOS Intake: Closed-loop control fault, camshaft sticks, VANOS Exhaust-side solenoid valve, control-activation: Open circuit, 'B' Camshaft Position Actuator Circuit Open (Bank 1), 'B' Camshaft Position Timing Over-Advanced or System Performance (Bank 1), 'B' Camshaft Position Timing Over-Retarded (Bank 1), VANOS Exhaust: Closed-loop control fault, camshaft sticks, VANOS Exhaust; Closed-loop control fault, position not reached, Camshaft Position Sensor Correlation (Bank 1 Sensor 'A'), Camshaft Position Sensor Correlation (Bank 1 Sensor 'B'), HO2S Heater Control Circuit (Bank 1 Sensor 1), HO2S Heater Control Circuit Low (Bank 1 Sensor 1), HO2S Heater Control Circuit High (Bank 1 Sensor 1), Turbocharger / Supercharger Bypass Valve Control Circuit, Turbocharger / Supercharger Bypass Valve Control Circuit Low, Turbocharger / Supercharger Bypass Valve Control Circuit High, HO2S Heater Control Circuit (Bank 1 Sensor 2), HO2S Heater Control Circuit Low (Bank 1 Sensor 2), HO2S Heater Control Circuit High (Bank 1 Sensor 2), Turbocharger / Supercharger Bypass Valve Control Circuit Range / Performance, Ambient Air Temperature Sensor Circuit Range / Performance, Ambient Air Temperature Sensor Circuit Low, Ambient Air Temperature Sensor Circuit High, Charge-air temperature sensor, voltage change: Too rapid, Charge-air temperature sensor, electrical: Short circuit to ground, Charge-air temperature sensor, electrical: Short circuit to positive, Mass Airflow System, Plausibility: Air mass too low, Mass Airflow System, Plausibility: Air mass too high, Mass or Volume Air Flow Circuit Low Input, Mass or Volume Air Flow Circuit High Input, Manifold Absolute Pressure/Barometric Pressure Control Circuit Low Input, Manifold Absolute Pressure/Barometric Pressure Control Circuit High Input, Intake Air Temperature Sensor Bank 1 Temperature Range / Performance, Intake Air Temperature Sensor 1 Circuit Low, Intake Air Temperature Sensor 1 Circuit High, Coolant Temperature Sensor rationality Check, Throttle/Pedal Position Sensor/Switch 'A' Circuit, Throttle/Pedal Position Sensor/Switch 'A' Circuit Range / Performance, Throttle/Pedal Position Sensor/Switch 'A' Circuit Low, Throttle/Pedal Position Sensor/Switch 'A' Circuit High, Coolant Thermostat (Coolant Temperature Blow Thermostat Regulation Temperature), Program map thermostat: Sticking in open position, Barometric Pressure, operating range: Pressure too low, Before-catalyst oxygen sensor, electrical: Nernst-cell resistance or ceramic temperature implausible, wiring or heater fault, O2 Sensor Circuit Low Voltage (Bank1 Sensor 1), O2 Sensor Circuit High Voltage (Bank1 Sensor 1), O2 Sensor Circuit Slow Response (Bank1 Sensor 1), O2 Sensor Heater Circuit (Bank 1 Sensor 1). 2 Control unit provides a substitute value if a failure occurs in an engine performance related component, such as What are the symptoms? The OBD II socket is located above the pedals. As a result, we cannot show you the price in catalog or the product page. When a light is yellow, your car is trying to tell you that a vital safety feature of the car is being used (such as stability control on wet roads), a mild fault has been detected or a repair may be required. 14.0 - 14.4 On board diagnostic codes. The next time you search up a code, remember this. Hi please can you recommend a code reader resetter with the ability to code in fuel injectors on a 2007 Mini Cooper S turbo. 0x1A0): omitted, PT CAN. Website Maintained by. I have constantly had 3 codes come up. Did this happen after any changes to the car? automotive manufacturers began equipping all new cars with a new federally mandated emissions diagnostic system called On-Board Diagnostics, or OBD-II.

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mini cooper on board diagnostic codes

mini cooper on board diagnostic codes

mini cooper on board diagnostic codes

mini cooper on board diagnostic codesroyal holloway postgraduate term dates

Stroke Adaptation Number of Stops Exceeded, VVT Guiding Sensor Solenoid Loss (Bank 1), VVT Eccentric Shaft Sensor Parity Error (Bank 1), VVT Eccentric Shaft Sensor Gradient Error (Bank 1), VVT Reference Sensor Reset Error (Bank 1), Valvetronic actuator motor, position sensors: Signal Implausible, VVT Supply Voltage Sensors High Input (Bank 1), Valvetronic, adjustment range: Travel range not initialized, Valvetronic, adjustment range: Travel limit not learned owing to environmental conditions, VVT Self-Learning Function Storage of Learning Values in EEPROM Not Possible, VVT Load Shedding Relay Control Circuit Input High, VVT Load Shedding Relay Control Circuit Input Low, VVT Load Shedding Relay Control Circuit Input, VVT Sensor Supply Voltage Low Input (Bank 1), VVT Self Learning Function Faulty Adjustment Range (Bank 1), Valvetronic, adjustment range: Range check fault, Valvetronic, adjustment range: Range check, deviation from base learning routine, VVT Self Learning Function Faulty Lower Learning Range (Bank 1), VVT Self Learning Function No Positions Stored (Bank 1), VVT Control Motor Position Control Deviation (Bank 1), Valvetronic system: Closed loop deviation too high, VVT Actuator Monitoring Recognition of Direction of Rotation Plausibility (Bank 1), Valvetronic actuator motor, control-activation Short Circuit to positive, Valvetronic actuator motor, control-activation Short Circuit to ground, Valvetronic actuator motor, control-activation: Open circuit, Cold Start Intake Air Temperature - Too Low, VVT Limp Home Request Full Stroke Position Reached (Bank 1), VVT Limp Home Request Air Mass Plausibility (Bank 1), VVT Overload Protection Control Motor Input Temperature (Bank 1), VVT Overload Protection Current Too High (Bank 1), Charge air temperature: Plausibility, temperature too high, Charge air temperature: Signal, remains stationary, Rail-pressure sensor, operating range: Pressure to high, Rail-pressure sensor, operating range: Pressure to low, Charge air temperature sensor, plausability, cold start: Temperature too high, Charge air temperature sensor, plausability, cold start: Temperature too low, Coolant temperature sensor, plausability, cold start: Temperature too low, Coolant temperature sensor, plausability, cold start: Temperature too high, Rail-pressure sensor, signal: No variation, Valvetronic, adjustment range: Initial learning outside tolerance, Valvetronic, driver circuit component protection: System deactivation, Valvetronic actuator motor, position sensors: Short circuit or line break (open circuit), DME, internal fault, Valvetronic control: Malfunction, Valvetronic actuator motor, position sensors: Malfunction in voltage supply, Valvetronic, overload protection: Driver circuit overloaded, Valvetronic, overload protection: Actuator motor overloaded, Boost pressure - barometric pressure, comparison: Boost air pressure too high, Boost pressure - barometric pressure, comparison: Boost air pressure too low, Differential Pressure Sensor Intake Manifold Pressure Too Low (Bank 1), Differential Pressure Sensor Intake Manifold Pressure Too High (Bank 1), Throttle Position Sensor 'A' and 'B' Range / Performance, Internal Code (Service / End-of-line Test), Ambient Temperature Sensor Faulty CAN Signal, Mass or Volume Air Flow va O2 Sensor Too High (Bank 1), Mass or Volume Air Flow va O2 Sensor Too Low (Bank 1), Intake Temperature Sensor Bank 1 Maximum Temperature Implausible, Differential Pressure Sensor Intake Manifold Pressure Offset (Bank 1), Engine Coolant Temperature Sensor 1 Minimum Temperature Implausible, Throttle valve angle - Intake manifold pressure, comparison: Pressure too low, Manifold Absolute Pressure to Throttle Angle - Too High, Mass or Volume Air Flow 1 Correction Signal Plausibility Too Long, Mass or Volume Air Flow 'A' Maximum Exceeded, Mass or Volume Air Flow 'A' Minimum Fallen Below, Throttle / Pedal Position Sensor / Switch 'A' / 'B' Synchronous Operation Correlation (Bank 1), Engine Oil Separator Heating Circuit High, Engine Oil Separator Heating Circuit Open, Differential Pressure Sensor Intake Manifold High Input (Bank 1), Differential Pressure Sensor Intake Manifold Low Input (Bank 1), Manifold Absolute Pressure Sensor High (Bank 1), Manifold Absolute Pressure Sensor Low (Bank 1), Fuel trim, Injector aging long term adaptation too high (Bank 1), Throttle valve, operation: Resistance to motion, too slow, arometric pressure, operating range: Pressure too high, Barometric Pressure, operating range: Pressure implausible, Boost Pressure Control, deactivation: Boost pressure build-up blocked, Boost Pressure Control, Boost Pressure too high, Boost Pressure Control, Boost Pressure too low, Manifold Absolute Pressure Maximum Pressure Implausible, Manifold Absolute Pressure Minimum Pressure Implausible, Turbocharger / Supercharger Boost Pressure, Pressure Front of Throttle Valve too High, Turbocharger / Supercharger Boost Pressure, Pressure Front of Throttle Valve too Low, Turbocharger / Supercharger Boost Pressure, Maximum Pressure Front of Throttle Valve Implausible, Turbocharger / Supercharger Boost Pressure, Minimum Pressure Front of Throttle Valve Implausible, Absolute Pressure Sensor, intake manifold, plausibility, shutdown phase : Pressure too high, Boost Pressure Sensor, plausibility, shutdown phase : Pressure too low, Boost Pressure Sensor, plausibility, shutdown phase : Pressure too high, Barometric Pressure Sensor, plausibility, shutdown phase : Pressure too low, Barometric Pressure Sensor, plausibility, shutdown phase : Pressure too high, Boost Pressure - barometric pressure, comparison: Boost pressure too high, Boost Pressure - barometric pressure, comparison: Boost pressure too low, Camshaft Position Sensor Rationality Check (Inlet - Outlet), Intake Camshaft: Angular offset to crankshaft is outside tolerance range, Exhaust Camshaft: Angular offset to crankshaft is outside tolerance range, Knock Control Super Knocking Caused by Defective Ignition Coil, Knock Control Super Knocking Caused by Defective Knock Sensor, Knock Control Torque Limitation Caused by Too High Number of Super Knocking, Knock Control Permanent Limitation Caused by Too High Number of Super Knocking, Knock Control Fuel Cutoff Due to Super Knocking, Knock Control Fuel Cutoff Due to Super Knocking Cylinder 1, Super knock on cylinder 1: Injection Deactivation, Knock Control Fuel Cutoff Due to Super Knocking Cylinder 2, Knock Control Fuel Cutoff Due to Super Knocking Cylinder 3, Knock Control Fuel Cutoff Due to Super Knocking Cylinder 4, Knock sensor, electrical: Signal input 'A', short circuit to ground, Knock sensor, electrical: Signal input 'A', short circuit to positive, Knock sensor, electrical: Signal input 'B', short circuit to ground, Knock sensor, electrical: Signal input 'B', short circuit to positive, VANOS intake: Closed loop control fault, camshaft sticks, Exhaust camshaft, mechanical: Assembly faulty, Exhaust camshaft, mechanical: Incorrect installation, Ignition-angle adjustment at part load, cold start: Ignition angle advanced too far, Tank fuel-level sensor, left signal: CAN value implausible, Tank fuel-level sensor, right signal: CAN value implausible, DMTL Tank Leakage (Diagnostic Module Tank Leakage), DMTL, system fault: Abort due to current fluctuations during reference measurement, DMTL Pump current too high during switching solenoid test, DMTL, system fault: Pump current reaches limit during valve test, DMTL, system fault: Pump current too low during reference measurement, DMTL, system fault: Pump current too high during reference measurement, Fuel level / Fuel consumption correlation, Tank fuel-level sensor: Fuel consumption rate does not correlate with change fuel level, Battery Sensor Extended Communication Circuit, Intelligent battery sensor, signal: Software fault, Fuel Rail Pressure Too Low-Cold Start Cycle, Faulty Engine Control Module (DME) or programming, Tank fuel level sensor, right, signal: Short circuit to ground, 'A' Camshaft Position Actuator Control Circuit Low (Bank 1), VANOS intake side solenoid valve, control activation: Short circuit to ground, 'A' Camshaft Position Actuator Control Circuit High (Bank 1), VANOS intake side solenoid valve, control activation: Short circuit to positive, 'B' Camshaft Position Actuator Control Circuit Low (Bank 1), VANOS exhaust side solenoid valve, control activation: Short circuit to ground, 'B' Camshaft Position Actuator Control Circuit High (Bank 1), VANOS exhaust side solenoid valve, control activation: Short circuit to positive, Post Catalyst Fuel Trim System too lean (Bank 1), Pre-catalyst oxygen sensor, mixture fine tuning: Exhaust gas behind catalytic converter too lean, Before catalyst oxygen sensor, system check: Signal stuck at rich, Post Catalyst Fuel Trim System too rich (Bank 1), Pre-catalyst oxygen sensor, mixture fine tuning: Exhaust gas behind catalytic converter too rich, Before catalyst oxygen sensor, system check: Signal stuck at lean, Throttle Actuator 'A' Control Motor Circuit Open, Throttle Actuator 'A' Control Motor Circuit Low, Throttle Actuator 'A' Control Motor Circuit High, DME, Internal Fault, throttle valve control: Overheated or current too high, Throttle / Pedal position sensor 'D' Circuit, Throttle / Pedal position sensor 'D' Circuit Low, Throttle / Pedal position sensor 'D' Circuit High, Throttle / Pedal position sensor 'E' Circuit Low, Throttle / Pedal position sensor 'E' Circuit High, Throttle / Pedal position sensor 'D ' 'E' Voltage Correlation, Fuel Injector Group 'A' Supply Voltage Circuit Open, Fuel Injector Group 'A' Supply Voltage Circuit Low, Fuel Injector Group 'A' Supply Voltage Circuit High, Pre-catalyst oxygen sensor, plausibility: Mixture behind catalytic converter to rich, Pre-catalyst oxygen sensor, plausibility: Mixture behind catalytic converter to lean, Barometric Pressure Sensor 'A' Circuit Low, Barometric Pressure Sensor 'A' Circuit High, O2 Sensor Reference Circuit Continuity (Bank 1 Sensor 1), O2 Sensor Reference Voltage Circuit Open (Bank 1 Sensor 1), Oxygen Sensor before catalytic converter, electrical: Open Circuit, virtual ground, O2 Sensor Signal Stuck Lean (Bank 1 Sensor 2), O2 Sensor Signal Stuck Rich (Bank 1 Sensor 2), DMTL lead diagnosis pump, control activation: Open circuit, DMTL lead diagnosis pump, control activation: Short circuit to ground, DMTL lead diagnosis pump, control activation: Short circuit to positive, DMTL, heater, activation: Short circuit to ground, DMTL, heater, activation: Short circuit to positive, O2 Sensor Oxygen Sample Error (Bank 1 Sensor 1), Oxygen sensor before catalytic converter, installation: Sensor is not installed correctly in exhaust system, DMTL solenoid valve, control activation: Open Circuit, DMTL solenoid valve, control activation: Short circuit to ground, DMTL solenoid valve, control activation: Short circuit to positive, EVAP evaporative emissions valve: Sticks in closed position, EVAP evaporative emissions valve: jammed open, ECM/PCM Power Relay Sense Circuit Range / Performance, O2 Sensor Pumping Circuit Open (Bank 1 Sensor 1), Pressure Control Solenoid 'D' Control Circuit Range / Performance, Pressure Control Solenoid 'D' Control Circuit Low, Pressure Control Solenoid 'D' Control Circuit High, Pressure Control Solenoid 'E' Control Circuit Range / Performance, Pressure Control Solenoid 'E' Control Circuit Low, Pressure Control Solenoid 'E' Control Circuit High, Pressure Control Solenoid 'F' Control Circuit Range / Performance, Pressure Control Solenoid 'F' Control Circuit Low, Pressure Control Solenoid 'F' Control Circuit High, Torque Converter Clutch Pressure Control Solenoid Control Circuit Range / Performance, Torque Converter Clutch Pressure Control Solenoid Control Circuit High, Torque Converter Clutch Pressure Control Solenoid Control Circuit Low, Boost Pressure Control Deviation, plausibility (low or high boost pressure detected), Fuel Rail Pressure, Preassure-Rate-Controlled, Maximum Pressure Exceeded, Adaptation Value too high (Bank 1 Sensor ), O2 Sensor IC supply Voltage too Low (Bank 1 Sensor 1), O2 Sensor Ceramic Internal Resistance Adjusted Value Plausibility (Bank 1 Sensor 1), O2 Sensor Lambda Controller Value above threshold due to open pumping circuit (Bank 1 Sensor 1), Oxygen sensor before catalytic converter, pumping current wire: Oxygen sensor control valve above threshold due to open pump wire, O2 Sensor Signal too low during coast down fuel cut off (Bank 1 Sensor 1), O2 Sensor Disturbed SPI WRAF-IC (bank 1 Sensor 1), DME, internal fault, oxygen sensor before catalytic converter: Communication fault, O2 Sensor Initialization Error WRAF-IC (Bank 1 Sensor 1), DME, internal fault, oxygen sensor before catalytic converter" Initialization fault, Sensor operating temperature not reached (Bank 1 Sensor 1), High pressure fuel system, fuel pressure, maximum pressure exceeded, High pressure fuel system, fuel pressure, pressure falls below minimum threshold, Fuel system: Pressure too high, emergency running mode with low pressure, Fuel system: Pressure briefly too high, RPM and load factor limited, Fuel pressure: Pressure drop below minimum, injection deactivation to protect catalyst, Fuel Rail Pressure Pressure-Rate-Controlled, fallen below minimum pressure, Cylinder 1 High Pressure Injector Low Side Circuit Open, Cylinder 1 High Pressure Injector Low Side Circuit Low, Cylinder 1 High Pressure Injector Low Side Circuit High, Cylinder 1 High Pressure Injector Low Side Booster Time Error, Cylinder 2 High Pressure Injector Low Side Circuit Open, Cylinder 2 High Pressure Injector Low Side Circuit Low, Cylinder 2 High Pressure Injector Low Side Circuit High, Cylinder 2 High Pressure Injector Low Side Booster Time Error, Cylinder 3 High Pressure Injector Low Side Circuit Open, Cylinder 3 High Pressure Injector Low Side Circuit Low, Cylinder 3 High Pressure Injector Low Side Circuit High, Cylinder 3 High Pressure Injector Low Side Booster Time Error, Cylinder 4 High Pressure Injector Low Side Circuit Open, Cylinder 4 High Pressure Injector Low Side Circuit Low, Cylinder 4 High Pressure Injector Low Side Circuit High, Cylinder 4 High Pressure Injector Low Side Booster Time Error, Cylinder 1 High Pressure Injector High Side Circuit Shorted to Coil, Cylinder 2 High Pressure Injector High Side Circuit Shorted to Coil, Cylinder 3 High Pressure Injector High Side Circuit Shorted to Coil, Cylinder 4 High Pressure Injector High Side Circuit Shorted to Coil, Engine Coolant Temperature Signal Stuck Low, Engine Coolant Temperature Gradient too High, PT CAN communications fault: CAN bus off or CAN bus defective, CAN message monitoring ASC/DSC Alive check, Ambient pressure sensor maximum pressure implausible, Ambient pressure sensor minimum pressure implausible, Control Module Monitoring Ignition Timing Plausibility, Control Module Monitoring Relative Charge Plausibility, DME, internal fault Version encoding monitor, Control Module Monitoring Version coding plausibility, Control Module Monitoring Injection time relative fuel quantity plausibility, Control Module Monitoring Fuel Correction Error, DMW, internal fault: Mixture correction factor plausibility monitor, Control Module Monitoring TPU Chip defective, Control Module Monitoring Air Mass Flow Balancing, Control Ramge Monitoring, Control Module Monitoring Fuel Pressure Sender, Alternator, plausibility, temperature, over temperature calculated, Alternator, plausibility, electrical: Calculated, DME, internal fault, electric accelerator pedal monitor: RPM sensor, DME, internal fault Level 1 injection quantity limitation monitor, DME, internal fault Level 2 injection quantity limitation monitor, DME, internal fault, electric accelerator pedal monitor: Ignition timing monitoring, DME, internal fault Relative Fuel mass plausibility monitor, DME, internal fault, electric accelerator pedal monitor: AD converter test voltage check, DME, internal fault, electric accelerator pedal monitor: Airflow calibration, DME, internal fault, electric accelerator pedal monitor, Implausible drivetrain conversion ratio, DME, internal fault: monitoring of specified lambda value. Click here to learn about cookie settings. This short must be made after the diagnostic trouble code flashes completely one time, but before the warning light stays on continuously. Oxygen sensor behind catalytic converter, electrical: Open circuit, O2 Sensor Circuit Low Voltage (Bank1 Sensor 2), O2 Sensor Circuit High Voltage (Bank1 Sensor 2), O2 Sensor Circuit Slow Response (Bank1 Sensor 2), Oxygen sensor behind catalytic converter, again: Failure to reach overrun voltage threshold, O2 Sensor Slow Response - Rich to Lean (Bank 1 Sensor 2), Oxygen sensor behind catalytic converter, dynamic response, from lean to rich, Slow response, O2 Sensor Delayed Response - Rich to Lean (Bank 1 Sensor 2), O2 Sensor Circuit No Activity Detected (Bank 1 Sensor 2), Oxygen sensor behind catalytic converter, electrical: Heating-cycle coupling to signal, O2 Sensor Heater Circuit (Bank 1 Sensor 2), Oxygen sensor behind catalytic converter, operation: Internal resistance too high, Fuel Rail Pressure Sensor 'A' Circuit Low, Rail-pressure sensor, electrical: Short circuit to positive, Throttle/Pedal Position Sensor/Switch 'B' Circuit Range/Performance, Throttle/Pedal Position Sensor/Switch 'B' Circuit Low, Throttle/Pedal Position Sensor/Switch 'B' Circuit High, Boost pressure control, upper value: Boot pressure too high, Turbocharger Boost Sensor 'A' Circuit Low, Turbocharger Boost Sensor 'A' Circuit High, Charge Air Cooler Coolant Pump Control Circuit High, Boost-pressure control, lower value: Boost pressure too low, Combustion miss, multiple cylinders: Fuel injection deactivation, Combustion miss, multiple cylinders: Increased exhaust emissions, Combustion miss, multiple cylinders: Increased exhaust emissions after start sequence, Combustion miss, cylinder 1: Fuel injection deactivation, Combustion miss, cylinder 1: Increased exhaust emissions, Combustion miss, cylinder 1: Increased exhaust emissions after start sequence, Combustion miss, cylinder 2: Fuel injection deactivation, Combustion miss, cylinder 2: Increased exhaust emissions, Combustion miss, cylinder 2: Increased exhaust emissions after start sequence, Combustion miss, cylinder 3: Fuel injection deactivation, Combustion miss, cylinder 3: Increased exhaust emissions, Combustion miss, cylinder 3: Increased exhaust emissions after start sequence, Combustion miss, cylinder 4: Fuel injection deactivation, Combustion miss, cylinder 4: Increased exhaust emissions, Combustion miss, cylinder 4: Increased exhaust emissions after start sequence, Knock control, fault check: Malfunction, system fault, Knock Sensor 1 Circuit Low (Bank 1 or Single Sensor), Knock sensor signal: Electrical fault KS (loose contact) of KS loose, Knock Sensor 1 Circuit High (Bank 1 or Single Sensor), Knock sensor signal: Engine produces excessive mechanical noise or crankshaft outside tolerance (sensitivity), Crankshaft sensor: Interference on crankshaft signal, Camshaft Position Sensor 'A' Circuit Bank (Bank 1 or Single Sensor), Camshaft Position Sensor 'A' Performance (Bank 1), Intake camshaft sensor: Signal implausible, Camshaft Position Sensor 'A' Circuit Low (Bank 1), Intake camshaft position sensor: Signal too low, Ignition Coil 'A' Primary / Secondary Circuit, Ignition Coil 'B' Primary / Secondary Circuit, Ignition Coil 'C' Primary / Secondary Circuit, Ignition Coil 'D' Primary / Secondary Circuit, Camshaft Position Sensor 'B' Circuit (Bank 1), Camshaft Position Sensor 'B' Circuit Performance (Bank 1), Exhaust camshaft sensor: signal implausible, Camshaft Position Sensor 'B' Circuit Low (Bank 1), VVT-System Min. OBD-II Trouble Codes When your vehicle has a problem and your check engine light comes on, the On-Board Diagnostics (OBD) system in your vehicle will also trigger a code that can be used to diagnose what might be wrong. indicates that your car's computer has detected an engine misfire that's random and/or appearing on multiple cylinders. In order to read the error codes, you need an OBDII Code Reader like our p/n G2NME5001. . A similar symbol exists for the rear warning lights. Any big box auto parts store will read OBD-II DTC codes as a courtesy service. Hold short until air bag diagnostic monitor tone sounds (approximately five seconds). Code P0300. Many mechanics will prefer to visit your home to replace your cars engine battery, rather than have you drive to them. Please Select your car type Below: Positive Crankcase Ventilation Heater Control Circuit High (Check PCV Electrical connector(s)). . The diagnostic trouble code is the code your OBD generates to tell you something is wrong. MINI trouble codes can be accessed using BMW's GROUP TESTER ONE (GT-1) or DISplus hardware system. When illuminating green, this is operating perfectly but when yellow, a fault may exist. Measured temperature of oxygen sensor before catalytic converter: Failure to achieve operating temperature in warm-up phase. This means your cruise control has been activated and is ready to use. On the Mini dashboard, if the fault light is flashing, reduce speed and moderate engine load. 2002-2006 R50 MINI Cooper and R53 Cooper S Hatchback, 2005-2008 R52 MINI Cooper and Cooper S Convertibles. Apparently, when battery voltage drops below the threshold value, the ELV light can be triggered and the steering column may become locked. message (EGS torque request, 0xB5): omitted, Lost communication with Vehicle Mode Status, Message monitoring vehicle mode status checksum error, PT CAN, message (speed of vehicle. 'A' Camshaft Position Slow Response (Bank 1), Fuel Volume Regulator Control Circuit Open, Fuel Volume Regulator Control Circuit Low, Fuel Volume Regulator Control Circuit High, VANOS intake-side solenoid valve, control-activation: Open circuit, 'A' Camshaft Position Timing Over-Advanced or System Performance (Bank 1), 'A' Camshaft Position Timing Over-Retarded (Bank 1), VANOS Intake: Closed-loop control fault, camshaft sticks, VANOS Exhaust-side solenoid valve, control-activation: Open circuit, 'B' Camshaft Position Actuator Circuit Open (Bank 1), 'B' Camshaft Position Timing Over-Advanced or System Performance (Bank 1), 'B' Camshaft Position Timing Over-Retarded (Bank 1), VANOS Exhaust: Closed-loop control fault, camshaft sticks, VANOS Exhaust; Closed-loop control fault, position not reached, Camshaft Position Sensor Correlation (Bank 1 Sensor 'A'), Camshaft Position Sensor Correlation (Bank 1 Sensor 'B'), HO2S Heater Control Circuit (Bank 1 Sensor 1), HO2S Heater Control Circuit Low (Bank 1 Sensor 1), HO2S Heater Control Circuit High (Bank 1 Sensor 1), Turbocharger / Supercharger Bypass Valve Control Circuit, Turbocharger / Supercharger Bypass Valve Control Circuit Low, Turbocharger / Supercharger Bypass Valve Control Circuit High, HO2S Heater Control Circuit (Bank 1 Sensor 2), HO2S Heater Control Circuit Low (Bank 1 Sensor 2), HO2S Heater Control Circuit High (Bank 1 Sensor 2), Turbocharger / Supercharger Bypass Valve Control Circuit Range / Performance, Ambient Air Temperature Sensor Circuit Range / Performance, Ambient Air Temperature Sensor Circuit Low, Ambient Air Temperature Sensor Circuit High, Charge-air temperature sensor, voltage change: Too rapid, Charge-air temperature sensor, electrical: Short circuit to ground, Charge-air temperature sensor, electrical: Short circuit to positive, Mass Airflow System, Plausibility: Air mass too low, Mass Airflow System, Plausibility: Air mass too high, Mass or Volume Air Flow Circuit Low Input, Mass or Volume Air Flow Circuit High Input, Manifold Absolute Pressure/Barometric Pressure Control Circuit Low Input, Manifold Absolute Pressure/Barometric Pressure Control Circuit High Input, Intake Air Temperature Sensor Bank 1 Temperature Range / Performance, Intake Air Temperature Sensor 1 Circuit Low, Intake Air Temperature Sensor 1 Circuit High, Coolant Temperature Sensor rationality Check, Throttle/Pedal Position Sensor/Switch 'A' Circuit, Throttle/Pedal Position Sensor/Switch 'A' Circuit Range / Performance, Throttle/Pedal Position Sensor/Switch 'A' Circuit Low, Throttle/Pedal Position Sensor/Switch 'A' Circuit High, Coolant Thermostat (Coolant Temperature Blow Thermostat Regulation Temperature), Program map thermostat: Sticking in open position, Barometric Pressure, operating range: Pressure too low, Before-catalyst oxygen sensor, electrical: Nernst-cell resistance or ceramic temperature implausible, wiring or heater fault, O2 Sensor Circuit Low Voltage (Bank1 Sensor 1), O2 Sensor Circuit High Voltage (Bank1 Sensor 1), O2 Sensor Circuit Slow Response (Bank1 Sensor 1), O2 Sensor Heater Circuit (Bank 1 Sensor 1). 2 Control unit provides a substitute value if a failure occurs in an engine performance related component, such as What are the symptoms? The OBD II socket is located above the pedals. As a result, we cannot show you the price in catalog or the product page. When a light is yellow, your car is trying to tell you that a vital safety feature of the car is being used (such as stability control on wet roads), a mild fault has been detected or a repair may be required. 14.0 - 14.4 On board diagnostic codes. The next time you search up a code, remember this. Hi please can you recommend a code reader resetter with the ability to code in fuel injectors on a 2007 Mini Cooper S turbo. 0x1A0): omitted, PT CAN. Website Maintained by. I have constantly had 3 codes come up. Did this happen after any changes to the car? automotive manufacturers began equipping all new cars with a new federally mandated emissions diagnostic system called On-Board Diagnostics, or OBD-II. 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