Car, HYUNDAI, General, I30 , ELANTRA NEOS (FD), 2011, G 1.6 MPI, G 1.6 MPI - Unleaded EOBD (ENGINE)

G 1.6 MPI - Unleaded EOBD (ENGINE) - 0

Identification

Software version bootloader:

Calibration ID:

Supplier ECU software number:

DTC

Controls

Clear DTC

Data stream

Immobilizer built-in: On

SMART key built-in: On

SMARTRA2 built-in: On

SMARTRA3 built-in: On

MAF sensor built-in: On

Fuel level sensor built-in: On

Alternator PWM Built-in: On

Fuel tank pressure sensor built-in: On

A/C pressure sensor built-in: On

Low pressure fuel pump relay (Normally closed): On

Linear O2 sensor built-in: On

MAP sensor built-in: On

ESP built-in: Off

Adapted cruise control built-in: Off

CDA built-in: Off

Leak test type - Under pressure system: Off

VVL built-in: Off

Tank leakage detection by under pressure system supported: Off

Battery sensor built-in: On

Battery voltage: 17.37 V

Ignition voltage: 17.37 V

State of charge battery: 99.6 %

Engine speed: 16384 rpm

Target idle speed: 2550 rpm

Mass air flow sensor: 320.00 V

Mass air flow sensor: 6553.5 kg/h

MAP sensor: 320.00 V

MAP sensor: 2560.0 hPa

Throttle Position Sensor Angle1-Voltage: 5.00 V

Throttle position sensor: 100.0 %

Throttle position adaptation for idle: 100.0 %

Engine coolant temperature sensor: 320.00 V

Water temperature: 143.2 °C

Intake air temperature sensor: -- V

Intake air temperature: -- °C

Engine oil temperature: -- °C

Fuel tank pressure sensor: -- hPa

O2 sensor 1, bank 1: 1.130 V

O2 sensor 1, bank 2: 1.130 V

O2 sensor 2, bank 1: 1.130 V

O2 sensor 2, bank 2: 1.130 V

A/F sensor 1, bank 1: 314.57 V

A/F sensor 1, bank 2: 314.57 V

Vehicle speed: 318.8 km/h

Relative air charge: 1536.0 %

ISA opening duty: 100.0 %

ISA duty cycle close: 100.0 %

Evaporative emission (EVAP) system, canister purge valve: 100.0 %

Actual duty cycle from MTV (Input duty cycle): 100.0 %

Injection time cylinder 1: 53686.27 ms

Injection time cylinder 2: 53686.27 ms

Injection time cylinder 3: 53686.27 ms

Injection time cylinder 4: 53686.27 ms

Injection time cylinder 5: 31456.46 ms

Injection time cylinder 6: -- ms

Injection time cylinder 7: -- ms

Injection time cylinder 8: -- ms

Altitude correction: 3.984

Barometric pressure sensor: 1275 hPa

Air mass flow maximum plausible: 6553.5 kg/h

Air mass flow minimum plausible: 6553.5 kg/h

Current calculated load value: 100.001 %

Brake boost vacuum pressure: -0.039 hPa

Brake boost vacuum pressure voltage: 314.57 V

Throttle position sensor set point: 99.609 %

Electronic throttle control (ETC) motor duty cycle and direction: -0.0031 %

Throttle position adaptation for idle (sensor 1): 80.0182 V

Throttle position adaptation for idle (sensor 2): 80.018 V

Throttle Position Sensor-1: -0.0244 %

Throttle Position Sensor-2: -0.0244 %

Throttle Position Sensor Angle1-Voltage: 80.0182 V

Throttle Position Sensor Angle2-Voltage: 80.0182 V

Boost pressure upstream throttle valve (Bank1): 5111.7 hPa

Boost pressure upstream throttle valve (Bank2): 5111.7 hPa

Desired boost pressure upstream throttle valve (Bank1): 5111.730 hPa

Desired boost pressure upstream throttle valve (Bank2): 5111.7 hPa

Turbocharger wastegate solenoid valve 1: 100.0 %

Turbocharger wastegate solenoid valve 2: 100.0 %

Voltage of boost pressure upstream throttle valve (Bank1): 319.81 V

Voltage of boost pressure upstream throttle valve (Bank2): 319.81 V

Sensor Measured Ambient (air) Temperature: 143.2 °C

Sensor ADC-value for Ambient air Temperature: 4.98 V

A/C pressure: -2 hPa

Final output duty cycle to the fan actuator: -0.010 %

Filtered Electric Raw Load On the Alternator: -0.010 %

Gear engaged in AT vehicle: Drive

Torque decrease request from TCU: -0.1 N·m

Torque increase request from TCU: -0.1 N·m

Accelerator Pedal Position Sensor-1 Voltage: -0.2 mV

Accelerator Pedal Position Sensor-2 Voltage: -0.2 mV

Accelerator pedal position sensor: -0.012 %

Battery current (AMS): -0.001 A

Battery voltage (AMS): 71.535 V

Battery temperature (AMS): 32727.5 °C

State of battery charge (AMS): -- %

State of health of battery (AMS): -- %

State of function of battery (AMS): -- V

Compensated battery voltage: -- V

Battery voltage raw value: -- V

Battery current: -- A

Battery current raw value: -- V

Battery temperature: -- °C

Battery temperature raw value: -- V

State of charge of battery: -- %

Nominal Capacity Battery: -- Ah

Counter the number of low SOC at start: --

Oil level raw value: -- mm

Oil level filtered value: -- mm

Oil temperature: -- °C

Oil level last average value: --

Oil status: --

Target indicated torque: -- N·m

Filtered torque for disengaged gear and AC off: -- N·m

Indicated actual torque: -- %

Engine torque losses: -- N·m

Filtered torque for disengaged gear and AC on: -- N·m

Filtered torque for engaged gear and AC off: -- N·m

Filtered torque for engaged gear and AC on: -- N·m

Air mass adaptation: -- %

Idle speed controller I-part: -- N·m

P-part idle speed torque: -- N·m

D-part idle speed torque: -- N·m

Power steering pressure: -- hPa

Power steering pressure sensor: -- V

Idle CO Adjust: -- %

Adaptation in idle speed bank 1: -- %

Adaptation in idle speed bank 2: -- %

Adaptation in part load bank 1: --

Adaptation in part load bank 2: --

Validity of EVAP canister load factor: -- %

Lowpass filtered fuel tank pressure: -- hPa

Fuel tank pressure sensor: -- V

The number of MSV on the engine: --

Filtered rail pressure real value (absolute pressure): -- MPa

Fuel rail pressure sensor voltage: -- V

Angle to close FPR(Fuel Pressure Regulator): -- °

Angle to open FPR(Fuel Pressure Regulator): -- °

Fuel rail pressure set point: -- MPa

Status of noise reduction stage: --

Target low fuel pressure (Absolute): -- kPa

Real low fuel pressure (Absolute): -- kPa

Real low fuel pressure: -- kPa

Ignition Output Value - Cyl1: -- °

Ignition Output Value - Cyl2: -- °

Ignition Output Value - Cyl3: -- °

Ignition Output Value - Cyl4: -- °

Ignition Output Value - Cyl5: -- °

Ignition Output Value - Cyl6: -- °

Ignition Output Value - Cyl7: -- °

Ignition Output Value - Cyl8: -- °

Exhaust gas temperature: -- °C

O2 sensor 1, bank 1 correction: -- %

O2 sensor 1, bank 2 correction: -- %

Target lambda value: -- %

Upper limit for cycle duration of lambda sensor up. Cat.: -- sec

Lower limit for cycle duration of lambda sensor up. Cat.: -- sec

Filtered cycle duration O2 sensor signal up. Catalyst: -- sec

Lambda equivalence ratio: -- %

Corrective value of the upstream LSU voltage: -- V

O2 sensor 2, bank 1 correction: -- sec

O2 sensor 2, bank 2 correction: -- sec

Integrator value of O2 sensor downstream catalyst: --

Threshold time for monitoring of catalyst: -- sec

Mean amplitude of sensor signal behind catalyst-Bank 1: --

Mean amplitude of sensor signal behind catalyst-Bank 2: --

Threshold value of catalyst defect: --

Total number of catalyst efficiency monitoring with error results: --

O2 sensor 1, bank 1 heater duty cycle (LSF): -- %

O2 sensor 1, bank 1 heater duty cycle (LSU): -- %

O2 sensor 2, bank 1 heater duty cycle (LSF): -- %

O2 sensor 1, bank 2 heater duty cycle (LSF): -- %

O2 sensor 1, bank 2 heater duty cycle (LSU): -- %

O2 sensor 2, bank 2 heater duty cycle (LSF): -- %

O2 sensor heating period-Upstream catalyst-bank 1(LSF): -- sec

O2 sensor heating period-Upstream catalyst-bank 2(LSF): -- sec

O2 sensor heating period-Downstream catalyst-bank 1(LSF): -- sec

O2 sensor heating period-Downstream catalyst-bank 2(LSF): -- sec

Upper limit for TV correction: -- sec

Lower limit for TV correction: -- sec

O2 sensor heating period-Upstream catalyst-bank1(LSU): -- sec

O2 sensor heating period-Upstream catalyst-bank2(LSU): -- sec

Cyl.1 Ignition Retard due to Knock Control: -- °

Cyl.2 Ignition Retard due to Knock Control: -- °

Cyl.3 Ignition Retard due to Knock Control: -- °

Cyl.4 Ignition Retard due to Knock Control: -- °

Cyl.5 Ignition Retard due to Knock Control: -- °

Cyl.6 Ignition Retard due to Knock Control: -- °

Cyl.7 Ignition Retard due to Knock Control: -- °

Cyl.8 Ignition Retard due to Knock Control: -- °

Knock Control Adaptation Value Cylinder#1: -- °

Knock Control Adaptation Value Cylinder#2: -- °

Knock Control Adaptation Value Cylinder#3: -- °

Knock Control Adaptation Value Cylinder#4: -- °

Knock Control Adaptation Value Cylinder#5: -- °

Knock Control Adaptation Value Cylinder#6: -- °

Knock Control Adaptation Value Cylinder#7: -- °

Knock Control Adaptation Value Cylinder#8: -- °

Intake camshaft bank 1 actual position: -- °

Intake camshaft bank 2 actual position: -- °

Intake camshaft bank 1 target position: -- °

Intake camshaft bank 2 target position: -- °

Intake camshaft bank 1 position duty cycle: -- %

Intake camshaft bank 2 position duty cycle: -- %

Exhaust camshaft bank 1 actual position: -- °

Exhaust camshaft bank 2 actual position: -- °

Exhaust camshaft bank 1 target position: -- °

Exhaust camshaft bank 2 target position: -- °

Exhaust camshaft bank 1 position duty cycle: -- %

Exhaust camshaft bank 2 position duty cycle: -- %

Angle of inlet-camshaft edges relative to crankshaft: -- °

Angle of outlet-camshaft edges relative to crankshaft: -- °

Angle of inlet-camshaft edges of bank 2 relative to crankshaft: -- °

Angle of outlet-camshaft edges of bank 2 relative to crankshaft: -- °

Misfire cycle delay reason: --

Total number of misfire: -- Count

Misfire Current Cylinder #1: -- Count

Misfire Current Cylinder #2: -- Count

Misfire Current Cylinder #3: -- Count

Misfire Current Cylinder #4: -- Count

Misfire Current Cylinder #5: -- Count

Misfire Current Cylinder #6: -- Count

Misfire Current Cylinder #7: -- Count

Misfire Current Cylinder #8: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#1: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#2: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#3: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#4: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#5: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#6: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#7: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#8: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#1: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#2: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#3: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#4: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#5: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#6: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#7: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#8: -- Count

Total counter of emission relevant misfiring of all cylinders: -- Count

Total counter of catalyst damaging misfiring of all cylinders: -- Count

Coolant temperature at engine start: -- °C

Water temperature model: -- °C

Lowpass filtered battery voltage: -- V

Continuous operation time after engine start: -- sec

Operating time: -- min

Distance traveled when MIL ON: -- km

Number of warm-ups since stored confirmed DTC cleared: --

Number of DTC: --

Brake master cylinder pressure: -- bar

Total mileage: -- km

Ignition Output Value - Cyl1: -- °

Ignition Output Value - Cyl2: -- °

Ignition Output Value - Cyl3: -- °

Ignition Output Value - Cyl4: -- °

Air mass adaptation: -- %

A/C pressure sensor: -- V

A/C pressure: -- hPa

Coolant temperature at engine start: -- °C

Water temperature model: -- °C

Altitude correction: --

Barometric pressure sensor: -- hPa

Effective injection time: -- ms

Throttle position sensor set point: -- %

Throttle Position Sensor-1: -- %

Throttle Position Sensor-2: -- %

Throttle position sensor Angle2-Voltage(5V base): -- V

Electronic throttle control (ETC) motor duty cycle and direction: -- %

Accelerator pedal position sensor: -- mV

Accelerator pedal position: -- %

Engaged gear (AT Vehicle): --

Indicated actual torque: -- %

Target indicated torque: -- %

Torque request from TCU: -- %

Accelerator pedal position sensor-1 Voltage(5V base): -- V

Accelerator pedal position sensor-2 Voltage(5V base): -- V

Throttle position adaptation for idle: -- V

Throttle position sensor Angle1-Voltage(5V base): -- V

Throttle position sensor-1(3.3V base): -- V

Throttle position sensor-2(3.3V base): -- V

Accelerator pedal position sensor-1 Voltage(3.3V Base): -- V

Accelerator pedal position sensor-2 Voltage(3.3V Base): -- V

Fuel tank pressure sensor: -- V

Adaptation in idle speed bank 1: -- %

Adaptation in part load bank 1: -- %

Multiplicative correction of the mixture adaptation due to ethanol: --

Relative fuel injection quantity of canister control: -- %

O2 sensor 1, bank 1 correction: -- %

Target lambda value: --

O2 sensor 2, bank 1 correction: -- sec

Filtered cycle duration O2 sensor signal up. Catalyst: -- sec

O2 sensor 2, bank 1 heater off duration: -- sec

O2 sensor 1, bank 1 heater off duration: -- sec

Target EGR duty cycle: -- %

Fuel level sensor: -- V

LPG gas fuel pressure: -- kPa

Cyl.1 Ignition Retard due to Knock Control: -- °

Cyl.2 Ignition Retard due to Knock Control: -- °

Cyl.3 Ignition Retard due to Knock Control: -- °

Cyl.4 Ignition Retard due to Knock Control: -- °

Knock Control Adaptation Value Cylinder#1: -- °

Knock Control Adaptation Value Cylinder#2: -- °

Knock Control Adaptation Value Cylinder#3: -- °

Knock Control Adaptation Value Cylinder#4: -- °

Intake camshaft bank 1 target position: -- °

Intake camshaft bank 1 actual position: -- °

Intake camshaft bank 1 position duty cycle: -- %

Exhaust camshaft bank 1 target position: -- °

Exhaust camshaft bank 1 actual position: -- °

Exhaust camshaft bank 1 position duty cycle: -- %

Misfire Current Cylinder #1: -- Count

Misfire Current Cylinder #2: -- Count

Misfire Current Cylinder #3: -- Count

Misfire Current Cylinder #4: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#1: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#2: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#3: -- Count

Total Counter of Emission Relevant Misfiring of Cylinder#4: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#1: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#2: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#3: -- Count

Total Counter of Catalyst Damaging Misfiring of Cylinder#4: -- Count

Total counter of emission relevant misfiring of all cylinders: -- Count

Total counter of catalyst damaging misfiring of all cylinders: -- Count

Battery current (AMS): -- A

Battery voltage (AMS): -- V

Battery temperature (AMS): -- °C

State of battery charge (AMS): -- %

State of health of battery (AMS): -- %

State of function of battery (AMS): -- V

Idle stop or engine stall: --

Brake boost vacuum pressure: -- hPa

Brake boost vacuum pressure voltage: -- V

Desired Alternator Voltage Duty Cycle (C-terminal): -- %

Duty Cycle from Alternator PWM Signal (FR-terminal): -- %

Nominal capacity (AMS): -- Ah

Counter the number of low SOC at start: --

Integrated battery current for battery refresh mode: -- Ah

SOC low counter for battery refresh mode: --

Driver start counter for battery refresh mode: --

Operating timer of battery refresh mode: -- sec

Total mileage: -- km

LPG fuel tank level: -- V

LPG fuel tank level: -- L

LPG fuel tank temperature: -- V

LPG fuel tank temperature: -- °C

LPG fuel rail temperature: -- V

LPG fuel rail temperature: -- °C

LPG pressure in the fuel rail mean value: -- V

LPG pressure in the fuel rail mean value: -- hPa

Pump speed of the LPG electrical fuel pump as PWM signal: -- %

Target fuel flow rate: -- g/sec

Current fuel pump step: --

Percentage of butane in the LPG: -- %

Effective LPG injection time: -- ms

Actual LPG fuel ratio in bi-fuel system: -- %

Actuators test

Controls

Check engine telltale

Immobilizer Lamp(Option)

Cruise Control Main Lamp(Option)

ISG Lamp

Gasoline Lamp (Bi-Fuel)

Cruise Control SET Lamp(Option)

Over speed indicator(Option)

Oil Change Warning Lamp

FPCM pressure control

A/C compressor relay

Fuel pump relay (1st stage)

Fuel pump control (1st stage)

Fuel pump relay (2nd stage)

Fuel pump control (2nd stage)

High pressure fuel pump control

High pressure fuel pump control 2

Fuel Pump Relay for LPG

Fuel Pump Relay Control for LPG

Cooling fan low speed

Cooling fan high speed

Fan PWM

LPG Fuel Pump PWM

LPG Cut Valve for Fuel Rail

LPG Cut Valve for Fuel Tank

CVVT intake

CVVT exhaust

Intake camshaft oil control valve B1

Exhaust camshaft oil control valve B1

Intake camshaft oil control valve B2

Exhaust camshaft oil control valve B2

Additive Correction for O2 Sensor Heaters B1S1

Additive Correction for O2 Sensor Heaters B2S1

Additive Correction for O2 Sensor Heaters B1S2

Additive Correction for O2 Sensor Heaters B2S2

Additive Correction for all O2 Sensor Heaters

ISA idle speed actuator additive correction

CDA Control Solenoid Valve - IN, B1

CDA Control Solenoid Valve - EX, B1

CDA Control Solenoid Valve - IN, B2

CDA Control Solenoid Valve - EX, B2

VVL Control Solenoid Valve - IN, B1

VVL Control Solenoid Valve - EX, B1

VVL Control Solenoid Valve - IN, B2

VVL Control Solenoid Valve - EX, B2

Turbo waste gate (WGT) valve

Turbo dump (ReCirculation) valve (RCV)

LPG injector disable cylinder 1

LPG injector disable cylinder 2

LPG injector disable cylinder 3

LPG injector disable cylinder 4

Bi-fuel system fuel change (GSL to LPG)

Bi-fuel system fuel change (LPG to GSL)

Injector 1

Injector 2

Injector 3

Injector 4

Injector 5

Injector 6

Injector 7

Injector 8

Ignition coil 1

Ignition coil 2

Ignition coil 3

Ignition coil 4

Ignition coil 5

Ignition coil 6

Ignition coil 7

Ignition coil 8

Utility

Controls

Resetting adaptive values

Edit VIN

ISG test (Option)

Reset oil reminder