PID/data monitor item	Unit/Condition	Definition	Value type	Condition/Specification (Reference)	PCM terminal
A/C_PRES_AFT_COMP	KPa, Bar, psi, in H2O	•  Refrigerant pressure input from refrigerant pressure sensor No.2	Calculation	•  Displays refrigerant pressure input from refrigerant pressure sensor No.2.	1AU
	V	•  Refrigerant pressure sensor No.2 voltage	Input	•  Refrigerant pressure is 0.87 MPa {8.9 kgf/cm2, 126 psi}: Approx. 1.40 V•  Refrigerant pressure is 1.31 MPa {13.4 kgf/cm2, 190 psi}: Approx. 2.05 V
A/C_PRES_BEF_EXP_VLV	kPa, Bar, psi, in H2O	•  Refrigerant pressure input from refrigerant pressure sensor No.1	Calculation	•  Displays refrigerant pressure input from refrigerant pressure sensor No.1.	2AV
	V	•  Refrigerant pressure sensor No.1 voltage	Input	•  Refrigerant pressure is 0.87 MPa {8.9 kgf/cm2, 126 psi}: Approx. 1.40 V•  Refrigerant pressure is 1.26 MPa {12.8 kgf/cm2, 183 psi}: Approx. 1.97 V
A/C_REQ	No(False)/Yes(True)	•  A/C switch status received by PCM via CAN	Calculation	•  No(False): A/C switch OFF•  Yes(True): A/C switch ON	CAN (2S, 2T)
A/C_SW	Off/On	•  Magnetic clutch engaged condition	Calculation	•  Off: A/C relay OFF (magnetic clutch OFF)•  On: A/C relay ON (magnetic clutch ON)	2AF
A/C_VLV_DUTY_COMD	%	•  Compressor valve (built-into A/C compressor) control duty value	Calculation	•  A/C switch OFF: 0%•  A/C switch ON (idle): Approx. 59%•  A/C switch ON (racing (engine speed is 2,000 rpm)): Approx. 37%•  A/C switch ON (racing (engine speed is 4,000 rpm)): Approx. 62%	1CA
A/F_SEN_CUR	mA	•  A/F sensor current	Input	•  Idle: Approx. −39 µA•  Deceleration fuel cut (accelerator pedal released from engine speed of 4,000 rpm or more): Approx. 3.84 mA	1S, 1M, 1T
A/F_SEN_EQUIVALENCE_RATIO	—	•  Excess air factor (estimated value) to theoretical air/fuel ratio (14.7) by fuel feedback control	Calculation	•  Indicate lambda (excess air factor = supplied air amount / theoretical air/fuel ratio)•  Idle: Approx. 1	—
A/F_SEN_HEAT	%	•  A/F sensor heater control duty value	Calculation	•  Ignition switched ON (engine off): 0%•  Idle: Approx. 43%	1CB
A/F_SEN_HEAT	False/True	•  A/F sensor heater operation status	Calculation	•  False: Ignition switched ON (engine off)•  True: Idle
A/F_SEN_OUT_VOLT	V	•  A/F sensor output voltage	Input	•  Ignition switched ON (engine off): Approx. 1.28 V•  Idle: Approx. 1.28 V•  Racing (engine speed is 2,000 rpm): Approx. 1.28 V•  Racing (engine speed is 4,000 rpm): Approx. 1.28 V	1S, 1M, 1T
AIRSHUT_CAL_STAT*3	—	•  Active air shutter fully open/closed position learning status	Calculation	•  Displays active air shutter fully open/closed position learning status.	2Y
AIRSHUT_POS_ACT*3	% Open	•  Active air shutter actual position	Calculation	•  Displays active air shutter actual position.
AIRSHUT_POS_COMD*3	% Open	•  Active air shutter target position	Calculation	•  Displays active air shutter target position.
ALT_FIELD_CTRL_DUTY_OUT*4	%	•  Field coil current control signal output to generator	Calculation	•  Displays field coil current control signal output to generator.	1BP
ALT_VOLT_OUT_ACT*4	V	•  Generator output voltage	Input	•  Idle (no electrical loads): Approx. 14 V (This is internal calculation value and differs from PCM terminal voltage)	1AG
AMB_AIR_TEMP	°C, °F	•  Ambient air temperature	Calculation	•  Displays ambient air temperature.	2R
AMB_AIR_TEMP_RAW	°C, °F	•  Actually measured ambient air temperature input from ambient temperature sensor	Calculation	•  Displays actually measured ambient air temperature input from ambient temperature sensor.
APP_MODE	Accelerator Pedal Is Partially Depressed / Accelertor Pedal Is Fully Depressed / Accelerator Pedal Is Not Depressed	•  Idle flag	Calculation	•  Accelertor Pedal Is Fully Depressed: Accelerator pedal fully depressed•  Accelerator Pedal Is Not Depressed: Accelerator pedal released•  Accelerator Pedal Is Partially Depressed: Except above	—
APP_RELAT	%	•  Accelerator pedal opening angle (relative value) with the fully released status as 0% and fully depressed status as 100%	Calculation	•  Accelerator pedal released: 0%•  Accelerator pedal fully depressed: 100%	—
APP1	%	•  Accelerator pedal opening angle (absolute value) input from APP sensor No.1	Calculation	•  Accelerator pedal released: Approx. 15.69%•  Accelerator pedal fully depressed: Approx. 90.98%	2BN
APP1	V	•  APP sensor No.1 voltage	Input	•  Accelerator pedal released: Approx. 0.78 V•  Accelerator pedal fully depressed: Approx. 4.55 V
APP2	%	•  Accelerator pedal opening angle (absolute value) input from APP sensor No.2	Calculation	•  Accelerator pedal released: Approx. 7.84%•  Accelerator pedal fully depressed: Approx. 45.49%	2BB
APP2	V	•  APP sensor No.2 voltage	Input	•  Accelerator pedal released: Approx. 0.39 V•  Accelerator pedal fully depressed: Approx. 2.28 V
AWD_CLTCH_CUR_COMD*2	Amp	•  Target value of the AWD solenoid control current built into the electronic control coupling	Calculation	•  Displays the target value of the AWD solenoid control current built into the electronic control coupling.	CAN (2S, 2T)
AWD_CLTCH_TRQ_COMD*2	N·m {kgf·m, ft·lbf}	•  Target value of the transmission torque to the rear wheels of the electronic control coupling	Calculation	•  Displays the target value of the transmission torque to the rear wheels of the electronic control coupling.	CAN (2S, 2T)
BARO	kPa, Bar, psi, in H2O	•  Actually measured barometric pressure input from BARO sensor built into PCM	Calculation	•  Displays actually measured barometric pressure input from BARO sensor built into PCM.	—
BATT_CUR*5	Amp	•  Battery charge/discharge current	Calculation	•  Displays battery charge/discharge current.	2Y
BATT_DAY*5	Day	•  Vehicle battery days in service	Calculation	•  Displays vehicle battery days in service.	—
BATT_RES*5	mOhm	•  Battery internal resistance (estimated)	Calculation	•  Displays battery internal resistance (estimated).	—
BATT_SOC*5	%	•  Battery charge condition (estimated)	Calculation	•  Displays battery charge condition (estimated).	—
BATT_TEMP*5	°C, °F	•  Battery temperature	Calculation	•  Displays battery temperature.	—
BATT_VOLT*5	V	•  Battery voltage	Calculation	•  Displays battery voltage.	—
BOOST_AIR_TEMP	Note•  Displays in the M-MDS but it does not operate.
BOOST_AIR_TEMP_VOLT	Note•  Displays in the M-MDS but it does not operate.
BOOST_PRES_ACT	Note•  Displays in the M-MDS but it does not operate.
BOOST_PRES_ACT_VOLT	Note•  Displays in the M-MDS but it does not operate.
BOOST_PRES_DSD	Note•  Displays in the M-MDS but it does not operate.
BRK_BSTR_PRES_ACT*5	kPa, Bar, psi, in H2O	•  Power brake unit vacuum input from power brake unit vacuum sensor	Calculation	•  Displays power brake unit vacuum input from power brake unit vacuum sensor.	2X
BRK_BSTR_PRES_VOLT*5	V	•  Power brake unit vacuum sensor voltage	Input	•  Power brake unit vacuum is 10 kPa {0.10 kgf/cm2, 1.5 psi}: Approx. 0.4 V•  Power brake unit vacuum is 115 kPa {1.17 kgf/cm2, 16.7 psi}: Approx. 4.65 V
BRK_FLD_PRES*5	kPa, Bar, psi, in H2O	•  Actually measured brake fluid pressure input from brake fluid pressure sensor built into DSC HU/CM via CAN	Calculation	•  Displays actually measured brake fluid pressure input from brake fluid pressure sensor built into DSC HU/CM via CAN.	CAN (2S, 2T)
BRK_SW1	False/True	•  Brake switch No.1 status received from body control module (BCM) via CAN	Calculation	•  False: Brake pedal released•  True: Brake pedal released	CAN (2S, 2T)
BRK_SW2	False/True	•  Brake switch No.2 status	Calculation	•  False: Brake pedal released•  True: Brake pedal released	2P
CAT_TEMP	°C, °F	•  Estimated catalytic converter temperature	Calculation	•  Displays estimated catalytic converter temperature.	—
CHARGE_LAMP	No(False)/Yes(True)	•  Charging system warning indication display condition/charging system warning light illumination condition	Calculation	•  No(False): Charging system warning indication not indicated/charging system warning light not illuminated•  Yes(True): Charging system warning indication indicated/charging system warning light illuminated	—
CLR_DTC_DIST	km, ft, mi	•  Distance after DTC cleared	Calculation	•  Displays distance after DTC cleared.	—
CLTCH_CUT_SW*1	Off/On	•  Starter interlock switch status	Calculation	•  Off: Clutch pedal released•  On: Clutch pedal depressed	—
CLTCH_PEDAL_POS*7	%	•  Clutch pedal position input from clutch stroke sensor	Calculation	•  Displays clutch pedal position input from clutch stroke sensor.	2AP
CSTR_VENT_SOL_DUTY*11	%	•  CV solenoid valve operation status	Calculation	•  Displays CV solenoid valve operation status.	2AL
DOOR_SW*8	Active/Not Active	•  Door latch switch status	Calculation	•  Active: All doors are closed•  Not Active: Any door is opened	CAN (2S, 2T)
ECT	°C, °F	•  Engine coolant temperature input from ECT sensor No.1	Calculation	•  Displays engine coolant temperature input from ECT sensor No.1.	1AH
ECT_VOLT	V	•  ECT sensor No.1 voltage	Input	•  ECT is 20 °C {68 °F}: Approx. 3.10 V•  ECT is 40 °C {104 °F}: Approx. 2.16 V•  ECT is 60 °C {140 °F}: Approx. 1.40 V•  ECT is 80 °C {176 °F}: Approx. 0.87 V•  ECT is 100 °C {212 °F}: Approx. 0.54 V
ECT2	°C, °F	•  Engine coolant temperature input from ECT sensor No.2	Calculation	•  Displays engine coolant temperature input from ECT sensor No.2.	1AM
ECT2_VOLT	V	•  ECT sensor No.2 voltage	Input	•  ECT is 20 °C {68 °F}: Approx. 3.10 V•  ECT is 40 °C {104 °F}: Approx. 2.16 V•  ECT is 60 °C {140 °F}: Approx. 1.40 V•  ECT is 80 °C {176 °F}: Approx. 0.87 V•  ECT is 100 °C {212 °F}: Approx. 0.54 V
EGR_COMD	Note•  Displays in the M-MDS but it does not operate.
EGR_STEP_MOTOR_POS	Note•  Displays in the M-MDS but it does not operate.
ENG_COOL_VLV_POS_ACT	°(deg)	•  Actual coolant control valve position angle	Calculation	•  Ignition switched ON (engine off): Approx. 113°	1I
ENG_COOL_VLV_POS_COMD	°(deg)	•  Target coolant control valve position angle	Calculation	•  Displays target coolant control valve position angle.
ENG_OIL_LVL	mm, in	•  Engine oil level	Calculation	•  Displays engine oil level.	2Y
ENG_OIL_TEMP	°C, °F	•  Engine oil temperature	Calculation	•  Displays engine oil temperature.	1AN
ENG_RPM	Rpm	•  Engine speed	Calculation	•  Displays engine speed.	—
ENG_RPM_DSD	Rpm	•  Target engine speed	Calculation	•  Displays target engine speed.	—
EQUIVALENCE_RATIO_COMD	—	•  Target excess air factor (estimated value) to theoretical air/fuel ratio (14.7) by fuel feedback control	Calculation	•  Indicate target lambda (excess air factor = supplied air amount / theoretical air/fuel ratio)	—
EVAP_PRES*11	V	•  Fuel tank pressure	Input	•  Fuel tank pressure is equal to barometric pressure: Approx. 2.5 V	2AJ
EX_SHUT_VLV_ACT*9	°(deg)	•  Actual exhaust shutter valve position angle	Calculation	•  Ignition switched ON (engine off): Approx. 66°	1P
EX_SHUT_VLV_DSD*9	°(deg)	•  Target exhaust shutter valve position angle	Calculation	•  Ignition switched ON (engine off): Approx. 66°	—
FAN	Note•  Displays in the M-MDS but it does not operate.
FDIL_JD	Engine Oil hasn’t diluted by gasoline./Engine Oil has diluted by gasoline.	•  Diluted engine oil due to fuel penetration	Calculation	•  Engine Oil hasn’t diluted by gasoline.: Engine oil is not diluted•  Engine Oil has diluted by gasoline.: Engine oil is diluted	—
FLI	%	•  Fuel level	Calculation	•  Fuel gauge level F: Approx. 100%•  Fuel gauge level E: Approx. 0%	CAN (2S, 2T)
FP_DUTY	%	•  Fuel pump control duty value	Calculation	•  Ignition switched ON (engine off) (after a certain period has elapsed): Approx. 44.78%	2D
FRP	kPa, Bar, psi, in H2O	•  Fuel distributor pressure	Calculation	•  Displays fuel distributor pressure.	1W
FTP*11	Pa, mBar, psi, in H2O	•  Fuel tank pressure	Calculation	•  Displays fuel tank pressure.	2AJ
FUEL_CAP_LAMP	Note•  Displays in the M-MDS but it does not operate.
FUEL_INJ_AMOUNT	g/cyl	•  Fuel injection amount per 1 cylinder	Calculation	•  Displays the fuel injection amount per 1 cylinder.	—
FUEL_PRES	kPa, Bar, psi, in H2O	•  Fuel pressure input from fuel pressure sensor	Calculation	•  Displays fuel pressure input from fuel pressure sensor.	1W
FUEL_PRES	V	•  Fuel pressure sensor voltage	Input	Idle (after warm up)•  Fuel pressure is 10 MPa {102 kgf/cm2, 1450 psi}: Approx. 1.4 V
FUEL_PRES_COMD	kPa, Bar, psi, in H2O	•  Target fuel pressure (high pressure fuel pump)	Calculation	•  Displays target fuel pressure (high pressure fuel pump).
FUEL_PULSE_WD	microseconds	•  Fuel injection pulse width (fuel injector energization time) output to fuel injector	Calculation	•  Ignition switched ON (engine off): 0 µs•  Racing (engine speed is 2,000 rpm): Approx. 760 µs•  Racing (engine speed is 4,000 rpm): Approx. 800 µs	No.1: 1DG, 1DHNo.2: 1CY, 1CZNo.3: 1CU, 1CVNo.4: 1DC, 1DD
FUEL_PUMP_DSD	kPa, Bar, psi, in H2O	•  Target fuel pressure (high pressure fuel pump)	Calculation	•  Displays target fuel pressure (high pressure fuel pump).	1W
FUEL_PUMP_REQ	Off/On	•  Fuel pump operation status	Calculation	•  Off: Ignition switched ON (engine off) (after a certain period has elapsed)•  On: Idle	2D, 2AX
FUEL_RAIL_TEMP	°C, °F	•  Fuel distributor temperature	Calculation	•  Displays fuel distributor temperature.	—
FUELSYS_CL	Yes/No	•  Feedback status of fuel injection control―  During feedback control by A/F sensor and HO2S	Calculation	•  Ignition switched ON (engine off): Yes•  Idle: No•  Racing (engine speed is 2,000 rpm): No•  Racing (engine speed is 4,000 rpm): No	—
FUELSYS_CL_FAULT	Yes/No	•  Feedback status of fuel injection control―  During feedback control with either A/F sensor or HO2S having a malfunction	Calculation	•  Ignition switched ON (engine off): Yes•  Idle: Yes•  Racing (engine speed is 2,000 rpm): Yes•  Racing (engine speed is 4,000 rpm): Yes	—
FUELSYS_OL	Yes/No	•  Feedback status of fuel injection control―  Feedback control is disabled at cold engine start	Calculation	•  Ignition switched ON (engine off): Yes•  Idle: Yes•  Racing (engine speed is 2,000 rpm): Yes•  Racing (engine speed is 4,000 rpm): Yes	—
FUELSYS_OL_DRIVE	Yes/No	•  Feedback status of fuel injection control―  While feedback control is stopped	Calculation	•  Ignition switched ON (engine off): Yes•  Idle: Yes•  Racing (engine speed is 2,000 rpm): Yes•  Racing (engine speed is 4,000 rpm): Yes	—
FUELSYS_OL_FAULT	Yes/No	•  Feedback status of fuel injection control―  Feedback control is disable due to system malfunction	Calculation	•  Ignition switched ON (engine off): Yes•  Idle: Yes•  Racing (engine speed is 2,000 rpm): Yes•  Racing (engine speed is 4,000 rpm): Yes	—
GEAR*6	—	•  Gear commanded	Calculation	•  Park: Selector lever at P position•  Reverse: Selector lever at R position•  Forward Drive 1: Selector lever is in D position while vehicle is stopped	CAN (2S, 2T)
GEN_DUTY_ACT	Note•  Displays in the M-MDS but it does not operate.
GEN_VOLT_COMD	V	•  Generator voltage desired	Calculation	•  Displays generator voltage desired.	—
H_SPD_FAN	Off/On	•  Cooling fan (high speed range) control status	Calculation	•  Off: Cooling fan is not operating in high speed range•  On: Cooling fan is operating in high speed range	2AM, 2AS
HO2S_FUEL_TRIM	%	•  Fuel correction amount based on HO2S signal including SHRT_FUEL_TRIM_HO2S_SEN and LONG_FUEL_TRIM_HO2S_SEN	Calculation	•  Idle: Approx. −3.20%•  Racing (engine speed is 4,000 rpm): Approx. 0.54%	—
HO2S_HEAT	False/True	•  HO2S heater operation status	Calculation	•  False: Ignition switched ON (engine off)•  True: Idle	2BJ
HO2S_HEAT	%	•  HO2S heater control duty value	Calculation	•  Ignition switched ON (engine off): 0%•  Idle: Approx. 53%
HO2S_OUT_VOLT	V	•  HO2S output voltage	Input	•  Idle: 0—1.0 V•  Deceleration fuel cut (accelerator pedal released from engine speed of 4,000 rpm or more): 0 V	2BK, 2BL
HOOD_SW*8	Active/Not Active	•  Hood latch switch status	Calculation	•  Active: Hood is closed•  Not Active: Hood is opened	CAN (2S, 2T)
HV_EV_BATT_CUR	Note•  Displays in the M-MDS but it does not operate.
HV_EV_BATT_SOC	Note•  Displays in the M-MDS but it does not operate.
HV_EV_BATT_VOLT_BEF_START	Note•  Displays in the M-MDS but it does not operate.
IAT	°C, °F	•  Intake air temperature input from IAT sensor No.1	Calculation	•  Displays intake air temperature input from IAT sensor No.1	2BE
IAT	V	•  IAT sensor No.1 voltage	Input	•  IAT is 20 °C {68 °F}: Approx. 2.70 V•  IAT is 40 °C {104 °F}: Approx. 1.80 V•  IAT is 60 °C {140 °F}: Approx. 1.20 V
IAT1	°C, °F	•  Intake air temperature input from IAT sensor No.1	Calculation	•  Displays intake air temperature input from IAT sensor No.1
IAT2	°C, °F	•  Intake air temperature input from IAT sensor No.2	Calculation	•  Displays intake air temperature input from IAT sensor No.2.	1Q
IAT2	V	•  IAT sensor No.2 voltage	Input	•  IAT2 is 20 °C {68 °F}: Approx. 3.57 V•  IAT2 is 40 °C {104 °F}: Approx. 2.70 V•  IAT2 is 60 °C {140 °F}: Approx. 1.87 V
INGEAR*6	False/True	•  Gears are engaged	Calculation	•  False: Selector lever at P position•  True: Selector lever at R position•  True: Selector lever at D position	CAN (2S, 2T)
INJ	—	•  Fuel injector control status while the engine is idling	Calculation	•  Displays the fuel injector control status while the engine is idling.	—
I-STOP_D_SW*8	Off/On	•  Shift lever (D position) selection status	Calculation	•  On: Selector lever at D position•  Off: Except above	—
I-STOP_N_SW*7	Off/On	•  Neutral sensor No.1 status	Calculation	•  On: Neutral•  Off: Except above	—
I-STOP_OFF_SW*8	Off/On	•  i-stop OFF mode	Calculation	•  Off: i-stop OFF switch OFF•  On: i-stop OFF switch ON	—
I-STOP_VEH_STOP*8	Off/On	•  Vehicle stop determination status	Calculation	•  On: If vehicle stop is estimated•  Off: Except above	—
I-STOP_VSPD_HIST*8	Off/On	•  Detection status of vehicle speed that meets i-stop operation conditions	Calculation	•  On: Status of vehicle speed that meets engine stop conditions by i-stop control is detected•  Off: Except above	—
KNOCK_LRN	—	•  Knock control system learning value	Calculation	•  Displays knock control system learning value.	—
KNOCK_RTD	°(deg)	•  Ignition timing correction for suppressing engine knock (Performs retard correction (negative indication) according to the occurrence of engine knock, and it approaches approx. 0° by the advance correction due to engine knock suppression.)	Calculation	•  Ignition switched ON (engine off): 0°•  Idle: 0°	—
L_SPD_FAN	Off/On	•  Cooling fan (low speed range) control status	Calculation	•  Off: Cooling fan is not operating in low speed range•  On: Cooling fan is operating in low speed range	2AM, 2AS
LOAD	%	•  Charging efficiency (absolute value)―  Ratio of actual amount of intake air to the maximum air charging amount (mass volume) of cylinder	Calculation	•  Idle: Approx. 14.12 %•  Racing (engine speed is 2,000 rpm): Approx. 14.90 %•  Racing (engine speed is 4,000 rpm): Approx. 12.94 %	—
LOAD_CALC	%	•  Charging efficiency (calculated value)―  Ratio of actual amount of intake air to the maximum air charging amount (mass volume) of cylinder	Calculation	•  Idle: Approx. 22.75 %•  Racing (engine speed is 2,000 rpm): Approx. 17.65 %•  Racing (engine speed is 4,000 rpm): Approx. 14.12 %	—
LONG_FUEL_TRIM	%	•  Fuel learning correction amount estimated based on A/F sensor signal	Calculation	•  Idle: Approx. 0.78%•  Racing (engine speed is 2,000 rpm): Approx. −1.56%•  Racing (engine speed is 4,000 rpm): Approx. −1.56%	—
LONG_FUEL_TRIM_HO2S_SEN	%	•  Fuel learning correction amount estimated based on HO2S signal	Calculation	•  Idle: 0%	—
MAF	g/s	•  Mass air flow input from MAF sensor	Calculation	•  Displays mass air flow input from MAF sensor.	2BE
MAF	V	•  MAF sensor voltage	Input	•  Ignition switched ON (engine off) (MAF: 0.00 g/s {0 lb/min}): Approx. 1.69 V•  Idle (after warm up) (MAF: 2.50 g/s {0.331 lb/min}): Approx. 1.89 V•  Racing (engine speed is 2,000 rpm) (MAF: 5.26 g/s {0.696 lb/min}): Approx. 2.13 V•  Racing (engine speed is 4,000 rpm) (MAF: 10.44 g/s {1.381 lb/min}): Approx. 2.46 V
MANUAL_GEAR_POS*1	—	•  Manual gear position	Calculation	•  Displays manual gear position.	—
MAP	kPa, Bar, psi, in H2O	•  Manifold absolute pressure input from MAP sensor	Calculation	•  Displays manifold absolute pressure input from MAP sensor.	1X
MAP_VOLT	V	•  MAP sensor voltage	Input	•  Ignition switched ON (engine off) (MAP:101 kPa {1.03 kgf/cm2, 14.6 psi}): Approx. 4.07 V•  Idle (after warm up) (MAP: 35 kPa {0.36 kgf/cm2, 5.1 psi}): Approx. 1.40 V•  Racing (engine speed is 2,000 rpm) (MAP: 25 kPa {0.25 kgf/cm2, 3.6 psi}): Approx. 1.01 V•  Racing (engine speed is 4,000 rpm) (MAP: 23 kPa {0.23 kgf/cm2, 3.3 psi}): Approx. 0.81 V
MIL	Off/On	•  Check engine light illumination status	Calculation	•  On: Check engine light illuminated•  Off: Check engine light not illuminated	CAN (2S, 2T)
MIL_DIST	km, ft, mi	•  Travelled distance since check engine light illuminated	Calculation	•  Displays travelled distance since check engine light illuminated.	—
MISFIRE_CAT_TOTAL	—	•  Number of misfires (total number in all cylinders) leading to catalytic converter temperature increase	Calculation	•  Displays number of misfires (total number in all cylinders) leading to catalytic converter temperature increase.	—
MISFIRE_CYL1_CAT	—	•  Number of misfires in No.1 cylinder leading to catalytic converter temperature increase	Calculation	•  Displays number of misfires in No.1 cylinder leading to catalytic converter temperature increase (catalytic converter temperature increases due to fuel combustion around catalytic converter after misfire).	—
MISFIRE_CYL1_EMI	—	•  Number of misfires in No.1 cylinder under conditions required by emission regulations	Calculation	•  Displays number of misfires in No.1 cylinder under conditions required by emission regulations.	—
MISFIRE_CYL2_CAT	—	•  Number of misfires in No.2 cylinder leading to catalytic converter temperature increase	Calculation	•  Displays number of misfires in No.2 cylinder leading to catalytic converter temperature increase (catalytic converter temperature increases due to fuel combustion around catalytic converter after misfire).	—
MISFIRE_CYL2_EMI	—	•  Number of misfires in No.2 cylinder under conditions required by emission regulations	Calculation	•  Displays number of misfires in No.2 cylinder under conditions required by emission regulations.	—
MISFIRE_CYL3_CAT	—	•  Number of misfires in No.3 cylinder leading to catalytic converter temperature increase	Calculation	•  Displays number of misfires in No.3 cylinder leading to catalytic converter temperature increase (catalytic converter temperature increases due to fuel combustion around catalytic converter after misfire).	—
MISFIRE_CYL3_EMI	—	•  Number of misfires in No.3 cylinder under conditions required by emission regulations	Calculation	•  Displays number of misfires in No.3 cylinder under conditions required by emission regulations.	—
MISFIRE_CYL4_CAT	—	•  Number of misfires in No.4 cylinder leading to catalytic converter temperature increase	Calculation	•  Displays number of misfires in No.4 cylinder leading to catalytic converter temperature increase (catalytic converter temperature increases due to fuel combustion around catalytic converter after misfire).	—
MISFIRE_CYL4_EMI	—	•  Number of misfires in No.4 cylinder under conditions required by emission regulations	Calculation	•  Displays number of misfires in No.4 cylinder under conditions required by emission regulations.	—
MISFIRE_EMI_TOTAL	—	•  Number of misfires under conditions required by emission regulations	Calculation	•  Displays number of misfires (total number in all cylinders) under conditions required by emission regulations.	—
MISFIRE_FIRCYC_COUNT_CAT	—	•  Threshold of malfunction determination for number of misfires (total number in all cylinders) leading to catalytic converter temperature increase	Calculation	•  Displays threshold of malfunction determination for number of misfires (total number in all cylinders) leading to catalytic converter temperature increase.	—
MISFIRE_FIRCYC_COUNT_EMI	—	•  Threshold of malfunction determination for number of misfires (total number in all cylinders) under conditions required by emission regulations	Calculation	•  Displays threshold of malfunction determination for number of misfires (total number in all cylinders) under conditions required by emission regulations.	—
OIL_PRES	kPa, Bar, psi, in H2O	•  Engine oil pressure	Calculation	•  Displays engine oil pressure.	1AS
OIL_PRES_SOL	Off/On	•  Engine oil solenoid valve operation status	Calculation	•  Off: Ignition switched ON (engine off) (ECT: Approx. 26 °C {79 °F})•  On: Racing (engine speed is 4,000 rpm) (after warm up)	1CK
OIL_PUMP_DUTY	% Duty Cycle	•  Engine oil pressure control circuit duty cycle	Calculation	•  Displays engine oil pressure control circuit duty cycle.	1AS
OIL_TEMP	°C, °F	•  Engine oil temperature (estimated)	Calculation	•  Displays engine oil temperature (estimated).	1AN
PRG_DUTY	%	•  Purge solenoid valve control duty value	Calculation	•  Idle: Approx. 0%•  Racing (engine speed is 2,000 rpm): Approx. 0%•  Racing (engine speed is 4,000 rpm): Approx. 8.76%	1AW
REV_SW*1	False/True	•  Back-up light switch status	Calculation	•  Displays back-up light switch status.	1AZ
SHRT_FUEL_TRIM	%	•  Fuel feedback correction amount estimated based on A/F sensor signal	Calculation	•  Idle: 0%•  Racing (engine speed is 2,000 rpm): Approx. 4.69%•  Racing (engine speed is 4,000 rpm): Approx. 3.13%	—
SHRT_FUEL_TRIM_HO2S_SEN	%	•  Fuel feedback correction amount estimated based on HO2S signal	Calculation	•  Idle: 0%	—
SPARK_ADV	°(deg)	•  Ignition timing (BTDC)	Calculation	•  Displays ignition timing. (BTDC)	—
THERMOSTAT	Note•  Displays in the M-MDS but it does not operate.
THERMOSTAT*11	°C, °F	•  Engine coolant temperature when thermostat monitoring is finished	Calculation	•  Indicates engine coolant temperature when thermostat monitoring is finished.	—
THERMOSTAT_MAX	Note•  Displays in the M-MDS but it does not operate.
THERMOSTAT_MAX*11	°C, °F	•  Lower limit of engine coolant temperature for thermostat monitoring execution	Calculation	•  Indicates lower limit of engine coolant temperature for thermostat monitoring execution.	—
THERMOSTAT_MIN	Note•  Displays in the M-MDS but it does not operate.
THERMOSTAT_MIN*11	°C, °F	•  Upper limit of engine coolant temperature for thermostat monitoring execution.	Calculation	•  Indicates upper limit of engine coolant temperature for thermostat monitoring execution.	—
THRO_ACTAT_COMD	%	•  Throttle valve actuator operation status	Calculation	•  Displays throttle valve actuator operation status.	1CQ, 1CR
THRO_ANG_ACT	°(deg)	•  Actual throttle valve position angle	Calculation	Ignition switched ON (engine off)•  Accelerator pedal released: Approx. 12.91°•  Accelerator pedal fully depressed: Approx. 86.04°Idle•  Accelerator pedal released: Approx. 2.35°	—
THRO_ANG_COMD	°(deg)	•  Target throttle valve position angle	Calculation	•  Displays target throttle valve position angle.	—
TP_RELAT	%	•  Throttle valve opening angle (relative value) with value at throttle valve fully close timing as the start point	Calculation	•  Accelerator pedal released: Approx. 12.16%•  Accelerator pedal fully depressed: Approx. 81.96%	—
TP_VOLT_CLOSE_STOP1	V	•  TP sensor No.1 minimum voltage at CTP	Calculation	•  Ignition switched ON (engine off): Approx. 0.48 V	—
TP_VOLT_CLOSE_STOP2	V	•  TP sensor No.2 minimum voltage at CTP	Calculation	•  Ignition switched ON (engine off): Approx. 4.52 V	—
TP1	%	•  Throttle valve position No.1	Calculation	•  Accelerator pedal released: Approx. 21.96%•  Accelerator pedal fully depressed: Approx. 81.76%	1O
TP1	V	•  TP sensor No.1 voltage	Input	•  Accelerator pedal released: Approx. 1.10 V•  Accelerator pedal fully depressed: Approx. 4.59 V
TP2	%	•  Throttle valve position No.2	Calculation	•  Accelerator pedal released: Approx. 22.35%•  Accelerator pedal fully depressed: Approx. 91.37%	1V
TP2	V	•  TP sensor No.2 voltage	Input	•  Accelerator pedal released: Approx. 3.89 V•  Accelerator pedal fully depressed: Approx. 0.42 V
VLV_TIMING_ACT_EX	°(deg)	•  Actual exhaust variable valve timing—Retard amount from max advance position	Calculation	•  Displays actual exhaust variable valve timing—Retard amount from max advance position	1CO
VLV_TIMING_ACT_IN	°(deg)	•  Actual intake variable valve timing—Advance amount from max retard position	Calculation	•  Displays actual intake variable valve timing—Advance amount from max retard position	1AD, 1BN, 1BM, 1BV
VLV_TIMING_DSD_EX	°(deg)	•  Target exhaust variable valve timing—Retard amount from max advance position	Calculation	•  Displays target exhaust variable valve timing—Retard amount from max advance position	—
VLV_TIMING_DSD_IN	°(deg)	•  Target intake variable valve timing—Advance amount from max retard position	Calculation	•  Displays target intake variable valve timing—Advance amount from max retard position	—
VLV_TIMING_EX	%	•  OCV control duty value*9•  OCV for hydraulic variable valve timing system control duty value*10	Calculation	•  Idle: Approx. 0%•  Racing (engine speed is 2,000 rpm): Approx. 40.03%	—
VLV_TIMING_IN	%	•  Electric variable valve control duty value	Calculation	•  Idle: Approx. 10.00%•  Racing (engine speed is 2,000 rpm): Approx. 10.00%•  Racing (engine speed is 4,000 rpm): Approx. 10.00%	—
VPWR	V	•  Battery voltage	Input	•  Displays battery voltage.	2A
VSS	KPH, MPH	•  Vehicle speed	Calculation	•  Displays vehicle speed.	CAN (2S, 2T)
WASTEGATE_POS_ACT	Note•  Displays in the M-MDS but it does not operate.
WASTEGATE_POS_ACT_VOLT	Note•  Displays in the M-MDS but it does not operate.
WASTEGATE_POS_DSD	Note•  Displays in the M-MDS but it does not operate.
WASTEGATE_POS_SIMULATION	Note•  Displays in the M-MDS but it does not operate.
WHEEL_DRIVE_CTRL_COMD*2	—	•  AWD solenoid control duty value	Calculation	•  Displays AWD solenoid control duty value.	CAN (2S, 2T)
WHEEL_TRQ_EST	N·m {kgf·m, ft·lbf}	•  Total torque estimated value for all wheels	Calculation	•  Displays total torque estimated value for all wheels.
WHEEL_TRQ_REQ	N·m {kgf·m, ft·lbf}	•  Total torque target value for all wheels	Calculation	•  Displays total torque target value for all wheels.
WSPD_L/F	KPH, MPH	•  Rotation speed of wheel (LF)	Calculation	•  Displays rotation speed of wheel (LF).
WSPD_L/R	KPH, MPH	•  Rotation speed of wheel (LR)	Calculation	•  Displays rotation speed of wheel (LR).
WSPD_R/F	KPH, MPH	•  Rotation speed of wheel (RF)	Calculation	•  Displays rotation speed of wheel (RF).
WSPD_R/R	KPH, MPH	•  Rotation speed of wheel (RR)	Calculation	•  Displays rotation speed of wheel (RR).

*1  :MTX

*2  :Vehicles with i-ACTIV AWD system

*3  :Vehicles with active air shutter

*4  :Vehicles without Mazda M Hybrid

*5  :Vehicles without Mazda M Hybrid, with i-stop

*6  :ATX

*7  :Vehicles with i-stop system (MTX)

*8  :Vehicles with i-stop system

*9  :Vehicles with cylinder deactivation

*10  :Vehicles without cylinder deactivation

*11  :Chinese specs.