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Home >> Mazda >> 2018 >> CX-9 Signature >> Repair and Diagnosis >> Engine Performance >> Engine Control Systems >> PCM Inspection >> Using The M-MDS
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Using The M-MDS

NOTE:
  1. Connect the M-MDS to the DLC-2.
  2. Switch the ignition ON (engine off).
  3. Measure the PID value.
    • If PID value is not within the specification, follow the instructions in action column.
    NOTE:
    • The PID/DATA MONITOR function monitors the calculated value of the input/output signals in the PCM. Therefore, an output device malfunction is not directly indicated as a malfunction of the monitored value for the output device. If a monitored value of an output device is out of specification, inspect the monitored value of the input device related to the output control.
    • The simulation items that are used in the engine control system operation inspection are as follows.
      • ABV_OIL_P, ACCS, AIRSHUT_DSD, ARPMDES, EVAPCP, EVAPCV, FAN_DUTY, FAN1, FP, INJ_1, INJ_2, INJ_3, INJ_4, OIL_P_SOL, SEGRP DSD, VEV_OIL_P, WGV

-: Not applicable

Item (definition) Unit/Condition Definition Value type Condition/Specification (Reference) PCM terminal
AAT (1) °C, °F Ambient air temperature -
  • Displays ambient air temperature
 2Q
ABV_OIL_P Off/On Air bypass valve operation status Output
  • Air bypass valve fully closed: Off
  • Air bypass valve fully open: On
 1BC
AC_PRES KPa {MPA}, mBar {BAR}, psi, in H20 Refrigerant pressure input from refrigerant pressure sensor Calculation
  • Displays refrigerant pressure
 2W
V Refrigerant pressure sensor voltage Input
  • Refrigerant pressure is 449 kPa {4.58 kgf/cm2 , 65.1 psi} : Approx. 0.76 V
  • Refrigerant pressure is 729 kPa {7.43 kgf/cm2 , 106 psi} : Approx. 1.18 V
AC_REQ Off/On A/C switch status received by PCM via CAN Input
  • A/C switch off: Off
  • A/C switch on: On
 CAN (2AK, 2AL)
ACCS Off/On A/C relay status input from A/C relay Input
  • A/C relay off: Off
  • A/C relay on: On
 2BB
AIRSHUT_ACT % Active air shutter position Calculation
  • Active air shutter position is 0°: 0%
  • Active air shutter position is 90°: 100%
 LIN (2BG)
AIRSHUT_CAL Not Done/Completed Active air shutter fully open/close d position learning status Calculation
  • Displays active air shutter fully open/closed position learning status
 -
ALTF_ACT % Actually measured value of field coil current signal input from generator Calculation
  • Displays actual generator field current control duty value
 -
ALTT V V Generator output voltage Input
  • Idle (no E/L) : Approx. 14 V (This is internal calculation value and differs from terminal voltage)
 1AT
AMB_TEMP °C, °F Actually measured ambient temperature input from ambient temperature sensor Calculation
  • Displays ambient air temperature
 2Q
APP % Accelerator pedal opening angle (relative value) with the fully released status as 0% and fully depressed status as 100% Calculation
  • Accelerator pedal released: Approx. 0%
  • Accelerator pedal fully depressed: Approx. 100%
 -
APP1 % Accelerator pedal opening angle (absolute value) input from APP sensor No. 1 Calculation
  • Accelerator pedal released: Approx. 16%
  • Accelerator pedal fully depressed: Approx. 91%
 2AN
V APP sensor No. 1 voltage Input
  • Accelerator pedal released: Approx. 0.78 V
  • Accelerator pedal fully depressed: Approx. 4.54 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%
 2AR
V APP sensor No. 2 voltage Input
  • Accelerator pedal released: Approx. 0.39 V
  • Accelerator pedal fully depressed: Approx. 2.27 V
ARPMDES RPM Target engine speed Calculation
  • Displays target engine speed
 -
BARO KPa {MPA}, mBar {BAR}, psi, in H20 Actually measured barometric pressure input from barometric pressure sensor built into PCM Calculation
  • Displays BARO
 -
BOO High/Low Brake switch (No. 1 signal) input status Calculation
  • Brake pedal released: Low
  • Brake pedal fully depressed: High
 2G
BPA High/Low Brake switch (No. 2 signal) input status Calculation
  • Brake pedal released: Low
  • Brake pedal fully depressed: High
 2R
CATT11_DSD °C, °F Estimated catalytic converter temperature Calculation
  • Displays estimated catalytic converter temperature Idle (after warm up)
    • ECT is 88 °C {190 °F} : Approx. 304 °C {579 °F}
 -
CHRGLP Off/On Charging system warning light illumination status Calculation
  • Charging system warning light not illuminated: Off
  • Charging system warning light illuminated: On
 -
CLR_DIST - Distance after DTC cleared Calculation
  • Displays the mileage after DTC cleared
 -
CPP/PNP Displays in the M-MDS but it does not operate.
ECT °C, °F Engine coolant temperature input from ECT sensor No. 1 Calculation
  • Displays ECT
 1BI
V ECT sensor No. 1 voltage Input Ignition switched ON (engine off)
  • ECT is 29 °C {84 °F} : Approx. 2.65 V Idle (after warm up)
  • ECT is 88 °C {190 °F} : Approx. 0.71 V
ECT2_V (2) V ECT sensor No. 2 voltage Input Ignition switched ON (engine off)
  • ECT is 29 °C {84 °F} : Approx. 2.65 V Idle (after warm up)
  • ECT is 88 °C {190 °F} : Approx. 0.71 V
 2F
EOP KPa {MPA}, mBar {BAR}, psi, in H20 Engine oil pressure Converted value
  • Ignition switched ON (engine off) : 0-1 kPa {0.00-0.01 kgf/cm2 , 0.0- 0.1 psi}
  • Idle: Approx. 140 kPa {1.43 kgf/cm2 , 20.3 psi}
  • Racing (engine speed 4, 000 RPM) : Approx. 370 kPa {3.77 kgf/cm2 , 53.7 psi}
 1AY
EQ_RAT11_DSD - 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)
 -
ETC_ACT ° (deg) Actual throttle valve opening angle Calculation Ignition switched ON (engine off)
  • Accelerator pedal released: Approx. 12.89°
  • Accelerator pedal fully depressed: Approx. 86.03° Idle (after warm up)
  • Accelerator pedal released: Approx. 2.77- 2.84 ° (ECT is 89 °C {192 °F})
 -
ETC_DSD ° (deg) Target throttle valve opening angle Calculation
  • Displays target TP opening angle Ignition switched ON (engine off)
    • Accelerator pedal released: Approx. 12.9°
    • Accelerator pedal fully depressed: Approx. 86°
 -
% Target throttle valve opening angle (percent) Calculation
  • Displays target TP opening angle (percent) Ignition switched ON (engine off)
    • Accelerator pedal released: Approx. 14.9%
    • Accelerator pedal fully depressed: Approx. 100%
EVAPCP % Purge solenoid valve control duty value Calculation
  • Idle (after warm up) : 0% (Engine coolant temperature 59 °C {140 °F} or less)
  • Racing (Engine speed 2, 000 RPM) : 33-35% (ECT is 94 °C {201 °F})
  • Racing (Engine speed 4, 000 RPM) : 53-55% (ECT is 94 °C {201 °F})
 1AX
EVAPCV (1) Off/On CV solenoid valve operation status Calculation
  • Simulation item (EVAPCV) is ON: On
 2BF
FAN_DUTY % Fan control module control duty value Calculation Idle
  • ECT is 30 °C {86 °F} : 0%
  • ECT is 100 °C {212 °F} : 30%
 2AQ
FAN1 Off/On Cooling fan relay operation status Calculation
  • Cooling fan relay off: Off
  • Cooling fan relay on: On
 2BA
FCL (1) Off/On Check fuel cap warning light illumination status Calculation
  • Check fuel cap warning light not illuminated: Off
  • Check fuel cap warning light illuminated: On
 -
FIA - Fuel injection amount Calculation
  • Displays fuel injection amount Idle (after warm up)
    • ECT is 90 °C {194 °F} : Approx. 6
 -
FLI % Fuel level Calculation
  • Fuel gauge level F: Approx. 100%
  • Fuel gauge level E: Approx. 0%
 CAN (2AK, 2AL)
FP Off/On Fuel pump relay operation status Calculation
  • Ignition switched ON (engine off) : Off
  • Cranking: On
  • Idle (after warm up) : On
 2BE
FP_DUTY % Fuel pump control module control duty value Calculation
  • Ignition switched ON (engine off) : Approx. 55.74%
  • Cranking: Approx. 95%
  • Idle (after warm up) : Approx. 55.74%
 2AP
FTP (1) Pa {KPA}, mBar {BAR}, psi, in H20 Fuel tank pressure Calculation
  • Displays fuel tank pressure
 2M
V Fuel tank pressure sensor voltage Input
  • Fuel tank pressure is equal to barometric pressure: Approx. 2.6 V
FUEL_LO_P V Low fuel pressure sensor voltage Input
  • Ignition switched ON (engine off) : 1.2-1.8 V
  • Cranking: 2.68-3.28 V
  • Racing (during fuel pressure control) : 1.74- 2.74 V
 1M
FUEL_LO_T °C, °F Fuel temperature inside the fuel supply line Converted value
  • Displays the fuel temperature inside the fuel supply line
 1AH.
V Fuel temperature sensor voltage Input
  • Fuel temperature sensor (25 °C {77 °F}) : Approx. 3.35 V (voltage decreases due to fuel temperature increase)
FUEL_P_DSD KPa {MPA}, mBar {BAR}, psi, in H20 Target fuel pressure (high pressure fuel pump) Calculation
  • Displays target fuel pressure (high pressure fuel pump) Ignition switched ON (engine off)
    • Fuel pressure: Approx. 12 MPa {122 kgf/cm2 , 1740 psi} Idle (after warm up)
    • ECT is 91 °C {196 °F} : Fuel pressure is 3. 3-3.8 MPa {34-38 kgf/cm2 , 479-551 psi}
 -
FUEL_PRES KPa {MPA}, mBar {BAR}, psi, in H20 Fuel pressure input from high fuel pressure sensor Calculation
  • Displays fuel pressure
 1BO
V High fuel pressure sensor voltage Input Ignition switched ON (engine off)
  • Fuel pressure is approx. 16.91 MPa {172.4 kgf/cm2 , 2453 psi} : Approx. 2.91 V Idle (after warm up)
  • Fuel pressure is 3. 44-3.95 MPa {35.1-40.2 kgf/cm2 , 499-572 psi} : 0.98-1.05 V (ECT is 90 °C {194 °F})
FUELPW Sec Fuel injection pulse width (fuel injector energizing time) output to fuel injector Calculation
  • Idle (after warm up) : Approx. 1.71 ms
  • Racing (engine speed is 2, 000 RPM) : Approx. 1.35 ms
  • Racing (engine speed is 4, 000 RPM) : Approx. 1.21 ms
 No. 1: 1DO/1 DP No. 2: 1DW/1 DX No. 3: 1EA/1E B
No. 4: 1DS/1DT
FUELSYS OL/CL/OL_Drive/OL_Fault/CL_Fault Feedback status of fuel injection control is displayed OL: Feedback control is disabled at cold engine start CL: During feedback control by A/F sensor and HO2S OL_Drive: While feedback control is stopped OL_Fault: Feedback control is disable due to system malfunction CL_Fault: During feedback control with either A/F sensor or HO2S having a malfunction Calculation
  • Idle (after warm up) : OL or CL
  • Racing (engine speed is 2, 000 RPM) : CL
  • Deceleration fuel cut (accelerator pedal released from engine speed of 4, 000 RPM or more) : OL-Drive
 -
GEAR Unknown/1st/2nd/3rd/4th/5t h/6th/Not in P/Park/Neutral/Drive/Reverse Gear commanded Calculation
  • Selector lever at P position: Park
  • Selector lever at R position: Reverse
  • Selector lever at N position: Neutral
  • Selector lever is in D or M position while vehicle is stopped: 1st
 CAN (2AK, 2AL)
HTR11 Off/On A/F sensor heater operation status Calculation
  • Ignition switched ON (engine off) : Off
  • Idle (after warm up) : On
 1BY
% A/F sensor heater control duty value Calculation
  • Ignition switched ON (engine off) : 0%
  • Idle (after warm up) : 32-34%
HTR12 Off/On HO2S heater operation status Calculation
  • Ignition switched ON (engine off) : Off
  • Idle (after warm up) : On
 2C
% HO2S heater control duty value Calculation
  • Ignition switched ON (engine off) : 0%
  • Idle (after warm up) : 41-48%
IAT °C, °F Intake air temperature (No. 1) input from IAT sensor No. 1 Calculation
  • Displays IAT (No. 1)
 2AX
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
IAT2 °C, °F Intake air temperature (No. 2) input from IAT sensor No. 2 Calculation
  • Displays IAT (No. 2)
 1BN
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 Off/On Gears are engaged Calculation
  • Selector lever is in R, D, or M position: On
  • Except above: Off
 CAN (2AK, 2AL)
INLET_PRES KPa {MPA}, mBar {BAR}, psi, in H20 Air intake pipe pressure input from boost pressure sensor Calculation
  • Displays air intake pipe pressure
 2AS
V Boost pressure sensor voltage Input
  • Ignition switched ON (engine off) (boost pressure:101 kPa {1.03 kgf/cm2 , 14.6 psi}) : Approx. 4.12 V
  • Idle (after warm up) (boost pressure: 33 kPa {0.34 kgf/cm2 , 4. 8 psi}) : Approx. 1.9 V
  • Racing (engine speed is 2, 000 RPM) (MAP: 26 kPa {0.27 kgf/cm2 , 3.8 psi}) : Approx. 1.23 V
INT_CO_TEMP °C, °F Charged intake air temperature input from boost air temperature sensor Calculation
  • Displays charged intake air temperature
 2U
IVS Off Idle/Idle Idle flag Calculation
  • Racing: Off Idle
  • Idle: Idle
 -
KNOCKR ° (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 (after warm up) : 0°
 -
LOAD % Ratio of actual amount of intake air to the maximum air charging amount (mass volume) of cylinder Calculation
  • Idle (after warm up) : Approx. 22.35%
  • Racing (engine speed is 2, 000 RPM) : Approx. 17.25%
  • Racing (engine speed is 4, 000 RPM) : Approx. 19.21%
 -
LONGFT1 % Fuel learning correction amount estimated based on A/F sensor signal Calculation
  • Idle (after warm up) : Approx. -6.25%
  • Racing (engine speed is 2, 000 RPM) : Approx. -3.9%
  • Racing (engine speed is 4, 000 RPM) : Approx. -3.9%
 -
LONGFT12 % Fuel learning correction amount estimated based on HO2S signal Calculation
  • Idle (after warm up) : 0%
 -
LOW_OIL Never Detected/Detected Engine oil pressure condition
  • Never Detected: Engine oil pressure is high
  • Detected: Engine oil pressure is low
 Calculation
  • Ignition switched ON (engine off) : Detected
  • Idle (after warm up) : Detected
  • Racing (engine speed is 2, 000- 4, 000 RPM) : Never Detected
 1AY
LRN_KCS - Knock control system learning value Calculation
  • Displays knock control system learning value
 -
MAF g/Sec Mass air flow input from MAF sensor Calculation
  • Displays MAF
 2BC
V MAF sensor voltage Input
  • Ignition switched ON (engine off) (MAF: 0.59 g/s {0.078 lb/min}) : Approx. 0.72 V
  • Idle (after warm up) (MAF: 2.17 g/s {0.287 lb/min}) : Approx. 0.97 V
  • Racing (engine speed is 2, 000 RPM) (MAF: 4.73 g/s {0.626 lb/min}) : Approx. 1.26 V
MAP KPa {MPA}, mBar {BAR}, psi, in H20 Manifold absolute pressure input from MAP sensor Calculation
  • Displays MAP
 1BD
MAP_V V MAP sensor voltage Input
  • Ignition switched ON (engine off) (MAP:101 kPa {1.03 kgf/cm2 , 14.6 psi}) : Approx. 1.81 V
  • Idle (after warm up) (MAP: 33 kPa {0.34 kgf/cm2 , 4. 8 psi}) : Approx. 0.91 V
  • Racing (engine speed is 2, 000 RPM) (MAP: 26 kPa {0.27 kgf/cm2 , 3.8 psi}) : Approx. 0.83 V
MF_CAT1 - 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) Calculation
  • Displays number of misfires corresponding to possible catalytic converter damage (No. 1 cylinder)
 -
MF_CAT_2 - 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) Calculation
  • Displays number of misfires corresponding to possible catalytic converter damage (No. 2 cylinder)
 -
MF_CAT_3 - 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) Calculation
  • Displays number of misfires corresponding to possible catalytic converter damage (No. 3 cylinder)
 -
MF_CAT_4 - 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) Calculation
  • Displays number of misfires corresponding to possible catalytic converter damage (No. 4 cylinder)
 -
MF_CAT_FCC - Threshold of malfunction determination for number of misfires (total number in all cylinders) leading to catalytic converter temperature increase Calculation
  • Displays number of misfire determinations (for catalytic converter)
 -
MF_CAT_TTL - Number of misfires (total number in all cylinders) leading to catalytic converter temperature increase Calculation
  • Displays number of misfires corresponding to possible catalytic converter damage (total)
 -
MF_EMI1 - Number of misfires in No. 1 cylinder under conditions required by emission regulations Calculation
  • Displays number of misfires possibly affecting emission (No. 1 cylinder)
 -
MF_EMI_2 - Number of misfires in No. 2 cylinder under conditions required by emission regulations Calculation
  • Displays number of misfires possibly affecting emission (No. 2 cylinder)
 -
MF_EMI_3 - Number of misfires in No. 3 cylinder under conditions required by emission regulations Calculation
  • Displays number of misfires possibly affecting emission (No. 3 cylinder)
 -
MF_EMI_4 - Number of misfires in No. 4 cylinder under conditions required by emission regulations Calculation
  • Displays number of misfires possibly affecting emission (No. 4 cylinder)
 -
MF_EMI_FCC - Threshold of malfunction determination for number of misfires (total number in all cylinders) under conditions required by emission regulations Calculation
  • Displays number of misfire determinations (for emission)
 -
MF_EMI_TTL - Number of misfires (total number in all cylinders) under conditions required by emission regulations Calculation
  • Displays number of misfires possibly affecting emission (total)
 -
MIL Off/On Check engine light illumination status Calculation
  • Check engine light not illuminated: Off
  • Check engine light illuminated: On
 -
MIL_DIS km, ft, mi Travelled distance since check engine light illuminated Calculation
  • Displays travelled distance since check engine light illuminated
 -
O2S11 μA A/F sensor current Input
  • Idle (after warm up) : 0-50 μA
  • Deceleration fuel cut (accelerator pedal released from engine speed of 4, 000 RPM or more) : Approx. 3.84 mA
 1C
O2S12 V HO2S voltage Input
  • Idle (after warm up) : 0-1.0 V
  • Deceleration fuel cut (accelerator pedal released from engine speed of 4, 000 RPM or more) : Approx. 0 V
 2AI/2A J
OIL_LEVEL mm, in Engine oil level Converted value
  • Displays the engine oil level
 LIN (2BG)
OIL_P_DUTY % Engine oil pressure control circuit duty cycle Output
  • Ignition switched ON (engine off) : Approx. 0%
  • Idle: Approx. 54.43%
  • Racing (engine speed 4, 000 RPM) : Approx. 0%
 1BM
OIL_P_SOL Off/On Engine oil solenoid valve operation status Calculation
  • ECT below 98 °C {208 °F} and engine speed below 4, 000 RPM: On
  • ECT above 98 °C {208 °F} or engine speed above 4, 000 RPM: Off
 1BM
OIL_PRES V Engine oil pressure sensor voltage Input
  • Displays engine oil pressure sensor voltage
 1AY
OIL_TEMP °C, °F Engine oil temperature Converted value
  • Displays engine oil temperature
 1AU
°C, °F Engine oil temperature (estimated) Converted value
  • Displays estimated engine oil temperature
V Engine oil temperature sensor voltage Input
  • Displays engine oil temperature sensor voltage
PN_SW Open/Closed Parking/neutral Calculation
  • Selector lever at P position or N position: Closed
  • Except above: Open
 CAN (2AK, 2AL)
RO2FT1 % Fuel correction amount based on HO2S signal including SHRTFT12 and LONGFT12 Calculation
  • Idle (after warm up) : Approx. 0%
  • Deceleration fuel cut (accelerator pedal released from engine speed of 4, 000 RPM or more) : Approx. 3.99%
 -
RPM RPM Engine speed Calculation
  • Displays engine speed
 1AA
SEGRP - EGR valve stepping motor position Calculation
  • Displays EGR valve stepping motor position
 -
SEGRP DSD % Desired EGR valve position Calculation
  • Displays EGR valve position
 -
SHRTFT1 % Fuel feedback correction amount estimated based on A/F sensor signal Calculation
  • Idle (after warm up) : Approx. 0%
  • Racing (engine speed is 2, 000 RPM) : Approx. 1.56%
  • Racing (engine speed is 4, 000 RPM) : Approx. -4.68%
 -
SHRTFT12 % Fuel feedback correction amount estimated based on HO2S signal Calculation
  • Idle (after warm up) : 0%
 -
SPARKADV ° (deg) Ignition timing Calculation
  • Displays ignition timing
 -
TH_M (1) - Thermostat monitor Calculation
  • Indicates heat radiation ratio (heat radiation when thermostat is malfunctioning/h eat radiation when thermostat is normal) when thermostat monitoring is finished
 -
°C, °F Engine coolant temperature when thermostat monitoring is finished Calculation
  • Indicates engine coolant temperature when thermostat monitoring is finished
TH_M_MAX (1) - Thermostat monitor max Calculation
  • Indicates upper limit of heat radiation ratio (heat radiation when thermostat is malfunctioning/h eat radiation when thermostat is normal) for thermostat monitoring execution
 -
°C, °F Upper limit of engine coolant temperature for thermostat monitoring execution Calculation
  • Indicates upper limit of engine coolant temperature for thermostat monitoring execution
TH_M_MIN (1) - Thermostat monitor min Calculation
  • Indicates lower limit of heat radiation ratio (heat radiation when thermostat is malfunctioning/h eat radiation when thermostat is normal) for thermostat monitoring execution
 -
°C, °F Lower limit of engine coolant temperature for thermostat monitoring execution Calculation
  • Indicates lower limit of engine coolant temperature for thermostat monitoring execution
TP_REL % Throttle valve opening angle (relative value at throttle valve fully close timing as the start point Calculation
  • Accelerator pedal released: Approx. 12%
  • Accelerator pedal fully depressed: Approx. 82%
 -
TP_UP_DSD_P KPa {MPA}, mBar {BAR}, psi, in H20 Desired turbocharger boost pressure Calculation
  • Displays turbocharger boost pressure
 2AS
TP_UP_TEMP V Throttle upstream temperature sensor voltage Input
  • TP_UP_TEMP is 20 °C {68 °F} : Approx. 3.57 V
  • TP_UP_TEMP is 40 °C {104 °F} : Approx. 2.70 V
  • TP_UP_TEMP is 60 °C {140 °F} : Approx. 1.87 V
 2U
TP1 % Throttle valve position No. 1 Calculation
  • Accelerator pedal released: Approx. 22%
  • Accelerator pedal fully depressed: Approx. 92%
 1AZ
V TP sensor No. 1 voltage Input
  • Accelerator pedal released: Approx. 1.11 V
  • Accelerator pedal fully depressed: Approx. 4.59 V
TP2 % Throttle valve position No. 2 Calculation
  • Accelerator pedal released: Approx. 22%
  • Accelerator pedal fully depressed: Approx. 92%
 1BE
V TP sensor No. 2 voltage Input
  • Accelerator pedal released: Approx. 3.92 V
  • Accelerator pedal fully depressed: Approx. 0.41 V
TPCT V TP sensor No. 1 minimum voltage at CTP Calculation
  • Ignition switched ON (engine off) : Approx. 0.5 V
 1AZ
TPCT2 V TP sensor No. 2 minimum voltage at CTP Calculation
  • Ignition switched ON (engine off) : Approx. 4.5 V
 1BE
VEV_OIL_P Off/On Three way solenoid valve operation status Output
  • Three way solenoid valve fully closed: Off
  • Three way solenoid valve fully open: On
 1BH
VPWR V Battery positive voltage Input
  • Displays battery voltage
 2O
VSS KPH, MPH Vehicle speed Calculation
  • Displays vehicle speed
 CAN (2AK, 2AL)
VT_EX_ACT ° (deg) Actual exhaust variable valve timing control
  • Retard amount from max advance position
 Calculation
  • Displays actual exhaust valve timing
 1Q
VT_EX_DES ° (deg) Target exhaust variable valve timing control
  • Retard amount from max advance position
 Calculation
  • Displays desired exhaust valve timing
 -
VT_EX_DUTY % OCV control duty value Calculation
  • Idle (after warm up) : 0%
  • Racing (engine speed is 2, 000 RPM) : Approx. 40%
 1AS
VT_IN_ACT ° (deg) Actual intake variable valve timing control
  • Advance amount from max retard position
 Calculation
  • Displays actual intake valve timing Idle (after warm up)
    • Approx. 57° Racing (engine speed is 2, 000 RPM)
    • Approx. 84°
 1V
VT_IN_DES ° (deg) Target intake variable valve timing control
  • Advance amount from max retard position
 Calculation
  • Displays desired intake valve timing Idle (after warm up)
    • Approx. 0° Racing (engine speed is 2, 000 RPM)
    • Approx. 29°
 -
WGP V Wastegate valve position sensor voltage Calculation
  • Displays the wastegate valve position sensor voltage
 1BJ
WGV_ACT % Wastegate valve position control actual value Converted value
  • Displays the wastegate valve position control actual value
 1BJ
WGV_DSD % Wastegate valve position control desired value Input
  • Displays the wastegate valve position control desired value
 -
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