Display Current Engine Data

NOTE:

For detailed operation procedures, refer to "Application help".
A list of the support data is shown in the following table.

On «Start» display, select «Diagnosis».
On «Vehicle selection» display, input the vehicle information and select «Confirmed».
On «Main Menu» display, select «Each System Check».
On «Select System» display, select «Engine Control System».
On «Select Function» display, select «Data Monitor».

Display	Contents	Note (at idling)	Remarks
Engine Speed	Calculated from crankshaft position sensor signal.	675 rpm	rpm
Mass Air Flow	Amount of intake air calculated from air flow sensor output value.	2.5 g/s	g/s or lb/m
Vehicle Speed	Value calculated from vehicle speed sensor output value.	0 km/h	km/h or MPH
Throttle Opening Angle	Throttle valve opening angle (in percentage) calculated from throttle position sensor output value.	13%	%
Accel opening angle	Accelerator pedal opening angle (in percentage) calculated from accelerator pedal position sensor output value.	0.0%	%
A/F Sensor #1	Actual lambda value calculated from front A/F sensor output value. (RH bank)	1.0	-
A/F Sensor #2	Actual lambda value calculated from front A/F sensor output value. (LH bank)	1.0	-
Ignition Timing Advance for #1 Cylinder	Ignition timing control value for No. 1 cylinder. Calculated from rotation speed, intake manifold pressure, intake air temperature, water temperature, and data from knock sensor etc.	14°	°
Engine Coolant Temperature	Value calculated from engine coolant temperature sensor output value.	96°C	°C or °F
Fuel Injection #1 Pulse	Control value of fuel injection time by engine control module. (RH bank)	2.56 ms	ms
Short Term Fuel Trim-Bank1	Air fuel ratio correction control value for the front.	0.8%	%
Short term fuel trim B2	Air fuel ratio correction control value for the front.	0.0%	%
Long Term Fuel Trim-Bank1	Air fuel ratio learning control value for the front.	1.6%	%
Long term fuel trim B2	Air fuel ratio learning control value for the front.	0.0%	%
Learned Ignition Timing	Ignition timing learning value. Advance or retard angle amount when knocking occurs.	0.0 deg	deg
Intake Manifold Absolute Pressure	Value calculated from the intake manifold pressure sensor output.	32 kPa	kPa, mmHg, inHg or psig
Oxygen sensor #12	Rear oxygen sensor output voltage value.	0.7 V	V
Oxygen sensor #22	Rear oxygen sensor output voltage value.	0.795 V	V
VVT Adv. Ang. Amount R	Intake AVCS advance angle amount. (RH bank)	0 deg	deg
VVT Advance Target Angle Amount R	AVCS target advance angle amount for the RH bank on the intake side. This value is compared with the AVCS advance angle amount R to judge if the intake AVCS is operating properly. Response delays during the transition time.	0 deg	deg
VVT Adv. Ang. Amount L	Intake AVCS advance angle amount. (LH bank)	0 deg	deg
VVT Advance Target Angle Amount L	AVCS target advance angle amount for the LH bank on the intake side. This value is compared with the AVCS advance angle amount L to judge if the intake AVCS is operating properly. Response delays during the transition time.	0 deg	deg
Exh. VVT Retard Ang. R	AVCS actual retard angle amount for the RH bank on the exhaust side.	0 deg	deg
Ex VVT Retard Target Angle R	AVCS target retard angle amount for the RH bank on the exhaust side. This value is compared with the exhaust AVCS retard angle amount R to judge if the AVCS is operating properly. Response delays during the transition time.	0 deg	deg
Exh. VVT Retard Ang. L	AVCS actual retard angle amount for the RH bank on the exhaust side.	0 deg	deg
Ex VVT Retard Target Angle L	AVCS target retard angle amount for the LH bank on the exhaust side. This value is compared with the exhaust AVCS retard angle amount L to judge if the AVCS is operating properly. Response delays during the transition time.	0 deg	deg
VVT Initial Position Learning Value #1	AVCS initial position learning value for the RH bank on the intake side. Controls the angle against a standard angle. Deviation learning is performed based on this standard value.	29.9°CA	°CA
VVT Initial Position Learning Value #2	AVCS initial position learning value for the LH bank on the intake side. Controls the angle against a standard angle. Deviation learning is performed based on this standard value.	27.7°CA	°CA
VVT Ex Initial Position Learning Value #1	AVCS initial position learning value for the RH bank on the intake side. Controls the angle against a standard angle. Deviation learning is performed based on this standard value.	0	°CA
VVT Ex Initial Position Learning Value #2	AVCS initial position learning value for the RH bank on the intake side. AVCS initial position learning value for the RH bank on the intake side. Controls the angle against a standard angle. Deviation learning is performed based on this standard value.	0	°CA
ECU ACC	ECM input power supply voltage.	14.176 V	V
Target engine speed	ECM target engine speed.	675 rpm	rpm
Target Equivalence Ratio	Target air fuel ratio. (Lambda) It usually becomes 1.0 aiming at a theoretical air fuel ratio.	0.996	-
Engine Oil Temperature	Value calculated from the VVL system engine oil temperature and the oil temperature sensor output.	96°C	°C or °F
Intake Air Temperature	Intake air temperature calculated from the intake air temperature sensor output value.	50°C	°C or °F
Ambient Temperature	Ambient temperature that ECM estimates by input values from the engine coolant temperature sensor or the intake air temperature sensor etc.	Ambient Air Temperature	°C or °F
Load Value	Current rate of air amount. Value assuming that the air amount at the current engine speed with the throttle fully open is 100%.	15.3%	%
Absolute Load Value	Percentage of current intake air amount against the maximum air intake amount of the engine. For non-turbo engine, the value can be close to 95%, but will never be 100%. For turbo engine, this value may exceed 100% due to a boost pressure.	14.9%	%
Atmospheric Pressure	Atmospheric pressure calculated from atmospheric pressure sensor output value.	101 kPa	kPa, mmHg, inHg or psig
Mani. Relative Pressure	Pressure value calculated from manifold pressure sensor output value. (Absolute value) (Air intake absolute pressure - Atmospheric pressure)	-69	kPa, mmHg, inHg or psig
Target Throttle Opening Angle	Target throttle opening angle calculated by ECM.	16 deg	deg
Actual Throttle Opening Angle	Actual throttle opening angle. Calculated by ECM based on the throttle sensor input value.	16 deg	deg
Target Throttle Opening Angle	Control value of the target throttle opening angle calculated by ECM. Shows the target value of opening angle in percentage when 0% means fully closed and 100% means fully open.	0.0%	%
Relative Throttle Position	Current throttle opening angle in percentage against the throttle voltage (full range) that has reflected the full close point learning value. The value will be approx. 70% at full open.	1.6%	%
Throttle Motor Voltage	Power supply voltage of the throttle motor. ECM input value.	14.2 V	V
Main-Throttle Sensor	Voltage value of the main throttle position sensor. ECM input value.	0.66 V	V
Sub-Throttle Sensor	Voltage value of the sub throttle position sensor. ECM input value.	1.52 V	V
Throttle Motor Duty	Throttle motor control duty ratio. ECM output value.	-14%	%
Main-Accelerator Sensor	Voltage value of the main accelerator pedal position sensor. ECM input value.	0.66 V	V
Sub-Accelerator Sensor	Voltage value of the sub accelerator pedal position sensor. ECM input value.	0.66 V	V
Idle Mass Air Flow	Air volume correction value to maintain the target rotation speed in each water temperature. Corrects air volume when the water temperature changes. It includes values of the feedback correction amount and the learning value.	3.00 g/s	g/s
Idle Mass Air Flow Feedback correct	Air volume compensation value of ISC as a feedback correction to stabilize the idling speed.	0.00 g/s	g/s
ISC Learning Value	Learning control value of ISC. After warming up, learning control is executed to reduce the ISC feedback correction to zero, in order to stabilize the engine speed.	0.55 g/s	g/s
Idle A/C load correct	Air volume correction when the air conditioner is turned on. ECM corrects the air volume against the set target rotation speed when the air conditioner is turned ON.	0.86 g/s	g/s
Electric Load Feedback Val	Air volume correction when an electric load is turned on. ECM corrects the air volume against the set target rotation speed when the electric load is turned ON.	0.10 g/s	g/s
Idle dirty throttle correct	Calculates the ISC learning values on a long-term basis, and judges as an ISC dirty throttle correction when the learning value increases gradually. When carbon or other dirt accumulates on the ISC throttle and make the throttle dirty, air volume decreases when the throttle is fully closed. The ECM increases the amount of compensation air to keep the rotation speed.	0 g/s	g/s
Air Flow Sensor Voltage	Air flow sensor output value. Input value to ECM.	1.2 V	V
Fuel Level	Fuel level sensor output value. ECM input value. Total value of main and sub.	-	%
Fuel level resistance	Fuel level sensor resistance value. ECM input value.	-	Ω
Fuel Pump Duty	Display of the fuel pump duty ratio. Supply voltage of the fuel pump is under a DUTY control by the ECM. This value shows the DUTY ratio. While the amount of fuel supply is small, such as during idling, the DUTY value is lowered to decrease the supply voltage.	59	%
Commanded Evap Purge	Evaporative purge rate displayed by the OBD.	0%	%
CPC Valve Duty Ratio	Purge control solenoid valve control duty ratio. ECM output value.	0%	%
Purge Density Learn Value	Leaning value of the evaporation gas density purged from the canister. ECM displays the estimated leaning value.	0.0%	%
Evap Purge Flow	Purge ratio when the evaporation gas is purged from the canister. ECM performs a DUTY drive to the purge solenoid valve. The amount of gas actually purged will vary depending on the vacuum pressure difference before/after the solenoid valve. Purge ratio displayed here shows current purge amount in percentage against the maximum purge amount when the maximum vacuum pressure is applied.	0.0%	%
ALT Duty	Electric power generation voltage is calculated by the ECM. Indicator voltage value from ECM to alternator is under a DUTY control.	69%	%
Alternator control mode	Control mode of the electric power generation voltage by the alternator. Low: Mode that controls the battery charge Mid: Mode where the battery is not charged and discharged High: Mode that fixes the voltage when the battery is charged or when an electric load is turned on ExHigh: Mode where the battery is charged during deceleration	High/Mid/Low	-
Battery Terminal Voltage	Voltage value between battery terminals input from the battery sensor.	14.0 V	V
Battery Charge/Discharge Current	Battery charge/discharge current value input from the battery sensor. When the value is positive: The current flows to a direction that the battery is charged. When the value is negative: The current flows to a direction that the battery is discharged.	3.6 A	A
Estimated Battery Temperature	Battery temperature input from the battery sensor.	45°C	°C
Remaining Battery Capacity	Remaining amount of battery estimated by ECM.	89.0%	%
Knocking Correction	Retard angle amount when knocking occurs. Partially learning value of ignition timing learning value.	0.0 deg	deg
Fuel system for Bank 1	Feedback status of air fuel ratio. Open: Feedback is stopped Closed: Feedback control is being performed	Cl_normal	-
Fuel system for Bank 2	Feedback status of air fuel ratio. Open: Feedback is stopped Closed: Feedback control is being performed	Cl_normal	-
A/F Sensor #1 Current	Front A/F sensor output current value. ECM input value.	-0.2 - 0.2 mA	mA
A/F Sensor #2 Current	Front A/F sensor output current value. ECM input value.	0.00 mA	mA
A/F Sensor #1 Resistance	Front A/F sensor resistance value calculated from the front A/F sensor output value.	50 Ω	Ω
A/F Sensor #2 Resistance	Front A/F sensor resistance value calculated from the front A/F sensor output value.	50 Ω	Ω
A/F Correction #3	Sub correction value of A/F feedback control	0.00%	%
No. of EGR steps	Number of EGR valve steps. Number of stepping motor steps. ECM output value.	0 STEP	STEP
Commanded EGR	EGR setting value is calculated by ECM and the target value is displayed.	0%	%
EGR Error	Displays a difference (%) between the target EGR steps and the actual EGR steps. When the value is positive, it opens more than the target value. When the value is negative, it does not reach to the target value.	0%	%
OCV Duty R	Oil control solenoid control duty ratio. (RH bank) ECM output value.	40 - 60%	%
OCV Duty L	Oil control solenoid control duty ratio. (LH bank) ECM output value.	40 - 60%	%
OCV Current R	Actual current value of the oil control solenoid. (RH bank) ECM input value.	550 - 850 mA	mA
OCV Current L	Actual current value of the oil control solenoid. (LH bank) ECM input value.	550 - 850 mA	mA
Exh. OCV Duty R	Exhaust side oil control solenoid control duty ratio on the RH bank. ECM output value.	9.4%	%
Exh. OCV Duty L	Exhaust side oil control solenoid control duty ratio on the LH bank. ECM output value.	9.4%	%
Exh. OCV Current R	Actual current value of the exhaust side oil control solenoid on the RH bank, and engine input value.	64 mA	mA
Exh. OCV Current L	Actual current value of the exhaust side oil control solenoid on the LH bank, and engine input value.	64 mA	mA
Roughness Monitor #1	#1 cylinder roughness monitor count value.	0	-
Roughness Monitor #2	#2 cylinder roughness monitor count value.	0	-
Roughness Monitor #3	#3 cylinder roughness monitor count value.	0	-
Roughness Monitor #4	#4 cylinder roughness monitor count value.	0	-
Roughness Monitor #5	#5 cylinder roughness monitor count value.	0	-
Roughness Monitor #6	#6 cylinder roughness monitor count value.	0	-
Cylinder Monitor #1	Calculates the rotation speed between certain angles on the #1 cylinder. If the rotation speed is low compared to monitor values of other cylinders, it means that the combustion is not ideal in that cylinder.	-	rpm
Cylinder Monitor #2	Calculates the rotation speed between certain angles on the #2 cylinder. If the rotation speed is low compared to monitor values of other cylinders, it means that the combustion is not ideal in that cylinder.	-	rpm
Cylinder Monitor #3	Calculates the rotation speed between certain angles on the #3 cylinder. If the rotation speed is low compared to monitor values of other cylinders, it means that the combustion is not ideal in that cylinder.	-	rpm
Cylinder Monitor #4	Calculates the rotation speed between certain angles on the #4 cylinder. If the rotation speed is low compared to monitor values of other cylinders, it means that the combustion is not ideal in that cylinder.	-	rpm
Cylinder Monitor #5	Calculates the rotation speed between certain angles on the #5 cylinder. If the rotation speed is low compared to monitor values of other cylinders, it means that the combustion is not ideal in that cylinder.	-	rpm
Cylinder Monitor #6	Calculates the rotation speed between certain angles on the #6 cylinder. If the rotation speed is low compared to monitor values of other cylinders, it means that the combustion is not ideal in that cylinder.	-	rpm
Ignition SW ON Count	Time stamp information. Number of times the ignition is ON since the vehicle was manufactured. The number of ignition ON is also recorded when a trouble code is recorded, so the comparison with that number will show you how many times the ignition has turned on since the diagnostic code was recorded.	-	times
Count	Time stamp information. Each unit individually counts the elapsed time since the ignition is turned ON. Master integrated unit and ECM synchronize with the master time. When synchronized: "Common" When not synchronized: "Originally"	Common	-
Time Count	Time stamp information. Elapsed time after ignition ON. When a trouble code is recorded, the elapsed time after ignition ON is also recorded.	-	ms
Time Since Engine Start	Elapsed time after starting the engine.	-	sec
Elapsed Time After Engine Run	Elapsed time after starting the engine. This value is used for control.	-	sec
Accumulation Time After Engine Run	Cumulative time after starting the engine. For models with Auto Start Stop, cumulative time after the first engine start. Time is not accumulated while the engine stops due to the Auto Start Stop system.	-	sec
Initial Engine Oil Temp.	Oil temperature when starting the engine, which is input to ECM from the oil temperature sensor.	-	°C
Initial Engine Coolant Temp.	Water temperature when starting the engine, which is input to ECM from the water temperature sensor.	-	°C
Initial Intake Air Temp.	Intake air temperature when starting the engine, which is input to ECM from the intake air temperature sensor.	-	°C
Engine Starting Time	Time needed since the cranking started till the judgment of engine start is complete.	-	ms
Start Mask Control Check 1	Information that shows whether the start prohibition control is executed on the engine side when starting. Values other than zero means that the control is executed to prohibit the engine start.	-	-
Soak Time	The time the vehicle has been left since the engine stopped. This value can be used to check how long the vehicle has left, by turning the ignition switch to ON after the engine stopped.	-	sec
Meter since DTC(s) cleared	Travel distance after DTC clear.	-	km or mile
Time while MIL lighted	Engine operating time from when the malfunction indicator light illuminated till when it went off.	-	min
Time since DTC(s) cleared	Elapsed time after DTC clear.	-	min
Number of Warm-ups since DTC(s) cleared	Number of warm ups after DTC clear. Shows the number of cycle, considering that 1 cycle is the time from when starting and warming the engine till when stopping the engine.	-	times
Lighted MI lamp history	Travel distance after the warning light illuminated.	-	km or mile
Odometer	ECM calculates the total cumulative travel distance from the vehicle speed, separately from the odometer in the combination meter. Small difference from the odometer will be possible, but if there is a big difference, ECM or the combination meter may need to be replaced.	-	km
Maximum Engine Speed at the time of Misfire detection caused by out of Fuel	Maximum engine speed during fuel cut by a fuel run-out judgment.	0	rpm
Maximum Intake Air Amount at the time of Misfire detection caused by out of Fuel	Maximum air amount during fuel cut by a fuel run-out judgment.	0	g/s
Number of Misfire detection caused by out of Fuel	Number of the occurrences of fuel run-out judgment.	0	times
Estimated Total Mileage at the time of first Misfire detection caused by out of Fuel	Estimated cumulative travel distance during fuel cut by a fuel run-out judgment.	0	km or mile
Fuel Cut Elps Time	Elapsed time after experienced high rotation speed.	0 sec	sec
Memorized Cruise Speed	Cruise control system target vehicle speed. (Set speed)	0 km/h	km/h or MPH
Catalyst Temperature #11	Estimated temperature of the front catalytic converter.	305.1	°C or °F
Catalyst Temperature #21	Estimated temperature of the front catalytic converter.	341.9	°C or °F
Type of fuel	Fuel information recorded in the ECM. (It's not the fuel information currently used.)	GAS	-
AT drive status	Neutral condition. Information input from the inhibitor switch.	NEUT	-
Evap System Vapor Pressure	Measured value of the evaporative emission system pressure. Pressure sensor input value.	101.43	kPa
X Mode	X mode ON or OFF status.	OFF	-
Neutral switch	Neutral switch signal. P or N range signal for AT. Value input to ECM.	Neutral	-
ETC Motor Relay	Drive signal to the electronic throttle motor relay. Set to "ON" when drive signal is output. ECM output value.	ON	-
Stop Light Switch	Stop light switch signal. Set to "ON" when the stop light illuminates. ECM input value.	OFF (when OFF)	-
Brake Switch	Brake switch signal. Set to "ON" when the brake pedal is depressed. ECM input value.	OFF (when OFF)	-
Idle Switch Signal	Idle signal. Set to "Idle" while idling.	Idle	-
Ignition switch	Ignition switch signal. Set to "ON" when the ignition switch is ON.	ON	-
A/C Compressor Signal	A/C compressor drive signal. Set to "ON" when the drive signal is output. ECM output value.	OFF (when OFF)	-
Radiator Fan Control	DUTY ratio used for the radiator fan DUTY control. ECM output value.	0	%
A/C Switch	Air conditioner switch signal. Set to "ON" when the air conditioner switch of the heater control is ON. ECM input value.	OFF (when OFF)	-
Variable Load Compressor Torque Value	Load value of the variable capacity air compressor that ECM inputs. The value that the air conditioner CM estimates and output.	-	Nm
Starter Switch	Starter switch signal. Set to "ON" when the starter is ON. ECM input value.	OFF	-
Rear Defogger SW	Rear defogger switch input signal. Set to "ON" when the switch is ON. ECM input value.	OFF (when OFF)	-
Blower Fan SW	Blower fan switch input signal. Set to "ON" when the switch is ON. ECM input value.	OFF (when OFF)	-
Light Switch	Light switch input signal. Set to "ON" when the switch is ON. ECM input value.	OFF (when OFF)	-
Wiper Switch	Wiper switch input signal. Set to "ON" when the switch is ON. ECM input value.	OFF (when OFF)	-
Delivery Mode Connector	Delivery mode terminal fuse installation status. ECM displays delivery mode status.	OFF	-
Knocking Signal	Knock sensor output signal. Judges if a knocking occurs or not. ECM input value.	OFF	-
Crankshaft Position Sig.	Crankshaft position sensor output signal. Set to "ON" when the engine is running, ECM input signal. ECM input signal.	ON	-
Camshaft Position Sig.	Camshaft position sensor output signal. Set to "ON" when the engine is running. ECM input signal.	ON	-
Ban of Torque Down VDC	Torque down prohibition notification signal to the vehicle dynamics control (VDC) module. Set to "OFF" when the prohibition signal is output. ECM output value.	ON	-
Request Torque Down VDC	Torque down request signal transmitted from the vehicle dynamics control (VDC) module. Set to "ON" when the request signal is sent. Vehicle dynamics control (VDC) ECM input signal.	OFF	-
Torque Permission Signal	Torque down permission notification signal to the transmission control module. Set to "ON" when the permission signal is output. ECM output value.	ON	-
SET/COAST Switch	Cruise control system SET/COAST SW signal. Set to ON when the switch is operated. ECM input signal.	OFF (when OFF)	-
SET/COAST Switch (Deep)	Cruise control system SET/COAST SW signal. Set to ON when the SET/COAST SW is pressed and held. ECM input value.	OFF	-
RESUME/ACCEL Switch	Cruise control system RESUME/ACCEL SW signal. Set to ON when the switch is operated. ECM input signal.	OFF (when OFF)	-
RESUME/ACCEL Switch (Deep)	Cruise control system RESUME/ACCEL SW signal. Set to ON when the RESUME/ACCEL SW is pressed and held. ECM input value.	OFF	-
Main switch	Cruise control system main switch signal. Set to "ON" when the switch is operated. ECM input signal.	OFF (when OFF)	-
distance change SW	ON/OFF status of the following distance setting switch used by ADA cruise control is displayed. (Model with EyeSight)	OFF (when OFF)	-
Cruise Control Cancel Switch Signal	Cruise control cancel switch signal of the cruise control system. Set to "ON" when the switch is operated. ECM input signal.	OFF (when OFF)	-
All Cylinders Fuel cut	Status under the fuel injection amount control where the fuel injection is cut off in all cylinders.	OFF	-
Immobilizer Fuel Cut Status	Status where the fuel injection is cut off by the command from immobilizer.	OFF	-
Shift Pattern Demand for Low Water Temperature	Shift pattern request sent from ECM to the transmission CM. When the water temperature is low, shift pattern change to the low speed side is requested to raise the catalyst temperature faster.	OFF	-
Oil level switch	Oil level switch signal. Set to "LOW level" when the amount of engine oil decreases. ECM input signal.	HIGH level	-
ELCM switching valve	Leak check valve assembly switching valve drive signal. Set to "Close" when closing the leak check valve assembly switching valve. ECM output value.	Open	-
ELCM pump	Leak check valve assembly pump drive signal. Set to "ON" when the leak check valve assembly decompression pump is activated. ECM output value.	OFF	-
AT turbine speed	Turbine rotation speed of the transmission. Turbine rotation speed is input from the transmission CM via CAN.	900	-
Lock Up Status	Lock-up status of the transmission. Lock up status is input from the transmission CM via CAN.	OPEN	-
P/N Signal	P/N status of the transmission. P/N range status is input from the transmission CM via CAN.	-	-
Front O2 #1 Rich Signal	Monitoring of the front oxygen sensor output. Displays "Rich" when the air fuel ratio is rich.	Rich	-
Front O2 #2 Rich Signal	Monitoring of the front oxygen sensor output. Displays "Rich" when the air fuel ratio is rich.	Rich	-
Ignition Control Check 1	Detailed status of the engine ignition control information.	90	-
Ignition Control Check 2	Detailed status of the engine ignition control information.	75	-
Alternator control check 1	Detailed status of charge control.	91	-
Alternator control check 2	Detailed status of charge control.	90.1	-
Alternator control check 3	Detailed status of charge control.	10.350	-
Alternator control check 4	Detailed status of charge control.	8.970	-
Alternator control check 5	Detailed status of charge control.	100	-
Alternator control check 6	Detailed status of charge control.	0	-
Alternator control check 7	Detailed status of charge control.	14.2	-
Alternator control check 8	Detailed status of charge control.	64	-
Alternator control check 9	Detailed status of charge control.	0	-
Alternator control check 1	Detailed status of charge control.	2	-
MIL Status	Malfunction indicator light illumination status. When judged as abnormal, an illumination command signal is sent from ECM to the combination meter.	OFF	-
Number of Diagnostic Code(s):	The number of trouble codes recorded in the ECM.	0	-
O2 Sensor #11	Installation status of the front oxygen sensor.	Support	-
O2 Sensor #12	Installation status of the rear oxygen sensor.	Support	-
O2 Sensor #21	Installation status of the front oxygen sensor.	Support	-
O2 Sensor #22	Installation status of the rear oxygen sensor.	Support	-
Short term fuel trim #12	Air fuel ratio correction control value for the rear.	0.0%	%
Short term fuel trim #22	Air fuel ratio correction control value for the rear.	0.0%	%
A/F Sensor #11	Air fuel ratio calculated from the front A/F sensor output value. (Lambda)	1.001	-
A/F Sensor #11	Output voltage of the front A/F sensor.	2.193 V	V
A/F Sensor #11	Air fuel ratio calculated from the front A/F sensor output value. (Lambda)	1.001	-
A/F Sensor #11	Front A/F sensor current value.	0.00	mA
A/F Sensor #21	Air fuel ratio calculated from the front A/F sensor output value. (Lambda)	0.997	-
A/F Sensor #21	Output voltage of the front A/F sensor.	2.192 V	V
A/F Sensor #21	Air fuel ratio calculated from the front A/F sensor output value. (Lambda)	0.997	-
A/F Sensor #21	Front A/F sensor current value.	-0.01 mA	mA
Absolute Throttle Pos.#2	Shows the sub throttle sensor voltage value in % against the full-range 5 V throttle sensor output voltage.	30.6%	%
Accelerator Pedal Pos.#1	Shows the main accelerator sensor voltage value in % against the full-range 5 V.	13.3%	%
Accelerator Pedal Pos.#2	Shows the sub accelerator sensor voltage value in % against the full-range 5 V.	13.3%	%
Relative Accelerator Pos.	Accelerator opening angle with a full close point learning value taken into consideration.	0%	%
Misfire monitoring(Supp)	Shows the support status of whether misfire diagnosis is executed or not.	YES	-
Misfire monitoring(Rdy)	Status of the misfire diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	YES	-
Fuel system monitoring(Supp)	Shows the support status of whether fuel system diagnosis is executed or not.	YES	-
Fuel system monitoring(Rdy)	Status of the fuel system diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	YES	-
Component monitoring(Supp)	Shows the support status of component diagnosis.	YES	-
Component monitoring(Rdy)	Status of the component diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	YES	-
Catalyst Diagnosis(Supp)	Shows the support status of catalyst diagnosis.	YES	-
Catalyst Diagnosis(Rdy)	Status of the catalyst diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	NO	-
Heated catalyst(Supp)	Shows the support status of heated catalyst diagnosis.	NO	-
Heated catalyst(Rdy)	Status of the heated catalyst diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	N/A	-
Evaporative purge system(Supp)	Shows the support status of evaporative purge system diagnosis.	NO	-
Evaporative purge system(Rdy)	Status of the evaporative purge system diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	N/A	-
Secondary air system(Supp)	Shows the support status of the secondary air system diagnosis.	NO	-
Secondary air system(Rdy)	Status of the secondary air system diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	N/A	-
A/C system refrigerant(Supp)	Shows the support status of A/C system refrigerant diagnosis.	NO	-
A/C system refrigerant(Rdy)	Status of the A/C system refrigerant diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	N/A	-
Oxygen sensor(Supp)	Shows the support status of oxygen sensor diagnosis.	YES	-
Oxygen sensor(Rdy)	Status of the oxygen sensor diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	NO	-
O2 Heater Diagnosis(Supp)	Shows the support status of oxygen sensor heater diagnosis.	YES	-
O2 Heater Diagnosis(Rdy)	Status of the oxygen sensor heater diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	YES	-
EGR system(Supp)	Shows the support status of EGR diagnosis.	YES	-
EGR system(Rdy)	Status of the EGR diagnosis. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	NO	-
Misfire monitoring(Enable)	Shows whether or not the execution condition of misfire diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	YES	-
Misfire monitoring(Comp)	Shows whether or not the continuous misfire diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	NO	-
Fuel system monitoring(Enable)	Shows whether or not the execution condition of fuel system diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	YES	-
Fuel system monitoring(Comp)	Shows whether or not the fuel system diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	NO	-
Component monitoring(Enable)	Shows whether or not the execution condition of component diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	YES	-
Component monitoring(Comp)	Shows whether or not the component diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	NO	-
Catalyst Diagnosis(Enable)	Shows whether or not the execution condition of catalyst diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	YES	-
Catalyst Diagnosis(Comp)	Shows whether or not the catalyst diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	NO	-
Heated catalyst(Enable)	Shows whether or not the execution condition of heated catalyst diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	N/A	-
Heated catalyst(Comp)	Shows whether or not the heated catalyst diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	N/A	-
Evaporative purge system(Enable)	Shows whether or not the execution condition of evaporative purge system diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	N/A	-
Evaporative purge system(Comp)	Shows whether or not the evaporative purge system diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	N/A	-
Secondary air system(Enable)	Shows whether or not the execution condition of the secondary air system diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	N/A	-
Secondary air system(Comp)	Shows whether or not the secondary air system diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	N/A	-
A/C system refrigerant(Enable)	Shows whether or not the execution condition of A/C system refrigerant diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	N/A	-
A/C system refrigerant(Comp)	Shows whether or not the A/C system refrigerant diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	N/A	-
Oxygen sensor(Enable)	Shows whether or not the execution condition of oxygen sensor diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	YES	-
Oxygen sensor(Comp)	Shows whether or not the oxygen sensor diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	NO	-
O2 Heater Diagnosis(Enable)	Shows whether or not the execution condition of oxygen heater diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	YES	-
O2 Heater Diagnosis(Comp)	Shows whether or not the oxygen heater diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	NO	-
EGR system(Enable)	Shows whether or not the execution condition of EGR diagnosis is met. YES: Diagnosis can be executed. NO or N/A: Diagnosis cannot be executed or is not supported.	YES	-
EGR system(Comp)	Shows whether or not the EGR diagnosis is completed. YES or N/A: Diagnosis is completed or not supported. NO: Diagnosis is not completed.	NO	-
OBD System	Shows the OBD regulation to be followed. This is the information recorded in the ECM, and it does not mean that the unit automatically judges the compliance to the OBD regulations.	OBD/OBD2	-