SFI SYSTEM(w/ Canister Pump Module)

DATA LIST

Tech Tips

Using the GTS to read the Data List allows the values or states of switches, sensors, actuators and other items to be read without removing any parts. This non-intrusive inspection can be very useful because intermittent conditions or signals may be discovered before parts or wiring is disturbed. Reading the Data List information early in troubleshooting is one way to save diagnostic time.

Note

In the table below, the values listed under "Normal Condition" are reference values. Do not depend solely on these reference values when deciding whether a part is faulty or not.
The values listed under "Normal Condition" are those of an inspection performed in NORMAL mode. The actual values may differ if inspected in ECO or SPORT mode.

Connect the GTS to the DLC3.
Turn the power switch on (IG).
Turn the GTS on.
Put the engine in Inspection Mode (2WD for measuring Exhaust Gas).

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Powertrain > Hybrid Control > Utility

Tester Display

Inspection Mode
Start the engine.
Warm up the engine.
Turn the A/C switch off.
Turn the power switch off.
Turn the power switch on (IG).
Turn the GTS on.
Enter the following menus: Powertrain / Engine / Data List.
Tech Tips
- To display the list box, press the pull down menu button next to Primary. Then select a measurement group.
- When you select a measurement group, the ECU data belonging to that group is displayed.
- Measurement Group List / Description
Read the Data List according to the display on the GTS.

Tech Tips

The title used for each group of Data List items in this repair manual does not appear on the GTS. However, the name in parentheses after the title, which is a Measurement Group, does appear on the GTS. When the name shown in parentheses is selected on the GTS, all of the Data List items listed for that group will be displayed.

Tester Display
Inspection Mode

Various Vehicle Conditions 1 (All Data)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Total Distance Traveled	Total distance traveled	Min.: 0 [km] (0 [mile]), Max.: 16777215 [km] (10425361 [mile])	-	-
Total Distance Traveled - Unit	Unit for total distance traveled	km or mile	-	-
Vehicle Speed	Vehicle speed	Min.: 0 km/h (0 mph), Max.: 255 km/h (158 mph)	Actual vehicle speed	This is the current vehicle speed.
Engine Speed	Engine speed	Min.: 0 rpm, Max.: 16383 rpm	950 to 1050 rpm: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control), park (P) selected	When the crankshaft position sensor is malfunctioning, "Engine Speed" is approximately 0 rpm or varies greatly from the actual engine speed.
Calculate Load	Load calculated by ECM	Min.: 0%, Max.: 100%	-	This is the engine load calculated based on the actual intake manifold pressure. Calculate Load = Actual intake manifold pressure / maximum intake manifold pressure x 100 (%) (For example, when the actual intake manifold pressure is the same as atmospheric pressure, Calculate Load is 100%.)
Vehicle Load	Vehicle load	Min.: 0%, Max.: 25700%	-	This is the engine intake air charging efficiency. Vehicle Load = Current intake airflow (g/rev.) / maximum intake airflow x 100 (%) Maximum intake airflow = Displacement (L) / 2 x 1.2 (g/rev.) Tech Tips Due to individual engine differences, intake air temperature, etc., the value may exceed 100%. Intake airflow (g/rev.) = Intake airflow (gm/sec) x 60 / Engine speed (rpm) (Intake airflow (gm/sec) is value of Mass Air Flow Sensor)
Mass Air Flow Sensor	Airflow rate from mass air flow meter sub-assembly	Min.: 0 gm/sec, Max.: 655.35 gm/sec	3.8 to 6.5 gm/sec: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control) 10.8 to 16.0 gm/sec: Warmed up engine, 2500 rpm (inspection mode [2WD for measuring Exhaust Gas])	This is the intake air amount measured by the mass air flow meter sub-assembly.
Atmospheric Pressure	Atmospheric pressure	Min.: 0 kPa(abs) [0 psi(abs)], Max.: 255 kPa(abs) [36.98 psi(abs)]	Equivalent to atmospheric pressure	This value is calculated based on the atmospheric pressure sensor. Standard atmospheric pressure: 101 kPa(abs) [14.65 psi(abs)] For every 100 m (328 ft.) increase in altitude, pressure drops by 1 kPa (0.15 psi). This varies depending on the weather.
Intake Manifold Absolute Pressure	Intake manifold absolute pressure	Min.: 0 kPa (0 psi), Max.: 2047.96 kPa (296.95 psi)	80 to 110 kPa (11.6 to 15.95 psi): Power switch on (IG) 20 to 40 kPa (2.9 to 5.8 psi): Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control)	This is the intake manifold pressure. This item is the pressure detected by the manifold absolute pressure sensor and is used for air fuel ratio control and EGR valve control. Tech Tips When the power switch is on (IG), the manifold absolute pressure and atmospheric pressure are approximately the same (standard atmospheric pressure = 101 kPa(abs) [14.65 psi(abs)]).
Coolant Temperature	Engine coolant temperature	Min.: -40°C (-40°F), Max.: 140°C (284°F)	75 to 100°C (167 to 212°F): After warming up	This is the engine coolant temperature. Tech Tips After warming up the engine, the engine coolant temperature will be 75 to 100°C (167 to 212°F). After a long soak, the engine coolant temperature, intake air temperature and ambient air temperature will be approximately equal. If the value is -40°C (-40°F), or higher than 135°C (275°F), the sensor circuit is open or shorted. Check if the engine overheats if the value indicated is higher than 135°C (275°F).
Intake Air Temperature	Intake air temperature	Min.: -40°C (-40°F), Max.: 140°C (284°F)	Equivalent to temperature at location of mass air flow meter sub-assembly	This is the engine intake air temperature. Tech Tips After a long soak, the engine coolant temperature, intake air temperature and ambient air temperature will be approximately equal. If the value is -40°C (-40°F), or higher than 128°C (262°F), the sensor circuit is open or shorted.
Ambient Temperature	Ambient temperature	Min.:-40°C (-40°F), Max.: 215°C (419°F)	Actual ambient temperature	This is the ambient temperature. Tech Tips If the vehicle has been left as is for a long time after the power switch was turned off, coolant temperature, intake air temperature and ambient temperature will be almost the same.
Engine Run Time	Engine run time	Min.: 0 sec, Max.: 65535 sec	Time after engine start	This is the time elapsed since the engine is first started with the power switch on (READY). With the power switch on (READY), time measurement will not stop even after the engine stops.
IG-ON Coolant Temperature	Engine coolant temperature when the power switch is turned on (IG)	Min.: -40°C (-40°F), Max.: 119.3°C (246.7°F)	-	This is the engine coolant temperature stored when the power switch is turned on (IG).
Initial Engine Coolant Temperature	Engine coolant temperature when the power switch is turned on (READY)	Min.: -40°C (-40°F), Max.: 119.3°C (246.7°F)	-	This is the engine coolant temperature stored when the power switch is turned on (READY).
IG-ON Intake Air Temperature	Intake air temperature when the power switch is turned on (IG)	Min.: -40°C (-40°F), Max.: 119.3°C (246.7°F)	-	This is the intake air temperature stored when the power switch is turned on (IG).
Initial Engine Intake Air Temperature	Intake air temperature when the power switch is turned on (READY)	Min.: -40°C (-40°F), Max.: 119.3°C (246.7°F)	-	This is the intake air temperature stored when the power switch is turned on (READY).
Battery Voltage	Auxiliary battery voltage	Min.: 0 V, Max.: 65.5 V	11 to 16 V: Power switch on (IG)	If 11 V or less, characteristics of some electrical components may change.
BATT Voltage	Auxiliary battery voltage	Min.: 0 V, Max.: 79.998 V	11 to 16 V: Power switch on (IG)	If 11 V or less, characteristics of some electrical components may change.

Throttle Control (All Data)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Throttle Position Sensor No.1 Voltage %	Absolute No. 1 throttle position sensor	Min.: 0%, Max.: 100%	10 to 22%: Power switch on (IG), accelerator pedal fully released	The No. 1 throttle position sensor output is converted using 5 V = 100%. Tech Tips If there are no throttle position sensor DTCs stored, it is possible to conclude that the throttle position sensor system is normal.
Throttle Position Sensor No.2 Voltage %	Absolute No. 2 throttle position sensor	Min.: 0%, Max.: 100%	42 to 62%: Power switch on (IG), accelerator pedal fully released	The No. 2 throttle position sensor output is converted using 5 V = 100%.
System Guard	System guard	ON or OFF	ON: Idling or throttle actuator operating	When there is a difference between the target and actual throttle valve opening angle, this item changes to OFF and the electronic throttle control system operation is disabled. OFF: Electronic throttle control is stopped.
Open Side Malfunction	Open malfunction	ON or OFF	OFF	This item indicates a malfunction in the electronic throttle when the throttle valve is open.
Throttle Request Position	Required throttle position	Min.: 0 V, Max.: 4.98 V	0.6 to 1.1 V: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	The value of this item is calculated by the ECM and shows the voltage for the target throttle valve position.
Throttle Sensor Position	Throttle sensor position	Min.: 0%, Max.: 100%	-	-
Throttle Position Sensor No.1 Voltage	No. 1 throttle position sensor output voltage	Min.: 0 V, Max.: 4.98 V	0.6 to 1.1 V: Power switch on (IG), accelerator pedal fully released 0.6 to 1.4 V: Fail-safe operating	This is the No. 1 throttle position sensor output voltage.
Throttle Position Sensor No.2 Voltage	No. 2 throttle position sensor output voltage	Min.: 0 V, Max.: 4.98 V	2.1 to 3.1 V: Power switch on (IG), accelerator pedal fully released 2.1 to 3.1 V: Fail-safe operating	This is the No. 2 throttle position sensor output voltage.
Throttle Position Command	Throttle position command value	Min.: 0 V, Max.: 4.98 V	0.6 to 1.1 V: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	The value displayed for this item is the same as Throttle Request Position.
Throttle Position Sensor Open Position No.1	No. 1 throttle position sensor	Min.: 0 V, Max.: 4.98 V	0.6 to 1.4 V	This is the No. 1 throttle position sensor output voltage when there is no current supplied to the electronic throttle actuator. If the accelerator pedal is released, the throttle valve is kept open by the throttle valve opener when the power switch is on (IG).
Throttle Position Sensor Open Position No.2	No. 2 throttle position sensor	Min.: 0 V, Max.: 4.98 V	1.7 to 2.5 V	This is the No. 2 throttle position sensor output voltage when there is no current supplied to the electronic throttle actuator. If the accelerator pedal is released, the throttle valve is kept open by the throttle valve opener when the power switch is on (IG).
Throttle Motor Current	Throttle actuator current	Min.: 0 A, Max.: 19.9 A	0 to 3.0 A: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	When the value of this item is large but the actual opening angle (Throttle Position Sensor No.1 Voltage) does not reach the target opening angle (Throttle Request Position), there is an "unable to open" malfunction.
Throttle Motor Duty Ratio	Throttle actuator	Min.: 0%, Max.: 100%	10 to 22%: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	This is the output duty ratio of the throttle actuator drive circuit.
Throttle Motor Duty Ratio (Open)	Throttle actuator duty ratio (open)	Min.: 0%, Max.: 255%	0 to 40%: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	This is the duty ratio used to drive the throttle actuator and open the throttle valve. It is an ECM command signal.
Throttle Motor Duty Ratio (Close)	Throttle actuator duty ratio (close)	Min.: 0%, Max.: 255%	0 to 40%: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	This is the duty ratio used to drive the throttle actuator and close the throttle valve. It is an ECM command signal. Tech Tips During idle, the throttle valve opening angle is usually controlled using a duty ratio drive signal which closes the throttle valve. However, if carbon deposits have built up, it may be necessary to open the throttle valve more than the throttle valve opener does. In that case, the opening angle is controlled using the Throttle Motor Duty Ratio (Open) signal.
Throttle Position Sensor Fully Closed Learn Value	Throttle valve fully closed position (learned value)	Min.: 0 V, Max.: 4.98 V	0.4 to 1.0 V: Power switch on (IG), accelerator pedal fully released	The ECM uses this learned value to determine the fully closed (and fully open) position of the throttle valve. The ECM calculates the learned value based on the position of the throttle valve when the accelerator pedal is released and the throttle valve motor is not operating. Learning is performed immediately after the power switch is turned on (IG).
+BM Voltage	+BM voltage	Min.: 0 V, Max.: 79.998 V	11 to 16 V: Power switch on (IG)	This is the power supply for the electronic throttle actuator. When the power supply is interrupted for approximately 1 second, DTCs P065714 (open circuit) and P06579E (short circuit, ECU malfunction) are stored and the electronic throttle control system enters fail-safe mode (normal operation is not restored until the power switch is turned off).
Actuator Power Supply	Actuator power supply	ON or OFF	ON: Engine running or throttle actuator operating	-
Throttle Air Flow Learn Value (Area 1)	Throttle air flow learning value of area 1	Min.: 0, Max.: 1.99	-	-
Throttle Air Flow Learn Value (Area 2)	Throttle air flow learning value of area 2	Min.: 0, Max.: 1.99	-	-
Throttle Air Flow Learn Value (Area 3)	Throttle air flow learning value of area 3	Min.: 0, Max.: 1.99	-	-
Throttle Air Flow Learn Value (Calculated Value)	Throttle air flow learning value (calculated value)	Min.: 0, Max.: 1.99	-	-
Throttle Air Flow Learn Value (Atmosphere Pressure Offset Value)	Throttle air flow learning value (atmosphere pressure offset value)	Min.: 0, Max.: 2.55	-	-

Idle Speed Control (Ptrl Rough Idle)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Low Revolution Control	Low engine speed control operation state	ON or OFF	OFF	This item indicates whether the engine speed dropped immediately after starting due to poor combustion, etc.
Engine Stall Control F/B Flow	ISC torque lower limit value to prevent engine stall	Min.: -1024 Nm, Max.: 1023.96 Nm	-	The intake air amount and ignition timing are adjusted when there is a large decrease in engine speed (for example, a decrease to 550 rpm or less) in order to prevent the engine from stalling. For use when the starting problems or rough idle is present.

Fuel System 1 (Ptrl General)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Target Fuel Pressure (High)	Target fuel pressure (for high pressure side)	Min.: 0 kPag, Max.: 655350 kPag	2000 to 20000 kPa: Warmed up engine, 2500 rpm (inspection mode [2WD for measuring Exhaust Gas])	This item indicates the target fuel pressure for the fuel pump assembly (for high pressure side).
Target Fuel Pressure (Low)	Target fuel pressure (for low pressure side)	Min.: 0 kPag, Max.: 655350 kPag	-	This item indicates the target fuel pressure for the fuel pump (for low pressure side).
Fuel Pressure (High)	Fuel pressure (for high pressure side)	Min.: 0 kPag, Max.: 655350 kPag	2000 to 20000 kPa: Warmed up engine, 2500 rpm (inspection mode [2WD for measuring Exhaust Gas])	This item indicates the fuel pressure (for high pressure side).
Fuel Pressure (Low)	Fuel pressure (for low pressure side)	Min.: 0 kPag, Max.: 655350 kPag	-	This item indicates the fuel pressure (for low pressure side).
Fuel Pump Control Duty Ratio	Fuel pump duty ratio (for low pressure side)	Min.: 0%, Max.: 399.9%	-	This item indicates the duty ratio of the fuel pump (for low pressure side).
Injector Cylinder #1 (Port)	Injection period of the No. 1 cylinder	Min.: 0 μs, Max.: 65535 μs	1000 to 4000 μs: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control)	This is the injection period of the No. 1 cylinder (port injection) (the command value from the ECM). The latest injection timing may be displayed even when fuel injection is not performed. Confirm the injection status by also referring to the Data List item "Injection Way".
Injection Volume Cylinder #1	Injection volume (cylinder 1)	Min.: 0 ml, Max.: 2 ml	0.03 to 0.11 ml: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control)	This is the fuel injection volume for 10 injections.

EVAP System 1 (All Data)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
VSV for Vent Valve	Key-off EVAP system vent valve status	ON or OFF	-	Active Test [Activate the VSV for Vent Valve] support data.
Vacuum Pump	Key-off EVAP system leak detection pump status	ON or OFF	-	Active Test [Activate the VSV for Vacuum Pump] support data. This item changes to ON during the key-off EVAP monitor which is performed approximately 5 hours after the power switch is turned off*.

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Fuel System 2 (All Data)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Target Fuel Pressure Offset	Target fuel pressure offset	Min.: -25%, Max.: 24.8%	-	Active Test item [Control the Target Fuel Pressure Offset] support data.
Injection Volume	Fuel injection volume	Min.: -25%, Max.: 24.8%	-	Active Test item [Control the Injection Volume] or [Control the Injection Volume for A/F Sensor] support data.
Low Fuel Pressure Sensor	Fuel pressure sensor (low pressure side) output	Min.: -3276.8 kPag, Max.: 3276.7 kPag	350 to 700 kPag : Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	This item indicates the fuel pressure (for low pressure side) from the fuel pressure sensor.
High Fuel Pressure Sensor	Fuel pressure sensor (high pressure side) output	Min.: -64 MPa, Max.: 63.998 MPa	2 to 20 MPa: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	This item indicates the fuel pressure (for high pressure side) from the fuel pressure sensor.
High Pressure Fuel Pump Duty Ratio (D4)	Fuel pump duty ratio (high pressure side)	Min.: 0%, Max.: 127.5%	0 to 40%: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	This item indicates the duty ratio to the electromagnetic spill valve.
High Pressure Fuel Pump Discharge Rate	Fuel volume required by the high pressure fuel pump	Min.: 0 ml, Max.: 2 ml	-	This item indicates the fuel pump assembly (for high pressure side) discharge amount.
Injection Mode	Injection mode	Port / Direct / Either	-	This item indicates the injection mode.
Injection Switching Status	Prohibition of changing the D-4S injection method	OK or NG	-	This item indicates whether the Control the Injection Mode Active Test is prohibited.
Injection Timing Cylinder #1 (D4)	Injection timing (for direct injection)	Min.: -3276.8 deg(CA), Max.:3276.7 deg(CA)	240 to 340 deg(CA): Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas]), direct injection	This item indicates the injection timing of the No. 1 fuel injector assembly (for direct injection).
Injection Time Cylinder #1 (D4)	Injection time (for direct injection)	Min.: 0 μs, Max.: 65535 μs	0 to 2000 μs: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas]), direct injection	The latest injection timing may be displayed even when fuel injection is not performed. Confirm the injection status by also referring to the Data List item "Injection Mode".
Current Fuel Type	Current fuel type	-	Gasoline/petrol	-

EVAP System 2 (Ptrl Evaporative)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
EVAP (Purge) VSV	Purge VSV control duty	Min.: 0%, Max.: 100%	-	This is a command signal from the ECM. This is the purge VSV control duty ratio. When EVAP (Purge) VSV is any value except 0%, EVAP purge* is being performed. *: Gasoline vapor from the fuel tank is being introduced into the intake system via the purge VSV. When the engine is cold or immediately after the engine is started, EVAP (Purge) VSV will be 0%.
EVAP Purge Flow	Purge flow	Min.: 0%, Max.: 399.9%	-	This is the percentage of total engine airflow contributed by EVAP purge operation. (Evap Purge Flow = Purge flow / Engine airflow x 100 (%))
EVAP Purge Density Learn Value	Purge density learned value	Min.: -200, Max.: 199.993	-	This is the proportion of the decrease in injection volume (based on the change in the air fuel ratio feedback compensation value) related to a 1% purge flow rate. When the value of this item is a large negative value, the purge effect is large. The purge density is determined from the change in the air fuel ratio feedback compensation value when purge flow is introduced. Purge density learning is performed so that the feedback compensation value is 0 +/-2%. Tech Tips Usually, the value is approximately +/-1. 1: The concentration of HC in the purge gas is relatively low. 0: The concentration of HC in the purge gas is approximately equal to the stoichiometric air fuel ratio. A large negative value indicates that the concentration of HC in the purge gas is relatively high.
Vapor Pressure Fuel Tank Sensor	Fuel tank pressure	Min.: -25.6 kPa(gauge) [-3.712 psi(gauge)], Max.: 25.599 kPa(gauge) [3.712 psi(gauge)]	Atmospheric pressure: Fuel tank cap assembly removed	Pressure inside fuel tank monitored by fuel tank pressure sensor.
Vapor Pressure Pump	Vapor pressure	Min.: 0 kPa(abs) [0 psi(abs)], Max.: 1441.77 kPa(abs) [209.07 psi(abs)]	Approximately 100 kPa(abs) [14.5 psi(abs)]: Power switch on (IG)	This is the EVAP system pressure monitored by the canister pressure sensor. Tech Tips Except for when the monitor is running, this value should be approximately the same as atmospheric pressure. As Vapor Pressure Pump is almost the same as atmospheric pressure when the engine is stopped, this item can be used to help determine if the canister pressure sensor characteristics are abnormal, if there is noise, or if the sensor output is stuck at a certain value.
EVAP Vapor Pressure (Wide)	Fuel tank pressure (wide range)	Min.: -32.768 kPa(gauge) [-4.751 psi(gauge)], Max.: 32.767 kPa(gauge) [4.751 psi(gauge)]	Atmospheric pressure: Fuel tank cap assembly removed	-
Vapor Pressure (Calculated)	Calculated EVAP system pressure	Min.: -720.896 kPa(abs) [-104.53 psi(abs)], Max.: 720.874 kPa(abs) [104.53 psi(abs)]	Approximately 100 kPa(abs) [14.5 psi(abs)]: Power switch on (IG)	-
Fuel Filler Opener	Fuel lid lock with motor assembly status	ON or OFF	-	Active Test [Activate the Fuel Filler Opener] support data. ON: Fuel lid lock with motor assembly operating OFF: Fuel lid lock with motor assembly not operating
Fuel Vapor-Containment Valve	Fuel vapor-containment valve status	Open or Close	Open: Fuel vapor-containment valve open	-
Fuel Lid SW	Fuel lid courtesy switch status	Open or Close	Open: Fuel lid opener switch pushed Close: Fuel lid opener switch not pushed	-
Fuel Lid Sensor SW	Fuel lid opener switch status	Open or Close	Open: Fuel lid open Close: Fuel lid closed	-
EVAP Purge VSV	VSV status for EVAP control	ON or OFF	-	This item is ON when EVAP (Purge) VSV is approximately 30% or higher, and is OFF when the VSV duty ratio is less than 30%.
Purge Cut VSV Duty	Purge VSV duty	Min.: 0%, Max.: 399.9%	-	-

Air Fuel Ratio Control 1 (All Data)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Target Air-Fuel Ratio	Target air fuel ratio	Min.: 0, Max.: 2	0.8 to 1.2: During idling (engine warmed up)	This is the target air fuel ratio used by the ECM. 1.0 is the stoichiometric air fuel ratio. Values that are more than 1.0 indicate the system attempting to make the air fuel ratio leaner. Values that are less than 1.0 indicate the system attempting to make the air fuel ratio richer. Target Air-Fuel Ratio and A/F (O2) Lambda Sensor B1S1, B2S1 are related.

Air Fuel Ratio Control 2 (Ptrl AF O2 Sensor)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
A/F (O2) Lambda Sensor B1S1	Output air fuel ratio associated with bank 1 sensor 1	Min.: 0, Max.: 1.99	Value less than 1 (0.000 to 0.999) = Rich 1 = Stoichiometric air fuel ratio Value more than 1 (1.001 to 1.999) = Lean	This is the actual air fuel ratio calculated based on the air fuel ratio sensor output.
A/F (O2) Lambda Sensor B2S1	Output air fuel ratio associated with bank 2 sensor 1	Min.: 0, Max.: 1.99	Value less than 1 (0.000 to 0.999) = Rich 1 = Stoichiometric air fuel ratio Value more than 1 (1.001 to 1.999) = Lean	This is the actual air fuel ratio calculated based on the air fuel ratio sensor output.
A/F (O2) Sensor Voltage B1S1	Air fuel ratio sensor output voltage for bank 1 sensor 1	Min.: 0 V, Max.: 7.99 V	2.6 to 3.8 V: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	This is the output voltage of the air fuel ratio sensor (the voltage cannot be measured at the terminals of the sensor). This value is calculated by the ECM based on the current output of the air fuel ratio sensor (refer to A/F (O2) Sensor Current below for the actual sensor output). Performing the "Control the Injection Volume or Control the Injection Volume for A/F Sensor" Active Test enables the technician to check the output voltage of the sensor.
A/F (O2) Sensor Voltage B2S1	Air fuel ratio sensor output voltage for bank 2 sensor 1	Min.: 0 V, Max.: 7.99 V	2.6 to 3.8 V: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	This is the output voltage of the air fuel ratio sensor (the voltage cannot be measured at the terminals of the sensor). This value is calculated by the ECM based on the current output of the air fuel ratio sensor (refer to A/F (O2) Sensor Current below for the actual sensor output). Performing the "Control the Injection Volume or Control the Injection Volume for A/F Sensor" Active Test enables the technician to check the output voltage of the sensor.
A/F (O2) Sensor Current B1S1	Air fuel ratio sensor output current for bank 1 sensor 1	Min.: -128 mA, Max.: 127.99 mA	-0.5 to 0.5 mA: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	With a stoichiometric air fuel ratio (for example, during idling after the engine is warmed up), the air fuel ratio sensor current output is approximately -0.5 to 0.5 mA. When the value is outside the range of 0.7 to 2.2 mA when the fuel-cut is being performed, there is a malfunction in the air fuel ratio sensor or sensor circuit.
A/F (O2) Sensor Current B2S1	Air fuel ratio sensor output current for bank 2 sensor 1	Min.: -128 mA, Max.: 127.99 mA	-0.5 to 0.5 mA: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	With a stoichiometric air fuel ratio (for example, during idling after the engine is warmed up), the air fuel ratio sensor current output is approximately -0.5 to 0.5 mA. When the value is outside the range of 0.7 to 2.2 mA when the fuel-cut is being performed, there is a malfunction in the air fuel ratio sensor or sensor circuit.
A/F (O2) Sensor Current B1S2	Air fuel ratio sensor output current for bank 1 sensor 2	Min.: -128 mA, Max.: 127.99 mA	-2.5 to 1.8 mA: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	A/F (O2) Sensor Current B1S2 display is less than 0 mA: Richer than the stoichiometric air-fuel ratio A/F (O2) Sensor Current B1S2 display is higher than 0 mA: Leaner than stoichiometric air-fuel ratio Performing the "Control the Injection Volume or Control the Injection Volume for A/F Sensor" Active Test enables the technician to check the output current of the sensor.
A/F (O2) Sensor Current B2S2	Air fuel ratio sensor output current for bank 2 sensor 2	Min.: -128 mA, Max.: 127.99 mA	-2.5 to 1.8 mA: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	A/F (O2) Sensor Current B2S2 display is less than 0 mA: Richer than the stoichiometric air-fuel ratio A/F (O2) Sensor Current B2S2 display is higher than 0 mA: Leaner than stoichiometric air-fuel ratio Performing the "Control the Injection Volume or Control the Injection Volume for A/F Sensor" Active Test enables the technician to check the output current of the sensor.
A/F (O2) Sensor Heater Duty Ratio B1S1	Air fuel ratio sensor heater duty ratio for bank 1 sensor 1	Min.: 0%, Max.: 399.9%	0 to 100%	When the value of this item is more than 0%, current is being supplied to the heater.
A/F (O2) Sensor Heater Duty Ratio B2S1	Air fuel ratio sensor heater duty ratio for bank 2 sensor 1	Min.: 0%, Max.: 399.9%	0 to 100%	When the value of this item is more than 0%, current is being supplied to the heater.
A/F Sensor Heater Current Value B1S2	Air fuel ratio sensor heater current for bank 1 sensor 2	Min.: 0 A, Max.: 65.535 A	-	When the value of this item is more than 0 A, current is being supplied to the heater.
A/F Sensor Heater Current Value B2S2	Air fuel ratio sensor heater current for bank 2 sensor 2	Min.: 0 A, Max.: 65.535 A	-	When the value of this item is more than 0 A, current is being supplied to the heater.
A/F Sensor Heater Duty B1S2	Air fuel ratio sensor heater duty ratio for bank 1 sensor 2	Min.: 0%, Max.: 399.9%	0 to 100%	When the value of this item is more than 0%, current is being supplied to the heater.
A/F Sensor Heater Duty B2S2	Air fuel ratio sensor heater duty ratio for bank 2 sensor 2	Min.: 0%, Max.: 399.9%	0 to 100%	When the value of this item is more than 0%, current is being supplied to the heater.
A/F Sensor Impedance B1S2	Air fuel ratio sensor impedance for bank 1 sensor 2	Min.: 0 ohm, Max.: 21247.67 ohm	32 to 5311 ohm	-
A/F Sensor Impedance B2S2	Air fuel ratio sensor impedance for bank 2 sensor 2	Min.: 0 ohm, Max.: 21247.67 ohm	32 to 5311 ohm	-
Short FT B1S1	Short-term fuel trim for bank 1	Min.: -100%, Max.: 99.21%	-20 to 20%	This item is the "short-term fuel injection volume compensation ratio" used to maintain the air fuel ratio at the stoichiometric ratio using the air fuel ratio sensor for feedback.
Short FT B2S1	Short-term fuel trim for bank 2	Min.: -100%, Max.: 99.21%	-20 to 20%	This item is the "short-term fuel injection volume compensation ratio" used to maintain the air fuel ratio at the stoichiometric ratio using the air fuel ratio sensor for feedback.
Long FT B1S1	Long-term fuel trim for bank 1	Min.: -100%, Max.: 99.21%	-20 to 20%	The ECM will learn the Long FT B1S1 values based on Short FT B1S1. The goal is to keep Short FT B1S1 at 0% to keep the air fuel ratio mixture at the stoichiometric ratio. This item is used to determine whether the system related to air fuel ratio control is malfunctioning. The condition of the system is determined based on the sum of Short FT B1S1 and Long FT B1S1 (excluding times when the system is in transition). 20% or higher: The air fuel ratio may be lean. -20 to 20%: The air fuel ratio can be determined to be normal. -20% or less: The air fuel ratio may be rich. Air fuel ratio feedback learning is divided up according to the engine operating range (engine speed x load), and a separate value is stored for each operating range. "Long FT B1S1" indicates the learned value for the current operating range. [A/F Learn Value Idle Bank 1], [A/F Learn Value Low Bank 1], [A/F Learn Value Mid No.1 Bank 1], [A/F Learn Value Mid No.2 Bank 1], [A/F Learn Value High Bank 1], [A/F Learn Value Low (Dual) Bank 1], [A/F Learn Value Mid (Dual) No.1 Bank 1], [A/F Learn Value Mid (Dual) No.2 Bank 1] and [A/F Learn Value High (Dual) Bank 1] indicate the learned values for the different operating ranges. The learned value that is the same as "Long FT B1S1" indicates the current engine operating range.
Long FT B2S1	Long-term fuel trim for bank 2	Min.: -100%, Max.: 99.21%	-20 to 20%	The ECM will learn the Long FT B2S1 values based on Short FT B2S1. The goal is to keep Short FT B2S1 at 0% to keep the air fuel ratio mixture at the stoichiometric ratio. This item is used to determine whether the system related to air fuel ratio control is malfunctioning. The condition of the system is determined based on the sum of Short FT B2S1 and Long FT B2S1 (excluding times when the system is in transition). 20% or higher: The air fuel ratio may be lean. -20 to 20%: The air fuel ratio can be determined to be normal. -20% or less: The air fuel ratio may be rich. Air fuel ratio feedback learning is divided up according to the engine operating range (engine speed x load), and a separate value is stored for each operating range. "Long FT B2S1" indicates the learned value for the current operating range. [A/F Learn Value Idle Bank 2], [A/F Learn Value Low Bank 2], [A/F Learn Value Mid No.1 Bank 2], [A/F Learn Value Mid No.2 Bank 2], [A/F Learn Value High Bank 2], [A/F Learn Value Low (Dual) Bank 2], [A/F Learn Value Mid (Dual) No.1 Bank 2], [A/F Learn Value Mid (Dual) No.2 Bank 2] and [A/F Learn Value High (Dual) Bank 2] indicate the learned values for the different operating ranges. The learned value that is the same as "Long FT B2S1" indicates the current engine operating range.
Total FT Bank 1	Total fuel trim for bank 1	Min.: -0.5, Max.: 0.496	-0.28 to 0.2: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	Total FT Bank 1 = Short FT B1S1 + Long FT B1S1
Total FT Bank 2	Total fuel trim for bank 2	Min.: -0.5, Max.: 0.496	-0.28 to 0.2: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	Total FT Bank 2 = Short FT B2S1 + Long FT B2S1
Fuel System Status Bank 1	Fuel system status (bank 1)	Unused, OL, CL, OLDrive, OLFault or CLFault	CL: Idling after warming up	OL (Open Loop): Has not yet satisfied conditions to go to closed loop. CL (Closed Loop): Feedback for fuel control. OLDrive: Open loop due to driving conditions (fuel enrichment). OLFault: Open loop due to a detected system fault. CLFault: Closed loop but the air fuel ratio sensor, which is used for fuel control, is malfunctioning. Tech Tips CL (Closed Loop): During air fuel ratio feedback control, A/F (O2) Lambda Sensor B1S1 is approximately 1.0 and A/F (O2) Sensor Voltage B1S1 is approximately 3.3 V.
Fuel System Status Bank 2	Fuel system status (bank 2)	Unused, OL, CL, OLDrive, OLFault or CLFault	CL: Idling after warming up	OL (Open Loop): Has not yet satisfied conditions to go to closed loop. CL (Closed Loop): Feedback for fuel control. OLDrive: Open loop due to driving conditions (fuel enrichment). OLFault: Open loop due to a detected system fault. CLFault: Closed loop but the air fuel ratio sensor, which is used for fuel control, is malfunctioning. Tech Tips CL (Closed Loop): During air fuel ratio feedback control, A/F (O2) Lambda Sensor B2S1 is approximately 1.0 and A/F (O2) Sensor Voltage B2S1 is approximately 3.3 V.
A/F Learn Value Idle Bank 1	Air fuel ratio learn value of idle area for bank 1	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when idling with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher).
A/F Learn Value Idle Bank 2	Air fuel ratio learn value of idle area for bank 2	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when idling with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher).
A/F Learn Value Low Bank 1	Air fuel ratio learn value of low load area for bank 1	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the low load range (when the range of engine loads is divided into four parts).
A/F Learn Value Low Bank 2	Air fuel ratio learn value of low load area for bank 2	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the low load range (when the range of engine loads is divided into four parts).
A/F Learn Value Mid No.1 Bank 1	Air fuel ratio learn value of middle1 load area for bank 1	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the medium load range closer to the low load range (when the range of engine loads is divided into four parts).
A/F Learn Value Mid No.1 Bank 2	Air fuel ratio learn value of middle1 load area for bank 2	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the medium load range closer to the low load range (when the range of engine loads is divided into four parts).
A/F Learn Value Mid No.2 Bank 1	Air fuel ratio learn value of middle2 load area for bank 1	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the medium load range closer to the high load range (when the range of engine loads is divided into four parts).
A/F Learn Value Mid No.2 Bank 2	Air fuel ratio learn value of middle2 load area for bank 2	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the medium load range closer to the high load range (when the range of engine loads is divided into four parts).
A/F Learn Value High Bank 1	Air fuel ratio learn value of high load area for bank 1	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the high load range (when the range of engine loads is divided into four parts).
A/F Learn Value High Bank 2	Air fuel ratio learn value of high load area for bank 2	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the high load range (when the range of engine loads is divided into four parts).
A/F Learn Value Low (Dual) Bank 1	Air fuel ratio learn value of low load area (dual) for bank 1	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the low load range (when the range of engine loads is divided into four parts).
A/F Learn Value Low (Dual) Bank 2	Air fuel ratio learn value of low load area (dual) for bank 2	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the low load range (when the range of engine loads is divided into four parts).
A/F Learn Value Mid (Dual) No.1 Bank 1	Air fuel ratio learn value of middle1 load area (dual) for bank 1	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the medium load range closer to the low load range (when the range of engine loads is divided into four parts).
A/F Learn Value Mid (Dual) No.1 Bank 2	Air fuel ratio learn value of middle1 load area (dual) for bank 2	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the medium load range closer to the low load range (when the range of engine loads is divided into four parts).
A/F Learn Value Mid (Dual) No.2 Bank 1	Air fuel ratio learn value of middle2 load area (dual) for bank 1	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the medium load range closer to the high load range (when the range of engine loads is divided into four parts).
A/F Learn Value Mid (Dual) No.2 Bank 2	Air fuel ratio learn value of middle2 load area (dual) for bank 2	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the medium load range closer to the high load range (when the range of engine loads is divided into four parts).
A/F Learn Value High (Dual) Bank 1	Air fuel ratio learn value of high load area (dual) for bank 1	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the high load range (when the range of engine loads is divided into four parts).
A/F Learn Value High (Dual) Bank 2	Air fuel ratio learn value of high load area (dual) for bank 2	Min.: -50%, Max.: 49.6%	-20 to 20%	Learning is performed when driving with the engine warmed up (engine coolant temperature is 80°C [176°F] or higher) and operating in the high load range (when the range of engine loads is divided into four parts).

Ignition System (Ignition)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Ignition Timing Cylinder #1	Ignition timing advance for No. 1 cylinder	Min.: -64 deg, Max.: 63.5 deg	7 to 24 deg: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control)	-
Knock F/B Value	Knocking feedback value	Min.: -1024 deg(CA), Max.: 1023.9 deg(CA)	-20 to 0 deg(CA): Driving at 70 km/h (43 mph) (Engine running)	This is the ignition timing retard compensation amount determined by the presence or absence of knocking. Ignition timing = Most retarded timing value1 + Knock Correct Learn Value2 + Knock F/B Value3 + each compensation amount Example: 21 deg(CA) = 10 deg(CA) + 14 deg(CA) - 3 deg(CA) 1: The most retarded timing value is a constant determined by the engine speed and engine load. 2: The knock correction learned value is calculated as shown below in order to keep Knock F/B Value as close to -3 deg(CA) as possible. When Knock F/B Value is less than -4 deg(CA), Knock Correct Learn Value is slowly decreased. When Knock F/B Value is higher than -2 deg(CA), Knock Correct Learn Value is slowly increased. 3: The base value is -3 deg(CA) and is adjusted based on the presence or absence of knocking. When there is no knocking, the value is increased, and when knocking is present, the value is decreased. Tech Tips If Knock F/B Value does not change around the time when knocking occurs even though knocking continues (for example, stays at -3 deg(CA)), it can be determined that knocking is not being detected. Possible Causes: There is a problem with the knock control sensor sensitivity. The knock control sensor is improperly installed. There is a problem with a wire harness.
Knock Correct Learn Value	Knocking correction learned value	Min.: -1024 deg(CA), Max.: 1023.9 deg(CA)	0 to 27 deg(CA): Driving at 70 km/h (43 mph) (Engine running)	Refer to "Knock F/B Value". When there is knocking or a lack of power, compare the values of following items to another vehicle of the same model. Engine Speed Calculate Load Ignition Timing Cylinder #1 Knock F/B Value Knock Correct Learn Value Knock Correct Learn Value is large: There is no knocking and the ignition timing is advanced. Knock Correct Learn Value is small: Knocking is present and the ignition timing is being retarded. Tech Tips When knocking continues even though Knock Correct Learn Value is less than that of the vehicle being used for comparison (in other words, the ignition timing is being retarded but the knocking does not stop), there may be a buildup of deposits or other such problems due to deterioration over time (oil entering the cylinders, poor quality fuel, etc.).
Idle Spark Advance Control Cylinder #1	Individual cylinder timing advance compensation amount (No. 1)	Min.: 0 deg(CA), Max.: 15.93 deg(CA)	-	This is the ignition timing advance compensation amount used to stabilize idling (each cylinder has a separate value). When the speed for a certain cylinder drops, the system advances the timing for that particular cylinder in an attempt to restore the speed and stabilize idling. It may be possible to use this item to help determine specific cylinders which are not operating normally.
Idle Spark Advance Control Cylinder #2	Individual cylinder timing advance compensation amount (No. 2)	Min.: 0 deg(CA), Max.: 15.93 deg(CA)	-	This is the ignition timing advance compensation amount used to stabilize idling (each cylinder has a separate value). When the speed for a certain cylinder drops, the system advances the timing for that particular cylinder in an attempt to restore the speed and stabilize idling. It may be possible to use this item to help determine specific cylinders which are not operating normally.
Idle Spark Advance Control Cylinder #3	Individual cylinder timing advance compensation amount (No. 3)	Min.: 0 deg(CA), Max.: 15.93 deg(CA)	-	This is the ignition timing advance compensation amount used to stabilize idling (each cylinder has a separate value). When the speed for a certain cylinder drops, the system advances the timing for that particular cylinder in an attempt to restore the speed and stabilize idling. It may be possible to use this item to help determine specific cylinders which are not operating normally.
Idle Spark Advance Control Cylinder #4	Individual cylinder timing advance compensation amount (No. 4)	Min.: 0 deg(CA), Max.: 15.93 deg(CA)	-	This is the ignition timing advance compensation amount used to stabilize idling (each cylinder has a separate value). When the speed for a certain cylinder drops, the system advances the timing for that particular cylinder in an attempt to restore the speed and stabilize idling. It may be possible to use this item to help determine specific cylinders which are not operating normally.
Idle Spark Advance Control Cylinder #5	Individual cylinder timing advance compensation amount (No. 5)	Min.: 0 deg(CA), Max.: 15.93 deg(CA)	-	This is the ignition timing advance compensation amount used to stabilize idling (each cylinder has a separate value). When the speed for a certain cylinder drops, the system advances the timing for that particular cylinder in an attempt to restore the speed and stabilize idling. It may be possible to use this item to help determine specific cylinders which are not operating normally.
Idle Spark Advance Control Cylinder #6	Individual cylinder timing advance compensation amount (No. 6)	Min.: 0 deg(CA), Max.: 15.93 deg(CA)	-	This is the ignition timing advance compensation amount used to stabilize idling (each cylinder has a separate value). When the speed for a certain cylinder drops, the system advances the timing for that particular cylinder in an attempt to restore the speed and stabilize idling. It may be possible to use this item to help determine specific cylinders which are not operating normally.

Mass Air Flow Meter (All Data)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Mass Air Flow Circuit	Status of the mass air flow meter sub-assembly circuit	Normal or Abnormal	Normal	-

EGR System (All Data)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Target EGR Valve Position No.1	EGR valve target opening amount	Min.: 0%, Max.: 100%	0%: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	When the engine is cold or idling, at engine start, etc., the value is 0%. When the valve is fully closed, the value is 0%. When the valve is fully open, the value is 100%.
EGR Step Position	EGR step position	Min.: 0 step, Max.: 255 step	-	Active Test [Control the EGR Step Position] support data. When the valve is fully closed, the value is 0 step. When the valve is fully open, the value is 110 step.

VVT Control (Ptrl Valve Control)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
VVT Advance Fail	VVT control failure status	ON or OFF	OFF: Normal	ON: There is an intake VVT timing advance malfunction.
Intake VVT Hold Learn Value Bank 1	Intake VVT hold correct learned value for bank 1	Min.: 0%, Max.: 399.9%	-	-
Intake VVT Hold Learn Value Bank 2	Intake VVT hold correct learned value for bank 2	Min.: 0%, Max.: 399.9%	-	-
Intake VVT Change Angle Bank 1	Intake VVT displacement angle for bank 1	Min.: 0 DegFR, Max.: 639.9 DegFR	-	-
Intake VVT Change Angle Bank 2	Intake VVT displacement angle for bank 2	Min.: 0 DegFR, Max.: 639.9 DegFR	-	-
Intake VVT OCV Control Duty Ratio Bank 1	Camshaft timing oil control valve (for intake camshaft) operation duty for bank 1	Min.: 0%, Max.: 399.9%	-	-
Intake VVT OCV Control Duty Ratio Bank 2	Camshaft timing oil control valve (for intake camshaft) operation duty for bank 2	Min.: 0%, Max.: 399.9%	-	-
Exhaust VVT Hold Learn Value Bank 1	Exhaust VVT hold correct learned value for bank 1	Min.: 0%, Max.: 399.9%	-	-
Exhaust VVT Hold Learn Value Bank 2	Exhaust VVT hold correct learned value for bank 2	Min.: 0%, Max.: 399.9%	-	-
Exhaust VVT Change Angle Bank 1	Exhaust VVT displacement angle for bank 1	Min.: 0 DegFR, Max.: 639.9 DegFR	-	-
Exhaust VVT Change Angle Bank 2	Exhaust VVT displacement angle for bank 2	Min.: 0 DegFR, Max.: 639.9 DegFR	-	-
Exhaust VVT OCV Control Duty Ratio Bank 1	Camshaft timing oil control valve (for exhaust camshaft) operation duty for bank 1	Min.: 0%, Max.: 399.9%	-	-
Exhaust VVT OCV Control Duty Ratio Bank 2	Camshaft timing oil control valve (for exhaust camshaft) operation duty for bank 2	Min.: 0%, Max.: 399.9%	-	-
Intake VVT Target Angle Bank 1	Intake VVT target angle for bank 1	Min.: 0 DegFR, Max.: 639.9 DegFR	18 DegFR: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control)	-
Intake VVT Target Angle Bank 2	Intake VVT target angle for bank 2	Min.: 0 DegFR, Max.: 639.9 DegFR	18 DegFR: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control)	-
Exhaust VVT Target Angle Bank 1	Exhaust VVT target angle for bank 1	Min.: 0 DegFR, Max.: 639.9 DegFR	0 DegFR: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control)	-
Exhaust VVT Target Angle Bank 2	Exhaust VVT target angle for bank 2	Min.: 0 DegFR, Max.: 639.9 DegFR	0 DegFR: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control)	-

Catalyst (Ptrl CAT Converter)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Catalyst Temperature B1S1	Front catalyst temperature for bank 1	Min.: -40°C (-40°F), Max.: 6513.5°C (11756.3°F)	-	This is the temperature of the front catalyst estimated by the ECM. This item is included in the conditions used to detect catalyst deterioration (DTC P042000), etc., and should therefore be used as a reference when recreating malfunction conditions.
Catalyst Temperature B2S1	Front catalyst temperature for bank 2	Min.: -40°C (-40°F), Max.: 6513.5°C (11756.3°F)	-	This is the temperature of the front catalyst estimated by the ECM. This item is included in the conditions used to detect catalyst deterioration (DTC P043000), etc., and should therefore be used as a reference when recreating malfunction conditions.
Catalyst Temperature B1S2	Rear catalyst temperature for bank 1	Min.: -40°C (-40°F), Max.: 6513.5°C (11756.3°F)	-	This is the temperature of the rear catalyst estimated by the ECM.
Catalyst Temperature B2S2	Rear catalyst temperature for bank 2	Min.: -40°C (-40°F), Max.: 6513.5°C (11756.3°F)	-	This is the temperature of the rear catalyst estimated by the ECM.

Check Mode (Check Mode)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Misfire Test Result	Check mode result for misfire monitor	Compl or Incmpl	-	-
O2 Sensor B1S2 Test Result	Check mode result for air fuel ratio sensor for bank 1 sensor 2	Compl or Incmpl	-	-
O2 Sensor B2S2 Test Result	Check mode result for air fuel ratio sensor for bank 2 sensor 2	Compl or Incmpl	-	-
A/F (O2) Sensor B2S1 Test Results	Check mode result for air fuel ratio sensor for bank 2 sensor 1	Compl or Incmpl	-	-
A/F (O2) Sensor B1S1 Test Results	Check mode result for air fuel ratio sensor for bank 1 sensor 1	Compl or Incmpl	-	-

Test Result (Monitor Status)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Complete Parts Monitor	Comprehensive component monitor	Not Avl or Avail	-	*1
Fuel System Monitor	Fuel system monitor	Not Avl or Avail	-	*1
Misfire Monitor	Misfire monitor	Not Avl or Avail	-	*1
EGR/VVT Monitor	EGR/VVT monitor	Not Avl or Avail	-	*1
EGR/VVT Monitor Result	EGR/VVT monitor	Compl or Incmpl	-	*1
A/F (O2) Sensor Heater Monitor	A/F (O2) sensor heater monitor	Not Avl or Avail	-	*1
A/F (O2) Sensor Heater Monitor Result	A/F (O2) sensor heater monitor	Compl or Incmpl	-	*1
A/F (O2) Sensor Monitor	A/F (O2) sensor monitor	Not Avl or Avail	-	*1
A/F (O2) Sensor Monitor Result	A/F (O2) sensor monitor	Compl or Incmpl	-	*1
Secondary Air Injection System Monitor	Secondary air injection system monitor	Not Avl or Avail	-	*1
Secondary Air Injection System Monitor Result	Secondary air injection system monitor	Compl or Incmpl	-	*1
EVAP Monitor	EVAP monitor	Not Avl or Avail	-	*1
EVAP Monitor Result	EVAP monitor	Compl or Incmpl	-	*1
Heated Catalyst Monitor	Heated catalyst monitor	Not Avl or Avail	-	*1
Heated Catalyst Monitor Result	Heated catalyst monitor	Compl or Incmpl	-	*1
Catalyst Monitor	Catalyst monitor	Not Avl or Avail	-	*1
Catalyst Monitor Result	Catalyst monitor	Compl or Incmpl	-	*1
Component Monitor ENA (Current)	Comprehensive component monitor	Unable or Enable	-	*2
Component Monitor Result (Current)	Comprehensive component monitor	Compl or Incmpl	-	*2
Fuel System Monitor ENA (Current)	Fuel system monitor	Unable or Enable	-	*2
Fuel System Monitor Result (Current)	Fuel system monitor	Compl or Incmpl	-	*2
Misfire Monitor ENA (Current)	Misfire monitor	Unable or Enable	-	*2
Misfire Monitor Result (Current)	Misfire monitor	Compl or Incmpl	-	*2
EGR/VVT Monitor ENA (Current)	EGR/VVT monitor	Unable or Enable	-	*2
EGR/VVT Monitor Result (Current)	EGR/VVT monitor	Compl or Incmpl	-	*2
O2 Sensor Heater ENA (Current)	O2 sensor heater monitor	Unable or Enable	-	*2
O2 Sensor Heater Monitor Result (Current)	O2 sensor heater monitor	Compl or Incmpl	-	*2
A/F (O2) Sensor Monitor ENA (Current)	A/F (O2) sensor monitor	Unable or Enable	-	*2
A/F (O2) Sensor Monitor Result (Current)	A/F (O2) sensor monitor	Compl or Incmpl	-	*2
Secondary Air Injection System Monitor ENA (Current)	Secondary air injection system monitor	Unable or Enable	-	*2
Secondary Air Injection System Monitor Result (Current)	Secondary air injection system monitor	Compl or Incmpl	-	*2
EVAP Monitor ENA (Current)	EVAP monitor	Unable or Enable	-	*2
EVAP Monitor Result (Current)	EVAP monitor	Compl or Incmpl	-	*2
Heated Catalyst Monitor ENA (Current)	Heated catalyst monitor	Unable or Enable	-	*2
Heated Catalyst Monitor Result (Current)	Heated catalyst monitor	Compl or Incmpl	-	*2
Catalyst Monitor ENA (Current)	Catalyst monitor	Unable or Enable	-	*2
Catalyst Monitor Result (Current)	Catalyst monitor	Compl or Incmpl	-	*2

*1:

Avail: The monitor is available on this vehicle.

Not Avl: The monitor is not available on this vehicle.

Incmpl / Compl: The item changes from Incmpl to Compl if the monitor was completed at least once at some time in the past. This item does not change when the power switch is turned off. However, the item changes back to Incmpl when DTCs are cleared or cable is disconnected from the negative (-) auxiliary battery terminal.

*2:

Enable: The monitor is available on the vehicle.

Unable: The monitor is not available on the vehicle.

Incmpl / Compl: The item changes from Incmpl to Compl if the monitor was completed during the current trip. The item changes back to Incmpl when the power switch is turned off.

Various Vehicle Conditions 2 (All Data)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
TC Terminal	TC terminal status	ON or OFF	-	Active Test [Activate the TC Terminal] support data.
MIL	MIL status	ON or OFF	OFF	-
MIL ON Run Distance	Distance driven with MIL on	Min.: 0 Km (0 mile), Max.: 65535 Km (40723 mile)	-	This is the distance driven since the MIL was illuminated.
Running Time from MIL ON	Running time from MIL on	Min.: 0 min, Max.: 65535 min	Running time after MIL turned on	-
Time after DTC Cleared	Time after DTCs cleared	Min.: 0 min, Max.: 65535 min	Time after DTCs cleared	-
Distance from DTC Cleared	Distance driven after DTCs cleared	Min.: 0 km (0 mile), Max.: 65535 km (40723 mile)	Distance driven after DTCs cleared	This is the distance driven since DTCs were cleared (or since the vehicle left the factory).
Warmup Cycle Cleared DTC	Warmup cycles after DTCs cleared	Min.: 0, Max.: 255	-	This is the number of warmup cycles after the DTCs were cleared.
Distance Traveled from Last Battery Cable Disconnect	Distance driven after auxiliary battery cable disconnected	Min.: 0 Km (0 mile), Max.: 65535 Km (40723 mile)	Total distance vehicle driven after auxiliary battery cable disconnected	-
IG OFF Elapsed Time	Time after power switch off	Min.: 0 min, Max.: 655350 min	Cumulative time after power switch off	-
OBD Requirements	OBD requirement	-	OBD II (California ARB)	-
Number of Emission DTC	Emissions-related DTCs	Min.: 0, Max.: 127	-	This is the number of emissions-related DTCs stored.

Misfire (Ptrl Misfire)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Ignition Trigger Count	Ignition counter	Min.: 0, Max.: 65535	0 to 600	This is the cumulative number of ignitions. This counter is increased by one for each ignition (this stops when misfire monitoring stops). This value is cleared every 200 revolutions. The misfire rate for each cylinder is calculated by dividing the misfire count for each cylinder by the value of this item. The misfire rate for each cylinder = Misfire Count Cylinder #1 to #6 / Ignition Trigger Count Tech Tips For 4-cylinder engines, the values range from 0 to 400. For 6-cylinder engines, the values range from 0 to 600. For 8-cylinder engines, the values range from 0 to 800.
Misfire Count Cylinder #1	Misfire count of No. 1 cylinder	Min.: 0, Max.: 255	0	This is the misfire count for each individual cylinder. This counter is increased by one for each misfire and is cleared every 200 revolutions. Check this item to help determine the malfunctioning cylinder.
Misfire Count Cylinder #2	Misfire count of No. 2 cylinder	Min.: 0, Max.: 255	0	This is the misfire count for each individual cylinder. This counter is increased by one for each misfire and is cleared every 200 revolutions. Check this item to help determine the malfunctioning cylinder.
Misfire Count Cylinder #3	Misfire count of No. 3 cylinder	Min.: 0, Max.: 255	0	This is the misfire count for each individual cylinder. This counter is increased by one for each misfire and is cleared every 200 revolutions. Check this item to help determine the malfunctioning cylinder.
Misfire Count Cylinder #4	Misfire count of No. 4 cylinder	Min.: 0, Max.: 255	0	This is the misfire count for each individual cylinder. This counter is increased by one for each misfire and is cleared every 200 revolutions. Check this item to help determine the malfunctioning cylinder.
Misfire Count Cylinder #5	Misfire count of No. 5 cylinder	Min.: 0, Max.: 255	0	This is the misfire count for each individual cylinder. This counter is increased by one for each misfire and is cleared every 200 revolutions. Check this item to help determine the malfunctioning cylinder.
Misfire Count Cylinder #6	Misfire count of No. 6 cylinder	Min.: 0, Max.: 255	0	This is the misfire count for each individual cylinder. This counter is increased by one for each misfire and is cleared every 200 revolutions. Check this item to help determine the malfunctioning cylinder.
All Cylinders Misfire Count	Misfire count of all cylinders	Min.: 0, Max.: 255	0 to 35	This is the total misfire count of all cylinders. This counter is increased by one for each misfire, has a maximum value of 255 and is cleared every 1000 revolutions.
Misfire RPM	Engine speed for first misfire range	Min.: 0 rpm, Max.: 6375 rpm	0 rpm: 0 misfires	This is the average engine speed recorded when misfiring occurs. The value of this item is closer to the actual conditions of the vehicle at the time misfire occurred than the values of Engine Speed and Calculate Load stored in the freeze frame data. When reproducing malfunction conditions, use this value as a reference.
Misfire Load	Engine load for first misfire range	Min.: 0%., Max.: 510%	0%: 0 misfires	This is the average engine load recorded when misfiring occurs. The value of this item is closer to the actual conditions of the vehicle at the time misfire occurred than the values of Engine Speed and Calculate Load stored in the freeze frame data. When reproducing malfunction conditions, use this value as a reference.
Misfire Margin	Misfire monitoring	Min.: -128%, Max.: 127%	0 to 127%: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	This is the misfire detection margin. Misfire Margin = (Misfire detection threshold - maximum engine speed variation) / misfire detection threshold x 100% When the variation in the engine speed is large and exceeds the misfire detection threshold, the misfire count starts. This item is a measure of how much the engine speed variation can increase with respect to the threshold before the engine is determined to be misfiring. A large value means there is a large margin for the engine speed to vary before the engine is determined to be misfiring. Example: When the engine is determined to be misfiring, Misfire Margin = -128 to 0%.
Catalyst OT Misfire Fuel Cut	Fuel cut to prevent catalyst from overheating during misfire	Not Avl or Avail	Not Avl	When a high frequency of misfires is concentrated in a certain cylinder, this function stops fuel injection for that cylinder. For vehicles which support this function, stop this fuel cut using the Active Test and confirm the misfire counts to determine the malfunctioning cylinder. Avail: "Fuel cut to prevent catalyst from overheating during misfire" available Not Avl: "Fuel cut to prevent catalyst from overheating during misfire" not available
Catalyst OT Misfire Fuel Cut History	History of fuel cut to prevent catalyst from overheating during misfire	ON or OFF	OFF	This can be used to tell whether there was a large amount of misfires occurred at a certain cylinder.
Catalyst OT Misfire Fuel Cut Cylinder #1	Fuel cut operation of No. 1 cylinder (if certain level of misfire malfunction is detected)	ON or OFF	OFF	-
Catalyst OT Misfire Fuel Cut Cylinder #2	Fuel cut operation of No. 2 cylinder (if certain level of misfire malfunction is detected)	ON or OFF	OFF	-
Catalyst OT Misfire Fuel Cut Cylinder #3	Fuel cut operation of No. 3 cylinder (if certain level of misfire malfunction is detected)	ON or OFF	OFF	-
Catalyst OT Misfire Fuel Cut Cylinder #4	Fuel cut operation of No. 4 cylinder (if certain level of misfire malfunction is detected)	ON or OFF	OFF	-
Catalyst OT Misfire Fuel Cut Cylinder #6	Fuel cut operation of No. 6 cylinder (if certain level of misfire malfunction is detected)	ON or OFF	OFF	-
Catalyst OT Misfire Fuel Cut Cylinder #5	Fuel cut operation of No. 5 cylinder (if certain level of misfire malfunction is detected)	ON or OFF	OFF	-

Various Vehicle Conditions 3 (All Data)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Engine Start Hesitation	History of hesitation during engine start	ON or OFF	-	This item changes to ON when the engine speed does not reach 500 rpm during cranking.
Low Revolution for Engine Start	History of low engine speed after engine start	ON or OFF	-	This item changes to ON when the engine speed drops to 200 rpm or less within approximately 2 seconds of the engine was starting.
Cooling Fan Duty Ratio	Electric cooling fan request duty ratio	Min.: 0%, Max.: 127.5%	-	Active Test [Control the Engine Cooling Fan Duty Ratio] support data.
Distance from Injector Maintenance	Distance traveled after injector maintenance	Min.: 0 km (0 mile), Max.: 1677721.5 km (1042536.1 mile)	-	-

Compression (Compression)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Engine Speed Cylinder #1	Engine speed for No. 1 cylinder	Min.: 0 rpm, Max.: 51199 rpm	-	Values for this item are only displayed when the Active Test "Check the Cylinder Compression" is performed. This is the engine speed of No. 1 cylinder measured during fuel-cut with the engine cranking. When there is compression loss, the engine speed of the malfunctioning cylinder increases. Tech Tips When multiple cylinders have compression loss, the engine speeds for multiple cylinders increase and it is not possible to determine which cylinders have compression loss. At this time, it is necessary to actually perform a compression measurement.
Engine Speed Cylinder #2	Engine speed for No. 2 cylinder	Min.: 0 rpm, Max.: 51199 rpm	-	Values for this item are only displayed when the Active Test "Check the Cylinder Compression" is performed. This is the engine speed of No. 2 cylinder measured during fuel-cut with the engine cranking. When there is compression loss, the engine speed of the malfunctioning cylinder increases. Tech Tips When multiple cylinders have compression loss, the engine speeds for multiple cylinders increase and it is not possible to determine which cylinders have compression loss. At this time, it is necessary to actually perform a compression measurement.
Engine Speed Cylinder #3	Engine speed for No. 3 cylinder	Min.: 0 rpm, Max.: 51199 rpm	-	Values for this item are only displayed when the Active Test "Check the Cylinder Compression" is performed. This is the engine speed of No. 3 cylinder measured during fuel-cut with the engine cranking. When there is compression loss, the engine speed of the malfunctioning cylinder increases. Tech Tips When multiple cylinders have compression loss, the engine speeds for multiple cylinders increase and it is not possible to determine which cylinders have compression loss. At this time, it is necessary to actually perform a compression measurement.
Engine Speed Cylinder #4	Engine speed for No. 4 cylinder	Min.: 0 rpm, Max.: 51199 rpm	-	Values for this item are only displayed when the Active Test "Check the Cylinder Compression" is performed. This is the engine speed of No. 4 cylinder measured during fuel-cut with the engine cranking. When there is compression loss, the engine speed of the malfunctioning cylinder increases. Tech Tips When multiple cylinders have compression loss, the engine speeds for multiple cylinders increase and it is not possible to determine which cylinders have compression loss. At this time, it is necessary to actually perform a compression measurement.
Engine Speed Cylinder #5	Engine speed for No. 5 cylinder	Min.: 0 rpm, Max.: 51199 rpm	-	Values for this item are only displayed when the Active Test "Check the Cylinder Compression" is performed. This is the engine speed of No. 5 cylinder measured during fuel-cut with the engine cranking. When there is compression loss, the engine speed of the malfunctioning cylinder increases. Tech Tips When multiple cylinders have compression loss, the engine speeds for multiple cylinders increase and it is not possible to determine which cylinders have compression loss. At this time, it is necessary to actually perform a compression measurement.
Engine Speed Cylinder #6	Engine speed for No. 6 cylinder	Min.: 0 rpm, Max.: 51199 rpm	-	Values for this item are only displayed when the Active Test "Check the Cylinder Compression" is performed. This is the engine speed of No. 6 cylinder measured during fuel-cut with the engine cranking. When there is compression loss, the engine speed of the malfunctioning cylinder increases. Tech Tips When multiple cylinders have compression loss, the engine speeds for multiple cylinders increase and it is not possible to determine which cylinders have compression loss. At this time, it is necessary to actually perform a compression measurement.
Average Engine Speed of All Cylinder	Average engine speed for all cylinders	Min.: 0 rpm, Max.: 51199 rpm	-	Values for this item are only displayed when the Active Test "Check the Cylinder Compression" is performed.

Air Fuel Ratio Cylinder Imbalance (Ptrl AF O2 Sensor)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Diagnostic Note
A/F Sensor Determination (Worst Value) Bank 1	Worst judgment value of air fuel ratio sensor output for bank 1	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
A/F Sensor Determination (Worst Value) Bank 2	Worst judgment value of air fuel ratio sensor output for bank 2	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) Cylinder #1	Worst value of average engine speed fluctuation (cylinder 1)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) Cylinder #2	Worst value of average engine speed fluctuation (cylinder 2)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) Cylinder #3	Worst value of average engine speed fluctuation (cylinder 3)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) Cylinder #4	Worst value of average engine speed fluctuation (cylinder 4)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) Cylinder #5	Worst value of average engine speed fluctuation (cylinder 5)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) Cylinder #6	Worst value of average engine speed fluctuation (cylinder 6)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
A/F Sensor Determination (Worst Value) (Port) Bank 1	Worst judgment value of air fuel ratio sensor output for bank 1 (port injection)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
A/F Sensor Determination (Worst Value) (Port) Bank 2	Worst judgment value of air fuel ratio sensor output for bank 2 (port injection)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) (Port) Cylinder #1	Worst value of average engine speed fluctuation (cylinder 1, port injection)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) (Port) Cylinder #2	Worst value of average engine speed fluctuation (cylinder 2, port injection)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) (Port) Cylinder #3	Worst value of average engine speed fluctuation (cylinder 3, port injection)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) (Port) Cylinder #4	Worst value of average engine speed fluctuation (cylinder 4, port injection)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) (Port) Cylinder #5	Worst value of average engine speed fluctuation (cylinder 5, port injection)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.
Engine Speed Fluctuation Average (Worst Value) (Port) Cylinder #6	Worst value of average engine speed fluctuation (cylinder 6, port injection)	Min.: 0, Max.: 2.55	The worst value detected during monitoring is displayed. The value is reset when DTCs are cleared.

Various Vehicle Conditions 4 (All Data)

Powertrain > Engine > Data List

Tester Display	Measurement Item	Range	Normal Condition	Diagnostic Note
Requested Engine Torque	Requested engine torque	Min.: 0 kW, Max.: 16383.75 kW	0 to 220 kW	-
HV Target Engine Speed	HV target engine speed	Min.: 0 rpm, Max.: 6375 rpm	0 to 6375 rpm	-
Actual Engine Torque	Actual engine torque	Min.: -32768 Nm, Max.: 32767 Nm	Actual engine torque	-
Engine Driving Time	Engine driving time	Min.: 0 sec, Max.: 255 sec	0 to 255 sec	-
Request Engine Run Time	Request engine run time	Min.: 0 sec, Max.: 25.5 sec	0 to 25.5 sec	-
Judge Time Engine Ignition	Judgment time for complete explosion of ignition	Min.: 0 sec, Max.: 25.5 sec	0 to 25.5 sec	-
Judge Time Engine Output	Judgment time for time until engine output	Min.: 0 sec, Max.: 25.5 sec	0 to 25.5 sec	-
Fuel Level	Fuel level	Empty or Not Emp	Not Emp	-
ISC Learning Value	ISC learning value	Min.: -1024 Nm, Max.: 1023.96 Nm	-14 to 30 Nm: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas])	-
ISC Learning	ISC learning	Compl or Incmpl	Compl: ISC learned value complete Incmpl: ISC learned value incomplete	-
F/C for Engine Stop Req	Fuel cut for engine stop request	ON or OFF	ON → OFF: Engine stopped → Engine start	-
Engine Independent	Engine independent operation	Not Opr or Operate	Operate: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control) Not Opr: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas]), accelerator pedal depressed	"Not Opr" is displayed during charge control.
Racing Operation	Racing operation	Not Opr or Operate	Operate: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas]), accelerator pedal depressed Not Opr: Idling with warmed up engine (inspection mode [2WD for measuring Exhaust Gas], not charge control)	-
Request Warm-up	Request engine warm up	Not Req or Request	-	-
Engine Independent Control	Engine independent control operation	Not Opr or Operate	-	-

ACTIVE TEST

Tech Tips

Using the GTS to perform Active Tests allows relays, VSVs, actuators and other items to be operated without removing any parts. This non-intrusive functional inspection can be very useful because intermittent operation may be discovered before parts or wiring is disturbed. Performing Active Tests early in troubleshooting is one way to save diagnostic time. Data List information can be displayed while performing Active Tests.

Connect the GTS to the DLC3.
Turn the power switch on (IG).
Turn the GTS on.
Put the engine in Inspection Mode (2WD for measuring Exhaust Gas).

Click here

Powertrain > Hybrid Control > Utility

Tester Display

Inspection Mode
Start the engine.
Warm up the engine.
Turn the power switch off.
Turn the power switch on (IG).
Turn the GTS on.
Enter the following menus: Powertrain / Engine / Active Test.

Tester Display
Inspection Mode

According to the display on the GTS, perform the Active Test.

Powertrain > Engine > Active Test

Tester Display	Measurement Item	Control Range	Diagnostic Note
Control the Injection Volume	Control the injection volume	Between -12.5% and 24.8%	All fuel injector assemblies are tested at the same time. Injection volume can be changed in fine gradations within the control range. This Active Test enables the checking and graphing of the air fuel ratio sensor (sensor 1) voltage and air fuel ratio sensor (sensor 2) current outputs. To perform this Active Test, enter the following menus: Powertrain / Engine / Active Test / Control the Injection Volume / Data List / A/F (O2) Sensor Voltage B1S1 and A/F (O2) Sensor Current B1S2 or A/F (O2) Sensor Voltage B2S1 and A/F (O2) Sensor Current B2S2. While performing the Active Test, air fuel ratio feedback control and feedback learning are stopped. This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas).
Control the Injection Volume for A/F Sensor	Change injection volume	-12.5%/0%/12.5%	All fuel injector assemblies are tested at the same time. This Active Test enables the checking and graphing of the air fuel ratio sensor (sensor 1) voltage and air fuel ratio sensor (sensor 2) current outputs. To perform this Active Test, enter the following menus: Powertrain / Engine / Active Test / Control the Injection Volume for A/F Sensor / Data List / A/F (O2) Sensor Voltage B1S1 and A/F (O2) Sensor Current B1S2 or A/F (O2) Sensor Voltage B2S1 and A/F (O2) Sensor Current B2S2. While performing the Active Test, air fuel ratio feedback control and feedback learning are stopped. This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas). See waveform *3.
Activate the EVAP Purge VSV	Activate purge VSV control	ON/OFF	Confirm that the vehicle is stopped. The purge VSV is opened with approximately 50% duty ratio. See waveform *5.
Activate the Circuit Relay	Activate fuel pump (for low pressure side)	ON/OFF	Perform this test when the following conditions are met: Power switch is on (IG). Engine is stopped. Park (P) has been selected.
Control the Fuel Pump Duty Ratio	Change the fuel pump speed (for low pressure side)	Low/High	Perform this test when the following conditions are met: Power switch is on (IG). Engine is stopped. Park (P) has been selected.
Fuel Pump Single Phase Energization	Energizes a single phase of fuel pump control ECU	U Phase/V Phase/W Phase	Perform this test when the following conditions are met: Power switch is on (IG). Engine is stopped. Park (P) has been selected. Connector from fuel pump control ECU to fuel pump (for low pressure side) is disconnected.
Activate the TC Terminal	Turn on and off TC and TE1 (CG) connection	ON/OFF	Confirm that the vehicle is stopped. ON: TC and TE1 (CG) are connected. OFF: TC and TE1 (CG) are disconnected.
Prohibit the Idle Fuel Cut	Prohibit idling fuel cut control	Start/Stop	Perform this test when the following conditions are met: Power switch is on (IG). Park (P) has been selected.
Prohibit the Catalyst OT Misfire Prevent Fuel Cut	Prohibit catalyst overheat protection fuel cut	Start/Stop Start: Fuel cut prohibited	Perform this test when the engine speed is 3000 rpm or less.
Control the ETCS Open/Close Slow Speed	Throttle actuator	Close/Open Start/Stop Open: Throttle valve opens slowly	Perform this test when the following conditions are met: Power switch is on (IG). Engine is stopped. Accelerator pedal is fully depressed (accelerator pedal position: 58 degrees or more). Park (P) has been selected.
Control the ETCS Open/Close Fast Speed	Throttle actuator	Close/Open Start/Stop Open: Throttle valve opens quickly	Same as above. See waveform *4.
Control the Intake VVT OCV Duty Ratio Bank 1	Control cam timing oil control solenoid assembly (for intake camshaft of bank 1)	-100 to 100% (This value added to present cam timing oil control solenoid control duty) 100%: Maximum advance -100%: Maximum retard	Engine stalls or idles roughly when the cam timing oil control solenoid assembly is set to 100%. Perform this test when the following conditions are met: Engine is idling. DTCs related to the VVT system may be stored due to Active Test operation, but this does not indicate a malfunction. This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas).
Control the Intake VVT OCV Duty Ratio Bank 2	Control cam timing oil control solenoid assembly (for intake camshaft of bank 2)	-100 to 100% (This value added to present cam timing oil control solenoid control duty) 100%: Maximum advance -100%: Maximum retard	Engine stalls or idles roughly when the cam timing oil control solenoid assembly is set to 100%. Perform this test when the following conditions are met: Engine is idling. DTCs related to the VVT system may be stored due to Active Test operation, but this does not indicate a malfunction. This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas).
Control the Exhaust VVT OCV Duty Ratio Bank 1	Control cam timing oil control solenoid assembly (for exhaust camshaft of bank 1)	-100 to 100% (This value added to present cam timing oil control solenoid control duty) 100%: Maximum advance -100%: Maximum retard	Engine stalls or idles roughly when the cam timing oil control solenoid assembly is set to 100%. Perform this test when the following conditions are met: Engine is idling. DTCs related to the VVT system may be stored due to Active Test operation, but this does not indicate a malfunction. This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas).
Control the Exhaust VVT OCV Duty Ratio Bank 2	Control cam timing oil control solenoid assembly (for exhaust camshaft of bank 2)	-100 to 100% (This value added to present cam timing oil control solenoid control duty) 100%: Maximum advance -100%: Maximum retard	Engine stalls or idles roughly when the cam timing oil control solenoid assembly is set to 100%. Perform this test when the following conditions are met: Engine is idling. DTCs related to the VVT system may be stored due to Active Test operation, but this does not indicate a malfunction. This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas).
Control the EGR Step Position	Control EGR valve assembly	From 0 to 110 step	The EGR valve is fully closed at step position 0, and fully open at step position 110. The amount of EGR gas flowing into the intake manifold varies in accordance with the EGR valve opening angle. Perform this test when the following conditions are met: Engine is running. Park (P) has been selected. Do not leave the EGR valve open for 10 seconds or more while performing the Active Test. Be sure to return the EGR valve to step 0 when the Active Test is completed. Do not open the EGR valve 30 steps or more while performing the Active Test. This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas). See waveform *6.
Activate the Vacuum Pump	Activate leak detection pump (built into canister pump module)	ON/OFF	Perform this test when the following conditions are met: Fuel tank pressure is 3 kPa(gauge) [0.4 psi(gauge)] or less. Fuel-vapor containment valve is closed. *1
Activate the VSV for Vent Valve	Activate vent valve (built into canister pump module)	ON/OFF	Perform this test when the following conditions are met: Fuel tank pressure is 3 kPa(gauge) [0.4 psi(gauge)] or less. Fuel-vapor containment valve is closed. *1
Activate the Fuel Filler Opener	Activate fuel lid opener motor	ON/OFF	Perform this test when the following conditions are met: Power switch on (IG). Engine is stopped. Park (P) has been selected.
Activate the Fuel Vapor-Containment Valve	Activate fuel vapor-containment valve	Open/Close	Perform this test when the following conditions are met: Power switch on (IG). Engine is stopped. Park (P) has been selected. *1
Control the Target Fuel Pressure Offset	Control the target fuel pressure (for high pressure side)	-12.5 to 24.8%	Perform this test when the following conditions are met: Engine speed is 3000 rpm or less. This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas).
Control the Injection Mode	Perform 3 pattern in order to operate fuel injection	Port/Direct Start/Stop	Perform this test when the following conditions are met: Vehicle stopped. Engine is idling. When the Data List item Injection Switching Status is "OK" This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas).
Control the Select Cylinder Fuel Cut	Selected cylinder (cylinder #1 to #6) injector fuel cut	#1/#2/#3/#4/#5/#6 ON/OFF	Perform this test when the following conditions are met: Vehicle stopped. Engine is idling. Park (P) has been selected. This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas).
Control the All Cylinders Fuel Cut	Fuel cut for all cylinders	ON/OFF	Perform this test when the following conditions are met: Vehicle stopped. Engine is idling. Park (P) has been selected. This Active Test should be performed with the engine in Inspection Mode (2WD for measuring Exhaust Gas).
Check the Cylinder Compression	Check the cylinder compression pressure	ON/OFF	This Active Test should be performed in inspection mode (2WD for measuring Exhaust Gas). *2
D-4S (Injection Volume)	Perform 2 pattern in order to operate injection volume	Port/Direct -12.5 to 24.8%	Perform this test when the following conditions are met: Vehicle stopped. Engine speed is 3000 rpm or less. Park (P) has been selected. Engine coolant temperature is 80°C (176°F) or higher. Data List item "Injection Switching Status" is "OK". This Active Test should be performed in inspection mode (2WD for measuring Exhaust Gas).
D-4S (A/F Control)	Perform 2 pattern in order to operate air fuel ratio control	Port/Direct -12.5% or 25%	Perform this test when the following conditions are met: Vehicle stopped. Engine speed is 3000 rpm or less. Park (P) has been selected. Engine coolant temperature is 80°C (176°F) or higher. Data List item "Injection Switching Status" is "OK". This Active Test should be performed in inspection mode (2WD for measuring Exhaust Gas).
D-4S (Fuel Cut)	Perform 2 pattern in order to operate fuel cut	Port/Direct #1/#2/#3/#4/#5/#6 Start/Stop	Perform this test when the following conditions are met: Vehicle stopped. Engine speed is 3000 rpm or less. Park (P) has been selected. Engine coolant temperature is 80°C (176°F) or higher. Data List item "Injection Switching Status" is "OK". This Active Test should be performed in inspection mode (2WD for measuring Exhaust Gas).
Control the Engine Cooling Fan Duty Ratio	Control the cooling fan	0 to 100%	Confirm that the vehicle is stopped.

*1: Refer to EVAP System.

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*2: Check the Cylinder Compression

Note

Use a fully-charged HV battery.

Tech Tips

While the Check the Cylinder Compression Active Test is being performed, if the speed of one cylinder is more than the other cylinders, it can be determined that the compression pressure of that cylinder is lower than the other cylinders.
1. Connect the GTS to the DLC3.
2. Turn the power switch on (IG).
3. Turn the GTS on.
4. Put the engine in Inspection Mode (2WD for measuring Exhaust Gas).
  
  Click here
5. Start the engine and warm it up.
6. Turn the power switch off.
7. Turn the power switch on (IG).
8. Turn the GTS on.
9. Put the engine in Inspection Mode (2WD for measuring Exhaust Gas).
  
  Click here
  
  Tech Tips
  
  Do not start the engine.
10. Enter the following menus: Powertrain / Engine / Active Test / Check the Cylinder Compression.
  
  Tech Tips
  
  To display the entire Data List, press the pull down menu button next to Primary. Then select Compression.
11. Push the snapshot button to turn the snapshot function on.
  
  Tech Tips
  
  Using the snapshot function, data can be recorded while performing the Active Test.
12. While the engine is not running, press the Active Test button to change Check the Cylinder Compression to "Start".
  
  Tech Tips
  
  After performing the above procedure, Check the Cylinder Compression will start. Fuel injection for all cylinders is prohibited and each cylinder engine speed measurement enters standby mode.
13. Crank the engine.
  
  Tech Tips
  
  Continue to crank the engine until the values change from the default value (51199 rpm).
14. Monitor the engine speed (Engine Speed Cylinder #1 to #6) displayed on the GTS.
  Note
  - If the Check the Cylinder Compression Active Test needs to be performed after it is changed to "Start" and performed once, press the Exit button to return to the Active Test menu screen. Then perform the Check the Cylinder Compression Active Test again.
  - As soon as the measurements are obtained, stop the Active Test.
  Tech Tips
  - At first, the GTS display will show each cylinder's engine speed measurement to be extremely high. After the engine has started, each cylinder's engine speed measurement will change to the actual engine speed.
  - If the cylinder engine speed values (Engine Speed Cylinder #1 to #6) displayed in the Data List do not change from an extremely high value, return to the Active Test menu screen, change "Check the Cylinder Compression" to "Start" and crank the engine again within 1 second.
15. Stop the engine and change the Active Test "Check the Cylinder Compression" to "Stop" after the engine stops.
  Note
  - When performing the Active Test, DTC may be stored.
  - After performing the Active Test, make sure to check and clear the DTCs.
16. Push the snapshot button to turn the snapshot function off.
17. Select "Stored Data" on the GTS screen, select the recorded data and display the data as a graph.
  
  Tech Tips
  
  If the data is not displayed as a graph, the change of the values cannot be observed.
18. Check the change in engine speed values.

Reference Waveforms for Active Test

*3: Control the Injection Volume for A/F Sensor (Engine warmed up and idling, inspection mode [2WD for measuring Exhaust Gas], not charge control)

GTS Display	Measurement Item/Operation	Normal Condition
Control the Injection Volume for A/F Sensor	-	▲A	▲B
	Active Test operation	-12.5%	12.5%
	A/F (O2) Sensor Voltage B1S1	3.896 V	2.566 V
	A/F (O2) Sensor Current B1S2	3.24 mA	-4.51 mA

Tech Tips

While performing the Active Test, air fuel ratio feedback control and feedback learning are stopped.
Usually, the value of A/F (O2) Sensor Voltage B1S1 drops below 3.1 V when the control value for Control the Injection Volume for A/F Sensor is changed to 12.5%.
Usually, the value of A/F (O2) Sensor Voltage B1S1 changes to higher than 3.4 V when the control value for Control the Injection Volume for A/F Sensor is changed to -12.5%.
Usually, the value of A/F (O2) Sensor Current B1S2 drops below -0.86 mA when the control value for Control the Injection Volume for A/F Sensor is changed to 12.5%.
Usually, the value of A/F (O2) Sensor Current B1S2 changes to higher than 0.33 mA when the control value for Control the Injection Volume for A/F Sensor is changed to -12.5%.
The air fuel ratio sensor (sensor 1) has an output delay of a few seconds and the air fuel ratio sensor (sensor 2) has a maximum output delay of approximately 20 seconds.
If the sensor output value does not change (almost no reaction) while performing the Active Test, the sensor may be malfunctioning.

*4: Control the ETCS Open/Close Fast Speed [Active Test for electrical throttle control system] (Power switch on (IG), Accelerator pedal fully depressed)

GTS Display	Measurement Item/Operation	Normal Condition
Control the ETCS Open/Close Fast Speed	-	▲A	▲B
	Active Test operation	Open	Close
	Throttle Position Sensor No.1 Voltage	2.597 V	0.742 V
	Throttle Motor Duty Ratio (Open)	13.0%	0.0%
	Throttle Motor Duty Ratio (Close)	0.0%	13.0%

Tech Tips

If any DTCs related to the Electronic Throttle Control System (ETCS) are stored, this Active Test cannot be performed.

*5: Activate the EVAP Purge VSV (Engine warmed up and idling, inspection mode [2WD for measuring Exhaust Gas], not charge control)

GTS Display	Measurement Item/Operation	Normal Condition
Activate the EVAP Purge VSV	-	▲A	▲B
	Active Test operation	ON	OFF
	EVAP (Purge) VSV	49.8%	0.0%
	Injector Cylinder #1 (Port)	3754 μs	3846 μs
	A/F (O2) Sensor Voltage B1S1	3.296 V	3.301 V

Tech Tips

The graphs and values above are for reference only because the fuel injection volume (compensation volume) varies depending on the HC density of the purge air from the canister.
Even when the Active Test is performed (the purge VSV is opened approximately 50%), the ECM performs air fuel ratio feedback to maintain the air fuel ratio at the stoichiometric ratio. Therefore, by observing the change in the Data List item "Injector Cylinder #1 (Port)", it is possible to determine whether the purge VSV is actually open.

*6: Control the EGR Step Position (Engine warmed up and idling, inspection mode [2WD for measuring Exhaust Gas], not charge control)


*1	EGR Step Position [step]
*2	Engine Speed [rpm]
*3	Intake Manifold Absolute Pressure [kPa]

GTS Display	Measurement Item	Normal Condition
Control the EGR Step Position	-	▲A	▲B	▲C	▲D
	EGR Step Position	0 step	10 step	20 step	30 step
	Intake Manifold Absolute Pressure	33 kPa (4.79 psi)	33 kPa (4.79 psi)	67 kPa (9.72 psi)	86 kPa (12.47 psi)

Note

Make sure that the value of Data List item Engine Independent is "Operate" while performing the Active Test.
Do not leave the EGR valve open for 10 seconds or more while performing Active Test.
Be sure to return the EGR valve to step 0 when the Active Test is completed.
Do not open the EGR valve 30 steps or more during the Active Test.

Tech Tips

When the value of Control the EGR Step Position is "0 step", the value of Intake Manifold Absolute Pressure should be between 20 and 40 kPa (2.9 to 5.8 psi).
When the EGR system is normal and the value of Control the EGR Step Position is changed from "0 step" to "30 step", the value of Intake Manifold Absolute Pressure will increase to a value at least 10 kPa (1.45 psi) higher than the value of Intake Manifold Absolute Pressure when the value of Control the EGR Step Position was "0 step".
If the value of Data List item Engine Independent is "Not Opr" when the engine is idling, charge control is being performed. Perform the Active Test after charge control is complete ("Operate" is displayed).

SYSTEM CHECK

EVAPORATIVE SYSTEM CHECK

Tech Tips

Performing a System Check enables the system, which consists of multiple actuators, to be operated without removing any parts. In addition, it can output any stored DTCs, and can detect potential malfunctions in the system. The System Check can be performed with the GTS.

Connect the GTS to the DLC3.
Turn the power switch on (IG).
Turn the GTS on.
Enter the following menus: Powertrain / Engine / Utility / Evaporative System Check.

Powertrain > Engine > Utility

Tester Display

Evaporative System Check

Tester Display
Evaporative System Check

Perform the System Check by referring to the table below.

GTS Display	Test Part	Condition	Diagnostic Note
Evaporative System Check (Automatic Mode)	Perform 9 steps in order to operate EVAP key-off monitor automatically	Fuel temperature is less than 35°C (95°F), etc.	If no pending DTCs are output after performing this test, the system is functioning normally. Refer to EVAP System Inspection Procedure. Click here
Evaporative System Check (Manual Mode)	Perform 9 steps in order to operate EVAP key-off monitor manually	Fuel temperature is less than 35°C (95°F), etc.	Used to detect malfunctioning parts. Refer to EVAP System Inspection Procedure. Click here

GTS Display

Test Part

Condition

Diagnostic Note

Evaporative System Check

(Automatic Mode)

Perform 9 steps in order to operate EVAP key-off monitor automatically

Fuel temperature is less than 35°C (95°F), etc.

If no pending DTCs are output after performing this test, the system is functioning normally.
Refer to EVAP System Inspection Procedure.

Click here

Evaporative System Check

(Manual Mode)

Perform 9 steps in order to operate EVAP key-off monitor manually

Fuel temperature is less than 35°C (95°F), etc.

Used to detect malfunctioning parts.
Refer to EVAP System Inspection Procedure.

Click here

SFI SYSTEM(w/ Canister Pump Module) DATA LIST / ACTIVE TEST