Freeze Frame Data: List
NOTE:
Some items are not displayed according to the specifications
.
| Display | Contents | Unit |
|---|---|---|
| Engine Speed | Value calculated from crankshaft position sensor output value. | rpm |
| Mass Air Flow | Value calculated from air flow sensor output value. | g/s or lb/min |
| Mass Air Flow Average | Value calculated from air flow sensor output value. | g/s or lb/min |
| Vehicle Speed | Value calculated from vehicle speed sensor output value. | km/h or MPH |
| Throttle Opening Angle | Throttle valve opening angle (in percentage) calculated from throttle position sensor output value. | % |
| A/F Sensor #1 | Actual lambda value calculated from the front oxygen (A/F) sensor output value. | - |
| Ignition timing adv. #1 | Ignition timing control value for No. 1 cylinder. Calculated from rotation speed, manifold pressure, intake air temperature, water temperature, and data from knock sensor etc. | ° |
| Engine Coolant Temperature | Value calculated from engine coolant temperature sensor output value. | °C or °F |
| Short term fuel trim B1 | Air fuel ratio correction control value for the front oxygen (A/F) sensor. | % |
| Long term fuel trim B1 | Air fuel ratio learning control value for the front oxygen (A/F) sensor. | % |
| Mani. Absolute Pressure | Value calculated from manifold pressure sensor output. | kPa, mmHg, inHg, psi or inH2O |
| Oxygen sensor #12 | Rear oxygen sensor voltage value. | V |
| VVT Adv. Ang. Amount R | AVCS advance angle amount for the RH bank on the intake side. | deg |
| VVT Advance Target Angle Amount R | AVCS target advance angle amount for the RH bank on the intake side. This value is compared with the AVCS advance angle amount R to judge if the intake AVCS is operating properly. Response delays during the transition time. | deg |
| VVT Adv. Ang. Amount L | AVCS advance angle amount for the LH bank on the intake side. | deg |
| VVT Advance Target Angle Amount L | AVCS target advance angle amount for the LH bank on the intake side. This value is compared with the AVCS advance angle amount L to judge if the intake AVCS is operating properly. Response delays during the transition time. | deg |
| Exh. VVT Retard Ang. R | AVCS retard angle amount for the RH bank on the exhaust side. | deg |
| Ex VVT Retard Target Angle R | AVCS target retard angle amount for the RH bank on the exhaust side. This value is compared with the AVCS retard angle amount R to judge if the exhaust AVCS is operating properly. Response delays during the transition time. | deg |
| Exh. VVT Retard Ang. L | AVCS retard angle amount for the LH bank on the exhaust side. | deg |
| Ex VVT Retard Target Angle L | AVCS target retard angle amount for the LH bank on the exhaust side. This value is compared with the AVCS retard angle amount L to judge if the exhaust AVCS is operating properly. Response delays during the transition time. | deg |
| Number of Cleaning Executions for VVT Self-recovery | Number of times that the intake AVCS oil control valve cleaning is performed. | Time |
| Number of Cleaning Executions for Ex VVT Self-recovery | Number of times that the exhaust AVCS oil control valve cleaning is performed. | Time |
| Control module voltage | ECM input power supply voltage. | V |
| Target Equivalence Ratio | Target air fuel ratio. (Lambda). It usually becomes 1 aiming at a theoretical air fuel ratio. | - |
| Engine Oil Temperature | Value calculated from the engine oil temperature sensor output value. | °C or °F |
| Intake Air Temp. | Value calculated from the intake air temperature sensor output value. | °C or °F |
| Ambient Temperature | Data value of the ambient temperature output from the combination meter to the ECM via CAN. | °C or °F |
| Ambient Temperature Sensor Signal | Data value of the ambient temperature output from the combination meter to the ECM via CAN. Ambient temperature used for diagnosis. | °C or °F |
| Ambient Temperature for Control | Data value of the ambient temperature output from the combination meter to the ECM via CAN. Ambient temperature used for control. | °C or °F |
| Calculated load value | Current rate of air amount. Value assuming that the air amount at the current engine speed with the throttle fully open is 100%. | % |
| Absolute Load Value | Percentage of current intake air amount against the maximum air intake amount of the engine. For non-turbo engine, the value can be close to 95%, but will never be 100%. For turbo engine, this value may exceed 100% due to a boost pressure. | % |
| Barometric Pressure | Value calculated from atmospheric pressure sensor output value. | kPa, mmHg, inHg, psi or inH2O |
| Actual Throttle Opening Angle | Actual throttle opening angle. Calculated by ECM based on the throttle sensor input value. | deg |
| Target Throttle Opening Angle | Control value of the target throttle opening angle calculated by ECM. Target value of opening angle in percentage when 0% means fully closed and 100% means fully open. | % |
| Relative Throttle Pos. | Current throttle opening angle in percentage against the throttle voltage (full range) that has reflected the full close point learning value. The value will be approx. 70% at full open. | % |
| Idle Mass Air Flow | Air volume correction value to maintain the target rotation speed in each water temperature. Corrects air volume when the water temperature changes. It includes values of the feedback correction amount and the learning value. | g/s or lb/min |
| Idle Mass Air Flow Feedback correct | Air volume compensation value of ISC as a feedback correction to stabilize the idling speed. | g/s or lb/min |
| ISC Learning Value | Learning control value of ISC. After warming up, learning control is executed to reduce the ISC feedback correction to zero, in order to stabilize the engine speed. | g/s or lb/min |
| Idle dirty throttle correct | Calculates the ISC learning values on a long-term basis, and judges as an ISC dirty throttle correction when the learning value increases gradually. When carbon or other dirt accumulates on the ISC throttle and make the throttle dirty, air volume decreases when the throttle is fully closed. The ECM increases the amount of compensation air to keep the rotation speed. | g/s or lb/min |
| Fuel Rail Pressure A | Fuel pressure sensor output value set to the high pressure fuel line. Input value to ECM. | kPa, mmHg, inHg, psi or inH2O |
| Fuel Rail Pressure B | Fuel pressure sensor output value set to the high pressure fuel line. Input value to ECM. | kPa, mmHg, inHg, psi or inH2O |
| Commanded Fuel Rail Pressure A | Target fuel pressure for high pressure fuel line calculated by ECM. | kPa, mmHg, inHg, psi or inH2O |
| Commanded Fuel Rail Pressure B | Target fuel pressure for high pressure fuel line calculated by ECM. | kPa, mmHg, inHg, psi or inH2O |
| Fuel Level Input | Value output from the combination meter to the ECM via CAN. | % |
| Fuel Increase 1 at the High Temperature Restart | Fuel injection compensation coefficient at restarting with high coolant temperature. | - |
| Judgment Flag of Heavy Fuel | Result of heavy mass fuel judgment. | - |
| Commanded Evaporative Purge | Evaporative purge rate displayed by the OBD. | % |
| Purge Density Learn Value | Leaning value of the evaporation gas density purged from the canister. ECM displays the estimated leaning value. | % |
| Evap Purge Flow | Purge ratio when the evaporation gas is purged from the canister. ECM performs a duty drive to the purge solenoid valve. The amount of gas actually purged will vary depending on the vacuum pressure difference before/after the solenoid valve. Purge ratio displayed here shows current purge amount in percentage against the maximum purge amount when the maximum vacuum pressure is applied. | % |
| Fuel system for Bank 1 | Feedback status of air fuel ratio. Open: Feedback is stopped Closed: Feedback control is being performed | - |
| A/F Sensor #1 Resistance | Value calculated from the front oxygen (A/F) sensor output value. | ohm |
| Rear O2 Sensor Input Voltage | Rear oxygen sensor (+) output voltage value. Input value to ECM. | V |
| Rear O2 Sensor Offset Voltage | Rear oxygen sensor (-) output voltage value. Input value to ECM. | V |
| O2 Sensor Impedance | Rear oxygen sensor element impedance value. Input value to ECM. | ohm |
| No. of EGR steps | Number of EGR valve steps. Number of stepping motor steps. ECM output value. | STEP |
| Commanded EGR | Target value as EGR setting value calculated by ECM. | % |
| EGR Error | Percentage of the difference in actual EGR steps as compared to the target EGR steps. Both a positive value and a negative value mean that it doesn't fulfill the target. When the value is positive: It opens more than the target value. When the value is negative: It opens smaller than the target value. | % |
| Load Value | Engine load value. | g/rev |
| TGV Drive | Tumble generator valve drive status. Set to [Open] when the tumble generator valve is open. ECM control status. | - |
| Cylinder Monitor #1 | Calculates the rotation speed between certain angles on the #1 cylinder. If the rotation speed is low compared to monitor values of other cylinders, it means that the combustion is not ideal in that cylinder. | rpm |
| Cylinder Monitor #2 | Calculates the rotation speed between certain angles on the #2 cylinder. If the rotation speed is low compared to monitor values of other cylinders, it means that the combustion is not ideal in that cylinder. | rpm |
| Cylinder Monitor #3 | Calculates the rotation speed between certain angles on the #3 cylinder. If the rotation speed is low compared to monitor values of other cylinders, it means that the combustion is not ideal in that cylinder. | rpm |
| Cylinder Monitor #4 | Calculates the rotation speed between certain angles on the #4 cylinder. If the rotation speed is low compared to monitor values of other cylinders, it means that the combustion is not ideal in that cylinder. | rpm |
| Completed Flag of Cylinder Discrimination | Flag for completion of cylinder judgment If this flag is not ON, it is possible to judge that the crankshaft position sensor and camshaft position sensor are faulty. | - |
| Active Grille Shutter Position | Pulse count value of active grille shutter position. Fully open: 100% Fully closed: 0% | - |
| Active Grille Shutter Mechanical Break Status | Mechanical error status of the active grille shutter. During the calibration procedure, if a linkage of the active grille shutter is off, calibration is not performed. Judgment is done by the active grille shutter and the status is sent to ECM. | - |
| Active Grille Shutter Sensor Error Status | Judges a malfunction of the active grille shutter opening angle sensor. Judges the sensor malfunction on the pulse counter. Judgment is done by the active grille shutter and the status is sent to ECM. | - |
| Active Grille Shutter Voltage Error Status | Judges a malfunction of the power source voltage supplied to the active grille shutter. Judgment is done by the active grille shutter and the status is sent to ECM. | - |
| Active Grille Shutter Control Circuit Error Status | Judges a malfunction of the active grille shutter internal circuit (drive motor). Judgment is done by the active grille shutter and the status is sent to ECM. | - |
| Active Grille Shutter Stuck Error Status | Judges an abnormal stuck of the active grille shutter. Detects the status where the operation failed because of any foreign matter or ice clogging in the active grille shutter. | - |
| Active Grille Shutter Temperature Error Status | Detects internal temperature of the active grille shutter. The judgment is performed to check if the temperature is excessively high. Judgment is done by the active grille shutter and the status is sent to ECM. | - |
| Active Grille Shutter Communication Error Status | Communication is performed between the active grille shutter and ECM, and judges the abnormality of the communication status. | - |
| Active Grille Shutter Position Commanded Status | Active grille shutter drive instruction status. Shutter open: Open Shutter closed: Closed | - |
| Active Grille Shutter Calibration in progress | Status of the active grille shutter calibration. Active grille shutter performs the calibration when the ignition is ON. Set to "ON? when the calibration was performed. | - |
| Active Grille Shutter Calibration Commanded Status | Commands from ECM to the active grille shutter. | - |
| Active Grille Shutter Calibration Status | Status of the active grille shutter calibration. When completed: Completed When not completed: Not completed
NOTE:
Always completed when there is no abnormality in the active grille shutter
.
|
- |
| Active Grille Shutter Warning Status | Warning signal of the active grille shutter. When the active grille shutter has a malfunction, signal is sent to the combination meter to illuminate the warning light. | - |
| Active Grille Shutter Control Status 1 | Status such as operating factors (air conditioner, radiator fan etc.) or frozen judgment of the active grille shutter controlled by the ECM. | - |
| Active Grille Shutter Control Status 2 | Status such as operating factors (air conditioner, radiator fan etc.) or frozen judgment of the active grille shutter controlled by the ECM. | - |
| Trip Count | Time stamp information. Number of times the ignition is ON since the vehicle was manufactured. The number of ignition ON is also recorded when a trouble code is recorded, so the comparison with that number will show you how many times the ignition has turned on since the diagnostic code was recorded. | Time |
| Count | Time stamp information. Each unit individually counts the elapsed time since the ignition is turned to ON. Master integrated unit and ECM synchronize with the master time. When synchronized: [Common] When not synchronized: [Originally] | - |
| Time Count | Time stamp information. Elapsed time after ignition ON. When a trouble code is recorded, the elapsed time after ignition ON is also recorded. | ms |
| Time Since Engine Start | Elapsed time after starting the engine. | sec |
| Initial Engine Oil Temp. | Oil temperature when starting the engine, which is input to ECM from the oil temperature sensor. | °C or °F |
| Initial Engine Coolant Temp. | Water temperature when starting the engine, which is input to ECM from the water temperature sensor. | °C or °F |
| Initial Intake Air Temp. | Intake air temperature when starting the engine, which is input to ECM from the intake air temperature sensor. | °C or °F |
| Engine Starting Time | Time needed since the cranking started till the judgment of engine start is complete. | ms |
| Start Mask Control Check 1 | Information that shows whether the start prohibition control is executed on the engine side when starting. Values other than zero mean that the control is executed and the engine start is prohibited. | - |
| Engine Startup Mode | Mode at engine starting. 00 = initial start 01 = Normal start 02 = Short term engine stall restart 03 = Idling stop restart 04 = Change mind restart | - |
| IG OFF Elapsed Time | Time the vehicle has been left since the engine stopped. This value can be used to check how long the vehicle has been left with the ignition switch ON after the engine stopped. | sec |
| Fuel Cut Elps Time | Elapsed time after experienced high rotation speed. | sec |
| Final Injection Mode | Number of injections to cylinder in one cycle. | - |
| Final valid Injection Quantity | For direct injection engine, fuel injection is performed several times in one cycle. And this is the total injection amount value of that multiple stage injection. | mm3/st |
| Starting Timing of 1st final Direct Injection | Timing of starting first fuel injection in one cycle. | °CA |
| Starting Timing of 2nd final Direct Injection | Timing of starting second fuel injection in one cycle. | °CA |
| Starting Timing of 3rd final Direct Injection | Timing of starting third fuel injection in one cycle. | °CA |
| Starting Timing of 4th final Direct Injection | Timing of starting fourth fuel injection in one cycle. | °CA |
| Catalyst Temperature #11 | Estimated temperature of the front catalytic converter. | °C or °F |
| Stop Light Switch | Stop light switch signal. Set to "ON? when the stop light illuminates. Input value to ECM. | - |
| Ignition Switch | Ignition switch signal. Set to "ON input? when the ignition switch is ON. | - |
| Engine Torque Check 1 | Engine torque information is sent from the engine ECM to Hybrid vehicle control ECU assembly. Information related to the engine torque. | Nm |
| Engine Torque Check 2 | Engine torque information is sent from the engine ECM to Hybrid vehicle control ECU assembly. Information related to the engine torque. | Nm |
| Imbalance Check 1 #1 | Detailed information of diagnosis for dispersion between cylinders. (Compliance with OBD regulations) | - |
| Imbalance Check 1 #2 | Detailed information of diagnosis for dispersion between cylinders. (Compliance with OBD regulations) | - |
| Imbalance Check 1 #3 | Detailed information of diagnosis for dispersion between cylinders. (Compliance with OBD regulations) | - |
| Imbalance Check 1 #4 | Detailed information of diagnosis for dispersion between cylinders. (Compliance with OBD regulations) | - |
| Imbalance Check 2 #1 | Detailed information of diagnosis for dispersion between cylinders. (Compliance with OBD regulations) | - |
| Imbalance Check 2 #2 | Detailed information of diagnosis for dispersion between cylinders. (Compliance with OBD regulations) | - |
| Imbalance Check 2 #3 | Detailed information of diagnosis for dispersion between cylinders. (Compliance with OBD regulations) | - |
| Imbalance Check 2 #4 | Detailed information of diagnosis for dispersion between cylinders. (Compliance with OBD regulations) | - |
| Imbalance Check 3 R | Detailed information of diagnosis for dispersion between cylinders. (Compliance with OBD regulations) | - |
| Imbalance Check 4 R | Detailed information of diagnosis for dispersion between cylinders. (Compliance with OBD regulations) | - |
| Crush Detection Signal | Collision detection signal input value to ECM. ON = Collision detection OFF = Collision not detected | - |
| O2 Sensor #11 | Installation status of the front oxygen (A/F) sensor. | - |
| O2 Sensor #12 | Installation status of the rear oxygen sensor. | - |
| Short term fuel trim #12 | Air fuel ratio correction control value of the rear oxygen sensor. | % |
| A/F Sensor #11 | Air fuel ratio calculated from the front oxygen (A/F) sensor output value. (Lambda) | - |
| A/F Sensor #11 | Front oxygen (A/F) sensor output voltage. | V |
| A/F Sensor #11 | Air fuel ratio calculated from the front oxygen (A/F) sensor output value. (Lambda) | - |
| A/F Sensor #11 | Front oxygen (A/F) sensor current value. | mA |
| Absolute Throttle Pos.#2 | Shows the sub throttle sensor voltage value in % against the full-range 5 V throttle sensor output voltage. | % |
| Exhaust Gas Recirculation Temperature Sensor A (B1-S1) | Value calculated from the EGR temperature sensor output value. | °C or °F |
| Refueling Control Status | Shows the control mode of the sealed fuel tank control. Control modes include the following four types. Waiting Preparing refueling Refueling Active testing being performed | - |
| Refueling Control Indicator Status | Shows the display status to be sent to the meter. Statuses include the following five types. No display Preparing refueling Refueling possible Flap close command Operation not permitted | - |
| Refueling Request Switch | ECM input value of the fuel door release switch signal. ON: Pressed OFF: Not pressed | - |
| Fuel Filler Lid Position | ECM input value of the fuel lid open/close detection signal. Close: Fuel lid is closed Open: Fuel lid is open | - |
| Fuel Tank Pressure Sensor | Fuel tank pressure value calculated from tank pressure sensor output value. | kPa, mmHg, inHg, psi or inH2O |
| Electric Vent Solenoid Value Output | Command value in ECM for Electric Vent Solenoid Valve terminal. Close: Command to close Electric Vent Solenoid Valve Open: Command to open Electric Vent Solenoid Valve | - |
| Electric Vent Solenoid Value Terminal | ECM output value of Electric Vent Solenoid Valve terminal. Close: Electric Vent Solenoid Valve closes Open: Electric Vent Solenoid Valve opens | - |
| Fuel Filler Lid Lock Solenoid Relay Output | ECM output value of the fuel flap relay terminal. ON: Lock assembly fuel is activated OFF: Lock assembly fuel is deactivated | - |
| Engine Self-Support Operation HV System Request | Engine self-sustaining request from HEV. ON = Requested OFF = Not requested | - |
| Engine Self-Support Operation Judgment | Engine self-sustaining judgment. ON = Self-sustaining is activated OFF = Self-sustaining is deactivated | - |
| Engine Self-Support Operation Engine System Request | Engine self-sustaining request. ON = Requested OFF = Not requested | - |
| Engine Mode ID | Engine operation mode. $00 = Stop mode $01 = Post-stop mode $02 = Start mode | - |
| Engine Warming Up Request | Engine warming-up request. ON = Requested OFF = Not requested | - |
| Shift Information | Shift information. $00 = P range $01 = R range $02 = N range $03 = D range $04 = B range | - |
| Engine Fuel Cut Request | Fuel cut request from engine. ON = Requested OFF = Not requested | - |
| Power Request Value | Requested engine power value. | kW |
| Fuel Cut For Engine Stop HV System Request | Engine stop request from HEV. ON = Fuel cut requested OFF = Fuel cut not request | - |
| Racing Request | Racing request from HEV. ON = Requested OFF = Not requested | - |
| Maintenance Mode | Service mode judgment. ON = In service mode OFF = In modes other than the service mode | - |
| Limp Home Request | Evacuation drive request. ON = Requested OFF = Not requested | - |
| Engine Speed Pulse Generation Judgment | Detection of the engine rotation pulse generation. ON = Engine rotation pulse detected OFF = Engine rotation pulse not detected | - |
| HV Control Target Engine Speed | Target engine speed controlled by HEV. | rpm |
| Radiator Fan Drive HV Request | Radiator fan drive request from HEV. $01 = Lo $02 = Mid $03 = Hi | - |
| Actual Engine Torque | Engine torque. | Nm |
| Battery Minimum Temperature | Minimum battery temperature. | °C or °F |
| Fuel Cut For Engine Stop Motor/Generator System Request | Fuel cut request from MGC. ON = Fuel cut requested OFF = Fuel cut not request | - |
| Motor/Generator Engine Speed(Real Value) | Engine speed calculated by MGC (raw value). | rpm |
| Reliability of Engine Speed(Real Value) | Reliability information on engine speed calculated by MGC (raw value). ON = Unreliable OFF = Reliable | - |
| Hybrid Vehicle System MIL Request | MIL illumination request from HEV system. ON = Illumination requested OFF = Illumination not request | - |
| Average Fuel Residual Quantity | Fuel level average value. | L |
| Starting Fail Status Counter | Start inability judgment counter (rotation). | rev |
| Starting Fail Status Counter2 | Start inability judgment counter 2 (time). | ms |
| Retard Amount | Retard angle. | °CA |
| Engine Speed Changing | Deviation in engine speed for 320 [ms] (signed). | rpm |
| Engine Speed | Deviation Engine speed deviation. | rpm |
| Target Torque Generate Continue Counter | Target torque generation continuation counter. | ms |
| Base HV System Request Engine Torque | Engine torque request value from HEV. | Nm |
| Output Fail Status Counter | Abnormal output judgment counter (rotation). | rev |
| Output Fail Status Counter2 | Abnormal output judgment counter 2 (time). | ms |