Freeze Frame Data
- DESCRIPTION
- The ECM records vehicle and driving condition information as freeze frame data the moment a DTC is stored. When troubleshooting, freeze frame data can be helpful in determining whether the vehicle was running or stopped, whether the engine was warmed up or not, whether the air fuel ratio was lean or rich, as well as other data recorded at the time of a malfunction.
HINT:
If it is impossible to replicate the problem even though a DTC is detected, confirm the freeze frame data.
- The ECM records engine conditions in the form of freeze frame data every 0.5 seconds. Using the Techstream, five separate sets of freeze frame data, including the data values at the time when the DTC was set, can be checked.
- 3 data sets before the DTC was set.
- 1 data set when the DTC was set.
- 1 data set after the DTC was set.
- These data sets can be used to simulate the condition of the vehicle around the time of the occurrence of the malfunction. The data may assist in identifying the cause of the malfunction, and judging whether it was temporary or not.
- The ECM records vehicle and driving condition information as freeze frame data the moment a DTC is stored. When troubleshooting, freeze frame data can be helpful in determining whether the vehicle was running or stopped, whether the engine was warmed up or not, whether the air fuel ratio was lean or rich, as well as other data recorded at the time of a malfunction.
- LIST OF FREEZE FRAME DATA
LABEL
(Tester Display)Measure Item Diagnostic Note Trouble Code Freeze DTC - Vehicle Speed Vehicle speed Speed indicated on speedometer Engine Speed Engine speed - Calculate Load Calculate load Load calculated by ECM Vehicle Load Vehicle load Load percentage in terms of maximum intake air flow amount MAF Mass air flow volume If value approximately 0.0 gm/sec: - Mass air flow meter power source circuit open or shorted
- VG circuit open or shorted
If value 160.0 gm/sec or more:- E2G circuit open
Atmosphere Pressure Atmospheric pressure - Coolant Temp Engine coolant temperature If value -40°C (-40°F), sensor circuit open
If value 140°C (258°F), sensor circuit shortedIntake Air Intake air temperature If value -40°C (-40°F), sensor circuit open
If value 140°C (258°F), sensor circuit shortedEngine Run Time Accumulated engine running time - Initial Engine Coolant Temp Initial engine coolant temperature - Initial Intake Air Temp Initial intake air temperature - Battery Voltage Battery voltage - Accel Sens. No. 1 Volt % Accelerator Pedal Position No. 1 - Accel Sens. No. 2 Volt % Accelerator Pedal Position No. 2 - Throttle Sensor Volt % Absolute throttle position - Throttle Sensor #2 Volt % Absolute throttle sensor positioning #2 - Throttle Sensor Position Throttle sensor positioning - Throttle Motor DUTY Throttle actuator - Fuel Press Fuel pressure - Injector (Port) Injector - Injection Volum (Cylinder 1) Injection volume - Fuel Pump Speed Control F/PMP relay status - Fuel Pump/Speed Status Fuel pump/speed status - Vacuum Pump Key-off EVAP system pump status - Fuel Pressure Target Value Target fuel pressure - Fuel Pump Duty (D4) Fuel pump duty (D4) - High Pres FP Duty High pressure fuel pump duty ratio - HP FP Discharge Rate High pressure fuel pump discharge rate (bank 1) - HP FP Discharge Rate 2 High pressure fuel pump discharge rate (bank 2) - Injection Way Injection mode - Injection Switching Status Prohibition of changing the D-4S injection method - Injection Timing (D4) Injection timing (D4) - Injection Time (D4) Injection time (D4) - EVAP (Purge) VSV EVAP purge VSV duty ratio - Evap Purge Flow Purge flow - Purge Density Learn Value Learning value of purge density - EVAP System Vent Value Key-off EVAP system vent valve status - EVAP Purge VSV Purge VSV VSV for EVAP controlled by ECM (ground side duty control) Target Air-Fuel Ratio Target air fuel ratio - AF Lamba B1 S1 Fuel trim due to air fuel ratio sensor - AF Lambda B2 S1 Fuel trim due to air fuel ratio sensor - AFS Voltage B1 S1 Air fuel ratio sensor output voltage Performing Control the Injection Volume or Control the Injection Volume for A/F sensor function of Active Test enables technician to check output voltage of sensor AFS Voltage B2 S1 Air fuel ratio sensor output voltage Performing Control the Injection Volume or Control the Injection Volume for A/F sensor function of Active Test enables technician to check output voltage of sensor AFS Current B1 S1 Air fuel ratio sensor output current Performing Control the Injection Volume or Control the Injection Volume for A/F sensor function of Active Test enables technician to check current output of sensor AFS Current B2 S1 Air fuel ratio sensor output current Performing Control the Injection Volume or Control the Injection Volume for A/F sensor function of Active Test enables technician to check current output of sensor O2S B1S2 Heated oxygen sensor output voltage Performing Control the Injection Volume or Control the Injection Volume for A/F sensor function of Active Test enables technician to check output voltage of sensor O2S B2S2 Heated oxygen sensor output voltage Performing Control the Injection Volume or Control the Injection Volume for A/F sensor function of Active Test enables technician to check output voltage of sensor O2S Impedance B1S2 Sub heated oxygen sensor impedance - O2S Impedance B2S2 Sub heated oxygen sensor impedance - Short FT #1 Short-term fuel trim (bank 1) Short-term fuel compensation used to maintain air fuel ratio at stoichiometric air fuel ratio Long FT #1 Long-term fuel trim (bank 1) Overall fuel compensation carried out in long-term to compensate for a continual deviation of short-term fuel trim from central value Total FT #1 Total fuel trim (bank 1) - Short FT #2 Short-term fuel trim (bank 2) Short-term fuel compensation used to maintain air fuel ratio at stoichiometric air fuel ratio Long FT #2 Long-term fuel trim (bank 2) Overall fuel compensation carried out in long-term to compensate for a continual deviation of short-term fuel trim from central value Total FT #2 Total fuel trim (bank 2) - Fuel System Status #1 Fuel system status (bank 1) - OL (Open Loop): Has not yet satisfied conditions to go closed loop
- CL (Closed Loop): Using air fuel ratio sensor as feedback for fuel control
- OLDrive: Open loop due to driving conditions (fuel enrichment)
- OLFault: Open loop due to detected system fault
- CLFault: Closed loop but air fuel ratio sensor, which used for fuel control malfunctioning
Fuel System Status #2 Fuel system status (bank 2) - OL (Open Loop): Has not yet satisfied conditions to go closed loop
- CL (Closed Loop): Using air fuel ratio sensor as feedback for fuel control
- OLDrive: Open loop due to driving conditions (fuel enrichment)
- OLFault: Open loop due to detected system fault
- CLFault: Closed loop but air fuel ratio sensor, which used for fuel control malfunctioning
IGN Advance Ignition advance - Knock Feedback Value Feedback value of knocking - Knock correct Learn Value Correction learning value of knocking - AICV VSV ACIS VSV - Catalyst Temp B1S1 Catalyst temperature - Catalyst Temp B2S1 Catalyst temperature - Catalyst Temp B1S2 Catalyst temperature - Catalyst Temp B2S2 Catalyst temperature - Starter Signal Starter signal - Starter Control Starter control - Starter Relay ST relay status - ACC Relay ACC relay status - Neutral Position SW Signal Neutral position switch signal - Stop Light Switch Stop light switch status - A/C Signal A/C switch status - Closed Throttle Position SW Closed throttle position switch - Fuel Cut Condition Fuel cut condition - Immobilizer Communication Immobilizer Communication - Electrical Load Signal Electrical load signal - Engine Oil Pressure SW Engine oil pressure switch status - Time after DTC Cleared Cumulative time after DTC cleared - Distance from DTC Cleared Accumulated distance after DTC cleared - TC and TE1 TC and TE1 terminals of DLC3 - Ignition Trig. Count Ignition counter - Cylinder #1 Misfire Count Cylinder #1 misfire Only displayed during idling Cylinder #2 Misfire Count Cylinder #2 misfire Only displayed during idling Cylinder #3 Misfire Count Cylinder #3 misfire Only displayed during idling Cylinder #4 Misfire Count Cylinder #4 misfire Only displayed during idling Cylinder #5 Misfire Count Cylinder #5 misfire Only displayed during idling Cylinder #6 Misfire Count Cylinder #6 misfire Only displayed during idling Cylinder #7 Misfire Count Cylinder #7 misfire Only displayed during idling Cylinder #8 Misfire Count Cylinder #8 misfire Only displayed during idling All Cylinders Misfire Count All cylinders misfire Only displayed during idling Multi Cylinders Misfire Count Multiple cylinder misfire - Misfire RPM Engine speed when misfire occurred - Misfire Load Engine load when misfire occurred - Misfire Margin Margin to detect engine misfire - Electric Fan Motor Fan motor status - Idle Fuel Cut Idle fuel cut ON: when throttle valve fully closed and engine speed over 1500 RPM FC TAU FC TAU Fuel cut being performed under very light load to prevent incomplete engine combustion Received MIL from ECT MIL status from ECT - Shift Position Sig from ECT Shift position from ECT - A/T Oil Temp from ECT ATF temperature from ECT - SPD (NO) Output shaft speed - ECT Lock Up ECT lock up status - Shift SW Status (P Range) Park/neutral position switch status - Kick Down Switch Status Kick down switch status - Pattern Switch (PWR/M) Pattern switch (PWR) status - Shift SW Status (R Range) Park/neutral position switch status - Shift SW Status (N Range) Park/neutral position switch status - Sports Shift Up SW Sports shift up switch status - Sports Shift Down SW Sports shift down switch status - Sports Mode Selection SW Sports mode select switch status - Snow Switch Status Pattern switch (ECT SNOW) status - Shift SW Status (D Range) Park/neutral position switch status - A/T Oil Temperature 1 ATF temperature sensor value -