Freeze Frame Data: Description
Freeze frame data allows access to emission-related values from specific generic parameter identification (PIDs). These values are stored when an emission-related diagnostic trouble code (DTC) is stored in continuous memory. This provides a snapshot of the conditions that were present when the DTC was stored. Once one set of freeze frame data is stored, this data will remain in memory even if another emission-related DTC is stored, with the exception of misfire or fuel system DTCs. Once freeze frame data for a misfire or fuel system DTC is stored, it overwrites any previous data, and freeze frame is no longer overwritten. When a DTC associated with the freeze frame is erased or the DTCs are cleared, new freeze frame data can be stored again. In the event of multiple emission-related DTCs in memory, always note the DTC for the freeze frame data.
| Acronym | Description | Measurement Units |
|---|---|---|
| AAT | Ambient Air Temperature | Degrees |
| AIR | Secondary Air Status | |
| APP_D | Accelerator Pedal Position D | % |
| APP_E | Accelerator Pedal Position E | % |
| APP_F | Accelerator Pedal Position F | % |
| ECT | Engine Coolant Temperature | Degrees |
| FRP | Fuel Rail Pressure | kPa |
| FUELSYS1 | Open/Closed Loop1 | OL/CL/OL DRIVE/OL FAULT/CL FAULT |
| FUELSYS2 | Open/Closed Loop2 | OL/CL/OL DRIVE/OL FAULT/CL FAULT |
| LONGFT1 | Long Term Fuel Bank1 | % |
| LONGFT2 | Long Term Fuel Bank2 | % |
| LOAD | Calculated Load Value | % |
| MAP | Manifold Absolute Pressure | kPa |
| RPM | Engine RPM | RPM |
| RUNTM | Run Time | Seconds |
| SHRTFT1 | Short Term Fuel Bank1 | % |
| SHRTFT2 | Short Term Fuel Bank2 | % |
| SPARKADV | Spark Advance | Degrees |
| TP | Absolute Throttle Position | % |
| VSS | Vehicle Speed | km/h-mph |
Some unique PIDs are stored in the keep alive memory (KAM) of the powertrain control module (PCM) to help in diagnosing the root cause of misfires. These PIDs are collectively called misfire freeze frame (MFF) data. These parameters are separate from the generic freeze frame data that is stored for every MIL code. They are used for misfire diagnosis only. The MFF data could be more useful for misfire diagnosis than the generic freeze frame data. It is captured at the time of the highest misfire rate, and not when the DTC is stored at the end of a 1,000 or 200 revolution block. (Generic freeze frame data for misfire can be stored minutes after the misfire actually occurred.)
| PID Name | Description | PID Number | Measurement Units |
|---|---|---|---|
| MFF RPM | Engine RPM at the time of misfire | 16D3 | RPM |
| MFF LOAD | Engine load at the time of misfire | 16D4 | % |
| MFF VS | Vehicle speed at the time of misfire | 16D5 | km/h-mph |
| MFF IAT | Intake air temperature at the time of misfire | 16D6 | Degrees |
| MFF SOAK | Engine-off soak time at the time of misfire | 16D7 | Minutes |
| MFF RNTM | Engine running time at the time of misfire | 16D8 | Seconds |
| MFF EGR | EGR DPFE sensor at the time of misfire | 16D9 | Volts |
| MFF TP | Throttle Position at time of misfire | 16DA | Volts |
| MFF T CNT | Number of driving cycles at the time of misfire (at least one 1,000 rev block) | 16DC | No. Trips |
| MFF PNP | 1= in DRIVE during the time of misfire | 16DD b1 | Mode |
| MP LRN | 1= Misfire wheel profile learned in KAM | 16DD b0 | None |