BULB CHECK
Each time the ignition key is turned to the ON position, the malfunction indicator (check engine) lamp on the instrument panel should illuminate for approximately 2 seconds then go out. This is done for a bulb check.
TASK MANAGER
The PCM is responsible for efficiently coordinating the operation of all the emissions-related components. The PCM is also responsible for determining if the diagnostic systems are operating properly. The software designed to carry out these responsibilities is call the 'Task Manager'.
TRIP DEFINITION
The term "Trip" has different meanings depending on what the circumstances are. If the MIL (Malfunction Indicator Lamp) is OFF, a Trip is defined as when the Oxygen Sensor Monitor and the Catalyst Monitor have been completed in the same drive cycle.
When any Emission DTC is set, the MIL on the dash is turned ON. When the MIL is ON, it takes 3 good trips to turn the MIL OFF. In this case, it depends on what type of DTC is set to know what a "Trip" is.
For the Fuel Monitor or Mis-Fire Monitor (continuous monitor), the vehicle must be operated in the "Similar Condition Window" for a specified amount of time to be considered a Good Trip.
If a Non-Contiuous OBDII Monitor fails twice in a row and turns ON the MIL, re-running that monitor which previously failed, on the next start-up and passing the monitor, is considered to be a Good Trip. These will include the following
- Oxygen Sensor
- Catalyst Monitor
- Purge Flow Monitor
- Leak Detection Pump Monitor (if equipped)
- EGR Monitor (if equipped)
- Oxygen Sensor Heater Monitor
If any other Emission DTC is set (not an OBDII Monitor), a Good Trip is considered to be when the Oxygen Sensor Monitor and Catalyst Monitor have been completed; or 2 Minutes of engine run time if the Oxygen Sensor Monitor or Catalyst Monitor have been stopped from running.
It can take up to 2 Failures in a row to turn on the MIL. After the MIL is ON, it takes 3 Good Trips to turn the MIL OFF. After the MIL is OFF, the PCM will self-erase the DTC after 40 Warm-up cycles. A Warm-up cycle is counted when the ECT (Engine Coolant Temperature Sensor) has crossed 71°C (160°F) and has risen by at least 4°C (40°F) since the engine has been started.
COMPONENT MONITORS
There are several components that will affect vehicle emissions if they malfunction. If one of these components malfunctions the Malfunction Indicator Lamp (MIL) will illuminate.
Some of the component monitors are checking for proper operation of the part. Electrically operated components now have input (rationality) and output (functionality) checks. Previously, a component like the Throttle Position sensor (TPS) was checked by the PCM for an open or shorted circuit. If one of these conditions occurred, a DTC was set. Now there is a check to ensure that the component is working. This is done by watching for a TPS indication of a greater or lesser throttle opening than MAP and engine RPM indicate. In the case of the TPS, if engine vacuum is high and engine RPM is 1600 or greater, and the TPS indicates a large throttle opening, a DTC will be set. The same applies to low vacuum if the TPS indicates a small throttle opening.
All open/short circuit checks, or any component that has an associated limp-in, will set a fault after 1 trip with the malfunction present. Components without an associated limp-in will take two trips to illuminate the MIL.
The Task Manager determines which tests happen when and which functions occur when. Many of the diagnostic steps required by OBD II must be performed under specific operating conditions. The Task Manager software organizes and prioritizes the diagnostic procedures. The job of the Task Manager is to determine if conditions are appropriate for tests to be run, monitor the parameters for a trip for each test, and record the results of the test. Following are the responsibilities of the Task Manager software
- Test Sequence
- MIL Illumination
- Diagnostic Trouble Codes (DTCs)
- Trip Indicator
- Freeze Frame Data Storage
- Similar Conditions Window
MIL ILLUMINATION
The PCM Task Manager carries out the illumination of the MIL. The Task Manager triggers MIL illumination upon test failure, depending on monitor failure criteria.
The Task Manager Screen shows both a Requested MIL state and an Actual MIL state. When the MIL is illuminated upon completion of a test for a third trip, the Requested MIL state changes to OFF. However, the MIL remains illuminated until the next key cycle. (On some vehicles, the MIL will actually turn OFF during the third key cycle) During the key cycle for the third good trip, the Requested MIL state is OFF, while the Actual MILL state is ON. After the next key cycle, the MIL is not illuminated and both MIL states read OFF.
TRIP INDICATOR
The Trip is essential for running monitors and extinguishing the MIL. In OBD II terms, a trip is a set of vehicle operating conditions that must be met for a specific monitor to run. All trips begin with a key cycle.
GOOD TRIP
The Good Trip counters are as follows
- Specific Good Trip
- Fuel System Good Trip
- Misfire Good Trip
- Alternate Good Trip (appears as a Global Good Trip on a scan tool) Comprehensive Components Major Monitor
- Warm-Up Cycles
SPECIFIC GOOD TRIP
The term Good Trip has different meanings depending on the circumstances
- If the MIL is OFF, a trip is defined as when the Oxygen Sensor Monitor and the Catalyst Monitor have been completed in the same drive cycle.
- If the MIL is ON and a DTC was set by the Fuel Monitor or Misfire Monitor (both continuous monitors), the vehicle must be operated in the Similar Condition Window for a specified amount of time.
- If the MIL is ON and a DTC was set by a Task Manager commanded once-per-trip monitor (such as the Oxygen Sensor Monitor, Catalyst Monitor, Purge Flow Monitor, Leak Detection Pump Monitor, EGR Monitor or Oxygen Sensor Heater Monitor), a good trip is when the monitor is passed on the next start-up.
- If the MIL is ON and any other emissions DTC was set (not an OBD II monitor), a good trip occurs when the Oxygen Sensor Monitor and Catalyst Monitor have been completed, or two minutes of engine run time if the Oxygen Sensor Monitor and Catalyst Monitor have been stopped from running.
FUEL SYSTEM GOOD TRIP
To count a good trip (three required) and turn off the MIL, the following conditions must occur
- Engine in closed loop
- Operating in Similar Conditions Window
- Short Term multiplied by Long Term less than threshold
- Less than threshold for a predetermined time
If all of the previous criteria are met, the PCM will count a good trip (three required) and turn off the MIL.
MISFIRE GOOD TRIP
If the following conditions are met the PCM will count one good trip (three required) in order to turn off the MIL
- Operating in Similar Condition Window
- 1000 engine revolutions with no misfire
WARM-UP CYCLES
Once the MIL has been extinguished by the Good Trip Counter, the PCM automatically switches to a Warm-Up Cycle Counter that can be viewed on a diagnostic scan tool. Warm-Up Cycles are used to erase DTCs and Freeze Frames. Forty Warm-Up cycles must occur in order for the PCM to self-erase a DTC and Freeze Frame. A Warm-Up Cycle is defined as follows
- Engine coolant temperature must start below and rise above 71°C (160° F)
- Engine coolant temperature must rise by 4°C (40° F)
- No further faults occur
FREEZE FRAME DATA STORAGE
Once a failure occurs, the Task Manager records several engine operating conditions and stores it in a Freeze Frame. The Freeze Frame is considered one frame of information taken by an on-board data recorder. When a fault occurs, the PCM stores the input data from various sensors so that technicians can determine under what vehicle operating conditions the failure occurred.
The data stored in Freeze Frame is usually recorded when a system fails the first time for two trip faults. Freeze Frame data will only be overwritten by a different fault with a higher priority.
| CAUTION | Erasing DTCs, either with a scan tool or by disconnecting the battery, also clears all Freeze Frame data. |
SIMILAR CONDITIONS WINDOW
The Similar Conditions Window displays information about engine operation during a monitor. Absolute MAP (engine load) and Engine RPM are stored in this window when a failure occurs. There are two different Similar conditions Windows: Fuel System and Misfire.
FUEL SYSTEM
- Fuel System Similar Conditions Window - An indicator that 'Absolute MAP When Fuel Sys Fail' and 'RPM When Fuel Sys Failed' are all in the same range when the failure occurred. Indicated by switching from 'NO' to 'YES'.
- Absolute MAP When Fuel Sys Fail - The stored MAP reading at the time of failure. Informs the user at what engine load the failure occurred.
- Absolute MAP - A live reading of engine load to aid the user in accessing the Similar Conditions Window.
- RPM When Fuel Sys Fail - The stored RPM reading at the time of failure. Informs the user at what engine RPM the failure occurred.
- Engine RPM - A live reading of engine RPM to aid the user in accessing the Similar Conditions Window.
- Adaptive Memory Factor - The PCM utilizes both Short Term Compensation and Long Term Adaptive to calculate the Adaptive Memory Factor for total fuel correction.
- Upstream O2S Volts - A live reading of the Oxygen Sensor to indicate its performance. For example, stuck lean, stuck rich, etc.
- SCW Time in Window (Similar Conditions Window Time in Window) - A timer used by the PCM that indicates that, after all Similar Conditions have been met, if there has been enough good engine running time in the SCW without failure detected. This timer is used to increment a Good Trip.
- Fuel System Good Trip Counter - A Trip Counter used to turn OFF the MIL for Fuel System DTCs. To increment a Fuel System Good Trip, the engine must be in the Similar Conditions Window, Adaptive Memory Factor must be less than calibrated threshold and the Adaptive Memory Factor must stay below that threshold for a calibrated amount of time.
- Test Done This Trip - Indicates that the monitor has already been run and completed during the current trip.
MISFIRE
- Same Misfire Warm-Up State - Indicates if the misfire occurred when the engine was warmed up (above 71°C (160° F).
- In Similar Misfire Window - An indicator that 'Absolute MAP When Misfire Occurred' and 'RPM When Misfire Occurred' are all in the same range when the failure occurred. Indicated by switching from 'NO' to 'YES'.
- Absolute MAP When Misfire Occurred - The stored MAP reading at the time of failure. Informs the user at what engine load the failure occurred.
- Absolute MAP - A live reading of engine load to aid the user in accessing the Similar Conditions Window.
- RPM When Misfire Occurred - The stored RPM reading at the time of failure. Informs the user at what engine RPM the failure occurred.
- Engine RPM - A live reading of engine RPM to aid the user in accessing the Similar Conditions Window.
- Adaptive Memory Factor - The PCM utilizes both Short Term Compensation and Long Term Adaptive to calculate the Adaptive Memory Factor for total fuel correction.
- 200 Rev Counter - Counts 0-100 720 degree cycles.
- SCW Cat 200 Rev Counter - Counts when in similar conditions.
- SCW FTP 1000 Rev Counter - Counts 0-4 when in similar conditions.
- Misfire Good Trip Counter - Counts up to three to turn OFF the MIL.
- Misfire Data - Data collected during test.
- Test Done This Trip - Indicates YES when the test is done.
FUEL PRESSURE
The fuel pressure regulator controls fuel system pressure. The PCM cannot detect a clogged fuel pump inlet filter, clogged in-line fuel filter, or a pinched fuel supply or return line. However, these could result in a rich or lean condition causing the PCM to store an oxygen sensor or fuel system diagnostic trouble code.
SECONDARY IGNITION CIRCUIT
The PCM cannot detect an inoperative ignition coil, fouled or worn spark plugs, ignition cross firing, or open spark plug cables.
CYLINDER COMPRESSION
The PCM cannot detect uneven, low, or high engine cylinder compression.
EXHAUST SYSTEM
The PCM cannot detect a plugged, restricted or leaking exhaust system, although it may set a fuel system fault.
FUEL INJECTOR MECHANICAL MALFUNCTIONS
The PCM cannot determine if a fuel injector is clogged, the needle is sticking or if the wrong injector is installed. However, these could result in a rich or lean condition causing the PCM to store a diagnostic trouble code for either misfire, an oxygen sensor, or the fuel system.
EXCESSIVE OIL CONSUMPTION
Although the PCM monitors engine exhaust oxygen content when the system is in closed loop, it cannot determine excessive oil consumption.
THROTTLE BODY AIR FLOW
The PCM cannot detect a clogged or restricted air cleaner inlet or filter element.
VACUUM ASSIST
The PCM cannot detect leaks or restrictions in the vacuum circuits of vacuum assisted engine control system devices. However, these could cause the PCM to store a MAP sensor diagnostic trouble code and cause a high idle condition.
PCM SYSTEM GROUND
The PCM cannot determine a poor system ground. However, one or more diagnostic trouble codes may be generated as a result of this condition. The module should be mounted to the body at all times, also during diagnostic.
PCM CONNECTOR ENGAGEMENT
The PCM may not be able to determine spread or damaged connector pins. However, it might store diagnostic trouble codes as a result of spread connector pins.
OBD II MONITOR INFORMATION
| Comprehensive Components Monitor | Major Monitors Non Fuel Control AND Non Misfire | Major Monitors Fuel Control AND misfire |
|---|---|---|
| (Includes All Engine Hardware Sensor, Switches, Solenoids, etc.) | (Monitors Entire Emission System) | (Monitors Entire System) |
| Most are one trip Faults | Most are Two Trips Faults | Two Trip Faults |
| Usually Turns on The Mill and Sets DTC After One Failure | Turns On The Mil and Sets DTC after Two Consecutive Failure | The Mil and Sets DTC After Two Consecutive Failure |
| Priority 3 | Priority 1 or 3 | Priority 2 or 4 |
| All Checked For Continuity | Done Stop Test = Yes | Fuel Control Monitor |
| Open | Oxygen Sensor Heater | Monitors Fuel Control |
| Short To Ground | Oxygen Sensor Response | System For |
| Short To Voltage | Catalytic Converter | Fuel System Lean |
| Inputs Checked For Rationality | Efficiency Except EWMA | Fuel System Rich |
| Outputs Checked For Functionality | Up to 6 test per trip and a one trip fault (SBEC) and two trip fault on (JTEC) | Requires 3 Consecutive Fuel System Good Trips to Extinguish the MIL |
| EGR System | Misfire Monitor | |
| Evaporative Emission System (purge and leak) | Monitors for Engine Misfire At | |
| Non-LDP | 4 X 1000 RPM Counter (4000 Revs) (Type B) | |
| LDP | **200 X 3 (600) RPM counter (Type A) | |
| Requires 3 Consecutive Global Good Trips to Extinguish the MIL* | Requires 3 Consecutive Global Good Trips to Extinguish the MIL* | Requires 3 Consecutive Global Good Trips to Extinguish the MIL |
| *40 Warm Up Cycles are required to erase DTCs after the MIL has been extinguished | ** Type A misfire is a one trip failure on pre-1999, 2 trip failure on 1999 and later. The MIL will illuminate at the first or second failure, based on MY. |
OBD II MONITOR RUN PROCESS
The following procedure has been established to assist Chrysler Dealer Technicians in the field with enabling and running OBD II Monitors. The order listed in the following procedure is intended to allow the technician to effectively complete each monitor and to set the CARB Readiness Status in the least time possible.
Note. Once the monitor run process has begun, do not turn off the ignition. By turning the ignition key off, monitor enabling conditions will be lost. NVLD Monitor runs after key off. By performing a Battery Disconnect, or Selecting Erase DTCs, the CARB Readiness and all additional OBD II information will be cleared.
MONITOR PRELIMINARY CHECKS
- Plug a scan tool into the vehicle's Data Link Connector (DLC).
- Turn the ignition, KEY ON - ENGINE OFF. Watch for MIL lamp illumination during the bulb check. MIL lamp must have illuminated, if not, repair MIL lamp.
- Using a scan tool check for Powertrain related DTCs.
- Verify that No Emissions Related DTCs are Present.
- * If an Emissions DTC is Present, the OBD II Monitors may not run and the CARB Readiness will not update.
- The Emissions related DTC, will need to be repaired, then cleared. By clearing DTCs, the OBD Monitors will need to be run and completed to set the CARB Readiness Status.
Using the scan tool check the CARB Readiness Status.
Do all the CARB Readiness Status Locations read YES?.
- *YES, then all monitors have been completed and this vehicle is ready to be I/M or Emission Tested.
- *NO, then the following procedure needs to be followed to run/complete all available monitors.
Note. Only the monitors, which are not YES in the CARB Readiness Status, need to be completed. Specific criteria need to be met for each monitor. The most efficient order to run the monitors has been outlined below, including suggestions to aid the process.
EVAPORATIVE EMISSION SYSTEM LEAK DETECTION WITH PURGE MONITOR
This monitor requires a cool down cycle, usually an overnight soak for at least 8 hours without the engine running. The ambient temperature must decrease overnight - parking the vehicle outside is advised. To run this test the fuel level must be between 15-85% full. For the monitor run conditions select the EVAP MON PRE-TEST in the scan tool, OBD II Monitors Menu. The Purge monitor will run if the small leak test reports a pass. Criteria for EVAP monitor
- Engine off time greater than @ one hour.
- Fuel Level between 15% and 85 %.
- Start Up ECT and IAT within 10° C (18° F).
- Vehicle started and run until Purge Monitor reports a result.
Note. If the vehicle does not report a result and the conditions where correct. It may take up to two weeks to fail the small leak monitor. DO NOT use this test to attempt to determine a fault. Use the appropriate service information procedure for finding a small leak. If there are no faults and the conditions are correct this test will run and report a pass. Note the Small leak test can find leaks less than 10 thousands of an inch. If a small leak is present it takes approximately one week of normal driving to report a failure.
CATALYST / O2 MONITOR
With NGC, Catalyst and O2 Monitor information are acquired and processed at the same time. Most vehicles will need to be driven at highway speed (< 50 mph) for a few minutes. Some vehicles run the monitor at idle in drive. If the vehicle is equipped with a manual transmission, using 4th gear may assist in meeting the monitor running criteria. For the monitor run conditions, select the BANK 1 CAT MON PRE-TEST in the scan tool, OBD II Monitors Menu.
EGR MONITOR
The EGR monitor now runs in a closed throttle decel or at idle on a warm vehicle. However, it is necessary to maintain the TPS, Map and RPM ranges to allow the monitor to complete itself. For the monitor run conditions, select the EGR PRE-TEST in the scan tool, OBD II Monitors Menu.
O2 SENSOR HEATER MONITOR
This monitor is now continuously running once the heaters are energized. Pass information will be processed at power down. For the monitor run conditions, select the O2S HEATER MON PRE-TEST in the scan tool, OBD II Monitors Menu.
MIS-FIRE MONITOR
The NGC Misfire Monitor is a continuous two-trip monitor. The monitor uses two different tests/counters
Note. The Adaptive Numerator must be learned before the PCM will run the Mis-Fire Monitor. The PCM updates the Adaptive Numerator at every key-ON, and is relearned after battery disconnect. The Misfire Monitor will not run until the Adaptive Numerator has updated since the last battery disconnect. If the Adaptive Numerator is equal to the default value then the PCM knows that the Adaptive Numerator has not been learned and does not permit the Misfire Monitor to run. If the Adaptive Numerator exceeds a calibrated percentage, the PCM sets a DTC for CKP NOT LEARNED and illuminates the MIL.
- 200 Revolution Counter - Looks for misfire that can cause immediate catalyst damage.
- 1000 Revolution Counter - Looks for misfire that can cause emissions to increase 1.5 times the Federal Test Procedure (FTP) standards. This test must also identify misfire percentages that might cause a "durability demonstration vehicle" to fail an Inspection and Maintenance Program tailpipe emissions test.
GLOSSARY OF TERMS
| Acronym | Description |
|---|---|
| APPS | Accelerator Pedal Position Sensor |
| AAT | Ambient Air Temperature |
| ABS | Anti-Lock Brake System |
| ASD | Auto Shut Down |
| BARO | Barometric |
| CGW | Central Gateway |
| CKP | Crankshaft Position Sensor |
| CMP | Camshaft Position Sensor |
| CMTC | Compass/Mini-Trip Computer |
| DCHA | Diesel Cabin Heater Assist |
| DLC | Data Link Connector |
| DTC | Diagnostic Trouble Code |
| EATX | Electronic Automatic Transaxle |
| ECT | Engine Coolant Temperature |
| ECM | Engine Control Module |
| EGR | Exhaust Gas Recirculation |
| ETC | Electronic Throttle Control |
| GEN | Generator |
| GPEC | Global Powertrain Engine Controller |
| FCM | Front Control Module |
| FDCM | Final Drive Control Module |
| IAT | Intake/Inlet Air Temperature |
| IAC | Idle Air Control |
| IOD | Ignition Off-Draw |
| IPM | Integrated Power Module |
| JTEC | Jeep Truck Engine Controller |
| KS | Knock Sensor |
| LDP | Leak Detection Pump |
| MAP | Manifold Air Pressure |
| MDS | Multi Displacement System |
| MIC | Mechanical Instrument Cluster |
| MIL | Malfunction Indicator Lamp |
| MTV | Manifold Tuning Valve |
| NGC | Next Generation Controller |
| NVLD | Natural Vacuum Leak Detection |
| O2S | Oxygen Sensor |
| OBD | On Board Diagnostic |
| PDC | Power Distribution Center |
| PCI | Programmable Communication Interface |
| PCM | Powertrain Control Module |
| PCV | Positive Crankcase Ventilation |
| PEP | Peripheral Expansion Port |
| SBEC | Single Board Engine Controller |
| SCM | Steering Control Module |
| S/C | Speed Control |
| SKIM | Sentry Key Immobilizer Module |
| SKREEM | Sentry Key Remote Entry Module |
| SOL | Solenoid |
| SRV | Short Runner Valve |
| TCM | Transmission Control Module |
| TCC | Torque Converter Clutch |
| TIP | Throttle Inlet Pressure |
| TIPM | Totally Integrated Power Module |
| TP | Throttle Position |
| TPMS | Tire Pressure Monitor System |
| TRS | Transmission Range Sensor |
| VSS | Vehicle Speed Sensor/Signal |
| WIN | Wireless Ignition Node |
- Plug a scan tool into the vehicle's Data Link Connector (DLC).
- Turn the ignition, KEY ON - ENGINE OFF. Watch for the MIL lamp illumination during the bulb check. MIL lamp must illuminate, if not, repair MIL lamp.
- Using a scan tool check for Powertrain related DTCs.
- Verify that No Emissions Related DTCs are Present. If an Emissions DTC is Present, the OBD II Monitors may not run and the CARB Readiness will not update.
- The Emissions related DTC, will need to be repaired, then cleared. By clearing DTCs, the OBD Monitors will need to be run and completed to set the CARB Readiness Status.
Using the scan tool check the CARB Readiness Status.
Do all the CARB Readiness Status Locations read YES?
- YES - all monitors have been completed and this vehicle is ready to be I/M or Emission Tested.
- NO - then the following procedure needs to be followed to run/complete all available monitors.
Note. Only the monitors, which are not YES in the CARB Readiness Status, need to be completed. Specific criteria need to be met for each monitor. The most efficient order to run the monitors has been outlined below, including suggestions to aid the process.
This monitor requires a cool down cycle, usually an overnight soak for at least 8 hours without the engine running. The ambient temperature must decrease overnight - parking the vehicle outside is advised. To run this test the fuel level must be between 15-85% full. Criteria for EVAP monitor
- Engine off time greater than one hour.
- Fuel Level between 15% and 85%.
- Start Up ECT and IAT within 10°C (18°F).
- Vehicle started and run until Purge Monitor reports a result.
Note. If the vehicle does not report a result and the conditions where correct. It may take up to two weeks to fail the small leak monitor. DO NOT use this test to attempt to determine a fault. Use the appropriate service information procedure for finding a small leak. If there are no faults and the conditions are correct this test will run and report a pass. Note the Small leak test can find leaks less than 10 thousands of an inch. If a small leak is present it takes approximately one week of normal driving to report a failure.
The Catalyst and O2 Monitor information are acquired and processed at the same time. Most vehicles will need to be driven at highway speed (less than 50 mph) (73km/h) for a few minutes. Some vehicles run the monitor at idle in drive. If the vehicle is equipped with a manual transmission, using 4th gear may assist in meeting the monitor running criteria.
- Engine RPM between 1200 to 3000.
- Enginetemperature greater than 70°C (158°F)
- Engine run time greater than 92 seconds
- MAP between 10 - 20 kPa (7.5 - 15 Hg)
- Vehicle speed between 20 - 70 mph (29-103 km/h)
After the vehicle has reached the below conditions and during a throttle decel the EGR monitor will run.
- Engine RPM between 1375 - 2500
- Engine temperature greater than 70°C (158°F)
- Engine run time greater than 125 seconds
- Vehicle speed between 25 - 70 mph (37-103 km/h)
This monitor is now continuously running once the heaters are energized. Pass information will be processed at power down.
The Misfire Monitor is a continuous two-trip monitor. The monitor uses two different tests/counters
Note. The Adaptive Numerator must be learned before the PCM will run the Mis-Fire Monitor. The PCM updates the Adaptive Numerator at every key-ON, and is relearned after battery disconnect. The Misfire Monitor will not run until the Adaptive Numerator has updated since the last battery disconnect. If the Adaptive Numerator is equal to the default value then the PCM knows that the Adaptive Numerator has not been learned and does not permit the Misfire Monitor to run. If the Adaptive Numerator exceeds a calibrated percentage, the PCM sets a DTC for CKP NOT LEARNED and illuminates the MIL.
- 200 Revolution Counter - Looks for misfire that can cause immediate catalyst damage.
- 1000 Revolution Counter - Looks for misfire that can cause emissions to increase 1.5 times the Federal Test Procedure (FTP) standards. This test must also identify misfire percentages that might cause a "durability demonstration vehicle" to fail an Inspection and Maintenance Program tailpipe emissions test.