To test the reliability of the SmartFire® ionization data as a parameter for detecting misfires, we fitted an inline-4 cylinder engine with in-cylinder pressure sensors and compared their data to that provided by ionization current sensing. The ignition circuitry was tested for its ability to recognize misfires, and for its potential to re-strike the ignition early enough in the cycle to provide smooth engine operation. Unique design features of the SmartFire ignition circuit enable the measurement of ion current as early as 300 microseconds after the initiation of the spark discharge, thereby allowing early detection of improper combustion.We compared the indicated mean effective pressure (IMEP) to the integrated ionization signal. When a misfire was measured by the IMEP, the integrated ion signal indicated the misfire as well. The ignition circuitry successfully identified the cycles with improper combustion. The system was also able to indicate the need for an ignition re-strike in order to smooth out engine operation and perhaps avoid a complete misfire. Misfire detection for on-board diagnostics (OBD) and for ignition re-strike has broad applications in passenger vehicles. Detecting and controlling improper combustion through the ionization signal is likely to be particularly valuable, as it provides a low-cost method for meeting OBD requirements and extending catalyst life.
Misfire Detection from Ionization Feedback Utilizing the SmartFire® Plasma Ignition Technology
Sae Technical Papers
SAE 2000 World Congress ; 2000
2000-03-06
Conference paper
English
Misfire detection from ionization feedback utilizing the smartfire plasma ignition technology
Automotive engineering | 2000
|Misfire Detection from Ionization Feedback Utilizing The Smartfire® Plasma Ignition Technology
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