Electricity: measuring and testing – Internal-combustion engine ignition system or device – Electronic ignition system
Reexamination Certificate
2001-04-30
2002-12-24
Le, N. (Department: 2858)
Electricity: measuring and testing
Internal-combustion engine ignition system or device
Electronic ignition system
Reexamination Certificate
active
06498490
ABSTRACT:
BACKGROUND
Ion sense ignition has been in limited use in automotive engines for several years, and has recently started to appear in more applications, driven in part by regulated on-board diagnostic requirements. Ion Sense systems measure the presence of ions or free electrons in the engine's combustion chamber by electrically biasing the gap of the spark plug with a voltage. The current flow induced by the applied bias voltage is a measure of the ion or free electron density in the cylinder. The ion or free electron density is related to the chemistry of the fuel and the combustion process itself. It has been clearly demonstrated that Ion Sense Ignition systems can be used to detect and measure combustion (or misfire) and engine knock as well as the cylinder location of peak pressure, air to fuel ratio and other combustion characteristics.
BRIEF SUMMARY
Disclosed is a bias and measuring circuit that improves the ion sense measurement and ignition performance of an ion sense ignition system where the ion current signal processing is implemented remote from an ignition coil. The circuit comprises an energy storage device connected in series with a spark gap and an ignition coil secondary winding. A spark current from the ignition coil charges the energy storage device, where the energy storage device acts as an ion current generating source. A voltage control device connected in parallel with the energy storage device, limits a voltage to be charged onto the energy storage device to within a specified value. A diode in series with the voltage control device and a resistor connected in parallel with the diode direct the current flow.
A second resistor is connected in series with the first resistor, via an electrical harness wire, a voltage across which corresponds to a measured ion current. A second voltage control device is connected in parallel with the second resistor, to allow a selected magnitude of voltage to be generated across the second resistor by the ion current without voltage limiting.
The bias and measuring circuit disclosed reduces the effects of secondary harness capacitance on the ion current signal, minimizes the effects of harness electrical leakage and reduces the chances for “spark-on-make” (an ignition firing when the ignition coil primary is initially energized).
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Karau Philip Allen
Peterson Philip Ralph
Cicnosz Vincent A.
Delphi Technologies Inc.
Le N.
LeRoux Etienne P
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