초록 ▼

A system and method for detecting resonant frequency of a corona igniter concurrent with operation of the corona igniter is provided. The method includes providing a plurality of pulses of energy to the corona igniter, each having a pulse duration and spaced from one another by a deadtime duration d

A system and method for detecting resonant frequency of a corona igniter concurrent with operation of the corona igniter is provided. The method includes providing a plurality of pulses of energy to the corona igniter, each having a pulse duration and spaced from one another by a deadtime duration during which no energy is provided to the corona igniter. Each pulse duration is ceased before current flowing in the corona igniter crosses zero, and each zero crossing of the current occurs during one of the deadtime durations. The next pulse of energy is provided to the corona igniter in response to the zero crossing of the current. A resonant frequency value is then obtained based on a sum of the pulse and deadtime durations of two consecutive cycles, or the time between zero crossings. The resonant frequency values become more accurate over time, and the drive frequency is adjusted accordingly.

대표청구항 ▼

1. A method for detecting the resonant frequency of a corona igniter in a corona ignition system, comprising the steps of: providing a first pulse of energy to a corona igniter at a positive voltage for a first pulse duration causing causes current to flow in the corona igniter; ceasing the first pu

1. A method for detecting the resonant frequency of a corona igniter in a corona ignition system, comprising the steps of: providing a first pulse of energy to a corona igniter at a positive voltage for a first pulse duration causing causes current to flow in the corona igniter; ceasing the first pulse duration before the current flowing in the corona igniter crosses through zero and providing no energy to the corona igniter for a first deadtime duration immediately upon ceasing the first pulse duration; detecting when the current flowing in the corona igniter crosses through zero during the first deadtime duration;providing a second pulse of energy to the corona igniter at a negative voltage for a second pulse duration in response to the zero crossing of the current to cease the first deadtime duration;ceasing the second pulse duration before the current crosses through zero and providing no energy to the corona igniter for a second deadtime duration immediately upon ceasing the second pulse duration;detecting when the current flowing in the corona igniter crosses through zero during the second deadtime duration;providing a third pulse of energy to the corona igniter at a positive voltage in response to the zero crossing of the current to cease the second deadtime duration; and obtaining a first resonant frequency value based on a sum of the first pulse duration, the first deadtime duration, the second pulse duration, and the second deadtime duration. 2. The method of claim 1 including applying energy to the corona igniter at a drive frequency equal to the obtained first resonant frequency value while providing energy to the corona igniter. 3. The method of claim 1, wherein the step of obtaining the first resonant frequency value includes dividing the sum in half to determine the duration of one half cycle of the resonant frequency. 4. The method of claim 1, wherein the positive voltage causes the current to flow in a positive direction and the negative voltage causes the current to flow in a negative direction, and the current crosses zero only once during the first deadtime duration and only once during the second deadtime duration. 5. The method of claim 1, wherein the second pulse duration is greater than the first pulse duration, and the second deadtime duration is less than the first deadtime duration. 6. The method of claim 1 including setting the first pulse duration based on any delays of components of the system so that the step of ceasing the first pulse duration occurs before the current flowing in the corona igniter crosses through zero. 7. The method of claim 1 including adjusting a drive frequency of the energy provided to the corona igniter to match the obtained first resonant frequency value while providing the energy to the corona igniter. 8. The method of claim 1 including providing the third pulse of energy to the corona igniter for a third pulse duration; ceasing the third pulse duration before the current flowing in the corona igniter crosses through zero and providing no energy to the corona igniter for a third deadtime duration immediately upon ceasing the third pulse duration; detecting when the current flowing in the corona igniter crosses through zero during the third deadtime duration; providing a fourth pulse of energy to the corona igniter at a negative voltage for a fourth pulse duration in response to the zero crossing of the current to cease the third deadtime duration;ceasing the fourth pulse duration before the current flowing in the corona igniter crosses through zero and providing no energy to the corona igniter for a fourth deadtime duration immediately upon ceasing the fourth pulse duration; detecting when the current flowing in the corona igniter crosses through zero during the fourth deadtime duration;providing a fifth pulse of energy to the corona igniter at a positive voltage in response to the zero crossing of the current to cease the fourth deadtime duration; andobtaining a second resonant frequency value based on a sum of the third pulse duration, the third deadtime duration, the fourth pulse duration, and the fourth deadtime duration. 9. The method of claim 8, wherein the fourth pulse duration is greater than the third pulse duration and the fourth deadtime duration is less than the third deadtime duration. 10. The method of claim 8 including a plurality of pulses of energy provided to the corona igniter after the fifth pulse of energy, each of the pulses of energy provided for a pulse duration and spaced from one another by a deadtime duration during which no energy is provided to the corona igniter; and wherein the pulse durations increase over time and the deadtime durations decrease over time. 11. The method of claim 8, wherein the steps of obtaining the first resonant frequency value and the second resonant frequency value are conducted while energy is provided to the corona igniter and while the corona igniter provides corona discharge. 12. A method for detecting the resonant frequency of a corona igniter in a corona ignition system, comprising the steps of: providing a first pulse of energy to a corona igniter at a positive voltage causing causes current to flow in the corona igniter; ceasing the first pulse before the current flowing in the corona igniter crosses through zero and providing no energy to the corona igniter for a first deadtime duration immediately upon ceasing the first pulse of energy; obtaining a first zero crossing duration, wherein the first zero crossing duration begins at the start of the first pulse of energy and ends at the first zero crossing; and obtaining a first resonant frequency value by doubling the first zero crossing duration. 13. A method for detecting the resonant frequency of a corona igniter in a corona ignition system, comprising the steps of: providing a first pulse of energy to a corona igniter at a positive voltage causing causes current to flow in the corona igniter; ceasing the first pulse before the current flowing in the corona igniter crosses through zero and providing no energy to the corona igniter for a first deadtime duration immediately upon ceasing the first pulse of energy; obtaining a first zero crossing duration, wherein the first zero crossing duration begins at the start of the first pulse of energy and ends at the first zero crossing; providing a second pulse of energy to the corona igniter at a negative voltage in response to the first zero crossing of the current to cease the first deadtime duration; ceasing the second pulse of energy before the current crosses through zero and providing no energy to the corona igniter for a second deadtime duration immediately upon ceasing the second pulse of energy;obtaining a second zero crossing duration, wherein the second zero crossing duration begins at the first zero crossing and ends at the second zero crossing; and obtaining a first resonant frequency value based on a sum of the first zero crossing duration and the second zero crossing duration.