Ignition system for light-duty combustion engine

The invention claimed is: 1. A method for operating an ignition system for a light-duty combustion engine, comprising the steps of: charging an ignition discharge storage device with a charge winding; charging a power supply capacitor of a power supply sub-circuit that powers a microcontroller with the charge winding through a first power supply switch when the stored charge on the power supply capacitor is less than a threshold; by the first power supply switch preventing charging of the power supply sub-circuit by the charge winding when the stored charge on the power supply capacitor is greater than the threshold; charging the power supply capacitor until the stored charge exceeds a breakdown voltage of a zener diode where the breakdown voltage corresponds to the threshold, and, in response to the stored charge exceeding the breakdown voltage, changing the state of the first power supply switch to prevent charging of the power supply capacitor of the sub-circuit; and turning ‘on’ a second power supply switch of the power supply sub-circuit when the stored charge exceeds the breakdown voltage of the zener diode and, in response to the second power supply switch being turned ‘on’, turning ‘off’ the first power supply switch and preventing charging of the power supply sub-circuit. 2. The method of claim 1 , wherein the ignition discharge storage device is coupled to a first terminal of the charge winding and the power supply sub-circuit is coupled to a second terminal of the charge winding, and the method further comprises charging the ignition discharge storage device with the charge winding during either a positive or negative portion of an AC voltage waveform and charging the power supply sub-circuit with the charge winding during the other of the positive or negative portion of the AC voltage waveform. 3. The method of claim 1 , wherein the method further comprises reducing the average amount of electrical power consumed by the power supply sub-circuit by preventing charging of the power supply sub-circuit when the stored charge on the power supply sub-circuit is greater than the threshold. 4. The method of claim 1 , wherein the method further comprises charging the power supply sub-circuit with the charge winding and powering an additional device with an additional charge winding during a first segment of an AC voltage waveform, and only powering the additional device with the additional charge winding without charging the power supply sub-circuit with the charge winding during a second segment of the AC voltage waveform. 5. A method for operating an ignition system for a light-duty combustion engine, comprising the steps of: charging an ignition discharge storage device with a charge winding; charging a power supply capacitor of a power supply sub-circuit that powers a microcontroller with the charge winding through a power supply switch when the stored charge on the power supply capacitor is less than a threshold; by the power supply switch preventing charging of the power supply sub-circuit by the charge winding when the stored charge on the power supply capacitor is greater than the threshold, wherein the ignition system further comprises a primary ignition winding, a secondary ignition winding, an additional winding and an additional device coupled to the additional winding, and the method further comprises discharging the ignition discharge storage device to a primary ignition winding, inducing a high voltage ignition pulse in a secondary ignition winding with the primary ignition winding for powering a spark plug, and powering the additional device with charge induced in the additional winding. 6. The method of claim 5 , wherein the additional device is a solenoid that controls an air/fuel ratio provided to the light-duty combustion engine. 7. The method of claim 5 , wherein the power supply sub-circuit further comprises a zener diode with a breakdown voltage that corresponds to the threshold, and the method further comprises charging the power supply capacitor until the stored charge exceeds the breakdown voltage of the zener diode and, in response to the stored charge exceeding the breakdown voltage, changing the state of the power supply switch to prevent charging of the power supply capacitor of the sub-circuit. 8. The method of claim 7 , wherein the power supply sub-circuit further comprises a second power supply switch, and the method further comprises turning ‘on’ the second power supply switch when the stored charge exceeds the breakdown voltage of the zener diode and, in response to the second power supply switch being turned ‘on’, turning ‘off’ the power supply switch and preventing charging of the power supply sub-circuit. 9. The method of claim 5 , wherein the method further comprises reducing the average amount of electrical power consumed by the power supply sub-circuit by preventing charging of the power supply sub-circuit when the stored charge on the power supply sub-circuit is greater than the threshold. 10. The method of claim 5 , wherein the method further comprises charging the power supply sub-circuit with the charge winding and powering the additional device with the additional charge winding during a first segment of an AC voltage waveform, and only powering the additional device with the additional charge winding without charging the power supply sub-circuit with the charge winding during a second segment of the AC voltage waveform. 11. A method for operating an ignition system for a light-duty combustion engine, comprising the steps of: charging an ignition discharge storage device with a charge winding; charging a power supply capacitor of a power supply sub-circuit that powers a microcontroller with the charge winding through a power supply switch when the stored charge on the power supply capacitor is less than a threshold; by the power supply switch preventing charging of the power supply sub-circuit by the charge winding when the stored charge on the power supply capacitor is greater than the threshold; charging the power supply sub-circuit with the charge winding and powering an additional device with an additional charge winding during a first segment of an AC voltage waveform, and only powering the additional device with the additional charge winding without charging the power supply sub-circuit with the charge winding during a second segment of the AC voltage waveform; and discharging the ignition discharge storage device to a primary ignition winding, inducing a high voltage ignition pulse in a secondary ignition winding with the primary ignition winding for powering a spark plug, where the additional charge winding is not the primary ignition winding, the secondary ignition winding or the charge winding by which the ignition discharge storage device is charged. 12. The method of claim 11 , wherein the power supply sub-circuit comprises a power supply switch and a power supply capacitor, and the method further comprises charging the power supply capacitor through the power supply switch with the charge winding. 13. The method of claim 12 , wherein the power supply sub-circuit further comprises a zener diode with a breakdown voltage that corresponds to the threshold, and the method further comprises charging the power supply capacitor until the stored charge exceeds the breakdown voltage of the zener diode and, in response to the stored charge exceeding the breakdown voltage, changing the state of the power supply switch to prevent charging of the power supply capacitor of the sub-circuit. 14. The method of claim 11 wherein the method further comprises reducing the average amount of electrical