Method and circuit for regulating power in a high intensity discharge lamp
First Claim
1. A ballast for powering a high intensity discharge lamp, comprising:
- a rectifier circuit adapted to receive an alternating current line voltage;
an active power factor corrector (PFC) circuit coupled to the rectifier circuit, and operable to provide an output current and an output voltage;
an inverter section coupled to the active PFC circuit;
a power control circuit means for providing a power control signal to the active PFC circuit in dependence on the output voltage and the output current of the active PFC circuit, wherein the power control circuit means is coupled between the inverter section and the active PFC circuit; and
wherein the active PFC circuit comprises;
a boost/flyback converter coupled between the rectifier circuit and the inverter section; and
a boost/flyback control circuit means for controlling operation of the boost/flyback converter in dependence on the power control signal provided by the power control circuit means, wherein the boost/flyback control circuit means is coupled between the boost/flyback converter and the power control circuit means.
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Accused Products
Abstract
A circuit for controlling power to a high intensity discharge lamp is disclosed. The circuit according to one embodiment of the invention comprises a rectifier circuit coupled to receive an alternating current line voltage, and a boost/flyback converter coupled to the rectifier circuit which outputs a regulated DC bus voltage. A power control circuit also couples a feedback signal to the boost/flyback converter to regulate the power output of the boost/flyback converter. A method of controlling power to a high intensity discharge lamp is also disclosed. The method comprises steps of generating a DC voltage for the high intensity discharge lamp by way of a boost/flyback converter; monitoring the DC voltage and the current generated in the boost/flyback converter; and modifying the power output by the boost/flyback converter to regulate power based upon the voltage and the current.
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Citations
2 Claims
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1. A ballast for powering a high intensity discharge lamp, comprising:
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a rectifier circuit adapted to receive an alternating current line voltage; an active power factor corrector (PFC) circuit coupled to the rectifier circuit, and operable to provide an output current and an output voltage; an inverter section coupled to the active PFC circuit; a power control circuit means for providing a power control signal to the active PFC circuit in dependence on the output voltage and the output current of the active PFC circuit, wherein the power control circuit means is coupled between the inverter section and the active PFC circuit; and wherein the active PFC circuit comprises; a boost/flyback converter coupled between the rectifier circuit and the inverter section; and a boost/flyback control circuit means for controlling operation of the boost/flyback converter in dependence on the power control signal provided by the power control circuit means, wherein the boost/flyback control circuit means is coupled between the boost/flyback converter and the power control circuit means.
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2. A ballast for powering a high intensity discharge lamp, comprising:
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a rectifier circuit adapted to receive an alternating current line voltage; an active power factor corrector (PFC) circuit coupled to the rectifier circuit, and operable to provide an output current and an output voltage; an inverter section coupled to the active PFC circuit; a power control circuit means for providing a power control signal to the active PFC circuit in dependence on the output voltage and the output current of the active PFC circuit, wherein the power control circuit means is coupled between the inverter section and the active PFC circuit; and wherein the active PFC circuit comprises; a boost/flyback converter means for providing the output voltage and the output current of the active PFC circuit, wherein the boost/flyback converter means is coupled between the rectifier circuit and the inverter section; and a boost/flyback control circuit means for controlling the boost/flyback converter means in dependence on the power control signal provided by the power control circuit means, wherein the boost/flyback control circuit means is coupled between the boost/flyback converter means and the power control circuit means.
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Specification