HIGH EFFICIENCY LIGHT SOURCE WITH INTEGRATED BALLAST
First Claim
1. An efficient light source apparatus with integrated ballast, comprising:
- a rectifier having a rectifier input and a rectifier output, the rectifier being configured to convert an input AC voltage to produce at the rectifier output a modulated voltage waveform with respect to a reference potential;
a filter having a filter input and a filter output, the filter input connected to the rectifier output, the filter producing at the filter output a filtered modulated voltage waveform;
a resistive divider circuit connected to the rectifier output and configured to produce a first sensed voltage corresponding to a portion of the modulated voltage waveform at its output;
a comparator circuit having a first comparator input connected to the first sensed voltage, a second comparator input, and a comparator output, wherein the comparator output is HIGH if a voltage at the second comparator input is greater than the first sensed voltage, and the comparator output is LOW if the voltage at the second comparator input is less than the first sensed voltage;
a pulse-width modulator circuit, having a pulse-width modulator input connected to the comparator output, and a pulse-width modulator output, the pulse-width modulator configured to produce a modulated control signal at the pulse-width modulator output, in response to the comparator output;
a reactive load having a first port and a second port, the first port configured to receive the filtered modulated positive voltage waveform, the reactive load including an LED;
a switch having a switch input and a switch output, the switch input connected to the second port of the reactive load, the switch controlled by the modulated control signal to selectively connect the switch input to the switch output; and
a current sense circuit having a first terminal and a second terminal, the first terminal connected to the switch output, and the second terminal connected to the reference potential, the current sense resistance producing a second sensed voltage between the first terminal and the second terminal, wherein the second sensed voltage is connected to the second comparator input.
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Accused Products
Abstract
The present invention relates to regulated power supplies or ballasts integrated with an LED light source. The invention provides a power factor correction scheme producing a greater circuit power factor and improved frequency spectrum characteristics, in which a voltage corresponding to the instantaneous inductor current is sampled and compared to a scaled sample of the rectified input AC line voltage. The line voltage sample modulates the inductor peak charge current in the envelope of the rectified AC voltage waveform. This drives the LED output voltage at a frequency of twice the input line voltage frequency, such that no flicker is perceived in the light output because the persistence in LED phosphor assists in averaging the flux output.
218 Citations
16 Claims
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1. An efficient light source apparatus with integrated ballast, comprising:
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a rectifier having a rectifier input and a rectifier output, the rectifier being configured to convert an input AC voltage to produce at the rectifier output a modulated voltage waveform with respect to a reference potential; a filter having a filter input and a filter output, the filter input connected to the rectifier output, the filter producing at the filter output a filtered modulated voltage waveform; a resistive divider circuit connected to the rectifier output and configured to produce a first sensed voltage corresponding to a portion of the modulated voltage waveform at its output; a comparator circuit having a first comparator input connected to the first sensed voltage, a second comparator input, and a comparator output, wherein the comparator output is HIGH if a voltage at the second comparator input is greater than the first sensed voltage, and the comparator output is LOW if the voltage at the second comparator input is less than the first sensed voltage; a pulse-width modulator circuit, having a pulse-width modulator input connected to the comparator output, and a pulse-width modulator output, the pulse-width modulator configured to produce a modulated control signal at the pulse-width modulator output, in response to the comparator output; a reactive load having a first port and a second port, the first port configured to receive the filtered modulated positive voltage waveform, the reactive load including an LED; a switch having a switch input and a switch output, the switch input connected to the second port of the reactive load, the switch controlled by the modulated control signal to selectively connect the switch input to the switch output; and a current sense circuit having a first terminal and a second terminal, the first terminal connected to the switch output, and the second terminal connected to the reference potential, the current sense resistance producing a second sensed voltage between the first terminal and the second terminal, wherein the second sensed voltage is connected to the second comparator input. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for efficiently producing light, with integrated ballast, comprising the steps of:
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rectifying by use of a rectifier having a rectifier input and a rectifier output, the rectifier input connected to an input AC voltage, the rectifier converting the input AC voltage to produce at the rectifier output a modulated positive voltage waveform with respect to a reference potential; filtering by use of a filter having a filter input and a filter output, the filter input connected to the rectifier output, producing a filtered modulated voltage waveform, the filter configured to reduce unwanted spectral energy; sensing by use of a resistive divider circuit having a resistive divider circuit input and a resistive divider circuit output, the resistive divider circuit input connected to the rectifier output and the resistive divider circuit output connected to the reference potential, configured to produce a first sensed voltage corresponding to a portion of the modulated voltage waveform; comparing by use of a comparator circuit having a first comparator input connected to the first sensed voltage, a second comparator input, and a comparator output, wherein the comparator output is HIGH if a voltage at the second comparator input is greater than the first sensed voltage, and the comparator output is LOW if the voltage at the second comparator input is less than or equal to the first sensed voltage; pulse-width modulating by use of a pulse-width modulator circuit, having a pulse-width modulator input connected to the comparator output, and a pulse-width modulator output, the pulse-width modulator configured to produce a modulated control signal at the pulse-width modulator output, in response to the comparator output; exciting a reactive load having a first port and a second port, the first port configured to receive the filtered modulated positive voltage waveform, the reactive load including an LED; switching by use of a switch having a switch input and a switch output, the switch input connected to the second port of the reactive load, the switch controlled by the modulated control signal; and sensing by use of a current sense circuit having a first terminal and a second terminal, the first terminal connected to the switch output, and the second terminal connected to the reference potential, the current sense circuit producing a second sensed voltage between the first terminal and the second terminal, wherein the second sensed voltage is connected to the second comparator input. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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Specification