Power conversion and control systems and methods for solid-state lighting
First Claim
1. A lighting system, comprising:
- one or more light-emitting devices; and
an alternating current to direct current (AC-DC) converter configured to convert an AC input voltage (Vin) to a DC output voltage (Vout) for use in powering said one or more light-emitting devices, said AC-DC converter including a plurality of switches and a control circuit including a first comparison circuit configured to compare the AC input voltage (Vin) or a scaled version thereof to the DC output voltage (Vout) and determine times when (Vin)>
(Vout), a second comparison circuit including a second comparison circuit configured to compare the AC input voltage (Vin) to the negative of the DC output voltage (Vout) and determine times when (Vin)<
(−
Vout), and a switch control circuit configured to direct and control said plurality of switches to rectify the AC input voltage (Vin) based on the comparisons performed by said first and second comparison circuits.
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Accused Products
Abstract
A solid-state lighting system comprises a plurality of light-emitting devices (e.g., light-emitting diodes) and an alternating current to direct current (AC-DC) converter that converts AC power to DC power for powering the plurality of light-emitting devices. The AC-DC converter is configured to perform AC-DC conversion directly, without the need for or use of a bridge rectifier or step-down transformer. According to one aspect of the invention, the light-emitting devices of the solid-state lighting system are autonomous and individually powered by a plurality of DC power supplies generated from the DC power produced by the AC-DC converter. According to another aspect, a plurality of phase-offset dimmer control signals are generated based on waveform distortions in a dimming signal produced by a conventional dimmer switch. The phase-offset dimmer control signals are used to individually control the dimming of the light-emitting devices.
5 Citations
6 Claims
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1. A lighting system, comprising:
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one or more light-emitting devices; and an alternating current to direct current (AC-DC) converter configured to convert an AC input voltage (Vin) to a DC output voltage (Vout) for use in powering said one or more light-emitting devices, said AC-DC converter including a plurality of switches and a control circuit including a first comparison circuit configured to compare the AC input voltage (Vin) or a scaled version thereof to the DC output voltage (Vout) and determine times when (Vin)>
(Vout), a second comparison circuit including a second comparison circuit configured to compare the AC input voltage (Vin) to the negative of the DC output voltage (Vout) and determine times when (Vin)<
(−
Vout), and a switch control circuit configured to direct and control said plurality of switches to rectify the AC input voltage (Vin) based on the comparisons performed by said first and second comparison circuits. - View Dependent Claims (2, 3, 4, 5)
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6. A power conversion and control system for an electrical load, comprising:
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an alternating current to direct current (AC-DC) converter not comprising a bridge circuit configured to convert AC power from an AC power source to DC power for powering an electrical load; control circuitry including a first comparison circuit configured to compare the magnitude of an AC input voltage from said AC power source or scaled version thereof to the DC output voltage produced at the output of said AC-DC converter and a second comparison circuit configured to compare the magnitude of said AC input voltage or scaled version thereof to the negative of said DC output voltage said control circuitry operable to produce an output signal having a duty cycle based on the comparisons performed by the first and second comparison circuits; and current control circuitry configured to control current passing through said electrical load according to the duty cycle of the output signal produced by said control circuitry.
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Specification