Drive for light-emitting diodes
First Claim
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1. A circuit arrangement for supplying voltage and controlling the operating behavior of at least one light-emitting diode for illumination purposes, said circuit arrangement comprising:
- at least one inverter that is connectable to a direct-voltage source and whose output frequency is variable, said inverter comprising at least two controllable power switches connected to convert a supplied direct voltage, delivered by a direct-voltage source, into a bipolar alternating voltage and a load circuit connected to an output of the inverter, said load circuit comprising a resonance element and containing at least one light-emitting diode, said load circuit connected to be driven by said bipolar alternating voltage, the switching frequency of the power switches being alterable to control the brightness of the at least one light-emitting diode by controlling the current flowing through the at least one light-emitting diode.
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Abstract
A circuit and a method for controlling light emitting diodes (D1, D2) for illumination involve an inverter whose output frequency can be varied. The inverter includes two electronic switches (S1, S2) which convert an applied direct current voltage (Uo) into an alternating voltage. A load circuit is connected to the output of the inverter and includes a resonance element and at least one light emitting diode (D1, D2) whose brightness is controlled by altering the output frequency of the inverter.
62 Citations
20 Claims
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1. A circuit arrangement for supplying voltage and controlling the operating behavior of at least one light-emitting diode for illumination purposes, said circuit arrangement comprising:
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at least one inverter that is connectable to a direct-voltage source and whose output frequency is variable, said inverter comprising at least two controllable power switches connected to convert a supplied direct voltage, delivered by a direct-voltage source, into a bipolar alternating voltage and a load circuit connected to an output of the inverter, said load circuit comprising a resonance element and containing at least one light-emitting diode, said load circuit connected to be driven by said bipolar alternating voltage, the switching frequency of the power switches being alterable to control the brightness of the at least one light-emitting diode by controlling the current flowing through the at least one light-emitting diode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 20)
said load circuit comprises at least two light-emitting diodes that are connected in antiparallel.
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3. A circuit arrangement according to claim 1, wherein:
a rectifier is connected upstream of said at least one light-emitting diode.
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4. A circuit arrangement according to one of claims 1 to 3, and further including
means for determining the amount of light delivered by said at least one light-emitting diode. -
5. A circuit arrangement according to one of claims 1 to 3, and further including
means for determining the current flowing through said at least one light emitting diode. -
6. A circuit arrangement according to claim 5, wherein:
the switching frequency of said power switches is regulable as a function of the determined current.
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7. A circuit arrangement according to claim 5, wherein;
the supply direct voltage delivered by said direct voltage source is regulable as a function of the determined current.
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8. A circuit arrangement according to one of claims 1 to 3, wherein:
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said circuit arrangement comprises light-emitting diodes of various colors, and wherein an inverter is provided for light-emitting diodes of each color.
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9. A circuit arrangement according to one of claims 1 to 3, wherein:
a plurality of light-emitting diodes is combined to form an array.
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10. A circuit arrangement according to one of claims 1 to 3, wherein:
said inverter is formed by two controllable power switches disposed in a half-bridge circuit.
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11. A circuit arrangement according to one of claims 1 to 3, wherein:
said inverter is formed by controllable power switches disposed in a full bridge circuit.
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12. A circuit arrangement according to claim 10, wherein:
said power switches are field-effect transistors.
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13. A circuit arrangement according to one of claims 1 to 3, wherein:
the switching frequency of the power switches is in the range between 200 kHz and 1 MHz.
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14. A circuit arrangement according to one of claims 1 to 3, wherein:
said circuit comprises at least one multilayer circuit into which passive components of the switching arrangement are integrated.
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15. A circuit arrangement according to claim 14, wherein:
said multilayer circuit comprises a plurality of printed circuit boards disposed above one another and having applied to their upper and/or lower sides, conductor tracks composed of a conductive material applied and holes filled with conductor tracks.
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16. A circuit arrangement according to claim 14, wherein
said multilayer circuit is an LTCC structure that comprises a plurality of low-sintering ceramic layers disposed one above another and between which conductor tracks are situated, said ceramic layers having holes for connecting conductor tracks of different levels. -
17. A circuit arrangement according to claim 16, wherein:
said multilayer circuit is surrounded by a metallic housing.
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18. A circuit arrangement according to claim 17, wherein:
semiconductor chips are mounted on a surface of said multilayer circuit by means of flip-chip technology.
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20. A circuit arrangement according to claim 11, wherein:
said power switches are field-effect transistors.
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19. A method of supplying voltage and controlling the operating behavior of at least one light-emitting diode for illumination purposes, said method comprising:
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connecting at least one inverter to a direct-voltage source, said inverter having a variable output frequency and including at least two controllable power switches for converting a supplied direct voltage into an alternating voltage and connecting a load circuit to the output of the inverter, said load circuit including a resonance element and at least one light-emitting diode, said load circuit being driven by said bipolar alternating voltage, and alternating the switching frequency of said power switches to control the brightness of the at least one light-emitting diode by controlling the current flowing through the at least one light-emitting diode.
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Specification