Lighting apparatus for producing a beam of light having a controlled luminous flux spectrum
First Claim
1. A lighting apparatus for producing a beam of light having a luminous flux spectrum emulating that of a beam of light produced by a predetermined light source having an incandescent lamp, such light source being free of a filter that modifies the luminous flux spectrum of the light emitted by the lamp, the apparatus being suitable for use as part of a lighting fixture and comprising:
- a plurality of groups of light-emitting devices, each such group configured to emit light having a distinct luminous flux spectrum; and
a controller configurable to supply selected amounts of electrical power to the plurality of groups of light-emitting devices, such that the groups cooperate to produce a composite beam of light having a prescribed luminous flux spectrum that has a normalized mean deviation across the visible spectrum of less than about 30% relative to the luminous flux spectrum of a beam of light produced by the predetermined light source to be emulated.
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Accused Products
Abstract
An improved lighting apparatus, suitable for use as part of a lighting fixture, is disclosed, having a plurality of groups of distinct light-emitting devices, e.g., light-emitting diodes, that can be controlled to produce a beam of light having a wide variety of complex luminous flux spectra, including, but not limited, to spectra that closely emulate that of any one of a number of conventional light sources, with or without a conventional chemical dye filter. Each group of light-emitting devices is configured to emit light having a distinct luminous flux spectrum. A controller supplies selected amounts of electrical power to two or more groups of the plurality of groups of light-emitting devices, such that the groups cooperate to produce a composite beam of light having a selected luminous flux spectrum. The spectrum can be controlled to have a normalized mean deviation across the visible spectrum, relative to that of a beam of light to be emulated, of less than about 30%. This a marked improvement over all known lighting fixtures of the kind including multiple groups of distinct light sources. The groups of light-emitting devices are configured to include independently selected quantities of devices. Further, the groups of light-emitting devices are configured to each have a spectral half-width of less than about 40 nanometers (nm) and to have a peak flux wavelength that is spaced less than about 50 nm from that of an adjacent group.
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Citations
43 Claims
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1. A lighting apparatus for producing a beam of light having a luminous flux spectrum emulating that of a beam of light produced by a predetermined light source having an incandescent lamp, such light source being free of a filter that modifies the luminous flux spectrum of the light emitted by the lamp, the apparatus being suitable for use as part of a lighting fixture and comprising:
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a plurality of groups of light-emitting devices, each such group configured to emit light having a distinct luminous flux spectrum; and
a controller configurable to supply selected amounts of electrical power to the plurality of groups of light-emitting devices, such that the groups cooperate to produce a composite beam of light having a prescribed luminous flux spectrum that has a normalized mean deviation across the visible spectrum of less than about 30% relative to the luminous flux spectrum of a beam of light produced by the predetermined light source to be emulated. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
the distinct luminous flux spectrum of the light emitted by each of the plurality of groups of light-emitting devices has a predetermined peak flux wavelength and a predetermined spectral half-width;
the peak flux wavelength of each of the plurality of groups of light-emitting devices is spaced less than about 50 nanometers from the peak flux wavelength of another of the plurality of groups of light-emitting devices; and
the spectral half-width of each of the plurality of groups of light-emitting devices is less than about 40 nanometers.
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15. A lighting apparatus for producing a beam of colored light having a prescribed luminous flux spectrum, the apparatus being suitable for use as part of a lighting fixture and comprising:
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a plurality of groups of light-emitting devices, each such group configured to emit light having a distinct luminous flux spectrum; and
a controller configurable to supply selected amounts of electrical power to the plurality of groups of light-emitting devices, such that the groups cooperate to produce a composite beam of light;
wherein the composite beam of light has a prescribed luminous flux spectrum having substantial energy only within a contiguous bandwidth of less than about 200 nanometers when the controller supplies prescribed maximum amounts of electrical power to all of the groups of light-emitting devices. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
each group of light-emitting devices is free of a filter that substantially changes the luminous flux spectrum of its emitted light; and
the controller is configurable to supply selected amounts of electrical power to the plurality of groups of light-emitting devices, such that the composite beam of light has a prescribed luminous flux spectrum emulating that of a predetermined light source having an incandescent lamp, such light source further having an associated filter that modifies the luminous flux spectrum of the light emitted by the lamp.
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17. A lighting apparatus as defined in claim 16, wherein the luminous flux spectrum of the composite beam of light has a normalized mean deviation across the visible spectrum of less than about 30% relative to the luminous flux spectrum of a beam of light produced by the predetermined light source to be emulated.
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18. A lighting apparatus as defined in claim 16, wherein the quantities of devices included in each of the plurality of groups of light-emitting devices are selected such that, if the controller supplies maximum electrical power to all of the groups, then the resulting composite beam of light will have a luminous flux spectrum having a normalized mean deviation across the visible spectrum of less tan about 30% relative to the luminous flux spectrum of a theoretical beam of light produced by the predetermined light source, as modified by a theoretical superposition of the spectral transmissions of a plurality of color filters.
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19. A lighting apparatus as defined in claim 15, wherein the composite beam of light produced by the plurality of groups of light-emitting devices has a luminous flux spectrum having substantial energy only in wavelengths of less than about 600 nanometers when the controller supplies prescribed maximum amounts of electrical power to all of the groups of light-emitting devices.
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20. A lighting apparatus as defined in claim 15, wherein the composite beam of light produced by the plurality of groups of light-emitting devices has a luminous flux spectrum having substantial energy only in wavelengths of more than about 550 nanometers when the controller supplies prescribed maximum amounts of electrical power to all of the groups of light-emitting devices.
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21. A lighting apparatus as defined in claim 15, wherein at least two of the plurality of groups of light-emitting devices include different quantities of light-emitting devices.
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22. A lighting apparatus as defined in claim 15, wherein the plurality of groups of light-emitting devices include at least four groups of light-emitting devices, each such group being configured to emit light having a predetermined distinct luminous flux spectrum.
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23. A lighting apparatus as defined in claim 15, wherein each of the plurality of groups of light-emitting devices includes a plurality of light-emitting diodes.
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24. A lighting apparatus as defined in claim 15, wherein:
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the distinct luminous flux spectrum of the light emitted by each of the plurality of groups of light-emitting devices has a predetermined peak flux wavelength and a predetermined spectral half-width;
the peak flux wavelength of each of the plurality of groups of light-emitting devices is spaced less than about 50 nanometers from the peak flux wavelength of another of the plurality of groups of light-emitting devices; and
the spectral half-width of each of the plurality of groups of light-emitting devices is less than about 40 nanometers.
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25. A lighting apparatus as defined in claim 15, wherein the composite beam of light has a luminous flux spectrum having substantial energy only within a contiguous bandwidth of less than about 150 nanometers.
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26. A lighting apparatus as defined in claim 15, wherein no portion of the contiguous flux spectrum of the composite beam of light has a flux intensity more than 5 db lower than flux intensities at wavelengths both above and below it.
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27. A lighting apparatus as defined in claim 15, wherein no portion of the contiguous flux spectrum of the composite beam of light has a flux intensity more than 2 db lower than flux intensities at wavelengths both above and below it.
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28. A lighting apparatus for producing a beam of light having a prescribed luminous flux spectrum, the lighting apparatus being suitable for use as part of a lighting fixture and comprising:
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a plurality of groups of light-emitting devices, each such group configured to emit light having a distinct luminous flux spectrum, and at least two of the plurality of groups including substantially different quantities of devices from each other; and
a controller configurable to supply selected amounts of electrical power to the plurality of groups of light-emitting devices, such that the groups cooperate to produce a composite beam of light having a prescribed luminous flux spectrum. - View Dependent Claims (29, 30, 31, 32, 33, 34, 35)
each of the plurality of groups of light-emitting devices is free of a filter that substantially changes the luminous flux spectrum of its emitted light;
the prescribed luminous flux spectrum is made to emulate that of a beam of light produced by a predetermined light source having an incandescent lamp, such light source being free of a filter that modifies the luminous flux spectrum of the light emitted by the lamp; and
the controller is configurable to supply selected amounts of electrical power to the plurality of groups of light-emitting devices, such that the composite beam of light has a prescribed luminous flux spectrum that has a normalized mean deviation across the visible spectrum of less than about 30% relative to the luminous flux spectrum of a beam of light produced by the predetermined light source to be emulated.
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30. A lighting apparatus as defined in claim 29, wherein the quantities of devices included in each of the plurality of groups of light-emitting devices are selected such that, if the controller supplies maximum electrical power to all of the groups, then the resulting composite beam of light will have a luminous flux spectrum having a normalized mean deviation across the visible spectrum of less than about 30% relative to the luminous flux spectrum of a beam of light produced by the predetermined light source to be emulated.
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31. A lighting apparatus as defined in claim 29, wherein the luminous flux spectra of the beam of light produced by the lighting apparatus and of the beam of light produced by the light source to be emulated are within 5 db of each other across the visible spectrum when the controller supplies prescribed maximum amounts of electrical power to all of the groups of light-emitting devices.
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32. A lighting apparatus as defined in claim 28, wherein:
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each group of light-emitting devices is free of a filter that substantially changes the luminous flux spectrum of its emitted light;
the prescribed luminous flux spectrum is made to emulate that of a beam of light produced by a predetermined light source having an incandescent lamp, such light source further having an associated filter that modifies the luminous flux spectrum of the light emitted by the lamp; and
the controller is configurable to supply selected amounts of electrical power to at least two of the plurality of groups of light-emitting devices, such that the composite beam of light has a prescribed luminous flux spectrum that has a normalized mean deviation across the visible spectrum of less than about 30% relative to the luminous flux spectrum of a beam of light produced by the predetermined light source to be emulated.
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33. A lighting apparatus as defined in claim 28, wherein the plurality of groups of light-emitting devices include at least four groups of light-emitting devices, each such group being configured to emit light having a predetermined distinct luminous flux spectrum.
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34. A lighting apparatus as defined in claim 28, wherein each of the plurality of groups of light-emitting devices includes a plurality of light-emitting diodes.
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35. A lighting apparatus as defined in claim 28, wherein:
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the distinct luminous flux spectrum of the light emitted by each of the plurality of groups of light-emitting devices has a predetermined peak flux wavelength and a predetermined spectral half-width;
the peak flux wavelength of each of the plurality of groups of light-emitting devices is spaced less than about 50 nanometers from the peak flux wavelength of another of the plurality of groups of light-emitting devices; and
the spectral half-width of each of the plurality of groups of light-emitting devices is less than about 40 nanometers.
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36. A lighting apparatus for producing a beam of light having a prescribed luminous flux spectrum, the lighting apparatus being suitable for use as part of a lighting fixture and comprising:
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five or more groups of light-emitting devices, wherein each such group is configured to emit light having a distinct luminous flux spectrum; and
a controller configurable to supply selected amounts of electrical power to the five or more groups of light-emitting devices, such that the groups cooperate to produce a composite beam of light having a prescribed luminous flux spectrum. - View Dependent Claims (37, 38, 39, 40)
the distinct luminous flux spectrum of the light emitted by each of the five or more groups of light-emitting devices has a predetermined peak flux wavelength and a predetermined spectral half-width;
the peak flux wavelength of each of the five or more groups of light-emitting devices is spaced less than about 50 nanometers from the peak flux wavelength of another of the plurality of groups of light-emitting devices; and
the spectral half-width of each of the plurality of groups of light-emitting devices is less than about 40 nanometers.
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40. A lighting apparatus as defined in claim 36, wherein the five or more groups of light-emitting devices cooperate to emit light spanning substantially the entire visible spectrum.
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41. A lighting apparatus for producing a beam of light having a prescribed luminous flux spectrum, the lighting apparatus being suitable for use as part of a lighting fixture and comprising:
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three or more groups of light-emitting devices, each such group configured to emit light having a distinct luminous flux spectrum with a predetermined peak flux wavelength and a predetermined spectral half-width;
wherein the peak flux wavelength of each of the three or more groups of light-emitting devices is spaced less than about 50 nanometers from the peak flux wavelength of another of the groups of light-emitting devices;
and wherein the spectral half-width of each of the three or more groups of light-emitting devices is less than about 40 nanometers; and
a controller configurable to supply selected amounts of electrical power to the three or more groups of light-emitting devices, such that the groups cooperate to produce a composite beam of light having a prescribed luminous flux spectrum. - View Dependent Claims (42, 43)
each of the plurality of groups of light-emitting devices is free of a filter that substantially changes the luminous flux spectrum of its emitted light;
the prescribed luminous flux spectrum is made to emulate that of a beam of light produced by a predetermined light source having an incandescent lamp, such light source being free of a filter that modifies the luminous flux spectrum of the light emitted by the lamp; and
the controller is configurable to supply selected amounts of electrical power to the plurality of groups of light-emitting devices, such that the composite beam of light has a prescribed luminous flux spectrum that has a normalized mean deviation across the visible spectrum of less than about 30% relative to the luminous flux spectrum of a beam of light produced by the predetermined light source to be emulated.
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Specification