IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0203428
(2008-09-03)
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등록번호 |
US-7767948
(2010-08-24)
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발명자
/ 주소 |
- May, Donald F.
- Rains, Jr., Jack C.
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출원인 / 주소 |
- Advanced Optical Technologies, LLC.
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대리인 / 주소 |
McDermott Will & Emery LLP
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인용정보 |
피인용 횟수 :
7 인용 특허 :
104 |
초록
▼
A system to provide radiant energy of selectable spectral characteristic (e.g. a selectable color combination) uses an integrating cavity to combine energy of different wavelengths from different sources. The cavity has a diffusely reflective interior surface and an aperture for allowing emission of
A system to provide radiant energy of selectable spectral characteristic (e.g. a selectable color combination) uses an integrating cavity to combine energy of different wavelengths from different sources. The cavity has a diffusely reflective interior surface and an aperture for allowing emission of combined radiant energy. Sources of radiant energy of different wavelengths, typically different-color LEDs, supply radiant energy into the interior of the integrating cavity. In the examples, the points of entry of the energy into the cavity typically are located so that they are not directly visible through the aperture. The cavity effectively integrates the energy of different wavelengths, so that the combined radiant energy emitted through the aperture includes the radiant energy of the various wavelengths. The apparatus also includes a control circuit coupled to the sources for establishing output intensity of radiant energy of each of the sources. Control of the intensity of emission of the sources sets the amount of each wavelength of energy in the combined output and thus determines a spectral characteristic of the radiant energy output through the aperture.
대표청구항
▼
What is claimed is: 1. A system comprising: A) a light fixture for a visible illuminating type lighting application, to illuminate or to provide task or object illumination, in a region or area intended to be occupied by a person, the light fixture comprising: 1) an optical integrating cavity havin
What is claimed is: 1. A system comprising: A) a light fixture for a visible illuminating type lighting application, to illuminate or to provide task or object illumination, in a region or area intended to be occupied by a person, the light fixture comprising: 1) an optical integrating cavity having at least one diffusely reflective interior surface and an optical passage; and 2) a plurality of light emitting diodes (LEDs) coupled to supply light to the optical integrating cavity at points on an interior surface of the optical integrating cavity not directly visible through the optical passage in one or more directions to cause substantial portions of light supplied by the LEDs to reflect from said at least one diffusely reflective surface of the optical integrating cavity one or more times to optically integrate the light from the LEDs before emission as the optically integrated light through the optical passage of the integrating cavity for the visible lighting application, wherein the LEDs provide sufficient light energy in the optically integrated light to facilitate said visible illuminating type lighting application, and the optical integrating cavity is configured to direct the optically integrated light emitted through the optical passage in a direction to facilitate said visible illuminating type lighting application; and B) a control circuit coupled to the LEDs for establishing output intensity of light of a first one of the LEDs and separately establishing output intensity of light of a second one of the LEDS, to set light contributions of the LEDs to the optically integrated light within the cavity and thus set a characteristic of the optically integrated light emitted through the optical passage of the optical integrating cavity. 2. The system of claim 1, further comprising: a user input device coupled to the control circuit, for receiving a user input relating to a desired characteristic; wherein the control circuit sets the output intensities of the first and second LEDs and thus sets the characteristic of the optically integrated light responsive to the user input relating to the desired characteristic. 3. The system of claim 1, wherein all interior surfaces of the optical integrating cavity are white and are highly diffusely reflective at least with respect to light of colors emitted by the LEDs. 4. The system of claim 3, wherein one or more of the interior surfaces of the optical integrating cavity exhibits a reflectivity over 90%. 5. The system of claim 1, wherein: the fixture comprises a dome and a plate; an interior surface of the dome and an interior surface of the plate form the optical integrating cavity; and the interior surface of the dome is diffusely reflective so as to form the at least one diffusely reflective interior surface and an optical passage. 6. The system of claim 5, wherein the interior surface of the plate is diffusely reflective. 7. The system of claim 5, wherein the optical passage is through the plate. 8. The system of claim 5, wherein the interior surface of the dome has a shape corresponding to a substantial portion of a sphere. 9. The system of claim 5, wherein the interior surface of the dome has a shape corresponding to a substantial portion of a cylinder. 10. The system of claim 1, wherein: the first LED is a LED for emitting light of a first color and the second LED is a LED for emitting light of a second color; and the first and second colors are different colors. 11. The system of claim 1, wherein the optical passage comprises an optical aperture through a wall of the cavity. 12. The system of claim 11, wherein: the optical integrating cavity has a plurality of openings at the points on the interior surface of the cavity, and the plurality of LEDs are positioned to emit light into the interior of the integrating cavity through respective ones of the openings. 13. The system of claim 1, further comprising a deflector having a reflective inner surface coupled to the optical passage to deflect at least some of the optically integrated light emitted through the optical passage and define a field of illumination for the emitted light with respect to the lighting application. 14. The system of claim 1, further comprising: a sensor responsive to the optically integrated light, wherein the control circuit maintains the characteristic of the optically integrated light responsive to an output from the sensor. 15. The system of claim 14, wherein the fixture is configured as a downlight. 16. The system of claim 15, wherein the LEDs provide sufficient light energy for the optically integrated light emitted through the optical passage to have a level sufficient for a task lighting application. 17. The system of claim 14, wherein the sensor comprises a color sensor for sensing a color characteristic of the optically integrated light in the optical integrating cavity. 18. The system of claim 14, wherein the sensor comprises a light intensity sensor for sensing intensity of light in the optical integrating cavity. 19. The system of claim 4, wherein all interior surfaces of the optical integrating cavity exhibit a reflectivity of at least 98%. 20. A light emitting diode (LED) downlight for a visible illuminating type lighting application in a region or area intended to be occupied by a person, the downlight comprising: an optical integrating cavity having at least one diffusely reflective interior surface and an optical passage oriented to permit emission of light from within the cavity in a direction downward when the downlight is mounted for implementation of the visible illuminating type lighting application in the region or area intended to be occupied, the optical integrating cavity being formed as part of a light fixture of the downlight; a plurality of LEDs coupled to supply light to the optical integrating cavity at points on an interior surface of the optical integrating cavity not directly visible through the optical passage in one or more directions to cause substantial portions of light supplied by the LEDs to reflect from said at least one diffusely reflective surface of the optical integrating cavity one or more times to optically integrate the light from the LEDs before downward emission as optically integrated light through the optical passage of the integrating cavity for the visible lighting application of the downlight, wherein the LEDs provide sufficient light energy in the optically integrated light emission through the optical passage to facilitate said visible illuminating type lighting application of the downlight; and a control circuit coupled to the LEDs for establishing output intensity of light of a first one of the LEDs and separately establishing output intensity of light of a second one of the LEDs, to set light contributions of the LEDs to the optically integrated light within the cavity and thus set a characteristic of the optically integrated light emitted through the optical passage of the optical integrating cavity. 21. The LED downlight of claim 20, wherein all interior surfaces of the optical integrating cavity are white and are highly diffusely. 22. The LED downlight of claim 20, wherein: the optical integrating cavity comprises a curved diffusely reflective surface; the LEDs are coupled to supply light to the optical integrating cavity in one or more directions to cause substantial portions of light supplied by the LEDs to initially reflect from the curved diffusely reflective surface of the optical integrating cavity. 23. The LED downlight of claim 22, further comprising: a plate having a reflective surface facing toward the curved diffusely reflective surface of the optical integrating cavity, the plate extending across at least a substantial portion of the curved diffusely reflective surface so as to form the optical integrating cavity between the reflective surface of the plate and the curved diffusely reflective surface. 24. The LED downlight of claim 23, wherein the optical passage is through the plate. 25. The LED downlight of claim 24, wherein the optical passage comprises an opening through the plate. 26. The LED downlight of claim 22, wherein the diffusely reflective surface of the optical integrating cavity has a shape corresponding to a substantial portion of a sphere. 27. The LED downlight of claim 22, wherein the diffusely reflective surface of the optical integrating cavity has a shape corresponding to a substantial portion of a cylinder. 28. The LED downlight of claim 23, wherein: a plurality of openings are formed at the points on the reflective surface of the plate, and the plurality of LEDs are positioned to emit light into the interior of the integrating cavity through respective ones of the openings on the reflective surface of the plate in one or more directions toward the curved diffusely reflective surface of the optical integrating cavity. 29. The LED downlight of claim 20, further comprising a deflector having a reflective inner surface coupled to the optical passage to deflect at least some of the optically integrated light emitted through the optical passage and define a field of illumination for the optically integrated light emission through the optical passage facilitating said visible illuminating type lighting application of the downlight. 30. The LED downlight of claim 20, further comprising: a sensor responsive to the optically integrated light, wherein the control circuit maintains the characteristic of the optically integrated light responsive to an output from the sensor. 31. The LED downlight of claim 30, wherein the fixture is configured as a downlight. 32. The LED downlight of claim 31, wherein the LEDs provide sufficient light energy for the optically integrated light emitted through the optical passage to have a level sufficient for a task lighting application. 33. The LED downlight of claim 30, wherein the sensor comprises a color sensor for sensing a color characteristic of the optically integrated light in the optical integrating cavity. 34. The LED downlight of claim 30, wherein the sensor comprises a light intensity sensor for sensing intensity of light in the optical integrating cavity. 35. The LED downlight of claim 20, wherein: the first LED is a LED for emitting light of a first color and the second LED is a LED for emitting light of a second color; and the first and second colors are different colors. 36. A light emitting diode (LED) downlight system, the downlight system comprising: a downlight fixture for emitting visible illuminating light downward, for a downlight application sufficient to illuminate or to provide task or object illumination downward, in a region or area intended to be occupied by a person, the downlight fixture comprising an optical integrating cavity having at least one diffusely reflective interior surface and an optical passage oriented to permit emission of light from within the cavity in a direction downward when the downlight is mounted for implementation of the downlight application in the region or area intended to be occupied; a plurality of LEDs coupled to supply light to the optical integrating cavity of the fixture at points on an interior surface of the optical integrating cavity not directly visible through the optical passage in one or more directions to cause substantial portions of light supplied by the LEDs to reflect from said at least one diffusely reflective surface of the optical integrating cavity one or more times to optically integrate the light from the LEDs before downward emission as optically integrated light through the optical passage of the integrating cavity for the downlight application, wherein the LEDs provide sufficient light energy in the optically integrated light emission through the optical passage to facilitate said downlight application in the region or area intended to be occupied; and an input for input of an indication of a user desired setting for a characteristic of the optically integrated light emitted through the optical passage of the optical integrating cavity; a sensor for sensing optically integrated light from the optical integrating cavity; a control circuit, responsive to the user desired setting and a signal from the sensor, coupled to the LEDs for establishing output intensity of light of a first one of the LEDs and separately establishing output intensity of light of a second one of the LEDs, to set and maintain light contributions of the LEDs to the optically integrated light within the cavity and thus set and maintain the characteristic of the optically integrated light emitted through the optical passage of the optical integrating cavity into the region or area intended to be occupied in accord with the user desired setting.
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