RU2010140681A - LIGHTING DEVICE AND METHOD FOR FORMING A LIGHT MIXTURE WITH THIS DEVICE - Google Patents

Abstract

1. An illumination device, characterized in that it contains a first solid-state light source, a second solid-state light source, a third solid-state light source, a phosphor or a group of phosphors, at least one power line to which the first, second and third solid-state light sources are electrically connected , the first said solid-state light source is configured to emit light with a dominant wavelength in the range from 430 nm to 480 nm, the second said solid-state light source is configured to emit light with a dominant wavelength in the range from 600 nm to 650 nm, the third said solid-state the light source is configured to emit light with a dominant wavelength in the range from 480 nm to 520 nm, and said phosphor or said group of phosphors, when excited, is configured to emit light with a dominant wavelength in the range from 530 to 585 nm, and when power supply on the specified line The combination of light that emitted, in the absence of other light sources, the first, second and third said solid-state light sources and said phosphor or group of phosphors, forms a mixture of light with a coordinate (x; y) points on the 1931 CIE chromaticity diagram located within 10 McAdam ellipses of at least one point on the blackbody emission line on the 1931 CIE chromaticity diagram, with a combination of light emitted from the first mentioned solid-state light source and the said phosphor or group of phosphors, in the absence of other light sources, produces a sub-mixture of light with coordinates n�

Claims (11)

1. Lighting device, characterized in that it contains a first solid-state light source, a second solid-state light source, a third solid-state light source, a phosphor or a group of phosphors, at least one power line to which the first, second and third solid-state light sources are electrically connected , the first said solid state light source is configured to emit light with a dominant wavelength in the range from 430 nm to 480 nm, the second said solid state light source is configured to the light emission with a dominant wavelength in the range from 600 nm to 650 nm, the third solid-state light source is configured to emit light with a dominant wavelength in the range from 480 nm to 520 nm, and said phosphor or said group of phosphors, when excited, made with the possibility of emitting light with a dominant wavelength in the range from 530 to 585 nm, and when applying power to the specified power line, the combination of light that was emitted, in the absence of other light sources, the first, second and t ety said solid state light sources and said phosphor or group of phosphors, the light forms a mixture with the coordinate (x; y) points on the 1931 CIE color chart located within 10 MacAdam ellipses of at least one point on the emission line of a completely black body on the 1931 CIE color chart, with the combination of light emitted by the first solid-state light source mentioned and said phosphor or group of phosphors, in the absence of other light sources, produces a sub-mixture of light with coordinates on the 1931 CIE color chart, which fall into the first region on this chart, covered by the first, second, third, fourth, fifth and sixth line segments, the first of which connects the first point with coordinates (0.32; 0.30) and the second point with coordinates (0.315; 0.35), the second - the second and third point with coordinates (0.367; 0.4), the third is the third and fourth point with coordinates (0.44; 0.43), the fourth is the fourth and fifth point with coordinates (0.41; 0.367), the fifth is the fifth and sixth point with coordinates (0.357; 0.33), and the sixth - the sixth and first point. 2. The lighting device according to claim 1, characterized in that said first solid-state light source is made in the form of one LED or more than one LED, said second solid-state light source is made in the form of one LED or more than one LED, said third solid-state light source is made in as one LED or more than one LED. 3. The lighting device according to claim 1, characterized in that it is provided with at least one electronic key electrically connected to said first power line for selectively turning on and off the current in said first power line. 4. The lighting device according to claim 1, characterized in that said first phosphor or the entire group of phosphors is configured to emit light under the influence of light from said first solid-state light source when the latter is turned on. 5. The lighting device according to claim 1, characterized in that said first solid-state light source in the form of an LED is placed in a housing in which said first phosphor is also placed, or each LED of said solid-state light source is placed in a separate housing, in each of which one phosphor from the mentioned group of phosphors is also placed. 6. The lighting device according to claim 1, characterized in that said color mixture formed by the light of solid-state light sources and a phosphor or group of phosphors emits light with a CRI of more than 80. 7. The lighting device according to claim 1, characterized in that it has an efficiency of at least 50 lm / W. 8. The lighting device according to claim 1, characterized in that at least one solid-state light source is made in the form of at least two parallel chains of LEDs connected in series with said first power line. 9. The lighting device according to claim 8, characterized in that it contains at least one current regulator, directly or via a key, electrically connected to the first or second of these parallel chains of LEDs to control the current through the specified first or second chain of LEDs. 10. The lighting device according to claim 9, characterized in that said current regulator is configured with an automatic control function for producing said mixture of light of different colors inside 10 MacAdam ellipses from at least one point on the emission line of a completely black body in the diagram chroma 1931 CIE. 11. The method of forming a mixture of light, characterized by a coordinate on the 1931 CIE color diagram of a point located within 10 MacAdam ellipses from at least one point on the emission line of a completely black body in this diagram, which consists in supplying power to the first solid state source simultaneously light in the form of at least one light emitting diode for emitting light with a dominant wavelength in the range from 430 nm to 480 nm, to a second solid state light source in the form of at least one light emitting diode for emitting light and with a dominant wavelength in the range from 600 nm to 650 nm, a third solid state light source in the form of at least one LED for emitting light with a dominant wavelength in the range from 480 nm to 520 nm, and excitation, at least one phosphor emitting light with a dominant wavelength in the range from 530 nm to 585 nm from the light emitted by the first solid-state light source, to form light emitted by the phosphor, together with the light of the first solid-state light source, a sub-mixture of light with coordination s on the chromaticity diagram 1931 CIE, which fall into the first region in the diagram enclosed by the first, second, third, fourth, fifth and sixth line segments, the first of which connects the first point with the coordinates (0.32; 0.30) and the second point with coordinates (0.315; 0.35), the second - the second and third point with coordinates (0.367; 0.4), the third - the third and fourth point with coordinates (0.44; 0.43) , the fourth is the fourth and fifth point with coordinates (0.41; 0.367), the fifth is the fifth and sixth point with coordinates (0.357; 0.33), and the sixth is the sixth and first point, and the position of the point on the line of an absolutely black body is this diagram is determined by the ratio of the number of “cold” and “warm” white LEDs: increase the number of “cold” and decrease the number of “warm” LEDs or increase the number of TVO warm and reduce the amount of "cold" light-emitting diodes, followed by the addition of red light and cyan light to display color on the locus of blackbody.