Solid-state lighting of a white light with tunable color temperatures
First Claim
1. A multichip LED lighting device comprising at least two types of LED chips, which include a first type of white phosphor-coated LED chips and a second type of LED chips, wherein said first type of white phosphor-coated LED chips emits a light at a correlated color temperature of 6500K within the tolerance quadrangle defined by (0.1961, 0.4793), (0.1905, 0.4676), (0.2005, 0.4576), and (0.2055, 0.4682) on CIE 1976 UCS chromaticity diagram and said second type of LED chips emits a light emission having a saturated color with a single peak wavelength from 583 to 586 nm in its spectrum, wherein when said first and second type of LED chips are powered with a lumen proportion of X:
- Y, where X=0.28˜
0.93, and Y=1−
X, emissions from said first and second type of LED chips overlap and form an effective white light having a correlated color temperature from 2700 to 5700 K along the Planckian locus on CIE 1976 UCS chromaticity diagram with Duv tolerances of ±
0.006.
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Accused Products
Abstract
A light-emitting diode (LED)-based solid-state device comprises a color mixing mechanism to dynamically change the correlated color temperature (CCT) of a white light. With different lumen proportions for white phosphor-coated LEDs and integrated red and green LEDs, the light mixtures can be located in any one of eight CCT quadrangles. In practice, CCTs of a white-light can be tuned in a continuous manner. Because all the possible light mixtures on the chromaticity diagram correspond to a line segment that overlays the Planckian locus within the eight CCT tolerance quadrangles, the effect of LED intensity fluctuations that may put the mixture out of white light region is reduced. Also, because the two additional LEDs that mix with the white phosphor-coated LEDs contribute to the overall spectral power distribution (SPD) that substantially matches the SPD of standard illuminants, a CRI of 80 can be reached.
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Citations
14 Claims
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1. A multichip LED lighting device comprising at least two types of LED chips, which include a first type of white phosphor-coated LED chips and a second type of LED chips, wherein said first type of white phosphor-coated LED chips emits a light at a correlated color temperature of 6500K within the tolerance quadrangle defined by (0.1961, 0.4793), (0.1905, 0.4676), (0.2005, 0.4576), and (0.2055, 0.4682) on CIE 1976 UCS chromaticity diagram and said second type of LED chips emits a light emission having a saturated color with a single peak wavelength from 583 to 586 nm in its spectrum, wherein when said first and second type of LED chips are powered with a lumen proportion of X:
- Y, where X=0.28˜
0.93, and Y=1−
X, emissions from said first and second type of LED chips overlap and form an effective white light having a correlated color temperature from 2700 to 5700 K along the Planckian locus on CIE 1976 UCS chromaticity diagram with Duv tolerances of ±
0.006. - View Dependent Claims (2, 3, 4)
- Y, where X=0.28˜
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5. A multichip LED lighting device comprising a first type of white phosphor-coated LED chips, a second type of LED chips emitting a light emission having a peak wavelength from 530 to 570 nm, and a third type of LED chips emitting a light emission having a peak wavelength from 615 to 670 nm, wherein said first type of white phosphor-coated LED chips emits a light at a correlated color temperature of 6500K within the tolerance quadrangle defined by (0.1961, 0.4793), (0.1905, 0.4676), (0.2005, 0.4576), and (0.2055, 0.4682) on CIE 1976 UCS chromaticity diagram and when the three said types of LED chips are powered with a lumen proportion of U:
- V;
W, where U=0.28˜
0.93, V =(1−
U)×
E, and W=(1−
U)×
(1−
E), where E=0.49˜
0.78933, light emissions from the three types of LED chips overlap and form an effective white light having a correlated color temperature from 2700 to 5700 K along the Planckian locus on CIE 1976 UCS chromaticity diagram with Duv tolerances of ±
0.006. - View Dependent Claims (6, 7, 8)
- V;
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9. A multichip LED lighting device comprising:
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an LED printed circuit board (PCB); a micro-controller; a first type of LEDs, a second type of LEDs, and a third type of LEDs, mounted on the LED PCB, wherein the first type of LEDs is a white phosphor-coated LED; three LED drivers, each of which provides a pulse width modulation current to a respective one of the three types of LEDs; and a color mixing diffuser, which receives light emissions from said three types of LEDs and emits a light emission having at least three different spectral bands that mix to form a white light, wherein the micro-controller receives a signal from a user interface, calculates a lumen proportion for emissions from the three types of LEDs according to the signal received; and
sends a signal reflecting the lumen proportion to each of the three LED drivers for setting the pulse width modulation current accordingly; andwherein the second type of LEDs has a peak wavelength from 530 to 570 nm, the third type of LEDs has a peak wavelength from 615 to 670 nm, and the LED chips on the LED PCB are arranged in such a way that eight first type of LEDs encircle an LED of the second type and an LED of the third type. - View Dependent Claims (10, 11, 12, 13, 14)
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Specification