Methods for generating melatonin-response-tuned white light with high color rendering
Abstract
The present disclosure provides methods for generating tunable white light with controllable circadian energy performance. The methods use a plurality of LED strings to generate light with color points that fall within blue, yellow/green, red, and cyan color ranges, with each LED string being driven with a separately controllable drive current in order to tune the generated light output. Different light emitting modes can be selected that utilize different combinations of the plurality of LED strings in order to tune the generated white light. One or more of the LED strings can have ultraviolet or violet LEDs.
Claims
exact text as granted — not AI-modifiedWhat is claimed:
1 . A method of generating white light, the method comprising:
producing light from a first light emitting diode (“LED”) string; producing light from a second LED string; producing light from a third LED string, a fourth LED string, or both the third LED string and the fourth LED string; and passing the light produced by each of the first, second, third, and fourth LED strings through one of a plurality of respective luminophoric mediums; combining the light exiting the plurality of respective luminophoric mediums together into white light; wherein the combined white light corresponds to at least one of a plurality of points along a predefined path near the black body locus in the 1931 CIE Chromaticity Diagram; wherein one or more of the first, second, third, and fourth LED strings comprises a ultraviolet or violet LED having a peak wavelength of between about 360 nm and about 430 nm; wherein:
the light produced from the first LED string is passed through a first recipient luminophoric medium that comprises a first luminescent material, wherein light exiting the first luminophoric medium comprises unsaturated light having a first color point within a blue color range;
the light produced from the second LED string is passed through a second recipient luminophoric medium that comprises a second luminescent material, wherein the light exiting the second luminophoric medium comprises unsaturated light having a second color point within a red color range;
the light produced from the third LED string is passed through a third recipient luminophoric medium that comprises a third luminescent material, wherein the light exiting the third luminophoric medium comprises unsaturated light having a third color point within a yellow/green color range;
the light produced from the fourth LED string is passed through a fourth recipient luminophoric medium that comprises a fourth luminescent material, wherein the light exiting the fourth luminophoric medium comprises unsaturated light having a fourth color point within a cyan color range; and, wherein
the blue color range is defined by a line connecting the ccx, ccy color coordinates of the infinity point of the Planckian locus (0.242, 0.24) and (0.12, 0.068), the Planckian locus from 4000 K and infinite CCT, the constant CCT line of 4000 K, the line of purples, and the spectral locus
the red color range is defined by the spectral locus between the constant CCT line of 1600 K and the line of purples, the line of purples, a line connecting the ccx, ccy color coordinates (0.61, 0.21) and (0.47, 0.28), and the constant CCT line of 1600 K
the yellow/green color range is defined by the constant CCT line of 4600 K, the Planckian locus between 4600 K and 550 K, the spectral locus, and a line connecting the ccx, ccy color coordinates (0.445, 0.555) and (0.38, 0.505);
the cyan color range is defined by a line connecting the ccx, ccy color coordinates (0.18, 0.55) and (0.27, 0.72), the constant CCT line of 9000 K, the Planckian locus between 9000 K and 4600 K, the constant CCT line of 4600 K, and the spectral locus.
2 . The method of claim 1 ,
wherein the blue color range comprises a region on the 1931 CIE Chromaticity Diagram defined by a 60-step MacAdam ellipse at 20000 K, 40 points below the Planckian locus.
3 . The method of claim 1 ,
wherein the red color range comprises a region on the 1931 CIE Chromaticity Diagram defined by a 20-step MacAdam ellipse at 1200 K, 20 points below the Planckian locus.
4 . The method of claim 1 ,
wherein the yellow/green color range comprises a region on the 1931 CIE Chromaticity Diagram defined by a 16-step MacAdam ellipse at 3700 K, 30 points above Planckian locus.
5 . The method of claim 1 ,
wherein the cyan color range comprises a region on the 1931 CIE Chromaticity Diagram defined by 30-step MacAdam ellipse at 6000 K, 68 points above the Planckian locus.
6 . The method of claim 1 ,
wherein the generated white light falls within a 7-step MacAdam ellipse around any point on the black body locus having a correlated color temperature between 1800 K and 4200 K; and wherein the generated white light corresponds to a plurality of points along a predefined path with the light generated at each point having light with Ra≥80, R9≥50, or both.
7 . The method of claim 8 , wherein the method further comprises generating white light within a 7-step MacAdam ellipse of a plurality of target CCTs selected from between 1800 K and 4200 K via a plurality of emitting modes, the emitting modes comprising:
a first emitting mode, wherein the method comprises producing light from the first, second, third, and fourth LED strings; a second emitting mode, wherein the method comprises producing light from the first, second, and third LED strings but not the fourth LED string; and a third emitting mode, wherein the method comprises producing light from the first, second, and fourth LED strings but not the third LED string.
8 . The method of claim 7 , wherein
for each target CCT, the respective circadian action factor values of the white light generated in any two of the first, second, and third emitting modes differ from each other by a predetermined threshold amount.
9 . The method of claim 8 ,
wherein the predetermined threshold amount is about 100%.
10 . The method of claim 8 ,
wherein the predetermined threshold amount is about 75%.
11 . The method of claim 8 ,
wherein the predetermined threshold amount is about 50%.
12 . The method of claim 8 ,
wherein the predetermined threshold amount is about 30%.
13 . The method of claim 1 , wherein the first, second, and third LED strings comprise a ultraviolet or violet LED having a peak wavelength of between about 360 nm and about 430 nm and the fourth LED string comprises a cyan LED having a peak wavelength of between about 485 nm and about 520 nm.
14 . The method of claim 7 , wherein
for each target CCT, the white light generated in two of the light emitting modes is within about 1.0 standard deviations of color matching (SDCM).
15 . The method of claim 7 , wherein
for each target CCT, the white light generated in two of the light emitting modes is within about 0.5 standard deviations of color matching (SDCM).Join the waitlist — get patent alerts
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