PATENT CLAIM ANALYSIS

Application Number: 16433853
Application Type: Utility
Filing Date: 2019-06
Publication Date: 2019-09
Patent Classification: ["362", "231000"]

Abstract:
An optical cup which mixes multiple channels of light to form a blended output, the device having discreet zones or channels including a plurality of reflective cavities each having a remote phosphor light converting appliance covering a cluster of LEDs providing a channel of light which is reflected upward. The predetermined blends of phosphors provide a predetermined range of illumination wavelengths in the output.

Claim (Index 1):
A method of blending multiple light channels to produce a preselected illumination spectrum of substantially white light, the method comprising:\n altering the illumination produced by a first LED illumination source by passing the illumination produced by the first LED illumination source through a first photoluminescence material to produce a blue channel preselected spectral output; altering the illumination produced by the second LED illumination source by passing the illumination produced by a second LED illumination source through a photoluminescence material to produce a red channel preselected spectral output; altering the illumination produced by the third LED illumination source by passing the illumination produced by a third LED illumination source through a third photoluminescence material to produce a yellow/green channel preselected spectral output; altering the illumination produced by the fourth LED illumination source by passing the illumination produced by a fourth LED illumination source through a fourth photoluminescence material to produce a cyan channel preselected spectral output; blending the blue, red, yellow/green, and cyan spectral outputs as the blue, red, yellow/green, and cyan spectral outputs; wherein the first, second, and third LED illumination sources are blue LEDs and the fourth LED illumination is cyan LEDs; wherein the blue LEDs have a substantially 440-475 nm output and the cyan LEDs have a substantially 490-515 nm output; wherein the first, second, third, and fourth DLCAs each comprise a plurality of photoluminescence materials, the plurality of photoluminescence materials comprising:\n one or more of a first type of photoluminescence material that emits light at a peak emission between about 515 nm and 590 nm in response to the associated LED string emission, \n one or more of a second type of photoluminescence material that emits light at a peak emission between about 590 nm and about 700 nm in response to the associated LED string emission; and, wherein one or more of the spectral outputs of the blue, red, green/yellow, and red channels are substantially: 32.8% for wavelengths between 380-420 nm, 100% for wavelengths between 421-460 nm, 66.5% for wavelengths between 461-500 nm, 25.7% for wavelengths between 501-540 nm, 36.6% for wavelengths between 541-580 nm, 39.7% for wavelengths between 581-620 nm, 36.1% for wavelengths between 621-660 nm, 15.5% for wavelengths between 661-700 nm, 5.9% for wavelengths between 701-740 nm and 2.1% for wavelengths between 741-780 nm for the blue channel; 3.9% for wavelengths between 380-420 nm, 6.9% for wavelengths between 421-460 nm, 3.2% for wavelengths between 461-500 nm, 7.9% for wavelengths between 501-540 nm, 14% for wavelengths between 541-580 nm, 55% for wavelengths between 581-620 nm, 100% for wavelengths between 621-660 nm, 61.8% for wavelengths between 661-700 nm, 25.1% for wavelengths between 701-740 nm and 7.7% for wavelengths between 741-780 nm for the red channel; 1% for wavelengths between 380-420 nm, 1.9% for wavelengths between 421-460 nm, 5.9% for wavelengths between 461-500 nm, 67.8% for wavelengths between 501-540 nm, 100% for wavelengths between 541-580 nm, 95% for wavelengths between 581-620 nm, 85.2% for wavelengths between 621-660 nm, 48.1% for wavelengths between 661-700 nm, 18.3% for wavelengths between 701-740 nm and 5.6% for wavelengths between 741-780 nm for the yellow/green channel; or 0.2% for wavelengths between 380-420 nm, 0.8% for wavelengths between 421-460 nm, 49.2% for wavelengths between 461-500 nm, 100% for wavelengths between 501-540 nm, 58.4% for wavelengths between 541-580 nm, 41.6% for wavelengths between 581-620 nm, 28.1% for wavelengths between 621-660 nm, 13.7% for wavelengths between 661-700 nm, 4.5% for wavelengths between 701-740 nm and 1.1% for wavelengths between 741-780 nm for the cyan channel.

Metadata:
- Claim Count in Document: 44.0
- Percentile: 100.0
- Lexical Diversity: 1.39583
- Patent Class: 362.0
- Transitional Phrase Type: open
- Component Type: 1
- Foreign Priority: False
- Related Applications: ['15693091', '15170806', '15679083', '15665269', '16049086']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.899250313345633
- 35 USC 102 Novelty (BERT): 0.6589266558157872
- Combined Prediction Score: 0.8752179475926484
- Mean Citation Score: 645.851676
- Max Citation Score: 773.2425
- Similarity Product: 612.2306146301329

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 1
- Claim Label 112: 1
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test