205results about How to "High color temperature" patented technology

A light emitting diode (LED) illuminant system, a manufacture method thereof, and a backlight module using the same are provided. The LED illuminant system includes a plurality of white light illuminants and at least one green light illuminant mixed in the white light illuminants. A light power ratio of the green light illuminant to the white light illuminants is in between ⅕ to 1 / 20. The color temperature of the whole illuminant system will be enhanced to a certain extent by mixing the green light illuminant and the white light illuminants. The manufacture method includes the following steps: obtaining a transmission spectrum of the white light illuminants; analyzing the transmission spectrum to determine n supplemental amount of a green light; and disposing at least one green illuminant in accordance with the supplemental amount of the green light.

A broad-spectrum Al(1-x-y)InyGaxN light emitting diode (LED), including: a substrate, a buffer layer, an N-type cladding layer, at least one quantum dot emitting layer, and a P-type cladding layer. The buffer layer is disposed over the substrate. The N-type cladding layer is disposed over the buffer layer to supply electrons. The quantum dot emitting layer is disposed over the N-type cladding layer and includes plural quantum dots. The dimensions and indium content of the quantum dots are manipulated to result in uneven distribution of character distribution of the quantum dots so as to increase the FWHM of the emission wavelength of the quantum dot emitting layer. The P-type cladding layer is disposed over the quantum dot emitting layer to supply holes. A broad-spectrum Al(1-x-y)InyGaxN yellow LED may thus be made from the LED structure of this invention, with an emission wavelength at maximum luminous intensity falling within a range of 530˜600 nm, and FWHM within a range of 20˜150 nm. After packaging an Al(1-x-y)InyGaxN blue LED to form a solid state white light emitting device, the mixing of blue light and yellow light would generate white light with a high CRI index, high luminous intensity and capable of various color temperature modulation.

A single-chip white light emitting device, including: a substrate, a buffer layer, a first conductive cladding layer, a second conductive cladding layer, at least one broad-spectrum blue-complimentary light quantum dot emitting layer and at least one blue light emitting layer. The buffer layer is disposed over the substrate. The first conductive cladding layer is disposed over the buffer layer. The broad-spectrum blue-complimentary light quantum dot emitting layer is disposed between the first conductive cladding layer and the second conductive cladding layer. The blue-complimentary light quantum dot emitting layer includes plural quantum dots with an uneven character distribution, so as to increase FWHM of emission wavelength of the quantum dot emitting layer. The blue light emitting layers is disposed between the first and second conductive cladding layers, such that mixing of blue light and blue-complimentary light would generate white light. According to the single-chip white light emitting device of this invention, a single LED laminar structure is provided therein with a broad-spectrum blue-complimentary light quantum dot emitting layer and a blue light emitting layer, which are mixed to form an Al(1−x−y)InyGaxN single-chip white light emitting device with a high CRI, and high emission and are capable of color temperature modulation.