Phosphor-converted white LED with low deviation of correlated color temperature and color coordinates and method of preparing the same

摘要

A light emitting device is provided to produce white light with a stable correlated color temperature and stable color coordinates. The light emitting device includes a blue LED chip and a yellow phosphor. The blue LED chip has a peak wavelength X slightly smaller than the peak wavelength Y of the phosphor such that when the light emitting device is subjected to a predetermined operating current, the phosphor decays due to thermal effect, and the LED chip has its emission spectrum red-shifted to substantially match with the excitation spectrum of the phosphor. At this time, the excitation ability of the LED chip is increased and causes an increase of yellow power output from the phosphor that substantially compensates a decrease of yellow light output caused by the phosphor.

主权项

1. A method of preparing a light emitting device that produces white light with a stable correlated color temperature (CCT) and stable color coordinates, the method comprising the steps of:
providing a blue LED chip and a yellow phosphor with a specific concentration for converting part of blue light emitted from the LED chip to yellow; wherein the LED chip has an initial emission spectrum with a peak wavelength X slightly smaller than a peak wavelength Y of an excitation spectrum of the phosphor; measuring a decay rate of an emission output power of the phosphor from an ambient temperature to a LED junction temperature of about 120° C.; measuring a red-shifted emission spectrum of the LED chip at the LED junction temperature of about 120° C.; calculating a first excitation ability of the blue LED chip according to a combination of the initial emission spectrum of the LED chip and the excitation spectrum of the phosphor, wherein the excitation ability of the LED chip is calculated by the following formulas:Powertotal=∫Pbarechip⁡(λ)⁢ⅆλPbarechip_N⁡(λ)=Pbarechip⁡(λ)PowertotalExcitation_ability=∫Pexcitation⁡(λ)⁢Pbarechip_N⁡(λ)⁢ⅆλ where Pexcitation (λ) is the phosphor excitation spectrum; Pbarechip (λ) is the LED chip emission spectrum; and Pbarechip_N (λ) is the normalized LED chip emission spectrum; calculating a second excitation ability of the blue LED chip according to a combination of the measured red-shifted emission spectrum of the LED chip and the excitation spectrum of the phosphor, wherein the excitation ability of the LED chip is calculated by the aforementioned formulas; and determining whether an increase rate of the excitation ability of the LED chip substantially equals a decay rate of emission output power of the phosphor; and if yes, the LED chip is qualified to be packaged with the phosphor to form the light emitting device that produces white light with a stable correlated color temperature (CCT) and stable color coordinates.