| dc.description.abstract | Recently, advances in materials and manufacture have resulted in the commercial availability of light emitting diode (LED) with high luminance and dominant wavelengths spanning the entire visible spectrum. The applications of LED in illumination are up roaring, and solution with color properties, luminous efficacy, color rendering, color temperature, etc. are in urgent need.
Therefore, an effective method for optimizing any color properties we require is very critical and necessary. To study new material of phosphor to combine with the LED chip or new LED structure to emit different spectrum could improve them. In addition, to combine with different kind of LEDs could achieve the same purpose and even with much lower cost. In this thesis, it has developed such an optimization method for combination with different color LEDs. This method allows for deriving the optimal mixing ratio of luminance of each LED in order to obtain the best color properties for illumination.
By using this optimization method, a white LED whose color temperature (CT) is approximately 6500 K and color rendering index (CRI) is 70, can be improved its CRI better than 80 and its correlated color temperature (CCT) down to near 3000 K simultaneously. Moreover, it could produce one which is more close to the warm-white lighting, and it is possible to substitute for the incandescent lamp.
Besides, the best color luminous efficacy could be also evolved from this optimization method while CRI is good enough to apply for indoor lighting. To structure an adjustable standard daylight source and to deal in a trad-off color gamut and luminous efficacy of display backlight are also able to use in this optimizing method. | en_US |