As the popularization of multimedia, the market of liquid crystal display (LCD) for portable applications is increasing worldwide due to their remarkable merits of thin, light, and low power consumption. Color rendering performances of the reflective type displays are acutely affected by the spectral power distribution (SPD) of the ambient light, which exhibits huge variations under different environmental conditions. Unlike the conventional transmission-type LCD whose color performance is determined by the fixed backlighting “luminance”, color shift was resulted from the “illuminance” for a reflective type LCD. In this thesis, the dependence of color performance on spectra of various lighting sources was discussed, especially for the light emitting diodes (LEDs). LED has the character of high color saturation, but the narrowband spectra can still induce high level of mismatch. In addition, the mismatch would lead to high color difference between two various lighting sources even with the same chromaticity diagram or correlated color temperature (CCT). In addition, the concept color rendering index (CRI) was used to evaluate the lighting sources of the reflective type LCDs.