Abstract

A novel transflective fringe-field switching (FFS) mode has been studied. In a conventional transmissive FFS mode, the effective λ/2 retardation is relatively higher (=0.375) than that in a reflective FFS mode. In a novel design, the in-cell retarder only placed in a reflective part optimizes retardation and matching electrooptic characteristics in the reflective part with that in a transmissive part. In addition, a multislit angle concept is proposed for the optimization of electro optic characteristics.

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