Recently, the needs for TFT LCD-TVs have dramatically increased by the expansion of the digital-TV market. LCD-TVs have lots of advantages of high resolution, low power consumption, light weight, slim size and so on. However, they have some drawbacks for TV application, especially motion image blur which results from slow response time. Motion image blur is recognized easily for a large screen and 3D LCD-TVs. Optically Compensated Bend (OCB) mode LCD, which has the characteristics of fast response and wide viewing angle becomes a new target to the researchers. Nevertheless, there are some drawbacks of OCB cell, for example, low contrast ratio and pre-transition. Techniques for fast splay to bend transition have received increasingly attention. Although some techniques successfully induced bend transition, most of the techniques sacrificed contrast ratio of the devices or needed a high pulse voltage to form the fast transition. The high voltage (>10V) is not suitable for TFT devices. In this thesis, we present a novel method to form bend transition cores which can spread uniformly in each pixel without applying the high pulse voltage and loosing of optic efficiency.