Driving method for ferro-electric liquid crystal optical modulation device

1. A driving method for an optical modulation device having a plurality of picture elements arranged in a matrix and comprising scanning lines, data lines spaced apart from and intersecting with the scanning lines, and a chiral smectic liquid crystal assuming a first orientation state or a second orientation state depending on the direction of an electric field applied thereto interposed between the scanning lines and the data lines, each of the intersections between the scanning lines and the data lines forming one of said plurality of picture elements;

• said driving method comprising;
  
  a step of forming an image area comprising picture elements, wherein the chiral smectic liquid crystal assumes the first orientation state by application of a voltage of one polarity, exceeding a first threshold voltage of the chiral smectic liquid crystal and picture elements, wherein the chiral smectic liquid crystal assumes the second orientation state by application of a voltage of the other polarity exceeding a second threshold voltage of the chiral smectic liquid crystal, the image area comprising a rewriting region and a non-rewriting region;
  
  a first step wherein, in the rewriting region, a voltage of one polarity exceeding the first threshold voltage of the chiral smectic liquid crystal is applied to the intersections of a scanning line and the data lines; and
  
  a second step wherein a scanning selection signal is applied to a scanning line in the rewriting region, data signals are applied to data lines in the rewriting region, said data signals comprising an information signal in combination with the scanning selection signal for providing either a voltage of the other polarity exceeding the second threshold of voltage or a voltage not exceeding the second threshold, and an auxiliary signal following the information signal, and a voltage of the same voltage level as a scanning non-selected signal applied to a non-selected scanning line in the rewriting region is applied to scanning lines outside the rewriting region;
  
  the auxiliary signal, in combination with the scanning non-selection signal applied to a non-selected scanning line, providing an inversion preventing voltage at a picture element on the non-selected scanning line before the application period of a voltage of one and the same polarity appearing at the picture element while it is not on a selected scanning line reaches a period beyond which the first or second orientation state of the picture element formed when the picture element was placed on a selected scanning line is inverted due to said voltage of one and the same polarity, the inversion preventing voltage being a voltage of opposite polarity to that of said voltage of one and the same polarity.