Patent ID: 8723773
Filing Date: 2014-05-13
Classification: G09G

Abstract:
1. An electro-optical device comprising: a plurality of scanning lines and a plurality of data lines; a plurality of pixels arranged so as to correspond to intersections of the plurality of scanning lines and the plurality of data lines; a scanning line driving circuit that generates selection signals used to select the plurality of scanning lines in a predetermined order, and supplies the selection signals to the plurality of scanning lines; a data line driving circuit that generates certain signals from input image data and supplies the certain signals to the plurality of data lines, each of the pixels being constituted by a first subpixel and at least one second subpixel, the first subpixel including a first pixel electrode, a common electrode which faces the first pixel electrode, and a first switching device which is turned on when a corresponding one of the selection signals is supplied through a corresponding one of the scanning lines and which electrically connects a corresponding one of the data lines to the first pixel electrode, the second subpixel including a second pixel electrode, a common electrode which faces the second pixel electrode, and a second switching device which electrically connects the corresponding one of the data lines to the second pixel electrode through the first switching device; and a signal supplying unit that supplies signals to control lines so that, for each of the pixels, the second switching device which is connected to a corresponding one of the control lines is turned on or off based on a grey-scale level of the input image data, wherein in a vertical retrace period, the scanning line driving circuit supplies the selection signals to the scanning lines, the signal supplying unit supplies signals to the control lines so that, for each of the pixels, the second switching device is turned on, and the data line driving circuit supplies signals to the data lines so that, for each of the pixels, potentials of the first pixel electrode and the second pixel electrode represent a maximum gray-scale level or a minimum gray-scale level such that a black data insertion processing is performed for all the pixels during the vertical retrace period, wherein when the gray-scale level of the image data for a pixel is within a halftone range, pulse-surface-area modulation is performed by controlling the first subpixel to display a first gray-scale level, and controlling the second subpixel to retain a gray-scale level written during the black data insertion processing of the vertical retrace period; a gray-scale-level detection unit that detects the gray-scale level of the image data; and determination unit that determines whether the gray-scale level detected using the grayscale-level detection unit is within the halftone range, and wherein, in a case where the determination unit determines that the gray-scale level detected using the gray-scale-level detection unit is within a range considered to be a halftone range, for each of the pixels, when the first switching device is turned on, the signal supplying unit supplies one of the certain signals to a corresponding one of the control lines and turns off the second switching device.