Patent ID: 8941577
Filing Date: 2015-01-27
Classification: G09G

Abstract:
1. A liquid crystal display device, comprising: a display section; a pixel section which contains a first sub-pixel section including a first switching element, a first pixel electrode connected to a first conduction terminal of the first switching element, and a first pixel capacitance that stores an electric charge in accordance with a potential of the first pixel electrode, and a second sub-pixel section including a second switching element, a second pixel electrode connected to a first conduction terminal of the second switching element, and a second pixel capacitance that stores an electric charge in accordance with a potential of the second pixel electrode, and forms an n-rows ×m-columns pixel matrix (n and m are natural numbers) in the display section; first scanning signal lines, provided corresponding to each row of the pixel matrix, and connected to a control terminal of the first switching element; second scanning signal lines, provided corresponding to each row of the pixel matrix, and connected to a control terminal of the second switching element; video signal lines, provided corresponding to each column of the pixel matrix, and connected to a second conduction terminal of the first switching element and a second conduction terminal of the second switching element; a first scanning signal line drive circuit that drives the first scanning signal lines, a second scanning signal line drive circuit that drives the second scanning signal lines, and a video signal line drive circuit that drives the video signal lines, wherein the display section, the first scanning signal line drive circuit, and the second scanning signal line drive circuit are monolithically formed on one substrate, the first scanning signal line drive circuit has a first shift register configured by a plurality of stages which contain stages corresponding to each of the first scanning signal lines, the first shift register outputs scanning signals that are sequentially set to an on-level one by one from the plurality of stages based on a first clock signal group as two-phase clock signals whose phases are shifted by 180 degrees from each other, the second scanning signal line drive circuit has a second shift register configured by a plurality of scanning signal output stages and a plurality of dummy stages, the scanning signal output stages containing stages corresponding to each of the second scanning signal lines, the dummy stages being provided J by J (J is a natural number) between any two scanning signal output stages which are adjacent to each other, the second shift register outputs scanning signals that are sequentially set to the on-level one by one from the plurality of scanning signal output stages based on a second clock signal group as two-phase clock signals whose phases are shifted by 180 degrees from each other, and a frequency of the second clock signal group is made J+1 times as large as a frequency of the first clock signal group.