LIQUID CRYSTAL DISPLAY AND METHOD OF CHARGING/DISCHARGING PIXELS OF A LIQUID CRYSTAL DISPLAY

摘要

A liquid crystal display includes a liquid crystal panel, a source driving circuit, a timing controller, and a gate driving circuit. The source driving circuit converts frame data into a plurality of data voltages, and charges/discharges a first data line according to a data voltage of the plurality of data voltages. The gate driving circuit enables a gate line corresponding to the data voltage. The timing controller sequentially enables a plurality of switch enable lines corresponding to the gate line. A plurality of pixel switches are turned on according to the enabled gate line. A data line switch is turned on according to an enabled switch enable line. The data voltage charges/discharges a corresponding pixel through the turned-on data line switch and one of the turned-on pixel switches.

主权项

1. A liquid crystal display (LCD), comprising:
an LCD panel comprising a plurality of pixels, wherein each pixel of the plurality of pixels is coupled to a corresponding pixel switch; a timing controller for enabling data line switches corresponding to 2X switch enable lines; a source driving circuit for converting image data into M data voltages for being sent to M first data lines respectively, wherein an Mith first data line of the M first data lines is coupled to X second data lines through X data line switches, pixels corresponding to the Mith first data line are charged or discharged according to an Mith data voltage corresponding to the Mith first data line, an (Mi+1)th first data line of the M first data lines is coupled to X second data lines through X data line switches, pixels corresponding to the (Mi+1)th first data line charged or discharged according to an (Mi+1)th data voltage corresponding to the (Mi+1)th first data line, an Xith data line switch of the X data line switches coupled to the Mith first data line is coupled to an corresponding second data line and an Xith switch enable line of the 2X switch enable lines, and an Xi′, data line switch of the X data line switches coupled to the (Mi+1)th first data line is coupled to an corresponding second data line and an (X+Xj)th switch enable line of the 2X switch enable lines; and a gate driving circuit for enabling N gate lines; wherein each pixel of an Nith row of pixels coupled to X second data lines corresponding to the Mith first data line is coupled to an (2Ni−1)th gate line of the N gate lines through a corresponding pixel switch and located at an under side of the (2Ni−1)th gate line and a first side of a corresponding second data line, each pixel of an Njth, row of pixel coupled to X second lines corresponding to the (Mi+1)th first data line is coupled to a (2Nj)th gate line of the N gate lines through a corresponding pixel switch and located at an under side of the (2Nj)th gate line and a second side of a corresponding second data line, a kth second data line of X second data lines coupled to the (Mi+1)th first data line is located between a kth second data line and a (k+i)th second data line of X second data lines coupled to the Mith first data line, enable signals flowing on a gate line and a next gate line corresponding to the gate line are partially overlapping in the N gate lines, and M, N, Mi, Ni, X, Xi, Xj and k are positive integers.