Patent ID: 9311892
Filing Date: 2016-04-12
CPC Classification: G02F,G09G

Claim Text:
1. A driving method of all electronic paper display device, comprising: with a driving device, obtaining grayscale levels of each pixel in the electronic paper display device from an input video data signal, and determining a sequence and time intervals for turning-on of thin film transistors in each pixel according to the number N of the thin film transistors contained in the pixel and the grayscale levels of the pixel, so as to form a grayscale display scheme, wherein the thin film transistors in each pixel are connected to a same pixel electrode of the pixel, and the same pixel electrode electrically connects the at least two thin film transistors together; applying a signal voltage to a data line corresponding to each thin film transistor of each pixel in accordance with the formed grayscale display scheme while a turning-on voltage is applied to a gate line corresponding to each thin film transistor of each pixel, so as to drive the pixel electrode of each pixel to present its grayscale levels, respectfully, wherein the thin film transistors in each pixel are connected to different data lines, and signal voltages applied to the thin film transistors in each pixel are different while in a same polarity, wherein applying of the signal voltages to the data line corresponding to each thin film transistor of each pixel in accordance with the formed grayscale display scheme comprises: applying groups of signal voltages of differently set magnitudes to data lines corresponding to the thin film transistors of each pixel in accordance with the formed grayscale display scheme, so as to drive each pixel to present its grayscale levels, separately, wherein the groups of signal voltages of differently set magnitudes are 0V, ±10V, ±15V or ±30V, wherein for a first row of pixels that corresponds to a first gate line and a second gate line and includes a first group of thin film transistors and a second group of thin film transistors; a first turning-on voltage is applied to the first group of thin film transistors though the first gate line; and a second turning-on voltage is applied to the second group of thin film transistors through the second gate line; wherein for a second row of pixels adjacent to the first row of pixels that corresponds to a third gate line and a fourth gate line and includes a third group of thin film transistors and a fourth group of thin film transistors: a third turning-on voltage is applied to the third group of thin film transistors through the third gate line; and a fourth turning-on voltage is applied to the fourth group of thin film transistors through the fourth gate line, the third gate line and the fourth gate line being different from the first gate line and the second gate line, wherein: for a first column of pixels that corresponds to a first data line and a second data line and includes a fifth group of thin film transistors and a sixth group of thin film transistors: a first signal voltage is applied to the fifth group of thin film transistors through the first data line; and a second signal voltage is applied to the sixth group of thin film transistors through the second data line; and for a second column of pixels adjacent to the first column of pixels that corresponds to a third data line and a fourth data line and includes seventh group of thin film transistors and an eighth group of thin film transistors: a third signal voltage is applied to the seventh group of thin film transistors through the third data line; and a fourth signal voltage is applied to the eighth group of thin film transistors through the fourth data line, the third data line and the fourth data line being different from the first data line and the second data line, and wherein N is a natural number, and N≧2.