Method for driving pixel circuit of active organic electroluminescence displayer

A pixel circuit and driving method technology, which is applied in the driving field of pixel circuits, can solve the problems of poor display effect, different OLED light-emitting time, and different light-emitting time, so as to compensate threshold voltage drift, ensure display effect, and improve programming. speed effect

Active Publication Date: 2014-02-12
SOUTH CHINA UNIV OF TECH +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, because this method latches the threshold voltages of certain rows at the same time, in a large period, the light-emitting time of the last frame of these rows is different, and the light-emitting time of the same pixel in the last frame period is the same as The previous frame period is also different, which makes the display effect worse, and the timing of the driving scheme is more complicated
The third is to use a latch programming method (see the published invention patent CN 103117041 A), and its driving method is as follows Figure 4 As shown, although the programming speed of this method can reach the programming speed of the traditional 2T1C pixel circuit in N cycles after one latch, the programming speed and The programming speed of the general pixel compensation circuit is almost the same, which causes the programming speed of the first frame and the following frame to be different in a large cycle, so that the OLED light-emitting time of each row is different, and in a large cycle, the same The light-emitting time of the first frame and the last frame of the row is different from the light-emitting time of the frame period that does not require the threshold voltage latch stage, which affects the display effect

Method used

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  • Method for driving pixel circuit of active organic electroluminescence displayer
  • Method for driving pixel circuit of active organic electroluminescence displayer
  • Method for driving pixel circuit of active organic electroluminescence displayer

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Effect test

Embodiment 1

[0073] like Figure 5 As shown, the pixel circuit of the active organic electroluminescent display in this embodiment includes a first switching transistor T1, a second switching transistor T2, a third switching transistor T3, a fourth switching transistor T4, a driving transistor T5, an organic light emitting diode OLED, the first capacitor C1 and the second capacitor C2.

[0074] Each transistor includes a gate, drain and source.

[0075] The drain of the first switching transistor T1 is connected to the data line V DATA , the source of the first switching transistor T1 is connected to the first plate of the first capacitor C1, and the gate of the first switching transistor T1 is connected to the first scanning control line SCAN[i] of the i-th row; 1≤i≤M, M is the total number of scan lines of the display;

[0076] The source of the second switching transistor T2 is grounded, the drain of the second switching transistor T2 is connected to the first plate of the first capaci...

Embodiment 2

[0101] like Figure 8 As shown, the pixel circuit of the active organic electroluminescent display in this embodiment includes a first switching transistor T1, a second switching transistor T2, a third switching transistor T3, a fourth switching transistor T4, a driving transistor T5, an organic light emitting diode OLED, the first capacitor C1 and the second capacitor C2.

[0102] Each transistor includes a gate, drain and source.

[0103] The drain of the first switching transistor T1 is connected to the data line, the source of the first switching transistor T1 is connected to the first plate of the first capacitor C1, and the gate of the first switching transistor T1 is connected to the first scan control of the ith row. Line SCAN[i]; 1≤i≤M, M is the total number of scan lines of the display;

[0104] The drain of the second switching transistor T2 is connected to the first plate of the first capacitor, the source of the second switching transistor T2 is connected to the...

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Abstract

The invention discloses a method for driving a pixel circuit of an active organic electroluminescence displayer. The method comprises a plurality of major cycles and each major cycle comprises N frames. In the first frame, programming is conducted through an initialization stage, a threshold voltage latching stage, a data loading stage and an organic light-emitting diode lighting stage, wherein the threshold voltage latching stage is separated from a signal scanning stage; in the second frame to the Nth frame, programming is conducted only through an data loading stage and an organic light-emitting diode lighting stage. In terms of a whole pixel array, when an initialization step of pixels on the ith row is completed, the initialization step of pixels on the i+1th row is conducted. According to the method for driving the pixel circuit of the active organic electroluminescence displayer, threshold voltage drift of a driving transistor and degeneration of an organic light-emitting diode can be made up, the display quality is guaranteed, the power consumption can also be reduced, and the programming speed is effectively improved.

Description

technical field [0001] The invention relates to a pixel driving technology of an active organic electroluminescent display, in particular to a driving method of a pixel circuit of an active organic electroluminescent display. Background technique [0002] Active Matrix Organic Light Emitting Diode (AMOLED) is an emerging flat panel display technology, due to its simple preparation process, low cost, fast response, low power consumption, easy implementation and integrated circuit drive Matching, high luminous brightness, wide range of working temperature adaptability, light and thin volume, and easy realization of flexible display and large-screen display, etc., have broad market prospects, and are widely valued by scientists and industries in the field of flat panel display. [0003] Active matrix driving techniques can be classified into current programming mode and voltage programming mode. When the current programming is at low brightness, the charging current is small, ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G09G3/32G09G3/3258
Inventor 吴为敬夏兴衡李冠明周雷张立荣王磊彭俊彪
Owner SOUTH CHINA UNIV OF TECH
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