標題: 液晶顯示器之閘極電路改善與模擬
The Gate Circuit Improvement and Simulation of TFT-LCD
作者: 高俊緒
Kao, Chun-Hsu
趙昌博
Chao, Paul C.-P.
平面顯示技術碩士學位學程
關鍵字: 閘級驅動電路;掃瞄驅動電路;Gate Driver;GIP;GIA;GOA
公開日期: 2015
摘要: 本論文研究在消費性電子產品追求輕薄短小的趨勢中,TFT-LCD之解析度要求愈來愈高,要在相同尺寸下達到高解析度,所使用的驅動IC數量相對的增加,目前已發展到GIP(Gate Driver In Panel)驅動方式來達到目的,同時達到窄邊框設計(Slim Border)。 GIP即將閘極驅動(Gate Driver)電路設計在玻璃基板上,而在電路設計上,也面臨到a-Si:H TFT材料特性上會發生的應的問題(Stress Effect)。加上所使用TFT Device元件數增多,對TFT Device元件長時間在偏壓與高溫操作下,薄膜電晶體的內部載子引發的缺陷現象,都會導致整片面板失去功能。 本研究藉著參考先進對電路設計進行SPICE建立與模擬,以求利用最少的資源進行電路改善,和減少偏壓效應(Bias Stress Effect)與熱應力(Thermal Stress)的影響,進而達到穩壓效果。
In this paper, Trends in consumer electronics products pursues slim and light, TFT-LCD high resolution requires more and be in the same size to achieve high resolution, the relative increase in the number of drives used in IC, It has been developed to GIP (Gate Driver In Panel) driven approach to achieve their goals, while achieving a narrow frame design (Slim Border). GIP is a gate driver circuit design on a substrate of glass, It’s also facing the a-Si: H Stress Effect on the material properties problems. Coupled with an increase in the number of components used in TFT, the TFT device for a long time under the bias voltage operation, the internal carrier film transistor induced charge trapping defects, cause to display abnormal function of the panel. Reference to others papers and manufacturing process, Use the SPICE simulating to establish a circuit model, in order to use the least resources for circuit improvements and reduce the impact bias stress effect and thermal stress, thus achieving voltage regulation.
URI: http://140.113.39.130/cdrfb3/record/nctu/#GT079787509
http://hdl.handle.net/11536/125852
顯示於類別:畢業論文