P‐32: Dual Gate Amorphous Silicon Thin Film Transistor Technology for High Brightness and High Frame Rate Outdoor Display Panels-Reference-Cited by-同舟云学术

P‐32: Dual Gate Amorphous Silicon Thin Film Transistor Technology for High Brightness and High Frame Rate Outdoor Display Panels

Published:2024-06 Issue:1 Volume:55 Page:1475-1478
ISSN:0097-966X
Container-title:SID Symposium Digest of Technical Papers
language:en
Short-container-title:Symp Digest of Tech Papers

Author:

Zhou Zhichao¹,Zhu Yiyi²,Zhou Xiaoliang¹,Qiao Lei¹,Liu Zhongjie¹,Tan Zhiwei¹

Affiliation:

1. Shenzhen China Star Optoelectronics Co., Ltd

2. Department of Electronic and Computer Engineering The Hong Kong University of Science and Technology

Abstract

In this paper, we present the development of a dual‐gate (DG) architecture for hydrogenated amorphous silicon thin film transistors (a‐Si:H TFTs). The aim is to address the challenges of low on‐state current (Ion) and light‐induced degradation in traditional single‐gate (SG) TFTs. The experimental results demonstrate that the DG‐TFT exhibits significantly higher Ion compared to the SG‐TFT, and the improvement depends on the thickness of the top gate insulator. Additionally, the threshold voltage (Vth) can be adjusted by applying the top gate voltage, allowing for a full‐ swing modulation coefficient of approximately 0.2. To ensure long‐term stability, a light‐blocking layer has been incorporated as the top gate electrode, enabling the DG‐ TFT to maintain its initial properties even under intense illumination conditions of up to 28,000 nits.

Publisher

Wiley

Reference5 articles.

1. Characteristics of Amorphous Silicon Dual-Gate Thin Film Transistor Using Back Gate of Pixel Electrode for Liquid Crystal Display Driver;Moon K-H;Japanese Journal of Applied Physics,2009

2. Simulation of Active-Matrix Electrophoretic Display Response Time Optimization by Dual-Gate a-Si:H TFT With a Common Gate Structure;Shu Y;Journal of Display Technology,2008

3. Dual-Gate Characteristics of Amorphous $ \hbox{InGaZnO}_{4}$ Thin-Film Transistors as Compared to Those of Hydrogenated Amorphous Silicon Thin-Film Transistors

4. Study on Current Crowding in the Output Characteristics of Amorphous InGaZnO4Thin-Film Transistors Using Dual-Gate Structures with Various Active-Layer Thicknesses

5. Static characteristics of a-Si:H dual-gate TFTs