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A poly-Si TFT integrated gate-data line-crossover structure employing an air-gap for large-size AMLCD panel
By: Jin-Woo Park; Min-Koo Han; In-Hyuk Song; Woo-Jin Nam; Min-Cheol Lee;
2001 / IEEE
Description
This item was taken from the IEEE Periodical ' A poly-Si TFT integrated gate-data line-crossover structure employing an air-gap for large-size AMLCD panel ' We have fabricated a novel poly-Si TFT integrated at the gate-data line-crossover structure without sacrificing the electrical characteristics. The aperture ratio of the panel was increased considerably because the TFT was located under the opaque metal line. In particular, we employed a low dielectric air-gap between the gate line and data lines, which reduced capacitance between the gate and data lines, enabling the signal delay of the data line to be significantly decreased. The fabricated TFT was successfully operated, and the proposed structure found to reduce the delay time by a factor of nine compared with conventionally constructed panel without air-bridges.
Related Topics
Liquid Crystal Displays
Air Gaps
Elemental Semiconductors
Si-sio/sub 2/
Poly-si Tft Integrated Gate-data Line-crossover Structure
Air-gap
Electrical Characteristics
Panel Aperture Ratio
Opaque Metal Line
Low Dielectric Air-gap
Signal Delay
Delay Time
Thin Film Transistors
Air Gaps
Apertures
Capacitance
Active Matrix Liquid Crystal Displays
Delay
Dielectrics
Amorphous Silicon
Bridge Circuits
Resists
Thin Film Transistors
Silicon
Delays
Components, Circuits, Devices And Systems
Engineered Materials, Dielectrics And Plasmas
Engineering
Large-size Amlcd Panel
