Fan Tian scite author profile

Fan Tian

4Publications

10Citation Statements Received

8Citation Statements Given

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Affiliations

Tianma Microelectronics (China), Peking University, Institute of Microelectronics

Publications

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P‐47: Improvement of Image Sticking for High Standard Automotive Application

Zhang

Wang

Dai

et al. 2019

Symp Digest of Tech Papers

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As the rapid growth of LCD market, higher level of image quality is required. Image sticking is a phenomenon that a faint outline of previously displayed image remains visible on the screen as the frame is refreshed and it is an unvarying problem as the birth of LCD display. Furthermore, it has been a critical issue for high standard automotive application. In essence, the image sticking arises from the residual electric field (DC) in liquid crystal which caused by the ordered arrangement of ionic charges or dielectric polarization under the external DC offset voltage. In this paper, we will summarize the mechanism of the the residual DC voltage generation and image sticking. And an optimum Vcom setting method minimizing external DC offset voltage is introduced to improve image sticking.

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P‐35: New Narrow Border Freeform LCDs for Automotive Application

Dai

Wang

Tian

et al. 2018

Symp Digest of Tech Papers

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Vertical gate line in pixel array is one effective method to achieve narrow border LCD. However, this design forms V-shape mura which matches the crossed point positions of the vertical gate line and horizontal gate line , if the pixel array design is not optimized. Through electronic simulation, this paper find out the root cause of the mura is the parasitic capacitance of gate line and data line. The optimum pixel array design is proposed to achieve better image quality of narrow border freeform LCDs for automotive application.

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57.3: Improvement of Image Sticking for High Standard Automotive Application

Zhang

Wang

Dai

et al. 2019

Symp Digest of Tech Papers

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A 51-nW 32.7-kHz CMOS relaxation oscillator with half-period pre-charge compensation scheme for ultra-low power systems

Zheng

Zhou

Tian

et al. 2016

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Fan Tian

P‐47: Improvement of Image Sticking for High Standard Automotive Application

P‐35: New Narrow Border Freeform LCDs for Automotive Application

57.3: Improvement of Image Sticking for High Standard Automotive Application

A 51-nW 32.7-kHz CMOS relaxation oscillator with half-period pre-charge compensation scheme for ultra-low power systems

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