18‐5: A 1058‐ppi 4K Ultrahigh‐Resolution and High Aperture LCD with Transparent Pixels using OS/OC Technology | Zendy

Kawashima Susumu | Zendy; Shishido Hideaki | Zendy; Oshita Satoru | Zendy; Yoshitomi Shuhei | Zendy; Yamashita Akio | Zendy; Ishitani Tetsuji | Zendy; Sato Ami | Zendy; Jincho Masami | Zendy; Shima Yukinori | Zendy; Katayama Masahiro | Zendy; Yamazaki Shunpei | Zendy

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18‐5: A 1058‐ppi 4K Ultrahigh‐Resolution and High Aperture LCD with Transparent Pixels using OS/OC Technology

Author(s) -

Kawashima Susumu,

Shishido Hideaki,

Oshita Satoru,

Yoshitomi Shuhei,

Yamashita Akio,

Ishitani Tetsuji,

Sato Ami,

Jincho Masami,

Shima Yukinori,

Katayama Masahiro,

Yamazaki Shunpei

Publication year - 2017

Publication title -

sid symposium digest of technical papers

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.351

H-Index - 44

eISSN - 2168-0159

pISSN - 0097-966X

DOI - 10.1002/sdtp.11679

Subject(s) - materials science , pixel , optoelectronics , semiconductor , liquid crystal display , transistor , aperture (computer memory) , capacitor , thin film transistor , oxide , resolution (logic) , optics , nanotechnology , electrical engineering , voltage , computer science , physics , engineering , artificial intelligence , layer (electronics) , acoustics , metallurgy

A 4.3‐inch 1058‐ppi 4K liquid crystal display was fabricated using top‐gate field‐effect transistors (FETs) comprising a cloud‐aligned composite oxide semiconductor. For transparent pixels comprising an oxide semiconductor/oxide conductor (OS/OC), FETs, wirings, capacitors, and contacts in the pixels are transparent. This display achieves a 63.6% aperture ratio and low power consumption.

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