Reducing the Power Consumption of VR Displays with a Field Sequential Color LCD

Zhiyong Yang; Yizhou Qian; Junyu Zou; Chia Lun Lee; Chih Lung Lin; Shin Tson Wu

doi:10.3390/app13042635

Reducing the Power Consumption of VR Displays with a Field Sequential Color LCD

Zhiyong Yang
, Yizhou Qian
, Junyu Zou
, Chia Lun Lee
, Chih Lung Lin
, Shin Tson Wu

電機工程學系

研究成果: Article › 同行評審

27 引文斯高帕斯（Scopus）

摘要

To achieve 60 pixels per degree (PPD) and 100° field of view (FoV) while keeping a reasonably high aperture ratio for active-matrix liquid crystal displays (LCDs), field sequential color (FSC) is a promising approach. We evaluate the physical properties of a high birefringence nematic LC mixture and then use these data to simulate the performance of a fringe-field switching (FFS) LCD. Such an FFS LCD exhibits a fast average gray-to-gray response time (~1.5 ms) to enable FSC operation. By removing the spatial color filters, FSC operation triples the resolution density and optical efficiency, which are critical to high-resolution density and low power consumption virtual reality applications. Wide color gamut (96.2% of the DCI-P3 standard) and superior color uniformity are also demonstrated using such an FSC LCD.

原文	English
文章編號	2635
期刊	Applied Sciences (Switzerland)
卷	13
發行號	4
DOIs	https://doi.org/10.3390/app13042635
出版狀態	Published - 2023 2月

All Science Journal Classification (ASJC) codes

一般材料科學
儀器
一般工程
製程化學與技術
電腦科學應用
流體流動和轉移過程

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10.3390/app13042635

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引用此

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abstract = "To achieve 60 pixels per degree (PPD) and 100° field of view (FoV) while keeping a reasonably high aperture ratio for active-matrix liquid crystal displays (LCDs), field sequential color (FSC) is a promising approach. We evaluate the physical properties of a high birefringence nematic LC mixture and then use these data to simulate the performance of a fringe-field switching (FFS) LCD. Such an FFS LCD exhibits a fast average gray-to-gray response time (\textasciitilde{}1.5 ms) to enable FSC operation. By removing the spatial color filters, FSC operation triples the resolution density and optical efficiency, which are critical to high-resolution density and low power consumption virtual reality applications. Wide color gamut (96.2\% of the DCI-P3 standard) and superior color uniformity are also demonstrated using such an FSC LCD.",

author = "Zhiyong Yang and Yizhou Qian and Junyu Zou and Lee, \{Chia Lun\} and Lin, \{Chih Lung\} and Wu, \{Shin Tson\}",

note = "Funding Information: This research is supported by the Meta distinguished faculty award. Publisher Copyright: {\textcopyright} 2023 by the authors.",

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journal = "Applied Sciences (Switzerland)",

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AU - Yang, Zhiyong

AU - Qian, Yizhou

AU - Zou, Junyu

AU - Lee, Chia Lun

AU - Lin, Chih Lung

AU - Wu, Shin Tson

PY - 2023/2

Y1 - 2023/2

N2 - To achieve 60 pixels per degree (PPD) and 100° field of view (FoV) while keeping a reasonably high aperture ratio for active-matrix liquid crystal displays (LCDs), field sequential color (FSC) is a promising approach. We evaluate the physical properties of a high birefringence nematic LC mixture and then use these data to simulate the performance of a fringe-field switching (FFS) LCD. Such an FFS LCD exhibits a fast average gray-to-gray response time (~1.5 ms) to enable FSC operation. By removing the spatial color filters, FSC operation triples the resolution density and optical efficiency, which are critical to high-resolution density and low power consumption virtual reality applications. Wide color gamut (96.2% of the DCI-P3 standard) and superior color uniformity are also demonstrated using such an FSC LCD.

AB - To achieve 60 pixels per degree (PPD) and 100° field of view (FoV) while keeping a reasonably high aperture ratio for active-matrix liquid crystal displays (LCDs), field sequential color (FSC) is a promising approach. We evaluate the physical properties of a high birefringence nematic LC mixture and then use these data to simulate the performance of a fringe-field switching (FFS) LCD. Such an FFS LCD exhibits a fast average gray-to-gray response time (~1.5 ms) to enable FSC operation. By removing the spatial color filters, FSC operation triples the resolution density and optical efficiency, which are critical to high-resolution density and low power consumption virtual reality applications. Wide color gamut (96.2% of the DCI-P3 standard) and superior color uniformity are also demonstrated using such an FSC LCD.

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Reducing the Power Consumption of VR Displays with a Field Sequential Color LCD

摘要

All Science Journal Classification (ASJC) codes

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