反射式IPS模態及半穿透半反射式PVA模態
的液晶顯示器設計與最佳化

Wen-Chieh Liu; 劉文傑

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28515

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	蔡永傑(Choi, Wing-Kit)
dc.contributor.author	Wen-Chieh Liu	en
dc.contributor.author	劉文傑	zh_TW
dc.date.accessioned	2021-06-13T00:10:34Z	-
dc.date.available	2007-07-31
dc.date.copyright	2007-07-31
dc.date.issued	2007
dc.date.submitted	2007-07-27
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Collett, Polarized Light: Fundamentals and Applications,chapter3 (Marcel Decker, New York, 1993). [21] E. Collett, Polarized Light: Fundamentals and Applications,chapter4 (Marcel Decker, New York, 1993). [22] Tae-Hoon Yoon, Gi-Dong Lee, and Jae Chang Kim, “Nontwist quarter-wave liquid-crystal cell for ahigh-contrast reflective display”, 2000 Optical Society of America., Vol. 25, No. 20, pp.p.1547-p.1549 (2000) [23] C.-L. Kuo, C.-L. Chen, D.-L. Ting, C.-K. Wei, Y.-H. Lu, B.-J. Liao, B.-D. Liu, C. W. Hao, and S.-T. Wu, SID J. 7, 109 (1999). [24] Michael Reimer and David Yevick, “Mueller matrix description of polarization mode dispersion and polarization-dependent loss”, 2006 Optical Society of America Vol. 23, No. 6, pp.1502-1508 (2006) [25] Makoto Yoneya and Katsumi Kondo , “Threshold behavior analysis of in-plane switching mode liquid-crystal cells with asymmetrical surface condition ”, 1999 American Institute of Physics., Vol. 23, No. 6 ,pp. 3477-3479 (1999) [26] M. Oh-e and K. Kondo, Appl. Phys. Lett. 69, 623 (1996). [27] Seung-Woo Lee, Junpyo Lee, Taesung Kim, Brian H. Berkeley, Sang Soo Kim, “RGB Gamma Curve Control for Improved LCD Color Performance”, SID 06 DIGEST •, pp. 1590-1593 (2006) [28] Seung Hee LEE, Seung Ho HONG, Hyang Yul KIM, Dae-Shik SEO, Gi-Dong LEE and Tae-Hoon YOON, “Reflective Display Associated with In-Plane Rotation of Nematic Liquid Crystal”, Jpn. J. Appl. Phys. Vol. 40 (2001) pp. 5334–5337 [29] Gak Seok Lee, Jae Chang Kim, and Tae-Hoon Yoon, “Horizontal Switching of a Double-cellgap Liquid Crystal Cell for Transflective Display”, SID 06 DIGEST, pp.812-816 (2003) [30] T.-H. Yoon, G.-D. Lee, and J. C. Kim, “Opticalconfiguration of a horizontal-switching cell for a highperformancereflective LCD,” Society for InformationDisplay Symposium ’01 Digest, pp. 898-901, 2001. [31] Hyungki Hong, “Dependency of Spectral Reflectance on Rotating Direction of Liquid Crystal for Reflective Liquid Crystal Displays ”, JOURNAL OF DISPLAY TECHNOLOGY, VOL. 2, NO. 3, pp232-236,SEPTEMBER 2006 [32] H. Baek, Y. B. Kim, K. S. Ha, D. G. Kim, and S. B. Kwon, “New design of transflective LCD with single retardation film,” in Proc. 7th Int. Display Workshop, Kobe, Japan, 2000, pp. 41–44. [33] M. Koamoto, K. Minoura, and S. Mitsui, “LCTP 2–4: optical design of LC layer on reflective LCDs with a single polarizer,” in Proc. 6th Int. Display Workshop, Sendai, Japan, 1999, pp. 49–52. [34] T. B. Jung, J. C. Kim, and S. H. Lee, “Wide-viewing-angle transflective display associated with a fringe-field driven homogeneously aligned nematic liquid crystal display,” Jpn. J. Appl. Phys., vol. 42, pp. L464–L467, 2003. [35] K. H. Park, J. C. Kim, and T. H. Yoon, “In-plane-switching liquid crystal cell with zigzag electrodes for transflective displays,” Jpn. J. Appl. Phys., vol. 43, pp. 7536–7539, 2004. [36] K. H. Liu, C. Y. Cheng, Y. R. Shen, C. M. Lai, C. R. Sheu, Y. Y. Fan, C. C. Chen, I. J. Lin, “A Novel Double Gamma Driving Transflective TFT LCD”, IDMC’ 03 , p.215 (2003) [37] S. H. LEE, H. W. DO, G. D. LEE, T. H. YOON, J. C. KIM,“ A Novel Transflective Liquid Crystal Display with a Periodically Patterned Electrode”, Jpn. J. Appl. Phys, vol.42, pp.L1455-L1458 (2003) [38] F. Zhou, D. K Yang, “Polymer Stabilized Electrically Controlled Birefringence Transreflective Liquid Crystal Displays”, SID’04 Digest, pp.38-41 (2004) [39] F. Zhou, D. K. Yang, “Wavelength Divided Trans-reflective Liquid Crystal Display”, SID’03 Digest, pp.83-85 (2003) [40] Yuzo Hisatake, Toshiya Ohtake, Atsuko Oono, Yoshinori Higuchi, “A Novel Transflective TFT-LCD using Cholesteric Half Reflector”, IDW’01 Digest, p.129 (2001) [41] Y. P. Huang, X. Zhu, H. Ren, Q. Hong, Thomas X. Wu, S. T. Wu, M. Z Su, M. X Chan, S. H. Lin, H. P. Shieh, “Full-color transflective cholesteric LCD with image-enhanced reflector”, Journal of the SID 12/4(1), pp.1-6 (2004) [42] S. G. Kang, S. H. Kim, S. C. Song, W. S. Park, C. Yi, C. W. Kim, K. H. Chung, “Development of a Novel Transflective Color LTPS-LCD with Cap-Divided VA-Mode”, SID’03 Digest, pp.31-33 (2004)
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28515	-
dc.description.abstract	在本篇論文中我們以電腦軟體模擬的方式嘗試設計出半穿透半反射廣視角模態液晶顯示器，並進一步比較結果後達到其最佳化狀態，所有的設計都以在同一鉛直面驅動液晶分子為基礎。在參考相關文獻以及研究後，我們設計出新式的半穿透半反射式廣視角液晶顯示器。接著提升其顯示品質,並期望進一步使結構簡單化。論文的架構以研究的時間點和改善的過程來作區分。一開始我們以PVA模態為研究主題，藉由設計的結構及參數的分析調校來達到反射及穿透部分電壓-光穿透率曲線的搭配；接著我們進入下一個IPS模態的研究，在IPS模態研究中，我們考慮到了wideband的效果，以及在RGB三種主波長段的顯示表現，最後將調整各項參數，使IPS模態在顯示上的表現最佳化，使用於半穿透半反射式液晶顯示器當中。大致上來說，我們已經以不同於以往的方式設計出兩種類型廣視角模態液晶顯示器並提升其最佳化。在模擬上，也達到不錯的模擬結果。	zh_TW
dc.description.abstract	We have tried to design the transflective wide-view angle mode of TFT-LCD by computer software in this paper. We have achieved the best state so far by comparing the simulation results. All of our designs are based on driving LC cell in the same vertical plane. We design the new kinds of transflective wide-view angle TFT-LCD after consulting the papers in the relative field. We also improve its display performance and expect to simply the structure. The paper content can be distinguished by the time of research and process of improving. At first we set PVA mode is our first subject. We achieve the match of R-V curve and T-V curve by designing structure and analyzing parameters. Then we start IPS mode research in the next step. In this case ,we consider the wideband’s effect and the display performance under RGB dominate wavelength.. Then we adjust every parameter in our structure and apply it into transflective TFT-LCD. In briefly, we have designed two kinds of wide-view angle mode of TFT-LCD in the method different from others. We also get good results in our simulation.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T00:10:34Z (GMT). No. of bitstreams: 1 ntu-96-R94941057-1.pdf: 1546706 bytes, checksum: 94b027247c7fddffb68288aba4574171 (MD5) Previous issue date: 2007	en
dc.description.tableofcontents	目錄第一章導論 1 1-1 研究背景 1 1-2 TFT-LCD類型簡介 1 1-2.1 穿透式TFT-LCD 1 1-2.2 反射式TFT-LCD 2 1-2.3 半穿透半反射式 TFT-LCD 3 1-2.3.1 Double Cell Gap TR-LCD 3 1-2.3.2 Single Cell Gap TR-LCD 6 1-3 廣視角特性介紹 8 1-4 模擬軟體-2DIMMOS介紹 12 1-5 論文架構 14 第二章反射式IPS模態的最佳化 16 2-1 研究動機 16 2-2 IPS(In Plane Switching)背景介紹 16 2-3 反射式IPS模態的操作原理與結構 18 2-4 Wideband method背景介紹 20 2-5 Wideband method原理 21 2-5.1 Stoke vector 21 2-5.2 Mueller Matrix 25 2-6 λ/4-λ/2 mode Wideband method 計算與模擬過程 26 2-7 新結構設計:λ3/4-λ/2 mode 42 2-8 應用Mueller Matrix在λ3/4-λ/2 mode的計算 4５ 2-9 λ3/4-λ/2 mode模擬結果討論 56 2-10其餘可能設計模擬結果比較分析 64 2-11 章節總結 64 第三章 6６半穿透半反射PVA模態的最佳化 6６ 3-1 PVA(Pattern Vertical arranged)背景介紹 6６ 3-2 在穿透部分的操作原理介紹 67 3-3 在反射部分的操作原理介紹 68 3-4 在PVA模態穿透部分以及反射部分的結構初始配置 69 3-5 改變參數設計的影響 72 3-5.1 cell gap 的改變對透光量的影響 72 3-5.2 electrodes的改變對透光量的影響 74 3-5.2.1穿透部分的電極配置設計 74 3-5.2.2 反射部分的電極配置設計 75 3-5.3 Birefringence 的改變對透光量的影響 76 3-7章節總結 77 第四章結論 80 參考文獻 81
dc.language.iso	zh-TW
dc.subject	IPS PVA	zh_TW
dc.title	反射式IPS模態及半穿透半反射式PVA模態的液晶顯示器設計與最佳化	zh_TW
dc.title	Design & Optimization of reflective IPS and transflective PVA TFT-LCDs	en
dc.type	Thesis
dc.date.schoolyear	95-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	林晃巖(LIN, Hoang Yan),李君浩(Lee, Jiun-Haw)
dc.subject.keyword	IPS PVA,	zh_TW
dc.relation.page	84
dc.rights.note	有償授權
dc.date.accepted	2007-07-30
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	光電工程學研究所	zh_TW
顯示於系所單位：	光電工程學研究所

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