Bussiness ManagementMBAstrategyHuman ResourceMarketingHospitalityE-commerceInternational Tradingproject managementmedia managementLogisticsFinanceAccountingadvertisingLawBusiness LawEducationEconomicsBusiness Reportbusiness planresearch proposal
英语论文题目英语教学英语论文商务英语英语论文格式商务英语翻译广告英语商务英语商务英语教学英语翻译论文英美文学英语语言学文化交流中西方文化差异英语论文范文英语论文开题报告初中英语教学英语论文文献综述英语论文参考文献
ResumeRecommendation LetterMotivation LetterPSapplication letterMBA essayBusiness Letteradmission letter Offer letter
澳大利亚论文英国论文加拿大论文芬兰论文瑞典论文澳洲论文新西兰论文法国论文香港论文挪威论文美国论文泰国论文马来西亚论文台湾论文新加坡论文荷兰论文南非论文西班牙论文爱尔兰论文
小学英语教学初中英语教学英语语法高中英语教学大学英语教学听力口语英语阅读英语词汇学英语素质教育英语教育毕业英语教学法
英语论文开题报告英语毕业论文写作指导英语论文写作笔记handbook英语论文提纲英语论文参考文献英语论文文献综述Research Proposal代写留学论文代写留学作业代写Essay论文英语摘要英语论文任务书英语论文格式专业名词turnitin抄袭检查
temcet听力雅思考试托福考试GMATGRE职称英语理工卫生职称英语综合职称英语职称英语
经贸英语论文题目旅游英语论文题目大学英语论文题目中学英语论文题目小学英语论文题目英语文学论文题目英语教学论文题目英语语言学论文题目委婉语论文题目商务英语论文题目最新英语论文题目英语翻译论文题目英语跨文化论文题目
日本文学日本语言学商务日语日本历史日本经济怎样写日语论文日语论文写作格式日语教学日本社会文化日语开题报告日语论文选题
职称英语理工完形填空历年试题模拟试题补全短文概括大意词汇指导阅读理解例题习题卫生职称英语词汇指导完形填空概括大意历年试题阅读理解补全短文模拟试题例题习题综合职称英语完形填空历年试题模拟试题例题习题词汇指导阅读理解补全短文概括大意
论文作者:英语论文网论文属性:本科毕业论文 Thesis登出时间:2011-08-03编辑:zn1987点击率:3250
论文字数:1773论文编号:org201108031325254382语种:英语 English地区:英国价格:$ 55
关键词:英国电子科技论文PhysicsLTPSPhysics
摘要:英语论文网专业提供英国电子科技论文定制,英国留学生电力学论文定制等论文服务。在本文中,低温多晶硅(LTPS)背板技术以及有源矩阵有机发光二极管(AMOLED)架构上的重大进展进行了论证和报告。
LTPS and AMOLED Technologies for Mobile Displays
Abstract
In this paper, significant progresses on low temperature poly-Si (LTPS) backplane technologies as well as active-matrix organic light emitting diode (AMOLED) architectures were demonstrated and reported. In order to make display more compact, reliable and further reduction in the cost, system-on-panel (SOP) was realized with good device performance and small design rule capability. Moreover, over the past few years, many hypes on AMOLED have been announced, but less achievement was done for production activity. To overcome these technical challenges such as non-uniformity, power consumption and higher resolution issues, several approaches are proposed for AMOLE displays
1. Introduction
LTPS TFTs can achieve higher resolution, lower driving voltage for peripheral driving circuit. In order to make display more compact, reliable and further reduction in the cost of display module, it is very desirable to integrate more circuits on the glass, such as digital-to-analog converter (DAC), timing controller, and interface circuits. However, as the circuit-integration level progresses, the driving voltage and design rule should also be shrunk for low-power consumption and a narrow picture frame. Good device performance and small design rule capability oxlips TFT can lead to system-on-panel (SOP) realizations.AMOLED display has drawn much attention due to its front of screen advantages, such as high contrast ratio, high color saturation, wide viewing angle, and fast response. However, formats productions, there are still technical challenges such as non-uniformity, power consumption, and high-resolution issues that need to be tackled. Significant progresses have been made in these areas during these years inToppoly, and new backplane technologies as wells AMOLED architecture will be reported in this paper.
2. SOP-LCDs
Fully self-aligned symmetric lightly doped drain (Fast LDD) thin film transistor has previously been developed and applied on the SOP [1], [2]. The development phase of SOPLCDsmay is classified in terms of driving circuit integration level. For the first phase, LTPS TFTLCDswith integrated gate drivers and analog switches have reached the stage of mature mass production and are now widely used for the terminals of portable electronics. Despite this, significant fraction of cost is still associated with the external ICs, especially for small to mid-size display module. As a result, SOP-LCDsintegrated with DC-DC converters and levelshifters, in which costly high-voltage-handlingprocessIC is unnecessary, began to come into the market. However, in order to keep the lowpowerfeature of LTPS TFT-LCD, the DC-Converters must have sufficiently high power efficiency. We had successfully developedphase-1 SOP and also published related works inSID03.
5. Reference
[1] C. H. Fang, et.al, SID 2003 Intl Sump Digest Tech Papers, Vol. 34. pp. 1318-1321, 2003
[2] C. H. Fang, et.al, IDW’03 Proceedings, pp. 403-406, 2003
[3] C. W. Lin, et.al, SID 2004 Intl Sump Digest Tech Papers, Vol. 35. pp. 1085-1087, 2004
[4] Alex Chin-Wei Lin, et.al, “LTPS Circuit Integration for System-on-Glass LCDs” to be published in SID Journal
[5] Du-Zen Pang, et.al, SID 2005 Intl Sump Digest Tech Papers, pp. 814-817
[6] D.Z. Pang, et.al, IDW’05, pp.629-632
[7] L. S. Liao, et.al, Appl. Phys. Let. vol. 84, no. 2, JANUARY 2004
[8] Goofing He, et.al, Appl. Phys. Le本论文由英语论文网提供整理,提供论文代写,英语论文代写,代写论文,代写英语论文,代写留学生论文,代写英文论文,留学生论文代写相关核心关键词搜索。