姓名 |
廖祝湘(CHU-HSIANG LIAO)
查詢紙本館藏 |
畢業系所 |
通訊工程學系在職專班 |
論文名稱 |
資訊產品自動化測試之研究
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相關論文 | |
檔案 |
[Endnote RIS 格式]
[Bibtex 格式]
[相關文章] [文章引用] [完整記錄] [館藏目錄] 至系統瀏覽論文 ( 永不開放)
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摘要(中) |
工廠自動化(FA)是近幾年熱烈討論的話題, 資訊產品除了在製造過程自動化外, 產品的電氣測試也是自動化中相當重要的一環, 本篇論文針對目前資訊產業之電氣測試自動化遇到的瓶頸加以分析後, 研究如何開發軟硬體工程並設計導入之方式. 此全新的測試流程是真正的學以致用實際應用於目前的資訊產品產業中.
其中開發項目分為三大方向: 電子工程開發; 軟體工程開發; 機構工程開發. 更針對顯示介面的"水波紋"不良檢測做了研究及實驗. 最後更針對這些新工程方式導入後讓資訊產業確實在成本不需大幅增加的前提上, 讓產能及品質實質的大幅提昇.
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摘要(英) |
Factory Automation (FA) is a hot topic in recent years, the 3C product in FA topic is not only focus on manufacture flow but also need to focus on functional test flow. This thesis focuses on the functional test of 3C product, and the 1st step is to analysis the bottle neck of test-flow, after that, how to develop hardware software even mechanical architecture is thesis’s point. This new testing process is truly apply what we learn in the academy, and implement to the factory.
The development items in the thesis is divided into three important part : EE(Electronic Engineering); SE(Software Engineering); ME(Mechanical Engineering). And the “Water Ripple”(which is really hard to detect) is also been discussed how the phenomenon appears in the monitor and how to detect defeat product. In the final chapter, we also estimate the benefits after implement. And we really see the quality and yields are increased but cost.
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關鍵字(中) |
★ 工廠自動化 ★ 自動化測試 ★ 資訊產品 ★ 主機板 ★ 顯示卡 ★ 水波紋 |
關鍵字(英) |
★ PCBA ★ Funtional test ★ FA ★ Mother Board ★ Water Ripple |
論文目次 |
摘要 i
Abstract ii
誌謝 iii
目錄 iv
圖目錄 vi
表目錄 viii
第一章 緒論 1
1-1 研究動機與目的 1
1-2 論文架構 3
第二章 資訊產品電氣測試現狀介紹 4
2.1 資訊產品於製造端的測試現狀 4
2.2 SFIS 現場資訊整合系統 6
2.3 產品電氣測試自動化目前之瓶頸 8
第三章 資訊產品自動化測試概念及邏輯 12
3.1 資訊產品電氣測試自動化概念 12
3.2 資訊產品電氣測試自動化流程 13
3.3 資訊產品電氣測試自動化下之訊息溝通方式 16
第四章 資訊產品電氣測試自動化項目開發 19
4.1 硬體模組之開發 19
4.2 軟體開發 29
4.3 機構開發 37
4.4 伺服器架設 40
第五章 水波紋畫面之檢測 41
5.1 水波紋定義 41
5.2 檢測方式 41
5.3 實驗結果 45
第六章 結論及展望 52
6.1 效益評估 52
6.2 持續改善項目 55
參考文獻 56 |
參考文獻 |
[1] John Guy , EE Times-Asia “Tap AC-coupling for LVDS signals” January 1-15, 2008
[2] Weng & Chris & Hsinchao “PCIe Gen.2 Physical Layer Analog Front End” SoC Technical Journal 005
[3] Ajay V. Bhatt, “Creating a PCI Express Interconnect,” on http://www.pcisig.com.
[4] Intel Co., “PHY Interface for the PCI Express Architecture,” on http://www.pcisig.com, 2003.
[5] PCI Express? Base Specification , Gen2 Rev 0.3, July 27, 2005
[6] “High-Definition Multimedia Interface” Specification Version 1.3 on http://www.HDMI.org. June 22, 2006
[7] Class2_10_11_12_Differential_Signaling (by Intel) 12/4/2002
[8] LVDS user manual 4th edition on national.com/CHS/lvds 2008
[9] Altium, “Impedance Controlled Routing” AP0107 (v1.3) June 13, 2006
[10] CHIN-LEE TENG , “An Embedded System for Automatic Motherboard Testing” Thesis for Master Tatung University, July 2010
[11] CMP Media LLC, “AC capacitor placement on LVDS and differential signals” published on the Planet Analog website by October 2, 2007.
[12] Leonard Krugman, “Bypass and Coupling Capacitors”
[13] Papoulis Pillai, “Probability, Random Variables and Stochastic Processes” Chapter 7, 2002, ISBN 978-0-07-112256-6, MHID 0-07-112256-7
[14] SC.kuo “MFC Visual Studio 2005” 2006. ISBN 986-125-787-X
[15] Yinyi Lin “Digital Communications – Coding and information Theory” 2005, ISBN 957-11-4028-7
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指導教授 |
林銀議(Yin-Yi Lin)
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審核日期 |
2014-6-30 |
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