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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 許源浴 | |
dc.contributor.author | Chun-Chieh Wang | en |
dc.contributor.author | 王俊傑 | zh_TW |
dc.date.accessioned | 2021-06-13T05:52:42Z | - |
dc.date.available | 2007-07-12 | |
dc.date.copyright | 2006-07-12 | |
dc.date.issued | 2006 | |
dc.date.submitted | 2006-07-03 | |
dc.identifier.citation | [1] W. N. Chang and K. D. Yeh, “Design of D-STATCOM for Fast Load Compensation of Unbalanced Distribution Systems,” International Conference on Power Electronics and Drive Systems, Vol. 2, 22-25 Oct. 2001
[2] W. E. Brumsickle, R. S. Schneider, G. A. Luckjiff, D. M. Divan and M. F. McGranagham, “Dynamic Sag Correctors: Cost-Effective Industrial Power Line Conditioning” , IEEE Transactions on Industry Applications, vol. 37, No. 1, January/February 2001 [3] 吳勝隆, “串聯型動態電壓調整器之研究“,台灣大學電機所碩士論文,2004 [4] 黃國禎, “用於不平衡電力系統串聯型動態電壓調整器之研究“,台灣大學電機所碩士論文,2005 [5] 許明杰, “以最小電壓法設計串連不平衡電壓調整器“,台灣大學電機所碩士論文,2005 [6] C.Cavaliere and H.Watanabe, ”Multi-pulse Statcom Operation Under Unalanced Voltages”, IEEE Transactions on Power Delivery, 2002, Page: 567 – 572. [7] B. T. Ooi, S. Z. Dai, and X. Wang, “Solid-State Series Capacitive Reactance Compensators”, IEEE Transactions on power delivery, vol. 7, No. 2, April 1992, Page: 914 - 919. [8] L. Gyugyi, C. D. Schauder and K. K. Sen “Static synchronous series compensator: A Solid-State Approach to The Serie Compensation of Transmission Line”, IEEE Transactions on power delivery, vol. 12, No. 1, April 1997, Page: 406 - 416. [9] G. Joos, “Three Phase Static Series -Voltage Regulator Control Algorithms for Dynamic Sag Compensation”, Industrial Electronics, 1999. ISIE '99. Proceedings of the IEEE International Symposium on , Vol. 2, July 1999, Page: 515 - 520. [10] B. T. Ooi, S. Z. Dai, and X. Wang, “Solid-State Series Capacitive Reactance Compensators”, IEEE Transactions on power delivery, vol. 7, No. 2, April 1992, Page: 914 - 919 [11] N. H. Woodley, L. Morgan, and A. Sundaram, “Experience with An Inverter- Based Dynamic Voltage Restorer,” IEEE Trans. on Power Delivery, Vol. 14, No. 3, July 1999 [12] A.R.Bakhshai and G.Joos,'Emtp Simulation of Multi-Pulse Power Flow Controllers',IEEE,1996 Page:847-850 [13] ITI (CBEMA) Curve Application Note, Information Technology Industry Council, 2000. [14] H. Akagi, Y. Kanazawa and A. Nabae, “Instantanous Reactive Power Compensators Comprising Switching Device Without Energy Storage Components” IEEE Trans. on Industry Application, Vol. 20, No. 3, July 1984, Page: 625 - 630. [15] C. Schauder and H. Mehta, ”Vector Analysis and Control of Advanced Static VAR Compensators,” IEE Proceedings-C, Vol. 140, No. 4, July 1993,Page: 299 - 306. [16] Laszlo Gyugyi, “dynamic compensation of ac transmission lines by solid-state synchronous voltage sources“, IEEE Transactions on power delivery,1993 Page:904-911 [17] SEMI-F47, Specification for Semiconductor Processing Equipment Voltage Sag Immunity, SEMI, September 1999. [18] IEC Std. 1000-2-1-1990, “Electromagnetic Compatibility”, Part 2: Environment, Sect. 1: Description of the environment- Electromagnetic environment for low-frequency conducted disturbances and signalling in public power supply systems. First Edition, 1990-05 [19] M. F. Alves, T. N. Ribeiro, “Voltage Sag: An Overview of IEC and IEEE Standard and Application Criteria”, IEEE Transmission and Distribution Conference, Vol. 2 , April 1999, Pages: 585 – 589. [20] M. F. McGranaghan, D. R. Mueller, and Marek J. Samotyj, “Voltage Sags in Industrial Systems”, IEEE Transactions on Industry Application, vol. 29, No. 2, March/April 1993, Page: 397 – 402. [21] A. Ghosh and G. Ledwich, “Structures and Control of A Dynamic Voltage Regulator (DVR)”, IEEE Power Engineering Society Winter Meeting, Vol. 3, 28 Jan - 1 Feb 2001, Pages: 1027 – 1032 [22] A. Ghosh, and G. Ledwish, “Compensation of Distribution System Voltage Using DVR”, IEEE Transactions on Power Delivery, vol. 17, No. 4, October 2002, Page: 1030 – 1036. [23] L. Zhang, M. L. Crow, Z. Yang, and S. Chen, “The Steady State Characteristics of an SSSC Integrated with Energy Storage” IEEE Power Engineering Society Winter Meeting, Vol. 3, 28 Jan - 1 Feb 2001, Pages: 1311 – 1316. [24] L. Gyugyi, “Dynamic Compensation of AC Transmission Lines by Solid-State Synchronous Voltage Source”, IEEE Transactions on Power Delivery, Vol. 9, No. 2, April 1994, Page: 904 – 911 [25] K. Haddad and G. Joos, “Distribution System Voltage Regulation Under Fault Conditions Using Static Series Regulators,” IEEE Industry Applications Society Annual Meeting, New Orleans, October 5-9, 1997. [26] P. A. Dahono, A. Purwadi and Qamaruzzaman, “An LC Filter Design Method for Signal-Phase PWM Inverter”, IEEE Power Electronics and Drive Systems, Proceedings of 1995 International Conference, vol. 2, 21-24 Feb 1995, Page: 571 – 576. [27] C. Schauder and H. Mehta, ”Vector Analysis and Control of Advanced Static VAR Compensators,” IEE Proceedings-C, Vol. 140, No. 4, July 1993,Page: 299 - 306. [28] 洪崇文, “以數位信號處理為基礎之電力品質分析儀研製,” 台灣大學電機所碩士論文, 2001. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/34050 | - |
dc.description.abstract | 科技產業的蓬勃發展下,工業界也隨著對產品的需求與日劇增,進而擴廠或添加精密度更高的負載設備用以提高產能或提升產品良率,相形之下電力品質也就相對重要。已有很多的研究是在針對在電壓驟降下,如何來減少對敏感性設備的傷害,進而節省成本,減少損失;其中動態電壓調整器(Dynamic Voltage Regulator,DVR)為近年來被運用解決電壓變動的方法之一。
本論文之目的在設計十二脈波串聯型動態電壓調整器,以連接一直流電容器提供電壓,再搭配使用十二脈波技術完成三相電壓源型變流器(Voltage Source Inverter,VSI)之設計,另外會與脈寬調變(Pulse Wide Modulated,PWM)切換之VSI做比較。 論文中主要針對兩種動態電壓調整器在穩態及暫態兩方面之特性進行研究與比較,間接說明十二脈波電壓源變流器的優點,包括補償能力以及功率損失,目標為藉由較小值直流電容電壓來提供較PWM切換VSI更佳之補償能力。模擬方面使用MATLAB 軟體來評估系統補償效果;實驗方面以個人電腦為基礎,配合資料擷取卡透過C語言來達成電壓補償控制,最後由模擬搭配實驗結果來驗證十二脈波動態電壓調整器在配電系統中之應用及其優越性。 | zh_TW |
dc.description.abstract | With the development of high technology industries, the proliferation of voltage-sensitive load equipment has made industrial processes much more vulnerable to degradation in the quality of power supply. Among the several novel custom power devices, the dynamic voltage restorer (DVR) for application in distribution systems is a recent invention.
The purpose of this thesis is to design a 12-pulse series-type Dynamic Voltage Regulator . A direct current capacitor is employed as the storage device for the DVR and the 12 - pulse control technique is used to adjust the output voltage of the three-phase voltage-source inverter (VSI). The 12-pulse VSI is compared with the Pulse Wide Modulated (PWM) VSI. Both steady-state performance and transient characteristic of the DVR are investigated in the thesis. To show the advantage of the proposed 12-pulse VSI, compensation capability and power loss are investignted. The purpose is use a lower direct current capacitor voltage than the PWM VSI to achieve voltage compensation. The effectiveness of the designed DVR is first investigated by digital simulations using the MATLAB software. Then, in the experiment, the control kernel of the digital system for the DVR is based on a personal computer with data acquisition cards. Voltage compensation is achieved through the computer coder written in C language. Finally, it is concluded from results of simulations and experiments that load bus voltage can be effectively and superiorly regulated by the designed 12-pulse VSI DVR. | en |
dc.description.provenance | Made available in DSpace on 2021-06-13T05:52:42Z (GMT). No. of bitstreams: 1 ntu-95-R93921084-1.pdf: 14874892 bytes, checksum: 7af330921185ca4924f5f0750a2ad8f6 (MD5) Previous issue date: 2006 | en |
dc.description.tableofcontents | 目 錄
摘要………………………………………………………………………i Abstract……………………………………………………………… ii 目錄……………………………………………………………………iii 圖目錄…………………………………………………………………vii 表目錄…………………………………………………………………xii 符號表…………………………………………………………………xiv 第一章 緒論……………………………………………………………1 1.1 研究背景與動機………………………………………………… 1 1.2 串聯與並聯補償器之比較……………………………………… 3 1.3 現有文獻回顧…………………………………………………… 6 1.4 研究方法與目的………………………………………………… 9 1.5 論文內容介紹……………………………………………………10 第二章 理論分析…………………………………………………… 12 2.1 前言 ………………………………………………………………12 2.2 串聯型動態電壓調整器之架構…………………………………15 2.3 串聯型動態電壓補償之操作模式………………………………22 2.4 數學模型…………………………………………………………23 2.4.1 採用同步旋轉座標轉換法…………………………………23 2.4.2 數學模型推導………………………………………………25 2.5 功率損失分析……………………………………………………29 第三章 變流器電路之設計……………………………………………32 3.1 前言 ………………………………………………………………32 3.2 振幅調變指數值選定……………………………………………33 3.3 元件參數之選定…………………………………………………34 第四章 動態電壓調整器之實體製作…………………………………37 4.1 前言 ………………………………………………………………37 4.2 硬體電路製作……………………………………………………37 4.2.1 實作電路之系統架構 ………………………………………38 4.2.2 電壓、電流感測器之製作…………………………………39 4.2.3 驅動與互鎖電路之製作……………………………………41 4.2.4 鎖相電路及零點偵測電路之製作…………………………45 4.2.5 電力電路之製作……………………………………………53 4.2.6 研華PCL-1800資料擷取卡之簡介與設定…………………58 4.2.7 其他相關硬體之製作 ………………………………………63 4.3 軟體程式規劃……………………………………………………64 4.3.1 軟體簡介……………………………………………………65 4.3.2 軟體程式之規劃設計………………………………………65 4.3.3 數位低通濾波器……………………………………………68 4.3.4 類比訊號輸入控制流程……………………………………68 4.3.5 補償信號控制流程…………………………………………69 第五章 模擬結果與分析…………………………………………… 70 5.1 前言 ………………………………………………………………70 5.2 12-pulse VSI補償-三相接地故障(故障電阻Rf=4 )………71 5.3 12-pulse VSI補償-三相接地故障(故障電阻Rf=2 )………76 5.4 PWM VSI補償-三相接地故障(故障電阻Rf=4 )…………… 80 5.5 PWM VSI補償-三相接地故障(故障電阻Rf=2 )…………… 83 5.6 模擬結果與討論…………………………………………………87 第六章 實驗結果………………………………………………………90 6.1 前言 ………………………………………………………………90 6.2 12-pulse VSI補償-三相接地故障(故障電阻Rf=4 )…………91 6.3 12-pulse VSI補償-三相接地故障(故障電阻Rf=2 )…………94 6.4 PWM VSI 補償-三相接地故障(故障電阻Rf=4 ) …………… 97 6.5 PWM VSI 補償-三相接地故障(故障電阻Rf=2 ) ……………100 6.6 實驗結果討論………………………………………………… 103 第七章 結論………………………………………………………… 107 7.1 結論 …………………………………………………………… 107 7.2 未來研究方向………………………………………………… 108 | |
dc.language.iso | zh-TW | |
dc.title | 12-pulse VSI用於串聯型動態電壓調整器之研究 | zh_TW |
dc.title | Design of a Series-type Dynamic Voltage Regulator With 12-pulse Voltage Source Inverter | en |
dc.type | Thesis | |
dc.date.schoolyear | 94-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 陳德玉,廖聰明,劉添華,羅天賜 | |
dc.subject.keyword | 十二脈波,動態變壓調整器, | zh_TW |
dc.subject.keyword | 12-pulse,dynamic voltage regulator, | en |
dc.relation.page | 112 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2006-07-04 | |
dc.contributor.author-college | 電機資訊學院 | zh_TW |
dc.contributor.author-dept | 電機工程學研究所 | zh_TW |
顯示於系所單位: | 電機工程學系 |
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