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研究生:薛儒鴻
研究生(外文):Ju-hung Hsueh
論文名稱:負載端整合型電力品質調節器之設計及實現
論文名稱(外文):Design and Implementation of Unified Power QualityConditioner at Demand Side
指導教授:白富升
指導教授(外文):Fu-Sheng Pai
學位類別:碩士
校院名稱:國立臺南大學
系所名稱:電機工程研究所
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2011
畢業學年度:99
語文別:中文
論文頁數:97
中文關鍵詞:諧波補償整合型電力品質調節器電力品質電壓補償
外文關鍵詞:Harmonic compensationUPQCPower qualityVoltage compensation
相關次數:
  • 被引用被引用:2
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近年來許多的電力電子產品陸續被發展出來,用以改善電力系統供電品質問題。在這些產品中,由於整合型電力品質調節器的操作可控性頗高,目前已被電力相關專業人士認為其具發展潛力,因此本論文即擬研究發展整合型電力品質調節器。本論文在架構上係以兩級電力轉換器透過一共用的直流鏈串並組合設計整合型電力品質調節器,其不僅能提供負載端所需求的諧波電流及虛功率,亦可補償負載端電壓因電力網路故障所引起的電壓變動,確保用電端之電壓品質。為驗證本文所提架構之可行性,本論文已進行電力品質異常之情境分析,並配合電腦模擬與建立實體雛型系統進行相關模擬與實測驗證。由實驗結果可證實本論文所提方法確具可行性,相關研究心得及數據應可供電力從業人員之參考及利用。
In recent years, many applications of power electronics technologies have been developed
for power quality improvement. Among them, Unified Power Quality Conditioner (UPQC),
which consists of double converters connected by a DC capacitor with each other, has great
potential because of its high controllability. Therefore, this thesis is aimed to develop a UPQC
to improve power quality. The proposed UPQC can supply reactive power and compensate
reactive power simultaneously, where the degree of harmonic pollution and the deterioration
of power factor at the AC sources can be better avoided. Besides, the proposed UPQC will be
embedded with the capability of voltage disturbance filtering such that both utility and customer voltage quality can be maintained. To validate the effectiveness of this proposed approach, scenarios including the voltage sag and harmonic compensation were both tested
through the software simulation and experimental validation. From the test results, they have
consolidated the feasibility and practicability of the approach for the applications considered.
目錄
中文摘要 I
英文摘要 Ⅱ
誌謝 III
目錄 IV
表目錄 VII
圖目錄 VIII
符號說明 XIII
第一章 緒論 1
1-1研究背景與動機 1
1-2目的與方法 4
1-3內容大綱 6
第二章 整合型電力品質調節器之操作理論 7
2-1簡介 7
2-2整合型電力品質調節器架構 7
2-3整合型電力品質調節器之系統功率潮流分析 11
2-4-1並聯電力轉換器設計 18
2-4-2串聯電力轉換器設計 25
第三章 系統硬體規劃設計 30
3-1簡介 30
3-2整合型電力品質調節器之主電力架構 30
3-2-1變流器電路 32
3-2-2緩震電路 33
3-2-3低通濾波器設計 34
3-3並聯電力轉換器之控制電路設計 34
3-3-1微控制器簡介 35
3-3-2並聯電力轉換器控制外迴路設計 38
3-3-3並聯電力轉換器控制內迴路設計 44
3-4串聯電力轉換器之控制電路設計 45
3-4-1串聯電力轉換器控制外迴路設計 48
3-4-2串聯電力轉換器控制內迴路設計 49
3-5功率晶體驅動電路 50
3-5-1正弦脈波寬度調變 50
3-5-2光耦合隔離驅動電路 52
3-6保護電路 54
3-6-1過電壓保護 55
3-6-2過電流保護 56
3-6-3軟式保護 57
第四章 系統模擬與實測結果 60
4-1簡介 60
4-2並聯電力轉換器模擬及實測結果 62
4-3串聯電力轉換器模擬及實測結果 67
4-4整合型電力品質調節器之模擬及實測結果 71
4-4-1整合型電力品質調節器之電阻性負載測試 71
4-4-2整合型電力品質調節器之電感性負載測試 74
4-4-3整合型電力品質調節器之非線性負載測試 77
4-4-4 系統暫態響應測試 81
第五章 結論與未來研究方向 90
5-1 結論 90
5-2 未來研究方向 91
參考文獻 92
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