臺灣博碩士論文加值系統

交流電力系統之電壓頻率主要為60Hz與50Hz，而400Hz之交流電源則被用於特定之通訊、船艦、航空等用途。如有一頻率轉換器可將400Hz之電壓轉換成60Hz與50Hz之電壓，或可將60Hz或50Hz之電壓轉換成400Hz之電壓，將可提升60Hz與50Hz一般電源之靈活性與使用400Hz電壓之特殊用電設備之方便性。
本論文提出一以解耦合技術為基礎之雙向頻率轉換器，透過解耦合技術僅需單級電力電子轉換器即可達到雙向頻率轉換之功能。為驗證本論文所提出之以解耦合技術為基礎之雙向頻率轉換器之可行性，將設計一以數位信號處理器TMS320F28069為控制器之60Hz-400Hz雙向頻率轉換器進行實驗驗證。實驗結果證明本論文所提出之頻率轉換器可達到預期之功能。

The frequency of most AC power systems is 50Hz or 60Hz. However the 400Hz power systems are used in the communications, vessels and aircraft. If there is a frequency converter that can convert 400Hz voltage to 60Hz and 50Hz, or convert 60Hz or 50Hz voltage to 400Hz, it will improve the flexibility of 60Hz and 50Hz general power supplies and the convenience of using special power equipments with 400Hz voltage.
This paper proposes a 60Hz-400Hz bi-directional frequency power converter based on decoupling technique. Through the decoupling technology, the function of bi-directional frequency conversion can achieve using only a single-stage power electronic converter. To verify the feasibility of the proposed 60Hz-400Hz bi-directional frequency power converter based on decoupling technique, a 60Hz-400Hz bi-directional frequency converter with the digital signal processor TMS320F28069 as controller was designed for experimental verification. The experimental results prove that the proposed frequency converter can achieve the expected performance.

摘要 i
ABSTRACT ii
致謝 iii
目錄 iv
表目錄 vii
圖目錄 viii
符號說明 xvi
第一章、緒論 1
1.1 研究背景與動機 1
1.2 研究目的 2
1.3 論文綱要 3
第二章、400Hz交流電源系統 5
2.1 燃油發電機組 5
2.2 旋轉頻率轉換器(RFC) 7
2.2.1 馬達 8
2.2.2 發電機 11
2.2.3 旋轉頻率轉換器(RFC)之應用 12
2.3 固態頻率轉換器(SSFC) 13
2.3.1 兩級式交流-交流轉換器 13
2.3.2交流-交流矩陣轉換器 14
第三章、全橋電能轉換器 17
3.1全橋電能轉換器之架構與控制 17
3.2 全橋電能轉換器控制迴路 22
3.3 非線性負載補償 30
3.3.1非線性負載之影響 30
3.3.2 比例諧振控制器 32
第四章、解耦合變壓器 38
4.1 解耦合變壓器阻抗分析 39
4.2 解耦變壓器之規格 41
4.2.1 解耦合變壓器之工作頻率 42
4.2.2 解耦合變壓器鐵芯之選用 43
4.2.3 解耦合變壓器之額定功率 45
4.3 解耦合變壓器實測 47
4.3.1共模迴路阻抗量測 48
4.3.2 差模迴路阻抗量測 51
第五章、以解耦合技術為基礎之雙向頻率轉換器 54
5.1 以解耦合技術為基礎之雙向頻率轉換器之電路架構 54
5.1.1以解耦合技術為基礎之雙向頻率轉換器之電路分析 55
5.1.2 三臂橋式電能轉換器 59
5.2 以解耦合技術為基礎之雙向頻率轉換器之控制原理 67
第六章、模擬與實驗結果 74
6.1 模擬結果 75
6.1.1 60Hz電源轉400Hz電源之模擬結果 75
6.1.2 400Hz電源轉60Hz電源之模擬結果 81
6.2 實驗結果 87
6.2.1 60Hz電源轉400Hz電源之實測結果 87
6.2.2 400Hz電源轉60Hz電源之實測結果 101
第七章、結論 117
7.1 總結 117
7.2 未來研究方向 117
參考文獻 118

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