跳到主要內容

臺灣博碩士論文加值系統

(3.235.60.144) 您好!臺灣時間:2021/07/27 01:49
字體大小: 字級放大   字級縮小   預設字形  
回查詢結果 :::

詳目顯示

: 
twitterline
研究生:李家鴻
研究生(外文):Chia-Hung Li
論文名稱:混合式電力濾波器之新型電路架構
論文名稱(外文):The Novel Power Converter Topology for Hybrid Power Filter
指導教授:周宏亮
指導教授(外文):Hurng-Liang Jou
學位類別:碩士
校院名稱:國立高雄應用科技大學
系所名稱:電機工程系碩士班
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:2006
畢業學年度:95
語文別:中文
論文頁數:77
中文關鍵詞:電力轉換器混合式電力濾波器諧波
外文關鍵詞:power converterhybrid power filterharmonic
相關次數:
  • 被引用被引用:10
  • 點閱點閱:843
  • 評分評分:
  • 下載下載:80
  • 收藏至我的研究室書目清單書目收藏:0
近年來,由於非線性負載使用量快速增加,已造成電力品質日漸惡化,電力系統諧波汙染問題引發用電事故頻傳,輕則造成生產線中斷,重則引發工安事故。常用之諧波改善技術有被動式電力濾波器與主動式電力濾波器,然而兩者皆各有其優缺點存在,為了有效改善被動式電力濾波器與主動式電力濾波器之缺點,於是有結合被動式與主動式電力濾波器之設備被提出,稱之為混合式電力濾波器。混合式電力濾波器可改善傳統被動式電力濾波器只能濾除單一諧波頻率之缺點,而其電力轉換器之容量遠小於主動式電力濾波器之容量額定,可有效降低整體濾波器成本與增加濾波容量。
本論文提出一種新型混合式電力電濾波器之電路架構,此架構之特點與傳統使用於混合式電力濾波器之單相、三相與三相四線式全橋式電力轉換器相較,可以省下兩個電力電子功率開關元件。為驗證本文所提電路架構之可行性,將發展單相、三相與三相四線式混合式電力濾波器之硬體雛型進行實測,實測結果證實本文所提之電路架構能達到預期的效果。
The wide use of power electronic related nonlinear loads has resulted in the problem of harmonic pollution in recent years. Therefore, the events caused by harmonics may result in the interruption of production even the industry safety. The passive power filters and active power filters were used to solve the problems of harmonic conventionally. However, they still have some disadvantages. In order to solve the disadvantages of active power filters and passive power filters, the hybrid power filter combined by an active power filter and a passive power filter was developed. The hybrid power filter can suppress harmonics effectively. Moreover, the capacity of the power converter used in the hybrid power filter is smaller than that used in the active power filter. Hence, the cost of hybrid power filter is more competitive than that of active power filter.
In this paper, a novel power converter topology for hybrid power filters is proposed. The salient feature of the proposed power converter topology is that it can save two power electronic switches as compared with the conventional full bridge power converter topology. To demonstrate the performance of the proposed power converter topology for the hybrid power filter, a single-phase hybrid power filter, a three-phase hybrid power filter and a three-phase four-wire hybrid power filter are developed and tested. Experimental results show that the proposed power converter topology for the hybrid power filters can reach the expected performance.
第一章 前言 1
1.1 研究背景與動機 1
1.2 研究目的 2
1.3 論文大綱 2
第二章 諧波與諧波改善技術 4
2.1 諧波定義 4
2.2 諧波來源與影響 5
2.3 諧波改善技術 7
2.3.1 被動式電力濾波器 7
2.3.2 主動式電力濾波器 11
2.3.3 混合式電力濾波器 12
2.3.3.1 串聯鏈結型混合式電力濾波器 13
2.3.3.2 並聯型混合式電力濾波器 14
2.3.3.3 串聯型混合式電力濾波器 14
2.4 諧波改善設備比較 15
第三章 硬體介面電路與數位控制器 17
3.1 硬體介面電路 17
3.1.1 電源電路 17
3.1.2 直流電壓回授電路 18
3.1.3 市電電壓回授電路 18
3.1.4 電流回授電路 19
3.1.5 功率開關元件驅動電路 19
3.2 數位控制器 20
3.2.1 頻率、相位鎖定程式 22
3.2.2 數位積分器 23
3.2.3 數位一階低通濾波器 24
3.2.4 數位帶通濾波器 25
3.2.5 混合式電力濾波器之主程式 26
第四章 單相混合式電力濾波器之新型電路架構 28
4.1 單相混合式電力濾波器之電路架構 29
4.2 單相混合式電力濾波器之電路分析 29
4.3 單相混合式電力濾波器之控制方法 34
4.4 單相混合式電力濾波器之實測結果 35
第五章 三相混合式電力濾波器之新型電路架構 41
5.1 三相混合式電力濾波器之電路架構 41
5.2 三相混合式電力濾波器之電路分析 42
5.3 三相混合式電力濾波器之控制方法 48
5.4 三相混合式電力濾波器之實測結果 49
第六章 三相四線式混合式電力濾波器之新型電路架構 57
6.1 三相四線式混合式電力濾波器之電路架構 57
6.2 三相四線式混合式電力濾波器之電路分析 60
6.3 三相四線式混合式電力濾波器之控制方法 65
6.4 三相四線式混合式電力濾波器之實測結果 66
第七章 結論 73
7.1 總結 73
7.2 未來發展方向 73
參考文獻 75
[1]Henderson, R. D. and Rose, P. J. ‘‘Harmonics: The Effects on Power Quality and Transformers’’, IEEE Trans. on Industry Applications, Vol.30, No.3, 1994, pp. 528-532.
[2]Gonzalez, D. A. and Mccall, J. C. ‘‘Design of Filters to Reduce Harmonic Distortion in Industrial Power Systems’’, IEEE Trans. on Power Delivery, IA-23, No.3, 1987, pp.504-511.
[3]Wu, C. J., Chiang, J. C., Yen, S. S., Liao, C. J., Yang, J. S. and Guo, T. Y. ‘‘Investigation and Mitigation of Harmonic Amplification Problems Caused by Single-Tuned Filters’’, IEEE Trans. on Power Delivery, Vol.13, No..3, 1998, pp.800-806.
[4]Grady, W. M., Samotyj, M. J. and Noyola, A. H. ‘‘Survey of Active Power Line Conditioning Methodologies’’, IEEE Trans. on Power Delivery, Vol.5, No.3, 1990, pp.1536-1542.
[5]Singh, B., Haddad, K. A. and Chandra, A. ‘‘A Review of Active Filter for Power Quality Improvement’’, IEEE Trans. on Industrial Electronics, Vol.46, No.5, 1999, pp.960-971.
[6]Wu, J. C. and Jou, H. L. ‘‘Simplified control method for the single-phase active power filter’’, IEE Proc. Electric Power Applications, Vol.143, No.3, 1996, pp.219-264.
[7]F. Z . Peng, H. Akagi, and A. Nahae, “A new approach to harmonic compensation in power systems”, IEEE/IAS Ann. Meeting Conf. Rec., 1988, pp. 874-880.
[8]Peng, F. Z., Akagi, H. and Nabae, A. ‘‘Compensation Characteristics of the Combined System of Shunt Passive and Series Active Filters’’, IEEE Trans., 1993, IA-29, (1), pp.144-152.
[9]Huann-Keng Chiang, Bor-Ren Lin, Kai-Tsang Yang, Kuan-Wei Wu ‘‘Hybrid Active Power Filter for power quality compensation’’, International Conference on Power Electronics and Drives Systems, 2005. PEDS 2005., vol. 2, pp. 949-954.
[10]Jung, G. H. and Cho, G. H. ‘‘New Active Power Filter with Simple Low Cost Structure without Tuned Filter’’, IEEE Power Electronics Specialist Conference, 1998, pp. 217-222.
[11]Bhattacharya, S., Cheng, P. T. and Divan, D. M. ‘‘Hybrid Solutions for Improving Passive Filter Performance in High Power Applications’’, IEEE Trans., 1997, IA-33, (3), pp.732-747.
[12]Fujita, H. and Akagi, H. ‘‘A Practical Approach to Harmonic Compensation in Power system, Series Connection of Passive and Active Filters’’, IEEE Trans., 1991, IA-27, pp.1020-1025.
[13]Detjen D., Jacobs J., De Doncker R. ‘‘A new Hybrid Filter to Dampen Resonances and Compensate harmonic Currents in Industrial Power Systems with Power Factor Correction Equipment’’, APEC, Anaheim/California, 2001.
[14]H. Fujita and H. Akagi, ‘‘A practical approach to harmonic compensation in power systems—Series connection of passive and active filters’’, IEEE Trans. Ind. Applicat., 1991 vol. 27, pp. 1020–1025.
[15]Jeop Jacobs, Andreas Fischer, Dirk Detjen, Rik W. De Doncker ‘‘An optimized hybrid power filter and VAR compensator’’, Industry Applications Conference, 2001. Thirty-Sixth IAS Annual Meeting. Conference Record of the 2001 IEEE, vol. 4, pp. 2412-2418.
[16]S. Rahmani, K. Al-Haddad, F. Fnaiech, ‘‘A three phase shunt hybrid power filter adopted a general algorithm to compensate harmonics, reactive power and unbalanced load under nonideal mains voltages’’, 2004 IEEE International Conference on Industrial Technology, 2004. IEEE ICIT '04. vol. 2, pp. 651-656.
[17]N. Mohan, T. M. Undeland and W. P. Robbins, 1995, Power Electronics Converter, Applications, and Designs, 2nd ed.., John Wiley & Sons, Inc., New York.
[18]R. C. Dugam, M. F. McGranaghan and H. W. Beaty, 1996, Electrical Power System Quality, McGraw-Hill, New York.
[19] 江榮城,中華民國八十九年,電力品質實務(一),全華科技圖書股份有限公司,二版,台北市。
[20]許登進,”高電阻接地系統與非接地系統”,電機月刊,第8期,1998,pp.221-232.
[21]梁志堅,”工業配電系統之接地與保護”,電機月刊,第2期,2000,pp.124-145.
[22]P. T. Cheng, Y. F. Huang, and C. C. Hou, “A new harmonic suppression scheme for three-phase four-wire distribution systems,” IEEE APEC, March 2001, Vol.2, pp.1287-1293.
[23]Yi Zhang, Xinjian Jiang, Dongqi Zhu ‘‘Study on Combined System of Hybrid Power Filter and Controlled Reactor’’, Sixth International Conference on Electrical Machines and Systems, 2003, vol. 1, pp.339-342.
QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top