無位置量測三相四開關直流無刷馬達之速度控制研究

Tzu-Chien Wang; 王子健

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/37409

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	劉志文(Chih-Wen Liu)
dc.contributor.author	Tzu-Chien Wang	en
dc.contributor.author	王子健	zh_TW
dc.date.accessioned	2021-06-13T15:27:11Z	-
dc.date.available	2013-07-21
dc.date.copyright	2008-07-21
dc.date.issued	2008
dc.date.submitted	2008-07-17
dc.identifier.citation	直流無刷馬達與三相四開關變頻器 [1]T. J. E. Miller, “Brushless Permanent-Magnet and Reluctance Motor Drives”, New York: Oxford University Press, ISBN 019-85-9369-4, 1989. [2]J.-H. Lee, S.-C. Ahm and D.-S. Hyun, “A BLDCM drive with trapezoidal back EMF using four-switch three phase inverter”, Proceedings of IEEE Industry Applications, vol. 3, pp. 1705-1709, Oct., 2000. [3]B.-K. Lee, T.-H. Kim and M. Ehsani, “On the feasibility of four-switch three-phase BLDC motor drives for low cost commercial applications: topology and control”, IEEE Transactions on Power Electronics, vol. 8, pp. 164-172, Jan., 2003. [4]P. Pillay and R. Krishnan, “Modeling, simulation, and analysis of permanent-magnet motor drives. Part II: The brushless DC motor drive”, IEEE Transactions on Industry Applications, vol. 25, pp. 274-279, April, 1989. [5]林正宗, “三相四開關直流無刷馬達之無速度感測控制” ,國立台灣大學電機工程學研究所博士論文, 民國96年7月. [6]“Uni- and bipolar hall IC switches for magnetic field applications”, Infineon technology TLE4905L Data Sheet, pp. 12-14, Sep., 1997. 無感測控制控制策略 [7]K. Iizuka, H. Uzuhashi, M. Kano, T. Endo, and K. Mohri, “Microcomputer control for sensorless brushless motor”, IEEE Transactions on Industry Applications, vol. IA-21, no. 4, pp. 595–601, May, 1985. [8]C.-H. Chen, and M.-Y. Cheng, “A new sensorless control scheme for brushless DC motors without phase shift circuit”, Proceedings of IEEE Applied Power Electronics Conference and Exposition (APEC), pp. 1084-1089, Nov., 2005. [9]J. C. Moreira, “Indirect sensing for rotor flux position of permanent magnet AC motors operating over a wide speed range”, IEEE Transactions on Industry Applications, vol. 32, no. 6, pp. 1394-1401, Nov./Dec., 1996. [10]J. X. Shen, Z. Q. Zhu, and David Howe, “Sensorless flux-weakening control of permanent-magnet brushless machines using third harmonic back EMF”, IEEE Transactions on Industry Applications, vol. 40, no. 6, pp. 1629-1636, Nov./Dec., 2004. [11]Paul P. Acarnley and John F. Eatson, “Review of position-sensorless operation of brushless permanent-magnet machines”, IEEE Transactions on Industrial Electronics, vol. 53, no. 2, pp. 352-362, April , 2006. [12]H.-C. Chen, “Development of position sensorless brushless DC motor drives”, Ph.D. dissertation, Department of Electrical Engineering, National Tsing Hua University, Taiwan, 2000. [13]S. Ogasawara and H. Akagi, “An approach to position sensorless drive for brushless DC motors”, IEEE Transactions on Industry Applications, vol. 27, pp. 928-933, Sep./Oct., 1991. [14]R.-L. Lin, M.-T. Hu, C.-Y. Lee and S.-C. Chen, “Using phase-current sensing circuit as the position sensor for brushless DC motors without shaft position sensor”, Proceedings of IEEE Industry Applications Society Annual Meeting (IAS), vol. 1, pp. 215-218, Nov., 1989. [15]J. P. Johnson and M. Ehsani, “Sensorless brushless DC control using a current waveform anomaly”, Proceedings of IEEE Industry Applications Society Annual Meeting (IAS), vol. 1, pp. 151-158, Oct., 1999. [16]A. Consoli, S. Musumeci, A. Reciti, and A. Testa, “Sensorless vector and speed control of brushless motor drives”, IEEE Transactions on Industrial Electronics, vol. 41, pp. 91-96, Feb., 1994. [17]N. Matsui and M. Shigyo, “Brushless DC motor control without position and speed sensors”, IEEE Transactions on Industry Application, vol. 28, pp. 120-127, Jan./Feb., 1992. [18]H.-G. Yeo, C.-S. Hong, J.-Y. Yoo, Hyeon Jang, Y.-D. Bae, and Y.-S. Park, “Sensorless drive for interior permanent magnet brushless DC motors”, Proceedings of Electric Machines and Drives, pp. TD1/3.1-TD1/3.3, May, 1997. [19]C.-T. Lin, C.-W. Hung, and C.-W. Liu, “Position sensorless control for four-switch three-phase brushless DC motor drives” IEEE Transactions on Power Electronics, pp. 438-444, Jan., 2008. [20]C.-T. Lin, C.-W. Hung, and C.-W. Liu, “Sensorless control for four-switch three-phase brushless DC motor drives”, Proc. Of IEEE Industry Applications Society Annual 2006 Conference, (IAS 2006), pp. 2048-2053, Oct., 2006. 變頻取樣結構 [21]C.-W. Hung, C.-T. Lin, C.-W. Liu, and J.-Y. Yen, “A variable sampling controller for brushless DC motor drives with low resolution position sensors”, IEEE Transactions on Industrial Electronics, pp. 2046-2052, Oct., 2007. [22]C.-W. Hung, C.-T. Lin, and C.-W. Liu, “An efficient simulation technique for the variable sampling effect of BLDC motor”, the 33rd Annual Conference of the IEEE Industrial Electronics Society (IECON), pp. 1175-1179, Nov., 2007. 模糊PI控制器 [23]G.-R. Tu and R.-C. Hwang, “Optimal PID speed control of brushless DC motors using LQR approach”, Proceedings of IEEE Conference on Systems, Man and Cybernetics, pp. 473-478, Oct., 2004. [24]Gene F. Franklin, J. David Powell, and Michael Workman, “Digital control of dynamic systems”, Addison-Wesley, ISBN 0-201-33153-5, 1997. [25]孫宗瀛, 楊英魁, “Fuzzy控制：理論、實作與應用”, 全華科技圖書股份有限公司, ISBN 957-21-0733-X, 2001. [26]C.-T. Lin, C.-W. Hung, and C.-W. Liu, “Fuzzy PI controller for BLDC motors considering variable sampling effect”, the 33rd Annual Conference of the IEEE Industrial Electronics Society (IECON), pp. 1180-1185, Nov., 2007. DSP [27]“TMS320F243 Evaluation Module”, TI Technical Reference, pp. 1-3, March, 2000. [28]“Analysis of the Sallen-Key Architecture”, TI Application Repoert, Sep., 2002. 其他 [29]Diego Puyal, Luis A. Barragán, Jesús Acero, José M. Burdío and Ignacio Millán,“An FPGA-based digital modulator for full- or half-bridge inverter control”, IEEE Transactions on Power Electronics, vol. 21, no. 5, pp.1479 - 1483, Sep., 2006.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/37409	-
dc.description.abstract	本論文驗證了低成本之無位置感測器三相四開關驅動器其結構的可行性，並提出一新型的模糊PI控制法則，以處理變取樣回授現象，使整個系統效率最佳化與強健化。除理論推導外，論文並提供完整實驗結果加以驗證。自動化是未來工業發展的必然趨勢，馬達驅動系統在整個自動化的過程中扮演了相當關鍵的角色，而降低馬達驅動器的製造成本也成為了未來的趨勢。本論文應用了新型的無轉子位置量測器的換相控制技術與三相四開關的直流無刷馬達驅動結構，藉以降低成本：首先，無感測控制是偵測兩相浮動電壓訊號的交越點，以求出適當的換相時機，此無感測控制只需要兩個電壓訊號，不需任何轉子位置感測器，不僅減少感測器的使用，還可增加系統的可靠度；接著，針對三相四開關的直流無刷馬達驅動器本研究提出應用非對稱脈寬調變技術和新型的無位置感測控制，不僅減少了電力開關的數量，且不需要額外的轉子位置感測器，實現了一個相當經濟的直流無刷馬達驅動器。不論在傳統裝有霍爾感測器的結構，或無位置感測器方式，直流無刷馬達運轉時，其位置回授訊號的頻率，會隨著轉速改變而有所不同，而本論文提出考慮變頻取樣現象的模糊PI控制器，經由模糊邏輯推論和三個不同的PI控制器所組成，根據轉速的不同，觸發定義的PI控制器，最後將命令值權重加總，下達命令給變頻器以控制脈波寬度調變(PWM)的責任周期狀態。如此當馬達轉速改變時，模糊PI控制器可將轉速誤差根據速度狀態的不同計算出適當的命令值，落實了自由度更高的控制器設計及更強健的速度控制。而本文所設計的模糊PI控制器，以馬達轉速為參考，減少模糊邏輯設計的複雜度，使整個理論更容易實踐。最後，使用DSP來撰寫整個控制器的演算法，並針對各種取樣方式之控制器設計的情況下，進行無載及有載的實驗，並且做出相關的比較與討論，以驗證硬體結構與控制器之可行性與效率。	zh_TW
dc.description.abstract	This thesis proves the practicability of the low cost structure using a four-switch three-phase inverter without position sensors, and proposes a novel fuzzy PI control theory. Besides theory computation, the thesis also presents complete experimental results in proof of the theory. Decreasing the cost of the actuators is a tendency in the future. This thesis applies a novel asymmetric pulse width modulation (PWM) scheme and uses the structure of four-switch three-phase (FSTP) brushless dc (BLDC) motor drives to reduce the cost. This PWM scheme not only achieves the BLDC motor using FSTP inverter, but also does not require any current sensor and complex algorithm, so the lowest manufacture cost of the inverter could be achieved. First, this thesis applies a novel commutation control for the FSTP BLDC motor drive without using position sensors. This sensorless control detects the crossing point of two floating voltages, and estimates the appropriate commutation timing. It only requires two voltage sensors to reduce the cost of position sensors and increases the reliability of whole system. Furthermore, this technique reduces the numbers of power switches and doesn’t require any position sensor. When the brushless dc motor runs with or without Hall sensors, the frequency of the position signals depends on the rotor speed. Considering this phenomenon, the fuzzy PI controller including three fuzzy logics and three PI controllers is designed in this thesis. If the speed of BLDC motor varies, the fuzzy PI controller will trigger the defined PI controllers depending on the rotor speed and sum the weighted output of each PI controllers. Then it delivers the command to the inverter in order to modulate the duty cycle. This kind of fuzzy PI controller provides higher flexibility of design, and a more robust goal is accomplished. The fuzzy logic of the fuzzy PI controller designed in this thesis is based on the rotor speed, and therefore the controller reduces the complex of fuzzy logics and is easy to be implemented. Finally, the whole algorithm is implemented in a DSP. This thesis focuses on distinct sampling methods, and the experimental results with distinct conditions are compared and discussed.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T15:27:11Z (GMT). No. of bitstreams: 1 ntu-97-R95921077-1.pdf: 2232437 bytes, checksum: 1817ab1391ea9fad5b2d8e27755a6189 (MD5) Previous issue date: 2008	en
dc.description.tableofcontents	致謝 I 摘要 II ABSTRACT III 符號索引 IV 目錄 VI 圖目錄 VIII 表目錄 X 第1章緒論 11 1.1 前言 11 1.2 研究動機 11 1.3 研究貢獻 13 1.4 章節介紹 13 第2章三相四開關直流無刷馬達 15 2.1 前言 15 2.2 直流無刷馬達驅動 15 2.3 三相四開關變頻器 18 2.4 傳統三相四開關變頻器切換法則 18 2.5 新型三相四開關變頻器切換法則 24 2.6 結論 26 第3章無位置感測器換相策略 27 3.1 前言 27 3.2 傳統無感測控制策略 27 3.2.1 偵測電壓 27 3.2.2 監視電流 31 3.2.3 使用觀測器(Observers) 33 3.2.4 估算定子電感值 33 3.3 新型無感測控制策略 34 3.3.1 反電動勢波形及換流時機之關係 35 3.3.2 無感測控制時序 37 3.3.3 啟動策略 38 3.3.4 結論 38 第4章考慮變頻取樣影響之速度控制 40 4.1 前言 40 4.2 連續時間之直流無刷馬達模型 40 4.3 定頻取樣之直流無刷馬達模型 41 4.4 考慮變頻取樣之模糊控制 43 4.4.1 模糊化 44 4.4.2 邏輯推論 46 4.4.3 解模糊 47 第5章控制策略之實現 48 5.1 實驗系統架構之簡介 48 5.2 DSP TMS320F243之介紹 50 5.3 相電壓量測電路 52 5.4 實驗流程設計 53 5.4.1 c相分壓電容設計 54 5.4.2 實驗流程 54 5.5 實驗結果 56 5.5.1 無載實驗 56 5.5.1.1 相電壓與電流波形 56 5.5.1.2 各種取樣頻率的轉速表現 58 5.5.2 有載實驗 62 5.6 結論 63 第6章總結與未來研究方向 64 6.1 總結 64 6.2 未來研究方向 64 參考文獻 66 附錄A 70
dc.language.iso	zh-TW
dc.subject	模糊控制	zh_TW
dc.subject	直流無刷馬達	zh_TW
dc.subject	三相四開關變頻器	zh_TW
dc.subject	變頻取樣	zh_TW
dc.subject	無感測器控制	zh_TW
dc.subject	數位訊號處理	zh_TW
dc.subject	four-switch three-phase inverter	en
dc.subject	fuzzy control	en
dc.subject	digital signal processing	en
dc.subject	senseless control	en
dc.subject	brushless dc motor	en
dc.subject	variable sampling	en
dc.title	無位置量測三相四開關直流無刷馬達之速度控制研究	zh_TW
dc.title	Speed Control of Four-Switch Three-Phase Brushless DC Motor without Position Sensors	en
dc.type	Thesis
dc.date.schoolyear	96-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	許源浴(Yuan-Yih Hsu),江昭皚(Joe-Air Jiang),俞齊山(Chi-Shan Yu)
dc.subject.keyword	三相四開關變頻器,直流無刷馬達,無感測器控制,數位訊號處理,模糊控制,變頻取樣,	zh_TW
dc.subject.keyword	four-switch three-phase inverter,brushless dc motor,senseless control,digital signal processing,fuzzy control,variable sampling,	en
dc.relation.page	69
dc.rights.note	有償授權
dc.date.accepted	2008-07-17
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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