 電機工程系(所) |
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| 學經歷: |
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| 學歷: BS:Department of Electrical Engineering, National Taiwan University of Science and Technology MS:Department of Electrical Engineering, National Taiwan University of Science and Technology Ph D:Department of Electrical Engineering, National Taiwan University of Science and Technology 經歷: 國立臺灣科技大學電機工程系教授且兼任系主任 維吉尼亞科技大學電力電子中心訪問學者 國立臺灣科技大學電機系教授 美國威斯康辛大學電機及電腦系電力電子及馬達控制中心訪問學者 國立台灣科技大學電機系副教授 國立台灣科技大學電機系講師 東南工專電機科講師 |
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| 專業技術 |
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| 電動機驅動,電動機控制,電力電子,微電腦應用,控制器設計 | ||
| 研究成果與計畫 |
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國科會計畫
2009 微型電動機控制系統的關鍵性技術之研發
2009 永磁交流電動機之設計、製作、驅動、控制、應用及關鍵性技術開發-總計畫
2009 永磁交流電動機之設計、製作、驅動、控制、應用及關鍵性技術開發-子計畫二:永磁同步電動機高性能轉軸角度
2009 林正凱--博士後研究
2009 洪約--博士後研究
2008 永磁交流電動機之設計、製作、驅動、控制、應用及關鍵性技術開發-總計畫
2008 微型電動機控制系統的關鍵性技術之研發
2008 永磁交流電動機之設計、製作、驅動、控制、應用及關鍵性技術開發-子計畫二:永磁同步電動機高性能轉軸角度
2007 微型電動機控制系統的關鍵性技術之研發
2007 永磁交流電動機之設計、製作、驅動、控制、應用及關鍵性技術開發-永磁同步電動機高性能控制器及轉軸角度估測器的研製及應用
2006 開關式磁阻馬達之設計、驅動、控制改善及前瞻技術開發─子計畫二:開關式磁阻馬達在洗衣機的應用及其無轉軸驅動器之研發(2/2)
2006 微型無刷馬達之驅動、控制、轉軸角度估測及應用的研究(2/2)
2006開關式磁阻馬達之設計、驅動、控制改善及前瞻技術開發─總計畫(2/2)
2005 開關式磁阻馬達之設計、驅動、控制放善及前瞻技術開發--總計畫(1/2)
2005 微型無刷馬達之驅動、控制、轉軸角度估測及應用的研究(1/2)
2005開關式磁阻馬達之設計、驅動、控制放善及前瞻技術開發--子計畫二:開關式磁阻馬達在洗衣機的應用及其無轉軸驅動器之研製(1/2)
2003 提升產業技術及人才培育研究計畫--以單晶片微處理器為基礎之直流馬達驅動跑步機系統的性能改善
2003 開關式磁阻馬達設計、驅動、控制及應用─子計畫八:開關式磁阻馬達在跑步機的應用及其無轉軸元件驅動器的研製(2/2)
2003 開關式磁阻馬達設計、驅動、控制及應用─總計畫(3/3)
2003 內藏式永磁同步馬達的模式、驅動、控制及應用(1/3)
2002 開關式磁阻馬達設計、驅動、控制及應用─總計畫(2/3)
2002 微電腦跑步機驅動系統之設計及製作
2001 線性永磁同步馬達驅動系統的設計及研製
2001 開關式磁阻馬達設計、驅動、控制及應用-子計畫七:開關式磁阻馬達在跑步機的應用及其無轉軸元件驅動器的研製
2000 無轉軸角度偵測元件之切換式磁阻驅動系統的設計及研製
2000 三層變頻器驅動系統的研製
2000 以矩陣轉換器驅動永磁同步馬達系統的研製
1999 新型永磁式同步驅動系統的設計與研製
1998 同步磁阻馬達的驅動、控制與應用技術之研究(III)
1997 電力電子推動小組:切換式電源供應器關鍵性技術之研發-子計畫二:單極性電流規劃切換式轉換器(Ⅰ)
1997 高性能電力轉換,控制與應用技術之研究-子計畫一:同步磁阻馬達的驅動,控制與應用技術研究(Ⅱ)
1996 高性能電力轉換、控制與應用技術之研究-子計畫一:同步磁阻馬達的驅動、控制與應用技術之研究(I)
1996 開關式磁阻馬達及其驅動器的研究(Ⅱ):控制法則及可靠度改善策略
建教合作計畫
2008 產業研發碩士專班98年度春季班 財團法人資訊工業策進會
2008 無霍爾元件之三相無刷直流馬達驅動IC研發計畫 茂達電子股份有限公司
2007 產業研發碩士專班97年度春季班 財團法人資訊工業策進會
2007 無轉軸偵測元件三相風扇驅動系統 偉詮電子股份有限公司
2006 矩陣轉換器的設計製作及應用(第三年) 東元電機股份有限公司
2006 無轉軸偵測元件單相風扇驅動系統 偉詮電子股份有限公司
2005 交流伺服控制系統性能改善 東元電機股份有限公司
2005 產業研發碩士專班96春季之班 工業局
2005 矩陣轉換器的設計製作及應用(二) 教育部技職司/東元
2005 矩陣轉換器的設計製作及應用 教育部技職司/東元
2005 無刷永磁馬達DSP-based驅動控制技術發展 加維股份有限公司
2003 直流馬達應用於同步桌控制之研製 加維股份有限公司
2001 磁阻馬達模式之分析比較與探討 工研院
1999 新型蓄電池電器及檢測器的研 台電
1998 電力電子技術應用於改善電力品質之研究—子計畫四:以個人電腦為基礎的電力品質量測系統之研究(Ⅰ) 台電
1998 以個人電腦為基礎之量測系統的研究及製作 三華科技
期刊論文
[1] Tian-Hua Liu, Hang-Ting Pu, and Cheng-Kai Lin, “Implementation of an adaptive position control system of a permanent magnet synchronous motor and its application,” IET Proc.-Electr. Power Appl., 2009 (SCI, to appear)
[2] C. K. Lin, T. H. Liu, and C. H. Lo, “Adaptive controller design for a novel sensorless interior permanent magnet synchronous motor drive system,” IEEE Trans. Energy Conversion, 2009 (submitted).
[3] J. L. Chen, T. H. Liu, and C. L. Chen, “Design and implementation of a novel high-performance sensorless control system for interior permanent magnet synchronous motors,” IET Proc.-Electr. Power Appl., 2009 (submitted).
[4] T. H. Liu and C. G. Chen, “Design and implementation of sensorless techniques for switched reluctance drive systems,” International Journal of Electronics, 2009 (SCI, to appear).
[5] C. K. Lin, T. H. Liu, and C. H. Lo, “Implementation of a sensorless interior permanent magnet synchronous motor drive system,” International Journal of Electrical Engineering, vol. 16, no. 5, pp. 343-352, Oct. 2009.
[6] T. Y. Chou, T. H. Liu, and T. T. Cheng, “Design and implementation of an adaptive inverse controller for a micro-permanent magnet synchronous motor control system,” IET Proc.-Electr. Power Appl., vol. 3, no. 5, Sep. 2009, pp. 471-481 (SCI).
[7] C. K. Lin, T. H. Liu, and C. H. Lo, “Sensorless interior permanent magnet synchronous motor drive system with a wide adjustable speed range,” IET Proc.-Electr. Power Appl, vol. 3, no. 2, pp. 133-146, Mar. 2009. (SCI).
[8] Y. H. Chang and T. H. Liu, “Design and implementation of an H-infinite controller for a micropermanent-magnet synchronous motor position control system,” IEE Proc.-Electr. Power Appl, 2008, vol. 2, no. 1, pp. 8-18 (SCI).
[9] C. K. Lin, T. H. Liu, and S. H. Yang, “A nonlinear position controller design with input-output linearization technique for an IPMSM control system,” IET Proc.-Power Electronics, vol. 1, no. 1, Mar. 2008, .pp. 14-26 (SCI).
[10] T. H. Liu, M. T. Lin, and C. L. Chang, “Adaptive controller design for a synchronous reluctance drive considering saturation,” Journal of the Chinese Institute of Engineers, vol. 30, no. 7, Nov. 2007, pp. 1169-1178 (SCI).
[11] T. H. Liu and H. H. Hsu, “Adaptive controller design for a synchronous reluctance motor drive system with direct torque control,” IEE Proc.-Electr. Power Appl., vol. 1, no. 5, Sep. 2007, pp. 815-824 (SCI).
[12] J. L. Shi and T. H. Liu, “Nonlinear controller design for an interior permanent magnet synchronous motor including field weakening operation ,” IEE Proc.-Electr. Power Appl., vol. 1, no. 1, Jan. 2007, pp. 119-126 (SCI).
[13] J. L. Shi, T. H. Liu, and Y. C. Chang, “Position control of an interior permanent magnet synchronous motor without using a shaft position sensor,” IEEE Trans. Ind. Electron., vol. 54, no. 4, Aug. 2007 (SCI).
[14] Y. H. Chang, T. H. Liu, and C. C. Wu, “Novel adjustable micropermanent-magnet synchronous- motor control system without using a rotor-position/speed sensor,” IEE Proc.-Electr. Power Appl., vol. 153, no. 3, May 2006, pp. 429-438 (SCI).
[15] J. L. Shi, T. H. Liu, and Y. C. Chang, “Adaptive controller design for a sensorless IPMSM drive system with a maximum torque control,” IEE Proc.-Electr. Power Appl., vol. 153, no. 6, Nov. 2006, pp. 823-833 (SCI).
[16] T. H. Liu, M. T. Lin, and Y.C. Yang “Nonlinear control of a synchronous reluctance drive system with reduced switching frequency,” IEE Proc.-Electr. Power Appl., vol. 153, no. 1, Jan. 2006, pp. 47-56 (SCI).
[17] T. H. Liu, D. F. Chen, and C. K. Hung, “Nonlinear controller design and implementation for a matrix-converter-based PMSM drive system,” IEE Proc.-Electr. Power Appl. , vol. 152, no. 5, Sep. 2005, pp. 1037-1048. (SCI).
研討會論文
[1] T. H. Liu, H. T. Pu, C. K. Lin, and C. G. Chen, “Adaptive controller design for a PMSM knitting machine control system,” IEEE PEDS-2009 (accept).
[2] T. Y. Chou, T. H. Liu, and T. T. Cheng, “Adaptive controller design for a micro-permanent magnet synchronous motor control system,” IEEE PEDS-2009 (accept).
[3] C. H. Lo, T. H. Liu, and C. K. Lin, “Design and implementation of a sensorless interior permanent magnet synchronous motor drive system for washing machine,” 2009 Taiwan Power Electronics Conference and Exhibition, Chung-Li, Taiwan , pp. 673-678, 2009.
[4] T. T. Cheng, T. H. Liu, and T. Y. Chou, “Research on performance improvement of micro-permanent magnet synchronous motor drive systems,” 2009 Taiwan Power Electronics Conference and Exhibition, Chung-Li, Taiwan , pp. 679-684, 2009.
[5] W. Y. Huang and T. H. Liu, “Design and implementation of a digital-signal-processor based battery charger and estimator,” 2009 Taiwan Power Electronics Conference and Exhibition, Chung-Li, Taiwan , pp. 338-343, 2009
[6] C.. T. Lu and T. H. Liu, “Implementation of a sensorless single-phase fan motor drive system and its integrated-circuit chip design,” Proc. Of the 29th Symp. On Elec. Power Eng., pp. 599-603, Tainai, Taiwan, Dec. 2008.
[7] Y. S. Lee and T. H. Liu, “Design and implementation of a fully-digital matrix converter for PMSM drive system,” Proc. Of the 29th Symp. on Elec. Power Eng., pp. 604-608, Tainai, Taiwan, Dec. 2008.
[8] T. Y. Chou, T. H. Liu, and T. T. Cheng, “Design and implementation of an adaptive inverse controller based micro-permanent magnet synchronous motor speed-control system,” Proc. Of the 29th Symp. on Elec. Power Eng., pp. 1009-1013, Tainei, Taiwan, Dec. 2008.
[9] C. K. Lin, T. H. Liu, and C. H. Lo, “Design and implementation of high performance estimator for an interior permanent magnet synchronous motor drive system,” Proc. of the 29th Symp. on Elec. Power Eng., pp. 1202-1206, Tainai, Taiwan, Dec. 2008.
[10] C. K. Lin, T. H. Liu, and C. H. Lo, “High performance sensorless IPMSM drive with a wide adjustable speed range,” IEEE IECON-2008, Orlando, FL, USA, Nov. 10-13, 2008.
[11] T. H. Liu, C. G. Chen, and C. Y. Lu, “Implementation of a sensorless switched reluctance drive system with reduced vibration and acoustic noise for a washing machine,” Proceedings of 2008 International Conference on Advanced Motor Drives, Power Electronics, and Emerging Technologies, Taipei, Taiwan, Aug. 18-20, 2008, pp. B 2-2-1 to B. 2-2-6.
[12] C. K. Lin, T. H. Liu, and C. H. Lo, “A novel sensorless technique for an IPMSM drive,” Proceedings of 2008 International Conference on Advanced Motor Drives, Power Electronics, and Emerging Technologies, Taipei, Taiwan, Aug. 18-20, 2008, pp. B 1-1-1 to B. 1-1-6.
[13] H. T. Pu, and T. H. Liu, “Design and implementation of an adaptive controller for permanent magnet synchronous motor drive systems,” Proc. of the 2008 Taiwan Power Electron. Conf., Tainai, Taiwan, Sep. 2008, pp. 391-395.
[14] D. H. Yin, T. H. Liu, and Y. H. Chang, “Design and implementation of a sensorless 3-phase dc brushless fan motor drive system,” Proc. of the 2008 Taiwan Power Electron. Conf., Tainai, Taiwan, Sep. 2008, pp. 695-700. 15.
[15] C. Y. Lu, T. H. Liu, and C. G. Chen, “Design and implementation of a high performance sensorless switched reluctance motor drive for washing machines,” Proc. of the 2008 Taiwan Power Electron. Conf., Tainai, Taiwan, Sep. 2008, pp. 731-736.
[16] Y. C. Hsu and T. H. Liu, “Design and implementation of a digital dc/dc converter with power factor correction,” Proc. of the 2008 Taiwan Power Electron. Conf., Tainai, Taiwan, Sep. 2008, pp. 937-942.
[17] C. K. Lin, T. H. Liu, and S. H. Yang, “Design and implementation of a nonlinear controller for an IPMSM position control system,” IEEE IECON-2007, Taipei, Taiwan, Nov. 5-8, 2007, pp. 1027-1032.
[18] T. H. Liu and H. H. Hsu, “Adaptive controller design for a synchronous reluctance motor with direct torque control,” IEEE EUROCON 2007, Warsaw, Poland, Sep. 9-12, 2007, pp. 1725-1732.
[19] Y. H. Chang, T. H. Liu, and D. F. Chen, “Design and implementation of a robust controller for a micro permanent magnet synchronous speed control systems,” Second International Conference on Innovative Computing, Information and Control, Sep. 5-7, 2007, Japan.
[20] K. S. Wang and T. H. Liu, “Implementation of a novel synchronous-rectifier forward converter,” IEEE ICIEA-2007, Harbin, China, May 23-25, 2007.
[21] J. B. Wang, T. H. Liu, and J. C. Shiau, “Design and implementation of an interleaved full-bridge converter,” Proc. of the 2007 Taiwan Power Electron. Conf., Chang Hua, Taiwan, Sep. 2007, pp. 1349-1354.
[22] C. C. Wu, T. H. Liu, and Y. H. Chang, “Design and implementation of a micro-permanent magnet synchronous motor drive system,” Proc. of the 2007 Taiwan Power Electron. Conf., Chang Hua, Taiwan, Sep. 2007, pp. 921-926.
[23] H. R. Tsai and T. H. Liu, “Design and implementation of a sensorless switched reluctance drive by using flux estimating method,” Proc. of the 2007 Taiwan Power Electron. Conf., Chang Hua, Taiwan, Sep. 2007, pp. 275-280.
[24] C. L. Chang, T. H. Liu, and M. T. Lin, “Design and implementation of an adaptive controller for synchronous reluctance drive systems,” Proc. of the 2007 Taiwan Power Electron. Conf., Chang Hua, Taiwan, Sep. 2007, pp. 791-796.
[25] J. L. Shi, T. H. Liu, and Y. C. Chang, “Adaptive controller design for a sensorless IPMSM position control system,” IEEE IECON-2006, Paris, France, Nov. 6-10, 2006, pp. 1326-1331.
[26] J. L. Shi, T. H. Liu, and S. H. Yang, “Field weakening with nonlinear controller design for an interior permanent magnet synchronous motor,” IEEE IECON-2006, Paris, Frence, Nov. 6-10, 2006, pp. 1411-1416.
[27] Y. H. Chang, T. H. Liu, and C. C. Wu, “A novel micro permanent magnet synchronous motor drive system without using a rotor position,” IEEE ICIEA-2006, Singapore, May 24-26, 2006, pp. 481-486. 28.
[28] M. S. Liu, T. H. Liu, M. T. Lin, C. G. Chen, W. B. Tsai, and Y. T. Chou, “Design and implementation of a high power factor brushless dc motor drive system for running machines,” Proc. of the 2006 Taiwan Power Electron. Conf., Yulin, Taiwan, Sep. 2006, pp. 841-846.
[29] J. L. Chen and T. H. Liu, “Implementation of a sensorless permanent magnet synchronous motor drive system,” Proc. of the 2006 Taiwan Power Electron. Conf., Yulin, Taiwan, Sep. 2006, pp. 116-121.
[30] K. S. Wang and T. H. Liu, “Performance improvement and implementation of a synchronous rectifier forward converter,” Proc. of the 2006 Taiwan Power Electron. Conf., Yulin, Taiwan, Sep. 2006, pp. 163-168.
[31] J. B. Wang, J. C. Shiau, J. F. Chang, and T. H. Liu, “An efficiency improvement study of the full bridge converter from system load view of point,” Proc. of the 2006 Taiwan Power Electron. Conf., Yulin, Taiwan, Sep. 2006, pp. 278-283.
[32] Y. H. Chang, T. H. Liu, and C. C. Wu, “Design and implementation of a H∞ controller for a micro PMSM drive system,” Proc. of the 27th Symp. on Electric Power Eng., Hsin-Chu, Taiwan, Dec. 2006.
[33] K. Lin, T. H. Liu, and S. H. Yang, “Space vector pulse width modulation for permanent magnet synchronous drive with maximum torque/ampere control,” Proc. of the 27th Symp. on Electric Power Eng., Hsin-Chu, Taiwan, Dec. 2006.
[34] J. L. Shi, T. H. Liu, and S. H. Yang, “Nonlinear controller design for an interior permanent magnet synchronous motor over wide speed range,” Proc. of the 27th Symp. on Electric Power Eng., Hsin-Chu, Taiwan, Dec. 2006.
[35] J. Wu, T. H. Liu, and Y. F. Feng, “Design and implementation of ac motor speed control systems driven by a matrix converter,’ Proc. Of the 27th Symp. on Electric Power Eng., Hsin-Chu, Taiwan, Dec. 2006.
[36] K, C. Chang, and T. H. Liu, “Development of sensorless switched reluctance motor drive systems for washing machibes,’ Proc. Of the 27th Symp. on Electric Power Eng., Hsin-Chu, Taiwan, Dec. 2006.
[37] J. Wu, T. H. Liu, and Y. F. Feng, “Design and implementation of ac motor speed control systems driven by a matrix converter,’ Proc. Of the 27th Symp. on Electric Power Eng., Hsin-Chu, Taiwan, Dec. 2006.
[38] L. Chang, T. H. Liu, and M. T. Lin, “Design and implementation of a maximum torque control for a synchronous reluctance drive ststem’ Proc. Of the 27th Symp. on Electric Power Eng., Hsin-Chu, Taiwan, Dec. 2006.
[39] T. H. Liu, M. T. Lin, and Y. C. Yang, “Nonlinear position controller design for SynRM drive systems with reduced switching frequency,” IEEE IECON-2005, Raleigh, North Carolina, Nov. 6-10, 2005, pp. 1550-1555.
[40] H.J. Gieun, T.H. Liu, "Design and implementation of a zero-voltage switching dc power supply," 2002 TPEC, Tainan, Taiwan, 2002.
[41] Y. C. Li, T.H. Liu, "Adaptive controller design for a linear permanent magnet synchronous motor position-control system," 2002 TPEC, Tainan, Taiwan, 2002.
[42] D.F. Chen, T.H. Liu, C.K. Hung, "Adaptive backstepping controller design for a matrix converter PMSM drive system," Bangkok, Tailand, 2002.
[43] T.H. Liu, M.T. Lin, C.G. Chen, C.A. Tai, "mplementation of a position control system for a sensorless suynchronous reluctance drive," 2002 IEEE IECON, Sevilla, Spain, 2002.
[44] T.H. Liu, C.G. Chen, "Implementation of a sensorless switched reluctance drive with self-inductance estimating technique," 2002 IEEE IECON, Sevilla, Spain, 2002.
[45] C.K. Hung, D.F. Chen, T.H. Liu, "Implementation of a matrix converter PMSM drive system using an adaptive backstepping control," 2002 Symp. On Electric Power Eng., Jungli, Taiwan, 2002.
[46] G.H. Shue, T.H. Liu, C.G. Chen, C.S. Fan, M.P. Chen "Implementation of a switched reluctance drive system for a running machine," 2002 Symp. On Electric Power Eng., Jungli, Taiwan, 2002.
[47] M.T. Lin, T.H. Liu, "A novel switching scheme of inverter for synchronous reluctance motor drive," 2002 Symp. On Electric Power Eng., Jungli, Taiwan, 2002.
[48] D.F.Chen, T.H. Liu, C.K. Hung, "Nonlinear adaptive-backstepping controller design for a matrix-converter based PMSM control system," IEEE IECON-2003, Roanoke, USA, 2003.
[49] T.H. Liu, C.G. Chen, "Desing and implementation of adaptive backstepping controller for switched reluctance drive system," IEEE IECON-2003, Roanoke, USA, 2003.
[50] T.H. Liu, H.J. Tu, M.T. Lin, "Research on interior permanent magnet synchronous rotor position/speed estimation," 2004 Symp. On Electric Power Eng, Tainan, Taiwan, 2003.
[51] T.H. Liu, C.K. Hung, D.F. Chen, "Adaptive backstepping controller of a matrix converter PMSM drive system," 2004 Symp. On Electric Power Eng, Tainan, Taiwan, 2003.
[52] C.H. Hsu, T.H. Liu, C.G. Chen, "The implementation of switched reluctance motor for a running machine with sensorless techinque," 2004 Symp. On Electric Power Eng, Tainan, Taiwan, 2003.
[53] T.H. Liu, K.L. Wang, C.G. Chen, "Frequency-domain optimal controller design for a permanent linear synchronous motor control system," IEEE IEMDC-2003, Madison, USA, 2003.
[54] W.L Hsu, T.H. Liu, "Design and implementation of a single-chip microprocessor-based drive system for a running machine," 2003 TPEC, Changhua, Taiwan, 2003.
[55] H.Y. Chou, T.H. Liu, W.B. Tsai, "Design and implementation of height control of an adjustable table," 2004 Symp. On Electric Power Eng., Tainan, Taiwan, 2004.
[56] T.H. Liu, Y.C. Yang, M.T. Lin, "A novel switching scheme and nonlinear controller Design for synchronous reluctance drives," 2004 Symp. On Electric Power Eng., Tainan, Taiwan, 2004.
[57] J.L Shi, Y.C. Yang, T.H. Liu, "Implementation of a sensorless drive system for interior permanent magnet synchronous motors," 2004 Symp. On Electric Power Eng., Tainan, Taiwan, 2004.
[58] C.H. Wang, T.H. Liu, "The implementation of switched reluctance motor drive for a running machine," 2004 TPEC, Taipei, Taiwan, 2004.
[59] H.P Huang, T.H. Liu, "Design and implementation of a single-chip microprocessor-based sensorless drive system for a running machine," 2004 TPEC, Taipei, Taiwan, 2004.
[60] T.H. Liu, C.G. Chen, "Implementation of sensorless techniques for switched reluctance drive systems," IEEE IECON-2004, Pusan, Korea, 2004.
[61] D.F. Chen, T.H. Liu, C.K. Hung, "Design and implementation of a sensorless PMSM drive including standstill starting," IEEE IECON-2004, Pusan, Korea, 2004.
[62] J. L. Shi, T. H. Liu, Y. C. Chang, "Position control of a sensorless interior permanent magnet synchronous motor system," IEEE IEMDC-2005, San Antonio, USA, 2005.
[63] T. H. Liu, M. T. Lin, Y. C. Yang, "Nonlinear Position controller design for synchronous reluctance drive systems with reduced switching frequency," IEEE IECON-2005, Raleigh, USA, 2005.
[64] J. L. Shi, T. H. Liu, Y. C. Chang, "Optimal controller design of a sensorless PMSM control system," IEEE IECON-2005, Raleigh, USA, 2005.
[65] Y. C. Shen, T. H. Liu, "Design and implementation of a full-bridge converter with single-stage power factor correction," 2005 TPEC, Hsinchu, Taiwan, 2005.
[66] J.L. Shi, Y.C.Chang, T. H. Liu, "Adaptive backstepping controller design for a sensorless permanent synchronous drive with maximum torque/ ampere control," 2005 TPEC, Hsinchu, Taiwan, 2005.
[67] K.C.Chang, T. H. Liu, "A novel sensorless micro permanent magnet synchronous motor drive system," 2005 TPEC, Hsinchu, Taiwan, 2005.
專利.專書.技術報告
[1] 張益華,劉添華, “新型微型永磁同步馬達無轉軸偵測元件驅動系統研製” 電力電子, 第四期, 第一卷, 16-24 頁, 2006 年1 月.
[2] 石吉亮,張永奇,劉添華, “內藏式永磁同步馬達無轉軸偵測元件驅動系統的製作” 電力電子, 第三期, 第六卷, 63-70 頁, 2005 年11 月.
[3] 劉添華,陳德發,黃育泰,林英哲 “矩陣轉換器驅動永磁同步電動機系統之位移因數控制策略研究” 電力電子, 第三期, 第三卷, 21-28 頁, 2005 年5 月.
[4] 劉添華,黃弘賓 “單晶片微電腦為基礎的無轉軸偵測元件跑步機驅動系統之研製” 電力電子, 第三期, 第二卷, 10-17頁, 2005年3月.
[5] 劉添華,楊幼誠 “同步磁阻電動機的新式切換及控制方法” 電力電子, 第三期, 第一卷, 10-17 頁, 2005年1月.
[6] 劉添華,周浩宇, 周政彥, 蔡文彬 “同步桌高度控制之研製” 電力電子, 第二期, 第四卷, 10-18 頁, 2004年7月.
[7] 劉添華, ”開關式磁阻馬達在跑步機的應用及無轉軸偵測元件驅動系統的研製”工程科技通訊, 71 期, 2003年12月, 第1-5頁.
[8] 劉添華, “多階層高功率變頻器簡介”, 電工通訊, 2001 年第 3 季, 24-35 頁.
[9] 劉添華, 陳德發, “新型矩陣轉換器驅動永磁同步電動機定位控制系統”, 電力 電子雙月刊,63 期, 58-65 頁, 2001年6月.
[10] 劉添華, ”高性能電力轉換,控制與應用技術之研究-子計畫一: 同步磁阻馬達驅動控制與應用技術之研究(I)”工程科技通訊, 31 期, 83-85頁, 87年6月.
[11]劉添華, ”同步式磁阻馬達的研究-模式建立與控制”工程科技通訊, 24 期, 92-93 頁, 86 年7 月.
[12] 劉添華, ”直流無刷伺服器驅動技術”工程科技通訊, 24 期, 86-87 頁, 86 年7 月.
[13] S.-S. Chang, N. M. Chen, T. H. Liu, W. Y. Chang, J. S. Yang, “Simulating starting characteristics of static frequency converters of the pumped storage power plant with electromagnetic transients program,” Monthly Journal of Taipower's Engineering, vo1. 587, July 1997, pp. 63-71.(in Chinese)
[14] T.-H. Liu, C.-Y. Lin, T.-Y. Guo, W.-Y. Chang, and J.-S. Yang, “Modeling and Performance of a Static Frequency Converter Starting Synchronous Machine in a Pumped Storage Power Plant”, Monthly Journal of Taipower's Engineering, vo1. 586, June 1997, pp. 74-87
[15] T. H. Liu, Reluctance motors and drives, Electric Monthly, vol. 67, pp. 115-119, July 1996.
[16] 劉昌煥,吳添保,黃仲欽,彭榮芳,楊宗銘,詹前茂,劉添華,賴炎生,”電機機械” ,東華書局,91 年8 月,二版
[17] 專利名稱:三相交流永磁同步馬達及同步磁阻馬達電流控制型變頻器切換方法
區域:國內 發明人:林明贊, 劉添華, 楊幼誠 證書字號:發明第095112281 生效日期:2009.08 終止日期:2019.08 發照機關:智慧財產局 [18] 專利名稱:微型永磁同步馬達轉軸角速度估測方法
區域:國內 發明人:劉添華, 張益華, 吳家慶 證書字號:發明第275238 生效日期:2007.03 終止日期:2026.01 發照機關:智慧財產局 [19] 專利名稱:開關式磁阻馬達及直流無刷馬達轉軸角/速度估測方法
區域:國內 發明人:劉添華, 陳慶國 證書字號:發明第1246822 生效日期:2006.01 終止日期:2024.03 發照機關:智慧財產局 [20] 專利名稱:三相交流馬達轉軸位置角度之估測方法
區域:國內 發明人:劉添華, 林明贊 證書字號:發明第153522 生效日期:2002.04 終止日期:2020.04 發照機關:智慧財產局 [21] 專利名稱:三相電動機驅動系統降低變頻器切換頻率的方法
區域:國內 發明人:劉添華, 陳志榮 證書字號:發明第099568 生效日期:1999.01 終止日期:2017.09 發照機關:智慧財產局 [22] 專利名稱:切換式磁阻馬達轉軸位置(角度)之估測方法
區域:國內 發明人:劉添華, 馬斌嚴, 陳慶國, 馮武雄 證書字號:發明第097017 生效日期:1998.09 終止日期:2017.06 發照機關:智慧財產局 [23] 專利名稱:三相交流馬達驅動系統可靠度改良
區域:國內 發明人:劉添華 證書字號:發明第126578 生效日期:1997.07 終止日期:2008/11 發照機關:智慧財產局 |
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