姓名: 段柔勇 

職稱: 助理教授 

最高學歷: 元智大學電機工程博士 

任教科目:

     1.電氣安全

     2.電氣安全實驗

     3.消防工程

1.電氣安全  2.機電工程設計監造

 經歷:

1.      弘光科技大學工業安全衛生系助理教授(93.8~迄今)

2.      元智大學電機系客座專任講師(93.2~93.7)          

3.      清雲科技大學電機系兼任講師(91.8~93.7)

4.      國立暨南國際大學技士 (88.6~92.3)

5.      省立淡水商工職業學校高壓電氣技士(82.12~88.6)

6.      省立淡水商工補校電子科教師（87.08∼88.07）

7.      寧茂企業股份有限公司課長(77.10~81.12)

8.      電機技師高考及格(86~)

9.      公務人員普考電機工程及格(82)

10.  茂迪股份有限公司技術顧問（93.3~迄今）

著作

A. 期刊論文

[1]     F. J. Lin, R. Y. Duan, and J. C. Yu, “An ultrasonic motor drive using a current-source parallel-resonant inverter with energy feedback,” IEEE Trans. Power Electronics, vol. 14, no. 1, pp. 31-42, 1999. (SCI & EI)

[2]          F. J. Lin, R. Y. Duan, R. J. Wai, and C. M. Hong, “LLCC resonant inverter for piezo-electric ultrasonic motor drive,” IEE Proc. Electric Power Applications, vol. 146, no. 5, pp. 479-487, 1999. (SCI & EI)

[3]          F. J. Lin, R. J. Wai, and, R. Y. Duan, “Fuzzy neural networks for identification and control of ultrasonic motor drive with LLCC resonant technique,” IEEE Trans. Industrial Electronics, vol. 46, no. 5, pp. 999-1011, 1999. (SCI & EI)

[4]          F. J. Lin, R. J. Wai, and R. Y. Duan, “Neural network controller for parallel-resonant ultrasonic motor drive,” IEEE Trans. Control Systems Technology, vol. 7, no. 4, pp. 494-501, 1999. (SCI & EI)

[5]          R. J. Wai, F. J. Lin, R. Y. Duan, K. Y. Hsieh, and J. D. Lee, “Robust fuzzy neural network control for linear ceramic motor drive via backstepping design technique,” IEEE Trans. Fuzzy Systems, vol. 10, no.1, pp. 102-112, 2002. (SCI & EI)

[6]          R. J. Wai, R. Y. Duan, J. D. Lee, and H. H. Chang, “Wavelet neural network control for induction motor drive using sliding-mode design technique,” IEEE Trans. Industrial Electronics, vol. 50, no.4, pp. 733-748, 2003. (SCI & EI)

[7]          R. J. Wai, R. Y. Duan, J. D. Lee, and L. W. Liu, “High-efficiency fuel cell power inverter with soft-switching resonant technique”, IEEE Transactions on Energy Conversion, accept for publication, 2004. (SCI & EI)

[8]          R. J. Wai and R. Y. Duan, “High-efficiency DC/DC converter with high voltage gain,” IEE Proc. Electric Power Applications, accept for publication, 2004. (SCI & EI)

[9]          R. J. Wai, C. Y. Lin, L. W. Liu and R. Y. Duan, “Voltage-clamped forward quasi-resonant converter with soft switching and reduced switch stress,” IEE Proc. Electric Power Applications, accept for publication, 2004. (SCI & EI)

[10]      R. J. Wai and R. Y. Duan, “High-efficiency power conversion for low power fuel cell generation system”, IEEE Trans. Power Electronics, minor revision, 2004. (SCI & EI)

B 研討會論文

[1]          F. J. Lin, R. Y. Duan, and J. C. Yu, “A current-source parallel-resonant inverter for ultrasonic motor,” IEEE Power Electronics Specialists Conference (PESC), pp. 450-455, 1998.

[2]          R. Y. Duan, J. C. Yu, and F. J. Lin, “LCC resonant inverter for ultrasonic motor drive,” R.O.C. Symposium on Electrical Power Engineering, pp. 147-152, 1998.

[3]          F. J. Lin, R. Y. Duan, and H. H. Lin, “An ultrasonic motor drive using LLCC resonant technique,” IEEE Power Electronics Specialists Conference (PESC), pp. 947-952, 1999.

[4]          R. J. Wai, R. Y. Duan, K. Y. Hsieh and J. D. Lee, “Robust control for LLCC resonant linear piezoelectric ceramic motor drive,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 586-590, 2001.

[5]          R. J. Wai, R. Y. Duan, W. K. Liu and S. P. Yu, “Nonlinear decoupled control for linear induction motor servo drive,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 635-639, 2001.

[6]          R. J. Wai, R. Y. Duan, and L. J. Chang, “Grey feedback linearization speed control for induction servo motor drive,” IEEE International Conference on Industrial Electronics, Control and Instrumentation (IECON), pp. 580-585, 2001.

[7]          R. J. Wai, R. Y. Duan, J. D. Lee, L. W. Liu, C. H. Tu, and W. H. Wang, “Low-frequency sinwave inverter via LLCC resonant technique,” R.O.C. Conference on Industrial Automatic Control & Power Applications, Part B-2, pp. 13-18, December 2002.

[8]          R. J. Wai, R. Y. Duan, W. H. Wang, and L. W. Liu, “Implementation of artificial intelligent control in single-link flexible robot arm,” IEEE International Conference on Computational Intelligence in Robotics and Automation (CIRA), pp. 1270-1275, 2003.

[9]          R. J. Wai, R. Y. Duan, and L. W. Liu, “A current-source sine wave voltage driving circuit via voltage-clamping and soft-switching techniques,” R.O.C. Conference on Electrical Power Engineering, Part C-3, pp. 749-753, December 2003.

[10]      R. J. Wai, R. Y. Duan, and M. A. Kuo, “High-efficiency fuel cell power conversion system,” IEEE International Conference on Industrial Electronics  (IECON), accept for publication, November 2004.

[11]      R. J. Wai, C.Y. Lin, and R. Y. Duan, “High-efficiency DC-DC converter with high voltage gain and reduced switch stress,” IEEE International Conference on Industrial Electronics  (IECON), accept for publication, November 2004.

[12]      R. J. Wai and R. Y. Duan, “High-efficiency DC/DC Converter with High Voltage Gain,” R.O.C. Conference on Electrical Power Engineering, accept for publication, December 2004.

C. 專利

國內部分

[1]          林法正、段柔勇, “應用於壓電式驅動器之具能量反饋功能之的並聯負載共振驅動電路”
中華民國發明專利第106195號，專利權期間88/08/1~106/5/29。

[2]          林法正、段柔勇、馮榮豐, “利用推挽式直流轉換器之超音波馬達驅動電路”
中華民國新型專利第141772號，專利權期間87/11/11~98/3/2。

[3]          魏榮宗、段柔勇, “利用高階LLCC共振技術之60Hz正弦電壓共振驅動電路” 中華民國發明專利第486853號，專利權期間91/05/17~109/10/17。

[4]          魏榮宗、段柔勇、李政道, “線型壓電陶瓷馬達之高階共振驅動電路” 中華民國發明專利第170665號，專利權期間92/01/11~110/05/17。

[5]          魏榮宗、段柔勇、李政道, “利用能量反饋技術之線型壓電陶瓷馬達混合型諧振驅動電路”
中華民國發明專利第197634號，專利權期間93/02/11~111/09/15。

[6]          魏榮宗、段柔勇, “利用電壓箝制及柔性切換技術之電流源正弦電壓驅動電路”
中華民國發明專利第220591號，專利權期間93/08/21~112/05/04。

[7]          魏榮宗、段柔勇, “混合式潔淨能源供電架構”
中華民國發明專利申請號第092121167號（領證中）

[8]          魏榮宗、段柔勇、李政道、涂景翔, “發展高增益六階諧振技術應用於線型壓電陶瓷馬達驅動電路”
中華民國發明專利申請號第91137812號

[9]          魏榮宗、劉利偉、段柔勇, “ 具高階諧振架構及閉迴路控制之高效率燃料電池電力調節裝置”
中華民國發明專利申請號第092128811號。

[10]      魏榮宗、段柔勇、林宗佑, “ 具電壓箝制及柔性切換機制之高效率燃料電池高昇壓比換流器”
中華民國發明專利申請號第092134527號

[11]      魏榮宗、段柔勇、林宗佑, “ 具減低開關耐壓效能之高效率高昇比換流器”
中華民國發明專利申請號第093111433號

[12]      魏榮宗、劉利偉、段柔勇, “高效率電壓箝制直流/直流換流器”
中華民國發明專利申請號第093111941號

[13]      魏榮宗、段柔勇, “利用耦合電感雙向磁路能量傳遞之高昇壓比換流器”
中華民國發明專利申請號第93114585號

[14]      魏榮宗、段柔勇, “高效率高昇壓比直流/直流換流器”
中華民國發明專利申請號第93116773號

國外部分

[1]          R. J. Wai and R. Y. Duan, “A current-source sine wave voltage driving circuit via voltage-clamping and soft-switching techniques,” USA Patent, 2004.

[2]          R. J. Wai and R. Y. Duan, “Hybrid Clean-Energy Power-Supply Framework,” USA Patent, 2004.

[3]          R. J. Wai and R. Y. Duan, “High step-up converter with coupled-inductor by way of bi-direction energy transmission,” USA Patent, 2004.

[4]          R. J. Wai and R. Y. Duan, “High step-up converter with coupled-inductor by way of bi-direction energy transmission,” Japan Patent, 2004.

D. 專書著作

[1]     F. J. Lin, R. J. Wai and R. Y. Duan, Drive and Intelligent Control of Ultrasonic Motor. Taiwan: Tsang-Hai, 1999.