杜弘隆老師

Dr. Steve Hung-Lung Tu ( 杜弘隆 )

Associate Professor

Department of Electronic Engineering

Tel: (886) 2 29052427

Fax: (886) 2 29042638

E-mail: s.tu@ieee.org

Dr. Steve Hung-Lung Tu received B.Sc. and M.Sc. degrees in Electrical Engineering from National Central University , Chungli , Taiwan in 1989 and 1991, respectively and a Ph.D. degree in Electrical & Electronic Engineering from the Imperial College of Science, Technology, and Medicine, University of London in 2000. From 1993 to 1996, he was a Design Engineer at Winbond Electronics Corp., Hsinchu , Taiwan , where he was involved in the IC design of Local Area Network (LAN) controller/hub integrated circuits for 100Base Fast Ethernet. From 1996, he was with the Department of Electrical and Electronic Engineering, Imperial College of Science, Technology, and Medicine, University of London . His research interests mainly focus on the design of CMOS RF transceivers for spread-spectrum wireless communications. He was a Section Manager in charge of developing 900MHz RF receiver at Elan Microelectronics Corp., Hsinchu , Taiwan in 2000. Since 2001, he has been on the faculty of the Department of Electronic Engineering at the Fu Jen Catholic University, Taipei , Taiwan , where he is now an Associate Professor. His research interests include giga-hertz wire-lined and wireless transceiver design for communication IC's, power management for SOC design. He also contributed a chapter in the book Trade-offs in Analog Circuit Design (C. Toumazou, G. Moschytz, and B. Gilbert Ed., The Netherlands: Kluwer Academic Publishers, 2002) and served as a Consultant at ACARD technology corp. to develop giga-hertz oversampling data recovery techniques for serial-link data communications in CMOS technologies from 2001 to 2006. He has been listed in Who's Who in Science and Engineering since 2006.

 

Courses:

 
電子學(三),數位晶片設計概論,通訊積體電路設計,VLSI數位信號處理架構設計,特殊應用積體電路設計, 超大型積體電路設計概論,系統晶片設計概論。
 
Journal Papers :
 
1. S. H.-L. Tu and C. Toumazou, “Effect of the loaded quality factor on power efficiency for CMOS Class E RF tuned power amplifiers,” IEEE Transactions on Circuits and Systems - Part I Fundamental Theory and Applications, Vol. 46, No. 5, pp.628-634, May 1999.(SCI)
2. S. H.-L. Tu and C. Toumazou, “Low-distortion CMOS complementary Class E RF tuned power amplifiers,” IEEE Transactions on Circuits and Systems - Part I Fundamental Theory and Applications, Vol. 47, No. 5, pp.774-779, May 2000.(SCI)
3. S. H.-L. Tu and Y.-H. Lin, “An Oversampling Data Recovery Receiving Technique for Serial Link Communications,” Fu Jen Studies (Science and Engineering) , No. 37, pp.17-42, Dec. 2003.
4. S. H.-L. Tu , “Class E RF Tuned Power Amplifiers in CMOS Technologies – Theory and Circuit Design Considerations,” IEEE Communications Magazine, Vol. 42, No. 9, pp.S6-S11, Sep. 2004. (SCI)
5. S. H.-L. Tu , “ Design and Implementation of a Differential Pulsewidth Control Loop for GHz VLSI Systems,” IEE Electronics Letters, Vol. 41, No. 17, pp. 960-961, Aug. 2005. (SCI)
6. S . Y.-S. Lin and S. H.-L. Tu , “ Pulsewidth Control Loop with Tunable Duty Cycle for High-Speed Circuit Applications,” IEE Proceedings – Circuits, Devices, and Systems , Vol. 153, No. 2, pp.107-114, Apr. 2006. (SCI)
7. S. H.-L. Tu, “A Differential Pulsewidth Control Loop for High-Speed VLSI Systems ,” IEEE Transactions on Circuits and Systems – II, Vol. 53, No. 5, pp.417-421, May 2006. (SCI)
8. S. H.-L. Tu and P. J.-W. Huang , “ A Serial Feedback Digital PWM Regulator for DC-DC Buck Conversion ,” Fu Jen Studies (Science and Engineering) , No. 41, pp.71-82, Dec. 2007.
9. S. H.-L. Tu and S. C.-H. Chen, “A 5.25-GHz CMOS Cascode Power Amplifier for 802.11a WLAN,” accepted for publication in the IEE Proceedings – Microwaves, Antennas & Propagation . April 2008. (SCI)
   
   

Conference Papers:

 
1. S. H.-L. Tu and C. Toumazou, “Highly Efficient CMOS Class E Power Amplifier for Wireless Communications,” IEEE International Symposium on Circuits and Systems , California, Vol. 3, pp.530-533, June 1998.
2. S. H.-L. Tu and C. Toumazou, “Design of Highly-Efficient Power-Controllable CMOS Class E RF Power Amplifiers,” IEEE International Symposium on Circuits and Systems , Florida, Vol.2, pp.602-605, June 1999.
3. S. H.-L. Tu and C. Toumazou, “Highly-Symmetrical CMOS Class E RF Power Amplifier for Low-Distortion Applications,” IEEE International Symposium on Integrated Circuits, Devices & Systems , Singapore, pp.271-274, Sep. 1999.  
4. Y.-H. Lin and S. H.-L. Tu , “A Pipelined Serial Data Receiver with Oversampling Techniques for High-Speed Data Communications,” IEEE Conference on Electron Devices and Solid-State Circuits, Hong Kong, China, pp.167-170, Dec. 2003.
5. Y.-H. Lin and S. H.-L. Tu , “A Fully Digital Data Recovery Architecture for High Speed Serial Link Receiver,” European Conference on Circuit Theory and Design , Krakow, Poland , Vol. II, pp.13-16, Sep. 2003.
6. S. H.-L. Tu , “A Power-Adaptive CMOS Class E RF Tuned Power Amplifier for Wireless Communications” IEEE International SOC Conference , Portland, USA pp.365-368, Sep. 2003.
7. S. Y.-S. Lin and S. H.-L. Tu , “A Differential Pulsewidth Control Loop for High-Speed VLSI Systems”, IEEE International Conference on Circuits and Systems for Communications , Moscow, Russia, Session E – “Radio Frequency Integrated Circuits” , No.2, June 2004.
8. S. Y.-S. Lin and S. H.-L. Tu , “ A New Pulsewidth Control Loop For High-Speed VLSI Systems”, IEEE International Midwest Symposium on Circuits and Systems , Hiroshima, Japan, Vol. III, pp. 335-338, July 2004.
9. P. J. W. Huang and S. H. L. Tu , “A Digital PWM Regulator Based on Serial-Error Correcting Mechanism for DC-DC Buck Conversion”, IEEE Conference on Electron Devices and Solid-State Circuits, Hong Kong, China, pp. 289-292, Dec. 2005.
10. S. H.-L. Tu and C.-H. Yen , “Skew-Tolerant Domino Techniques for High-Speed Baugh-Wooley Multiplier Circuit Design” , IEEE International Midwest Symposium on Circuits and Systems , San Juan, Puerto Rico , USA , Aug. 2006.
11. M. M.-H. Chiu and S. H.-L. Tu , “A Multi-Phase DPWM Based on Fully Table Look-up for High-frequency Power Converters” , IEEE International Midwest Symposium on Circuits and Systems , San Juan, Puerto Rico , USA , Aug. 2006.
12. S. H.-L. Tu and W.-H. Su , “CMOS Image Sensor Using Feedback Reset Circuits for High Speed Operation” , the 8 th International Conference on Solid-State and Integrated-Circuit Technology , Shanghai , pp. 548-550, Oct. 2006.
13. S. H.-L. Tu and C.-H. Yen, “A High-Speed Baugh-Wooley Multiplier Design Using Skew-Tolerant Domino Techniques,” IEEE Asia Pacific Conference on Circuits and Systems, Singapore , pp. 599-602, Dec. 2006.
14. M. M.-H. Chiu and S. H.-L. Tu , “A Novel DPWM Based on Fully Table Look-up for High-frequency Power Conversion,” IEEE Asia Pacific Conference on Circuits and Systems, Singapore , pp. 679-682, Dec. 2006.
15. S. H.-L. Tu and S. C.-H. Chen, “A 5.25-GHz CMOS Cascode Class-AB Power Amplifier for 802.11a WLAN,” IEEE International Conference on Microelectronics , Cairo , Egypt , pp. 23-26, Dec. 2007.
16. S. H.-L. Tu and S. C.-H. Chen, “A 5.26-GHz CMOS Up-Conversion Mixer for IEEE 802.11a WLAN,” accepted for publication in the IEEE international Conference on Circuits and Systems for Communications, Shanghai , China , Jan. 2008.
17. S. H.-L. Tu and S.-Y. Lin, “A Novel Adaptive PWM Controller for DC-DC Buck Conversion,” accepted for publication in the IEEE international Conference on Circuits and Systems for Communications, Shanghai , China , Jan. 2008.
   
   
Book Chapter:
1.

T. Chan, S. Tu, and C. Toumazou,“ Trade-offs in Power Amplifiers”, Chapter in Understanding Trade-offs in Analog Design, Edited by C. Toumazou, G. Moschytz, and B. Gilbert. Kluwer Academic Publishers, May 2002.

 

Research Projects:

          

補助單位

執行期限

無線通訊所用之高頻互補式金氧半E級功率放大器

輔大聖言會

Oct.2001-July 2002

無線通訊所用之金氧半射頻功率放大器的研製

(91-2215-E-030-003)

國科會

Aug.2002-July 2003

操作於ISM 頻域的交換式金氧半功率放大器之輸出功率調適技術研究

(92-2213-E-030-010)

國科會

Aug.2003-July 2004

互補式金氧半標準元件庫設計方式製作超取樣序向連結傳收器之研究

(93-2213-E-030-018)

國科會
Aug.2004-July 2005

高速超大型積體電路系統所用的差動脈波寬度控制迴路之研究

(NSC 94-2213-E-030-005)
國科會
Aug.2005-July 2006

高頻功率轉換器所用之多相位查表式數位脈波調整器製作之研究

(NSC 96-2221-E-030-001)

國科會
Aug.2006-July 2007
   
   

Technical Reports:

1. C. Paparassiliou, C. Toumazou, S. Tu, K. Fobelets, J. Hampson, W. Jeamsaksiri, S. Despotopoulos,” A report on SiGe FET circuit design”, Defence Science and Technology Lab., Ministry of Defence UK, Jan. 1999.
2. 杜弘隆, 無線通訊所用之金氧半射頻功率放大器的研製, 國科會專題研究計畫成果報告(91-2215-E-030-003)
3. 杜弘隆, 操作於ISM 頻域的交換式金氧半功率放大器之輸出功率調適技術研究”, 國科會專題研究計畫成果報告(92-2213-E-030-010)