學經歷: | |||||||||||||||||||||||||||||||
國立台灣大學電信博士 聯陽半導體資深工程師 本校副教授 研發總中心產業推動組組長 教育部區域產學合作中心主任 |
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專業技術 |
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射頻、微波、毫米波積體電路設計、低耗電電子電路設計、類比數位系統、儀控系統 | |||||||||||||||||||||||||||||||
研發介紹 | |||||||||||||||||||||||||||||||
◎ Journal:(Corresponding Author is with *) | |||||||||||||||||||||||||||||||
1. T. P. Wang, R. C. Liu, H. Y. Chang, L. H. Lu, and H. Wang*, “A 22-GHz push-push CMOS oscillator using micromachined inductors,” IEEE Microwave and Wireless Component Letter, vol. 15, pp.859-861, Dec. 2005. (SCI) 2. J. H. Tsai, W. C. Chen, T. P. Wang, T. W. Huang, and H. Wang*, “A miniature Q-band low noise amplifier using 0.13-mm CMOS technology,” IEEE Microwave and Wireless Component Letter, vol. 16, pp.327-329, June 2006. (SCI) 3. T. P. Wang, C. C. Chang, R. C. Liu, M. D. Tsai, K. J. Sun, Y. T. Chang, L. H. Lu and H. Wang*, “A low-power oscillator mixer in 0.18-mm CMOS technology,” IEEE Transactions on Microwave Theory and Techniques, vol. 54, pp.88-95, Jan. 2006. (SCI) 4. T. P. Wang, Z. M. Tsai, K. J. Sun, and H. Wang*, “Phase-noise reduction of X-band push-push oscillator with second-harmonic self-injection technique,” IEEE Transactions on Microwave Theory and Techniques, vol. 55, pp.66-77, Jan. 2007. (SCI) 5. T. P. Wang and H. Wang*, “A 71-80-GHz amplifier using 0.13-mm CMOS technology”, IEEE Microwave and Wireless Component Letter, vol. 17, pp.685-687, Sept. 2007. (SCI) 6. C. C. Li, T. P. Wang, C. C. Kuo, M. C. Chuang, and H. Wang*, “A 21-GHz complementary transformer-coupled CMOS VCO”, IEEE Microwave and Wireless Component Letter, vol. 16, pp.278-280, April 2008. (SCI) 7. T. P. Wang*, “A low-voltage low-power K-band CMOS LNA using dc-current-path split technology,” IEEE Microwave and Wireless Component Letter, vol. 20, pp.519-521, Sept. 2010. (SCI) 8. T. P. Wang*, “A K-band low-power Colpitts VCO with voltage-to-current positive-feedback network in 0.18-mm CMOS,” IEEE Microwave and Wireless Component Letter, vol. 21, no. 4, pp. 218-220, April 2011. (SCI) 9. T. P. Wang*, A CMOS Colpitts VCO Using Negative-Conductance Boosted Technology,” IEEE Transactions on Circuits and Systems-Part I, Regular Papers, vol. 58, no. 11, pp. 2623-2635, Nov. 2011. (SCI) 10. T. P. Wang*, “Performance enhancement techniques for CMOS power amplifier,” IEICE Electronics Express, vol. 8, no. 12, pp. 969-977, June 2011. (SCI) 11. T. P. Wang*, “A fully integrated W-band push-push CMOS VCO with low phase noise and wide tuning range,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 58, no. 7, pp. 1307-1319, July 2011. (SCI) 12. T. P. Wang* and C. Y. Chiang,“ A low-power low-phase-noise wide-tuning-range K-band VCO in 0.18-mm CMOS,” IEICE Electronics Express, vol. 8, no. 18, pp. 1511-1518, Sept. 2011. (SCI) |
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◎ Conference:(Corresponding Author is with *) | |||||||||||||||||||||||||||||||
1. T. P. Wang, M. D. Tsai, R. C. Liu and H. Wang*, "A high conversion gain and low LO power 5-6-GHz CMOS mixer," 16th Asia Pacific Microwave Conference Technical Digest, New Dehli, India, Dec., 2004. (EI) 2. R. C. Liu, T. P. Wang, L. H. Lu, H. Wang*, S. H. Wang, and C. P. Chao, “An 80-GHz traveling-wave amplifier in a 90-nm CMOS technology,” IEEE ISSCC, pp. 154-155, Feb. 2005. (EI) 3. T. P. Wang, R. C. Liu, H. Y. Chang, J. H. Tsai, L. H. Lu, and H. Wang*, “A 30-GHz low-phase-noise push-push CMOS oscillator using micromachined inductors,” in IEEE MTT-S Int. Microwave Symp., 2006, pp.569-572. (EI) 4. T. P. Wang and H. Wang*, “High-Q micromachined inductors for 10-to-30-GHz RFIC applications on low resistivity Si-substrate,” in 36d European Microwave Conf., 2006, pp.56-59. (EI) 5. T. P. Wang and H. Wang*, “A broadband 42-63-GHz amplifier using 0.13-mm CMOS technology,” in IEEE MTT-S Int. Microwave Symp., 2007, pp.1779-1782. (EI) 6. J. H. Tsai, T. P. Wang, K. Y. Lin, T. W. Huang, Y. C. Lin, H. C. Lu, and H. Wang*, “40-48 GHz sub-harmonic transceiver for high data-rate communication system applications,” in Global symposium on millimeter waves (GSMM.) 2008, pp. 234-237. (EI) 7. T. P. Wang*, C. Y. Hsueh, and S. H. Lin, “Design of 40-GHz CMOS power amplifier with high efficiency and high output power by using forward-body biased technology,” in International Conference on High-Speed Circuit Design (HSCD) 2010, pp. 107-110. 8. 王多柏*、黎忠錦、呂宥甫、江政育, “12-GHz CMOS 超低功率雙共振腔之壓控振盪器,” 2010全國電信研討會。 9. T. P. Wang*, C. Y. Chiang, and C. C. Li, “A study of bonding-wire effects on X-band voltage-controlled oscillator,” in Symposium on Nano Device Technology (SNDT), Hsinchu, Taiwan, April 21-22, 2011. 10. T. P. Wang*, “A low-power low-phase-noise wide-tuning-range 60-GHz voltage-controlled oscillator in 0.18-mm CMOS,” in 2011 IEEE International Conference on Electron Devices and Solid-State Circuits (IEEE EDSSC), Tianjin, China, Nov. 17-18, 2011. (EI) 11. T. P. Wang*, J. H. Ke and C. Y. Chiang, “A high-Psat high-PAE fully integrated 5.8-GHz power amplifier in 0.18-mm CMOS,” in 2011 IEEE International Conference on Electron Devices and Solid-State Circuits (IEEE EDSSC), Tianjin, China, Nov. 17-18, 2011. (EI) 12. T. P. Wang* and S. H. Chiang, “A 3.1-10.6 GHz ultra-wideband 0.18-mm CMOS low-noise amplifier with micromachined inductors” in 2011 IEEE International Conference on Electron Devices and Solid-State Circuits (IEEE EDSSC), Tianjin, China, Nov. 17-18, 2011. (EI) 13. T. P. Wang* and C. Y. Chiang, “A high-PAE high-gain 24-GHz fully-integrated 0.18-mm CMOS power amplifier using micromachined inductors,” in 2011 IEEE International Conference on Electron Devices and Solid-State Circuits (IEEE EDSSC), Tianjin, China, Nov. 17-18, 2011. (EI) 14. T. P. Wang* and C. C. Li, “A 0.4-V 1.08-mW 12-GHz high-performance VCO in 0.18-mm CMOS,” in 2012 IEEE Radio and Wireless Symposium (RWS) Proceedings, Santa Clara, CA, USA, Jan. 15-18, 2012. pp.207-210. (EI) 15. 王多柏*、呂宥甫, “使用迴路增益增強技術之壓控振盪器,” 2011民生電子研討會,臺中、臺灣,Nov. 11, 2011. pp. 728-731。 16. 王多柏*、林宗慶, “應用於無線通訊之 5.8-GHz 低功率低雜訊放大器,”第十七屆資訊管理暨實務研討會,臺南、臺灣,Dec. 10, 2011。 17. T. P. Wang*, Z. W. Li, H. H. Tseng, H. I. Lin, and T. C. Hung, “Remote safety monitoring system in radiation exposure environment by using digital instrumentation and control system: real-time location system (RTLS) of ZigBee,”in 2012 International Topical Meeting on Nuclear Thermal-Hydraulics, Operation, and Safety (NUTHOS). Kaohsiung, Taiwan, Sept. 9-13, 2012. 18. T. P. Wang*, H. Y. Tsai, Z. W. Li, “A low-voltage low-power K-band 0.18-mm CMOS low-noise amplifier with micromachined inductors,” in Symposium on Nano Device Technology (SNDT), Hsinchu, Taiwan, April 26-27, 2012. (榮獲2012奈米元件技術研討會,高頻技術與應用組,論文頭等獎(第一名) 19. 王多柏*、林宗慶、江世華, “家用型夜間地震即時警報裝置之模組開發與研究,” 100年度行政院災害防救應用科技方案成果研討會,台北、台灣,July 6, 2012。 20. T. P. Wang*, J. H. Ke, and Z. W. Li, “A K-band power amplifier with advanced performance boosted technique,” (Accepted) in 2012 IEEE International Conference on Wireless Information Technology and Systems (IEEE ICWITS), Maui, Hawaii, USA, Nov. 11-16, 2012. (EI) 21. T. P. Wang*, Z. W. Li, and C. Y. Hsueh, “A high-Psat high-OP1dB high-power-density fully integrated Ka-band power amplifier in 0.18-mm CMOS,” (Accepted) in 2012 IEEE International Conference on Wireless Information Technology and Systems (IEEE ICWITS), Maui, Hawaii, USA, Nov. 11-16, 2012. (EI) 22. T. P. Wang* and Y. F. Lu, “A low-voltage low-phase-noise C-band 0.18-mm CMOS VCO with L-type matching network,” (Accepted) in 2012 IEEE International Conference on Electron Devices and Solid-State Circuits (IEEE EDSSC), Dec. 3-5, 2012. (EI) 23. T. P. Wang* and Y. M. Yan, “A L-band planar antenna with linear polarization for mobile device application,” (Accepted) in 2012 IEEE International Conference on Electron Devices and Solid-State Circuits (IEEE EDSSC), Dec. 3-5, 2012. (EI) 24. T. P. Wang* and S. Y. Wang, “UHF-band planar antenna with circular polarization for RFID application,” (Accepted) in 2012 IEEE International Conference on Electron Devices and Solid-State Circuits (IEEE EDSSC), Dec. 3-5, 2012. (EI) |
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◎ 聯絡方式 | |||||||||||||||||||||||||||||||
辦公室:台北市大安區忠孝東路三段1號綜科館312-3 電話:(02)2771-2170 Ext. 2284 傳真:(02)2731-7120 電子郵件:tpwang@ntut.edu.tw |
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