Faculty

曾昭雄 Chao-Hsiung Tseng photo
Position
Distinguished Professor
Education
PhD., Communication Engineering, National Taiwan University
E-mail
chtseng(at)ieee.org
Room
EE707

Office Hours Thu. pm3:30~5:00 [Please make an appointment by email.]
Telephone 886-2-27376416
Homepage https://scholar.google.com.tw/citations?user=mGSyN60AAAAJ&hl=zh-TW (Google Scholar Profile)
Laboratory Microwave Electronics Laboratory (EE-704)
Major Field RF Biomedical sensor and its signal processing, Noncontact vital-sign radar sensor, microwave circuits and modules
Course [Undergraduate] Digital Signal Processing Laboratory, Radio-Frequency Module Laboratory, Electromagnetics, Electromagnetic Wave, Basic Circuit Theory (1)(2), Introduction to Radio-Frequency Systems, Microwave Engineering [Graduate] Special Topics on

2021.01 ~ now Distinguished Professor, Electronic and Computer Engineering, National Taiwan University of Science and Technology
2013.11 ~ 2014.02 Visiting Professor, Electrical & Computer Engineering, University of Florida
2013.02 ~ 2021.01 Professor, Electronic and Computer Engineering, National Taiwan University of Science and Technology
2012.08 ~ 2013.07 Chair, Inter-Disciplinary Bachelor's Program, National Taiwan University of Science and Technology
2011.08 ~ 2012.07 Vice Chair, Electronic Engineering, National Taiwan University of Science and Technology
2008.08 ~ 2013.01 Associate Professor, Electronic Engineering, National Taiwan University of Science and Technology
2006.08 ~ 2008.08 Assistant Professor, Electronic Engineering, National Taiwan University of Science and Technology
2005.08 ~ 2006.07 Visiting Scholar, Electrical Engineering, University of California, Los Angeles
2004.08 ~ 2005.07 Adjunct Assistant Professor, Electronic Engineering, National Taipei University of Technology
2004.02 ~ 2006.07 Postdoctoral Research Fellow, Electrical Engineering, National Taiwan University
2003.09 ~ 2004.01 Adjunct Lecturer, Electrical Engineering, Chung-Hwa Institute of Technology
2001.08 ~ 2002.07 Full-Time Teaching Assistant for Electromagnetic Wave Laboratory, Electrical Engineering, National Taiwan University
1999.11 ~ 2000.08 Associate Microwave Researcher, Center for Measurement Standards, Industrial Technology Research Institute


2022 Excellent Teaching Award of National Taiwan University of Science and Technology
2022 World’s Top 2% Scientists 2021
2021 Outstanding Academic Research Award of National Taiwan University of Science and Technology
2020 Excellent Academic Research Award of National Taiwan University of Science and Technology
2018 Outstanding Teaching Award of National Taiwan University of Science and Technology
2016 IEEE Senior Member
2014 Excellent Teaching Award of National Taiwan University of Science and Technology
2012 Award of Innovative Teaching Methodology, National Taiwan University of Science and Technology
2012 Excellent Research and Creation Award of National Taiwan University of Science and Technology
2008 Excellent Teaching Award of National Taiwan University of Science and Technology
2008 Best Paper Award, International Symposium on Antennas and Propagation (ISAP)
2005 National Science Council Financial Support for Visiting UCLA
2003 Taiwan EMC Conference Student Paper Award
2001 Taiwan Ericsson Ph.D. Student Scholarship
1992 Outstanding College Youth

Research Achievement
  [1]   C.-H. Tseng and C.-Y. Yang, “Novel microwave frequency-locked-loop-based sensor for complex permittivity measurement of liquid solutions,” IEEE Trans. Microw. Theory Techn., accepted for publication.
  [2]   C.-H. Tseng and Y.-T. Lee, “Microwave near-field self-injection-locked wrist pulse sensor with Mohr- discriminator demodulator,” IEEE Microw. Wireless Compon. Lett., vol. 32, no. 3, pp. 202–205, Mar. 2022.
  [3]   T.-K. Nguyen and C.-H. Tseng, “A new microwave humidity sensor with near-field self-injection-locked technology,” IEEE Sensors J., vol. 21, no. 19, pp. 21520-21528, Oct. 2021.
  [4]   F.-K. Wang, C.-T. M. Wu, T.-S. Horng, C.-H. Tseng, S.-H. Yu, C.-C. Chang, “Review of self-injection-locked radar systems for noncontact detection of vital signs,” IEEE J. Electromagn., RF, Microw. Med. Biol., vol. 4, no. 4, pp. 294–307, Dec. 2020.
  [5]   C.-H. Tseng, T.-J. Tseng and C.-Z. Wu, “Cuffless blood pressure measurement using a microwave near-field self-injection-locked wrist pulse sensor,” IEEE Trans. Microw. Theory Techn., vol. 68, no. 11, pp. 4865–4874, Nov. 2020.
  [6]   C.-H. Tseng and C.-Z. Wu, “A novel microwave phased- and perturbation-injection-locked sensor with self-oscillating complementary split-ring resonator for finger and wrist pulse detection,” IEEE Trans. Microw. Theory Techn., vol. 68, no. 5, pp. 1933–1942, May 2020.
  [7]   Y. Yuan, C. Lu, A. Y.-K. Chen, C.-H. Tseng, C.-T. M. Wu, “Concurrent vital sign and location detection for multi-target using metamaterial-integrated self-injection-locked quadrature radar sensor,” IEEE Trans. Microw. Theory Techn., vol. 67, no. 12, pp. 5429–5437, Dec. 2019.
  [8]   C.-H. Tseng and Y.-H. Lin, “24-GHz self-injection-locked vital-sign radar sensor with CMOS injection-locked frequency divider based on push-push oscillator topology,” IEEE Microw. Wireless Compon. Lett., vol. 28, no. 11, pp. 1053–1055, Nov. 2018.
  [9]   C.-H. Tseng, L.-T. Yu, J.-K. Huang, and C.-L. Chang, “A wearable self-injection-locked sensor with active integrated antenna and differentiator-based envelope detector for vital-sign detection from chest wall and wrist,” IEEE Trans. Microw. Theory Techn., vol. 66, no. 5, pp. 2511–2521, May 2018.
  [10]   C.-H. Tseng, and T.-S. Huang, “Microwave voltage-controlled oscillator with harmonic-suppressed stepped-impedance resonator filter,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 64, no. 5, pp. 520-524, May 2017. (SCI, EI) (MOST 104-2221-E-011-031).
  [11]   M.-D. Wei, Y.-T. Chang, D. Wang, C.-H. Tseng, and R. Negra, “Balanced RF rectifier for energy recovery with minimized input impedance variation,” IEEE Trans. Microw. Theory Tech., vol. 65, no. 5, pp. 1598-1604, May 2017. (SCI, EI)
  [12]   C.-H. Tseng, and Y.-T. Chen, “Design and implementation of new 3-dB interdigitated quadrature couplers using PCB and silicon-based IPD technologies,” IEEE Trans. Compon., Packag., Manuf. Technol., vol. 6, no. 5, pp. 675-682, May 2016. (SCI, EI) (MOST 104-2221-E-011-031).
  [13]   C.-H. Tseng, C.-H. Mou, C.-C. Lin, and C.-H. Chao, “Design of microwave dual-band rat-race couplers in PCB and GIPD technologies,” IEEE Trans. Compon., Packag., Manuf. Technol., vol. 6, no. 2, pp. 262-271, Feb. 2016. (SCI, EI) (MOST 104-2221-E-011-031)
  [14]   C.-H. Chao, T.-W. Hsu, and C.-H. Tseng, “Giving Doppler more bounce: A 5.8 GHz microwave high-sensitivity Doppler radar system,” IEEE Microw. Mag., vol. 17, no. 1, pp. 52-57, Jan. 2016. (SCI, EI) (MOST 103-2221-E-011-015).
  [15]   C.-L. Chang, C.-H. Tseng, and Hong-Yeh Chang, “A new monolithic Ka-band filter-based voltage-controlled oscillator using 0.15-um GaAs pHEMT technology,” IEEE Microw. Wireless Compon. Lett., vol. 24, no. 2, pp. 111-113, Feb. 2014. (SCI, EI) (NSC 102-2221-E-011-012)
  [16]   C.-L. Chang and C.-H. Tseng, “A new compact Ka-band CPW rat-race coupler using GaAs MMIC technology,” Electronics Lett., vol. 49, no. 19, pp. 1227-1229, Sep. 2013. (SCI, EI) (NSC 101-2221-E-011-080)
  [17]   C.-L. Chang and C.-H. Tseng, “A new compact Wilkinson power divider using two-section symmetrical T-structures,” Electronics Lett., vol. 49, no. 8, Apr. 2013. (SCI, EI) (NSC 101-2221-E-011-080)
  [18]   C.-H. Tseng, Y.-W. Huang, and C.-L. Chang, “Microwave low phase-noise oscillators using T-shaped stepped-impedance-resonator filters,” IET Microw. Antennas Propag., vol. 6, no. 12, pp. 1374-1380, 2012. (SCI, EI) (NSC 101-2221-E-011-080)
  [19]   C.-H. Tseng and C.-L. Chang, “Design of low phase-noise microwave oscillator and wideband VCO based on microstrip combline bandpass filters,” IEEE Trans. Microw. Theory Tech., vol. 60, no. 10, pp. 3151-3160, Oct. 2012. (SCI, EI) (NSC 101-2221-E-011-080)
  [20]   C.-H. Tseng and C.-H. Wu, “Design of compact branch-line couplers using π-equivalent artificial transmission lines,” IET Microw. Antennas Propag., vol. 6, no. 9, pp. 969-974, 2012. (SCI, EI) (NSC 100-2628-E-011-005)
  [21]   C.-H. Tseng and C.-L. Chang, “A rigorous design methodology for compact planar branch-line and rat-race couplers with asymmetrical T-structures,” IEEE Trans. Microw. Theory Tech., vol. 60, no. 7, pp. 2085-2092, Jul. 2012. (SCI, EI) (NSC 100-2628-E-011-005)
  [22]   C.-L. Chang and C.-H. Tseng, “Design of low phase-noise oscillator and voltage-controlled oscillator using microstrip trisection bandpass filter,” IEEE Microw. Wireless Compon. Lett., vol. 21, no. 11, pp. 622-624, Nov. 2011. (SCI, EI) (NSC 100-2628-E-011-005)
  [23]   C.-H. Tseng and Y.-C. Hsiao, “A new broadband Marchand balun using slot-coupled microstrip lines,” IEEE Microw. Wireless Compon. Lett., vol. 20, no. 3, pp. 157-159, Mar. 2010. (SCI, EI) (NSC 97-2221-E-011-020-MY2)
  [24]   C.-H. Tseng and H.-Y. Shao, “A new dual-band microstrip bandpass filter using net-type resonators,” IEEE Microw. Wireless Compon. Lett., vol. 20, no. 4, pp. 196-198, Apr. 2010. (SCI, EI) (NSC 97-2221-E-011-020-MY2, NSC 98-3114-P-011-001-Y)
  [25]   C.-H. Tseng and C.-H. Wu, “Compact planar Wilkinson power divider using π-equivalent shunt-stub-based artificial transmission lines,” Electronics Lett., vol. 46, no. 19, pp. 1327 - 1328, Sep. 2010. (SCI, EI) (NSC 99-2628-E-011-002)
  [26]   C.-H. Tseng, “Compact LTCC rat-race couplers using multilayered phase-delay and phase-advance T-equivalent sections,” IEEE Trans. Adv. Packag., vol. 33, no. 2, pp. 543-551, May 2010. (SCI, EI) (NSC 97-2221-E-011-020-MY2)
  [27]   C.-H. Tseng and H.-J. Chen, “Compact rat-race coupler using shunt-stub-based artificial transmission lines,” IEEE Microw. Wireless Compon. Lett., vol. 18, no. 11, pp. 734-736, Nov. 2008. (SCI, EI) (NSC 96-2221-E-011-009)
  [28]   C.-H. Tseng and C.-L. Chang, “An image reject mixer with composite right/left-handed quadrature power splitter and IF hybrid,” J. Electromagn. Waves Appl., vol. 22, pp. 1557-1564, 2008. (SCI, EI) (NSC 96-2221-E-011-009)
  [29]   C.-H. Tseng and C.-L. Chang, “Improvement of return loss bandwidth of balanced amplifier using metamaterial-based quadrature power splitters,” IEEE Microw. Wireless Compon. Lett., vol. 18, no. 4, pp. 269-271, Apr. 2008. (SCI, EI) (NSC 95-2218-E-011-022, NSC 96-2221-E-011-009)
  [30]   C.-H. Tseng and C.-L. Chang, “A broadband quadrature power splitter using metamaterial transmission line,” IEEE Microw. Wireless Compon. Lett., vol. 18, no. 1, pp. 25-27, Jan. 2008. (SCI, EI) (NSC 95-2218-E-011-022)
  [31]   C.-H. Tseng and T.-G. Ma, “Measurement of differential-mode and common-mode scattering parameters of symmetric coupled-line discontinuity structure,” IET Microw. Antennas Propag., vol. 2, no. 3, pp. 242-247, Apr. 2008. (SCI, EI)
  [32]   C.-H. Tseng, C.-J. Chen, and T.-H. Chu, “A Low-Cost 60-GHz Switched-Beam Patch Antenna Array with Butler Matrix Network,” IEEE Antennas Wireless Propag. Lett., vol. 7, pp. 432-435, 2008. (SCI, EI) (NSC 96-2752-E-002-004-PAE)
  [33]   C.-H. Tseng and C.-L. Chang, “Wide-band balun using composite right-/left-handed transmission line,” Electronics Lett., vol. 43, no. 21, pp. 1154-1155, Oct. 2007. (SCI, EI) (NSC 95-2218-E-011-022)
  [34]   C.-H. Tseng and T.-H. Chu, “Measurement of frequency-dependent equivalent width of substrate integrated waveguide,” IEEE Trans. Microw. Theory Tech., vol. 54, no. 4, pp. 1431-1437, Apr. 2006. (SCI, EI) (NSC 94-2752-E-002-004-PAE, NSC93-2213-E-002-005)
  [35]   T.-G. Ma and C.-H. Tseng, “An ultrawideband coplanar waveguide-fed tapered ring slot antenna,” IEEE Trans. Antennas Propag., vol. 54, no. 4, pp.1105-1110, Apr. 2006. (SCI, EI)
  [36]   C.-H. Tseng and T.-H. Chu, “Three frequency-swept microwave imaging arrangements of conducting objects using multi-source illumination,” Bulletin of the College of Engineering of National Taiwan University, no. 95, pp.35-42, Oct. 2005. (NSC 94-2213-E-002-010, NSC 94-2752-E-002-004-PAE)
  [37]   C.-H. Tseng and T.-H. Chu, “An effective usage of vector network analyzer for microwave imaging,” IEEE Trans. Microw. Theory Tech., vol. 53, no. 9, pp. 2884-2891, Sep. 2005. (SCI, EI) (NSC 93-2213-E-002-035, NSC 93-2752-E-002-004-PAE)
  [38]   C.-F. Chen, T.-Y. Huang, C.-H. Tseng, R.-B. Wu, and T.-W. Chen, “A miniaturized multi-layer quasi-elliptic bandpass filter with aperture-coupled microstrip resonators,” IEEE Trans. Microw. Theory Tech., vol. 53, no. 9, pp. 2688-2692, Sep. 2005. (SCI, EI) (NSC 93-2752-E-002-003-PAE)
  [39]   C.-H. Tseng and T.-H. Chu, “Improvement of quasi-monostatic frequency-swept microwave imaging of conducting objects using illumination diversity technique,” IEEE Trans. Antennas Propag., vol. 53, no. 1, pp.305-312, Jan. 2005. (SCI, EI) (NSC 92-2213-E-002-071, NSC 93-2752-E-002-003-PAE)
  [40]   C.-H. Tseng and T.-H. Chu, “Principle and results of microwave diversity imaging of conducting objects using multi-source illumination,” IEE Proc.-Microw., Antennas Propag., vol.151, no.2, pp. 149-155, Apr. 2004. (SCI, EI) (NSC 91-2219-E-002-030)
  [41]   T.-H. Chu, C.-H. Tseng, S. D. Yang and C.I. Chi, “A Ka-band receiving terminal for measuring ROCSAT-1 ECP beacon signal”, Journal of the Chinese Institute of Engineers, vol. 24, no. 1, pp.29-36, Jan., 2001. (SCI, EI) (NSC 84-NSPO-A-RDD-002-01, NSC 85-NSPO-A-RDD-002-01)
  [1]   T.-J. Tseng and C.-H. Tseng, “Noncontact wrist pulse waveform detection using 24-GHz continuous-wave radar sensor for blood pressure estimation” accepted to present in 2020 IEEE MTT-S Int. Microwave Symp.
  [2]   C.-Z. Wu and C.-H. Tseng, “A microwave perturbation-injection-locked sensor for wrist pulse detection,” in Proc. 31th Asia-Pacific Microwave Conf., Singapore, Dec. 2019. (EI) (MOST 107-2221-E-011-049)
  [3]   C.-Z. Wu and C.-H. Tseng, “A perturbation-injection-locked sensor with self-oscillating active CSRR for vital-sign detection from fingertip” in IEEE MTT-S Int. Microwave Symp. Dig., Boston, MA, USA, Jun. 2019. (EI) (MOST 107-2221-E-011-049)
  [4]   R. E. Arif, M.-C. Tang, W.-C. Su, T.-S. Horng, F.-K. Wang and C.-H. Tseng, “Designing a metasurface-based tag antenna for wearable vital-sign sensors” in IEEE MTT-S Int. Microwave Symp. Dig., Boston, MA, USA, Jun. 2019.
  [5]   Y. Yuan, C. Lu, A. Y.-K. Chen, C.-H. Tseng. C.-T. M. Wu, “Noncontact multi-target vital sign detection using self-injection-locked radar sensor based on metamaterial leaky wave antenna” in IEEE MTT-S Int. Microwave Symp. Dig., Boston, MA, USA, Jun. 2019.
  [6]   C. Lu, Y. Yuan, C.-H. Tseng and C.-T. M. Wu, “Multi-target continuous-wave vital sign radar using 24 GHz metamaterial leaky wave antennas,” in Proc. Int. Microwave Biomedical Conf. (IMBioC), Nanjing, China, May 2019.
  [7]   C. Lu, Y. Yuan, C.-H. Tseng and C.-T. M. Wu, “Multi-target motion detection radar sensor using 24 GHz metamaterial leaky wave antennas,” in Proc. Int. Conf. Microwaves for Intelligent Mobility (ICMIM), Detroit, USA, Apr. 2019.
  [8]   C.-H. Tseng J.-Y. Huang, and C.-H. Tseng, “Design of planar 8-by-16 Butler matrix for 16-element switch-beam antenna array,” in Proc. 30th Asia-Pacific Microwave Conf., Kyoto, Japan, Nov. 2018.
  [9]   C.-H. Tseng J.-Y. Huang, and C.-H. Tseng, “An X-band 16-element switched-beam antenna array with Butler matrix network,” present in 2018 Progress in Electromagnetic Research Progress Symposium (PIERS 2016), Toyama, Japan, Aug., 2018.
  [10]   C.-H. Tseng and L.-T. Yu, “Self-injection-locked AIA radar sensor using PLL demodulator for noncontact vital sign detection,” in IEEE MTT-S Int. Microwave Symp. Dig., Philadelphia, PA, USA, Jun. 2018.
  [11]   C.-H. Tseng and L.-T. Yu, “Self-injection-locked radar sensor with active-integrated-antenna and differentiator-based demodulator for noncontact vital sign detection,” in Proc. IEEE Topical Conf. Sensors and Sensor Networks (WiSNet), Anaheim, CA, USA, Jan. 2018. (EI)(MOST 106-3114-E-011-002.)
  [12]   C.-H. Tseng, J.-K. Huang, L.-T. Yu, and C.-L. Chang, “A cost-effective wearable vital-sign sensor with self-oscillating active antenna based on envelope detection technique,” in IEEE MTT-S Int. Microwave Symp. Dig., Honolulu, HI, USA, Jun. 2017. (EI)(MOST 105-2221-E-011- 028)
  [13]   C.-H. Tseng and S.-T. Huang, “Hand-gesture sensing Doppler radar with metamaterial-based leaky-wave antennas,” in Proc. Int. Conf. Microwaves for Intelligent Mobility (ICMIM), Nagoya, Japan, Mar. 2017. (EI)(MOST 105-2221-E-011- 028)
  [14]   T.-W. Hsu and C.-H. Tseng, “Compact 24-GHz Doppler radar Module for non-contact human vital-sign detection,” in Proc. International Symp. on Antennas Propag., Okinawa, Japan, Oct. 2016. (MOST 104-2221-E-011-031)
  [15]   J.-K. Huang, and C.-H. Tseng, “A 5.8-GHz radar sensor chip in 0.18-um CMOS for non-contact vital sign detection,” in Proc. IEEE Int. Symp. Radio-Frequency Integration Tech., Taipei, Taiwan, Aug. 2016. (invited paper) (MOST 104-2221-E-011-031)
  [16]   C.-L. Chang, and C.-H. Tseng, “Design of 38-GHz branch-line coupler in glass-substrate passive device technology,” in Proc. IEEE Int. Symp. Radio-Frequency Integration Tech., Taipei, Taiwan, Aug. 2016. (MOST 104-2221-E-011-031)
  [17]   C.-H. Tseng and C.-H. Chao, “Noncontact vital-sign radar sensor using metamaterial-based scanning leaky-wave antenna,” in IEEE MTT-S Int. Microwave Symp. Dig., San Francisco, CA, USA, May 2016. (EI)(MOST 104-2221-E-011-031)
  [18]   S.-H. Chang, J.-K. Huang, and C.-H. Tseng, “A 5.8-GHz CMOS low-power active mixer featuring high conversion gain and low LO driving power,” in Proc. 27th Asia-Pacific Microwave Conf., Nanjing, China, Dec. 2015. (EI) (MOST 103-2221-E-011-015)
  [19]   J.-K. Huang and C.-H. Tseng, “Design of a 5.8-GHz CMOS low-power active mixer,” in Proc. National Symp. on Telecommunications, Taoyuan, Taiwan, Nov. 2015. (MOST 103-2221-E-011-015)
  [20]   M.-D. Wei, Y.-J. Lin, C.-H. Tseng and R. Negra, “V-band current-reuse VCO,” accepted to present in IEEE Mediterranean Microwave Symp., Lecce, Italy, Nov. 2015.
  [21]   M.-D. Wei, Y.-T. Chen, S. Qayyum, C.-H. Tseng and R. Negra, “Wideband six-port receiver using elliptical microstrip-slot directional couplers,” in IEEE MTT-S Radio Wireless Symp., Dan Diego, CA, USA, Jan. 2015.
  [22]   Y.-T. Chen, C.-L. Chang and C.-H. Tseng, “A compact X-band CPW branch-line coupler using glass integrated passive device (GIPD) technology” in Proc. 25th Asia-Pacific Microwave Conf., Seoul, Korea, Nov. 2013, pp.276-278. (EI) (NSC 101-2221-E-011-080)
  [23]   Y.-T. Chen, C.-L. Chang and C.-H. Tseng, “Microwave 3-dB four-conductor quadrature coupler based on asymmetrical CPW coupled lines” in Proc. 43th European Microwave Conf., Nuremberg, Germany, Oct. 2013, pp.291-293. (EI) (NSC 101-2221-E-011-080)
  [24]   C.-L. Chang , C.-H. Lu , and C.-H. Tseng, “Design of low phase-noise voltage-controlled oscillator based on microstrip combline filter” in Proc. 2013 Asia-Pacific Radio Science Conf. (AP-RASC), Taipei, Taiwan, Sep. 2013.
  [25]   M. Daud and C.-H. Tseng, “Phase-noise improvement of microwave feedback oscillator using shunt-stub-based ring resonator,” in IEEE MTT-S Int. Microwave Symp. Dig., Seattle, WA, USA, Jun. 2013. (EI) (NSC 100-2628-E-011-005)
  [26]   C.-H. Lu, P.-H. Tu, and C.-H. Tseng, “A miniaturized rat-race coupler with arbitrary power division using dual transmission lines,” in Proc. 24th Asia-Pacific Microwave Conf., Kaohsiung, Taiwan, Dec. 2012, pp.1007-1009. (EI) (NSC 100-2628-E-011-005)
  [27]   C.-H. Mou and C.-H. Tseng, “A new passive isolation component using slot-coupled microstrip lines for simultaneously transmitting and receiving applications,” in Proc. 24th Asia-Pacific Microwave Conf., Kaohsiung, Taiwan, Dec. 2012, pp.1193-1195. (EI) (NSC 100-2628-E-011-005)
  [28]   C.-L. Chang and C.-H. Tseng, “Design of low phase-noise microwave oscillators using two-pole coupled-resonator filters with electric, magnetic, and mixed couplings,” in Proc. 24th Asia-Pacific Microwave Conf., Kaohsiung, Taiwan, Dec. 2012, pp.1106-1108. (EI) (NSC 100-2628-E-011-005)
  [29]   C.-C. Lin and C.-H. Tseng, “Metamaterial-based Wilkinson balun using asymmetrical T-structure power divider for improving phase response flatness,” in Proc. 24th Asia-Pacific Microwave Conf., Kaohsiung, Taiwan, Dec. 2012, pp.19-21. (EI) (NSC 100-2628-E-011-005)
  [30]   C.-L. Chang, C.-H. Wu and C.-H. Tseng, “A miniaturized electronic beam-scanning phased-array antenna for radio-frequency identification (RFID) applications,” in Proc. International Conf. on Anti-counterfeiting, Security, and Identification, Taipei, Taiwan, Aug. 2012. (NSC 100-2628-E-011-005)
  [31]   C.-L. Chang and C.-H. Tseng, “A compact second harmonic-suppressed bandpass filter using π-equivalent transmission lines,” in Proc. 22nd Asia-Pacific Microwave Conf., Yokohama, Japan, Dec. 2010, pp. 837-840. (EI) (NSC 97-2221-E-011-020-MY2)
  [32]   C.-H. Wu and C.-H. Tseng, “A compact branch-line coupler using π-equivalent shunt-stub-band artificial transmission lines,” in Proc. 22nd Asia-Pacific Microwave Conf., Yokohama, Japan, Dec. 2010, pp. 802-805. (EI) (NSC 97-2221-E-011-020-MY2)
  [33]   P.-H. Tu and C.-H. Tseng, “Design of a compact rat-race coupler using dual transmission lines,” in Proc. 22nd Asia-Pacific Microwave Conf., Yokohama, Japan, Dec. 2010, pp. 1224-1227. (EI) (NSC 97-2221-E-011-020-MY2).
  [34]   C.-H. Mou and C.-H. Tseng, “A bandwidth-enhanced 3-dB lumped-element branch-Line coupler based on asymmetrical E-equivalent sections,” accepted to present in Proc. 23nd Asia-Pacific Microwave Conf.. (EI) (NSC 100-2628-E-011-005)
  [35]   C.-L. Chang and C.-H. Tseng, “Design of microwave oscillator and voltage-controlled oscillator with second and third harmonic suppressions,” accepted to present in Proc. 23nd Asia-Pacific Microwave Conf.. (EI) (NSC 100-2628-E-011-005)
  [36]   C.-H. Wu and C.-H. Tseng, “Design of compact 6-dB branch-line coupler using π-equivalent shunt-stub-based artificial transmission lines,” in Proc. National Symp. on Telecommunications, Taoyuan, Taiwan, Dec. 2010. (NSC 99-2628-E-011-002) [Best Student Paper Award]
  [37]   Y.-W. Huang, C.-L. Chang, and C.-H. Tseng, “Filter-based low phase-noise microwave oscillator,” in Proc. 22nd Asia-Pacific Microwave Conf., Yokohama, Japan, Dec. 2010, pp. 481-484. (EI) (NSC 97-2221-E-011-020-MY2)
  [38]   C.-H. Tseng and H.-Y. Shao, “Design of dual-band net-type bandpass filter,” in IEEE MTT-S Int. Microwave Symp. Dig., Anahiem, CA, USA, May 2010, pp.572-575. (EI) (NSC 97-2221-E-011-020-MY2)
  [39]   Y.-C. Hsiao and C.-H. Tseng, “Design of 60 GHz CMOS bandpass filters using complementary-conducting strip transmission lines,” in IEEE MTT-S Int. Microwave Symp. Dig., Anahiem, CA, USA, May 2010, pp.1712-1715. (EI) (NSC 97-2221-E-011-020-MY2)
  [40]   C.-H. Tseng and H.-J. Chen, “A low-cost switched-beam antenna for in-door wireless communications,” in Proc. Intelligent Buildings and Smart Homes Conf., Taipei, Taiwan, Nov. 2009, pp. 114-117.
  [41]   陳明宏, 曾昭雄,“使用微波六埠網路研製測距雷達模組,” in Proc. National Symp. on Telecommunications, Yunlin, Taiwan, Dec. 2008. (NSC 95-2218-E-011-022)
  [42]   林丁丙, 曾昭雄, 吳曉婷,“應用於數位電視接收之縮小化折疊偶極天線,” in Proc. National Symp. on Telecommunications, Yunlin, Taiwan, Dec. 2008, pp. 797-800.
  [43]   C.-H. Tseng and C.-L. Chang, “Microwave push-pull power amplifier using metamaterial-based baluns,” in Proc. 20th Asia-Pacific Microwave Conf., Hong Kong, China, Dec. 2008. (NSC 96-2221-E-011-009)
  [44]   C.-H. Tseng and C.-L. Chang, “A circularly-polarized microstrip antenna fed by composite right/left-handed quadrature power splitter,” in Proc. International Symp. on Antennas Propag., Taipei, Taiwan, Oct. 2008, pp.1168-1171. (NSC 96-2221-E-011-009) [Best Paper Award]
  [45]   S.-T. Wu, D.-B. Lin, and C-H Tseng, “Compact folded dipole antenna for DTV signal reception,” present in 2008 Progress in Electromagnetic Research Progress Symposium (PIERS 2008).
  [46]   C.-L. Chang and C.-H. Tseng, “Bandwidth-Enhanced Quadrature Power Splitter and Balun Using Metamaterial Transmission Lines,” in Proc. 19th Asia-Pacific Microwave Conf., Bangkok, Thailand, Dec. 2007, pp. 2777-2780. (EI) (NSC 95-2218-E-011-022)
  [47]   張智林, 曾昭雄,“使用左手傳輸線研製具90度及180度相位差之寬頻微波功率分配器,” in Proc. National Symp. on Telecommunications, Taipei, Taiwan, Nov. 2007, pp. 762-765. (NSC 95-2218-E-011-022)
  [48]   C.-H. Tseng and T.-H. Chu, “Measurement of broadband dielectric constant using substrate integrated waveguide,” in Proc. 36th European Microwave Conf., Manchester, U.K., Sep. 2006, pp.392-394. (EI) (NSC 94-2752-E-002-004-PAE, NSC 94-2213-E-002-010)
  [49]   C.-H. Tseng and T. Itoh, “Dual-band bandpass and bandstop filters using composite right/left-handed metamaterial transmission line,” in IEEE MTT-S Int. Microwave Symp. Dig., San Francisco, CA, USA, Jun. 2006, pp.931-934. (EI) (NSC 94-2752-E-002-004-PAE, NSC 94-2917-I-002-029)
  [50]   S.-N. Hsieh, C.-H. Tseng and T.-H. Chu, “A three-element retro-directive antenna array,” in Proc. 17th Asia-Pacific Microwave Conf., Suzhou, China, Dec. 2005. (EI)
  [51]   S. N. Hsieh, C.-H. Tseng and T.-H. Chu, “A Retro-directive Antenna Array using 90? Hybrids,” USNC/ URSI National Radio Science Meeting, Washington DC, USA, Jul. 2005. (EI)
  [52]   C.-H. Tseng and T.-H. Chu, “Three frequency-swept microwave imaging arrangements of conducting objects using multi-source illumination,” Proc. National Symp. on Telecommunications, Keelung, Taiwan, Dec. 2004, pp. 1355-1360. (NSC 93-2213-E-002-035, NSC 93-2752-E-002-001-PAE)
  [53]   C.-H. Tseng and T.-H. Chu, “Measurement of flip-chip interconnects,” in Proc. 16th Asia-Pacific Microwave Conf., New Delhi, India, Dec. 2004. (EI) (NSC 93-2213-E-002-035, NSC 93-2752-E-002-003-PAE)
  [54]   P.-S. Wu, C.-H. Tseng, M.-F. Lei, T.-W. Huang, and H. Wang, “Three-dimensional X-band new transformer balun configuration using the multilayer ceramic technologies,” in Proc. 34th European Microwave Conf., Amsterdam, The Netherlands, Oct. 2004, pp.385-388. (EI) (NSC 93-2752-E-002-002-PAE, NSC 93-2219-E-002-024, NSC 92-2220-E-002-005)
  [55]   C.-H. Tseng and T.-H. Chu, “Multistatic microwave imaging of perfectly conducting objects,” USNC/ URSI National Radio Science Meeting, Monterey, CA, USA, Jun. 2004. (EI)
  [56]   P.-S. Wu, C.-H. Tseng, T.-W. Huang and H. Wang, "A singly balanced millimeter-wave mixer using a compact transformer," in Proc. 15th Asia-Pacific Microwave Conf., Seoul, Korea, Nov. 2003, pp. 649-652. (EI) (NSC 90-2219-E-002-007, NSC 89-2213-E-002-178)
  [57]   C.-H. Tseng and T.-H. Chu, “Characterizing single flip-chip transition using LRL de-embedding procedure,” in Proc. 15th Asia-Pacific Microwave Conf., Seoul, Korea, Nov. 2003, pp. 1507-1510. (EI) (NSC 91-2219-E-002-30)
  [58]   C.-H. Tseng and T.-H. Chu, “A new test set with 2-port stimulus for on-wafer S-parameter measurements,” in Proc. 15th Asia-Pacific Microwave Conf., Seoul, Korea, Nov. 2003, pp. 1090-1093. (EI) (NSC 91-2219-E-002-005)
  [59]   C.-H. Tseng and T.-H. Chu, “Improved measurement of differential type discontinuities using differential TRL calibration procedure,” in Proc. 5th Taiwan EMC Conf., Taipei, Taiwan, Oct. 2003, pp. 179-182. (NSC 91-2219-E-002-018) (Student Paper Award)
  [60]   C.-H. Tseng and T.-H. Chu, “A novel calibration method for 3-port vector network analyzer using 3-port calibrators,” in Proc. 5th Taiwan EMC Conf., Taipei, Taiwan, Oct. 2003, pp.183-186. NSC 91-2219-E-002-005)
  [61]   C.-H. Tseng and T.-H. Chu, “Quasi-monostatic microwave imaging using multi-source illumination,” in IEEE AP-S Int. Symp. Dig., Columbus, OH, USA, June 2003, pp.179-182. (EI) (NSC 91-2219-E002- 030)
  [62]   C.-H. Tseng and T.-H. Chu, “On TAN self-calibration for on-wafer S-parameter measurements,” in Proc. 14th Asia-Pacific Microwave Conf., Kyoto, Japan, Nov. 2002. (EI)
  [63]   C.-H. Tseng and T.-H. Chu, “Frequency-swept microwave imaging using multi-source illumination,” in IEEE AP-S Int. Symp. Dig., San Antonio, TX, USA, Jun. 2002, pp.330-333. (EI)
  [64]   曾昭雄, 饒瑞榮, 薛文崇等,“自由空間天線量測與模擬,”in Proc. 2nd Taiwan EMC Conf., Taipei, Taiwan, Oct. 2000, pp. 102-107。
  [65]   薛文崇, 饒瑞榮, 曾昭雄, “電波暗室的特性評估技術,”in Proc. 2nd Taiwan EMC Conf., Taipei, Taiwan, Oct. 2000, pp. 284-287。
  [66]   T.-H. Chu, C.-H. Tseng, S.-D. Yang and C.-I. Chi, "Development of ROCSAT-1 Ka-band beacon signal receiving terminal," Workshop of ROCSAT-1 Scientific Results, Taipei, Sept. 1999.
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  [8]   曾昭雄、游立得,「非接觸式相位鎖定暨自我注入鎖定生理信號感測器」,台灣發明專利 (發明第I705795號,2020/10/1~2039/3/31)
  [9]   李三良、曾昭雄、洪綾秀、許永和、陳正憲,「具人體生理訊號偵測功能的遠紅外線照射器及其操作方法」,台灣發明專利 (發明第I684470號,2020/2/11~2038/12/5)
  [10]   曾昭雄、林沂樺,「非接觸式自我注入鎖定生理信號感測器」,台灣發明專利 (發明第I685205號,2020/2/11~2039/05/12)
  [11]   曾昭雄、游立得、黃俊凱、張智林,「非接觸式自我注入鎖定感測器」,台灣發明專利 (發明第I642406號,2018/12/1~2037/12/11)
  [12]   曾昭雄、張智林,「振盪器參數設計方法與應用其之微波振盪器及壓控振盪器」,台灣發明專利 (發明第I521858號,2016/2/11~2033/3/26)

Research Achievement
Title Total Amount Conduct From Conduct Until Client
[PI] Research and Development of Cuffless Blood Pressure Sensor Using Phase-Locked Self-Oscillating Metamaterial Resonator (MOST 109-2221-E-011-159) 2,568,000 202008 202107 MOST
[PI] Research and Development of Cuffless Blood Pressure Sensor Using Self-Oscillating Metamaterial Resonator (MOST 108-2221-E-011-034) 2,258,000 201908 202007 MOST
[PI] Research and Development of Noncontact Skin Conductance Sensing Radar with Self-Injection-Locked Technology for Emotion Physiological Response (MOST 107-2221-E-011-049) 910000 20188 20197 MOST
[PI] Research and Development of Noncontact Human Skin Conductance Sensing Radar for Emotion Physiological Response (MOST 106-2221-E-011-009) 623,000 201708 201807 MOST
[PI] Development of Noncontact Vital-Sign Radar Sensor Using Self- Oscillating-Mixer Active Integrated Antenna (MOST 105-2221-E-011- 028) 726,000 201608 201707 MOST
[PI] Development of Non-Contact Vital-Sign Sensor Modules and Chips for Infant Monitoring (MOST 104-2221-E-011-031) 715,000 201508 201607 MOST
[PI] Development of Non-Contact Vital Sign Detection Radar Module Using Spatial-Diversity Technique (MOST 103-2221-E-011-015) 661,000 201408 201507 MOST
[PI] Research of Microwave Oscillator Design Using Harmonic-Suppressed Frequency-Selective Elements (NSC 102-2221-E-011-012) 774,000 201308 201407 NSC
[PI] Development of Low Phase-Noise Filter-Based Microwave and Millimeter-wave Oscillators (NSC 101-2221-E-011-080) 838,000 201208 201307 NSC
[PI] Design and Implementation of Novel Microwave Couplers and Their Applications(2/2) (NSC 100-2628-E-011-005) 895,000 201108 201207 NSC
[PI] Design and Implementation of Novel Microwave Couplers and Their Applications(1/2) (NSC 99-2628-E-011-002) 895,000 201008 201107 NSC
[pi] Research for microwave active and passive circuit design based on left-handed transmission-lines (2/2) (NSC 97-2221-E-011-020-MY2) 801,000 200908 201007 NSC
[Co-PI] Research for microwave active and passive circuit design based on left-handed transmission-lines (1/2) (NSC 97-2221-E-011-020-MY2) 778,000 200808 200907 NSC
[PI] Development of Miniaturized Radar RF Module Using Microwave Six-Port Network(96-2221-E-011-009-) 541,000 200708 200807 NSC
[PI] Development of Miniaturized Microwave Components Using Left-Handed Transmission Lines and Low-Temperature Co-Fired Ceramic (LTCC) Techniques(95-2218-E-011-022-) 623,000 200611 200710 NSC

Student
Academic Year Thesis Title Student
101 Development of Microwave Ranging Radar and Its Key Component Design Chih-Lin Chang
M.S
Academic Year Thesis Title Student
110 Development of 24 GHz MIMO Radar Module for Object Classification Hsin-Jung Wu
109 Development of Smart Infrared Wrist Blood Pressure Sensor Using Machine Learning Technique Shih-Wei Wu
109 Development of 24 GHz Transmitter Module for MIMO Radar Applications Chia-Chieh Wang
109 Development of Liquid Concentration Sensors Using Self-Oscillating Split-Ring Resonator and Complementary Split-Ring Resonator Chia-Lien Chuang
109 Development of Radio-Frequency Near-Field Vital-Sign Sensors Based on Self-Injection-Locked Technology Yen-Ting Lee
109 Development of Radio-Frequency Liquid Permittivity Sensors Based on Perturbation-Injection-Locked and Frequency-Locked-Loop Technologies Cheng-Yu Yang
108 Development of 24 GHz Radar Sensors Vital Signs of Laboratory Mice and Azimuth Angle of Human Target Yen-I Tu
108 Development of Liquid Permittivity Sensors Based on Self-Injection-Locked Technology Chien-Yu Lu
107 Development of Noncontact Blood Pressure Sensors Using Radio-Frequency Technology Tzu-Jung Tseng
107 Development of Perturbation-Injection-Locked Vital-Sign Sensors Based on Self-Oscillating Complementary Split-Ring Resonators Cheng-Zhou Wu
107 Development of 24 GHz Multi-Radar Sensing System for Human Target Location and Vital-Sign Detection Chun-Chi Lu
107 Development of Non-invasive Radio-Frequency Blood Glucose Sensors Based on Perturbation-Injection-Locked Technology Yi-Cheng Weng
107 Development of Phase- and Self-Injection-Locked Vital-Sign Radar Sensors Sheng-Yang Hsu
106 基於自我注入鎖定技術之穿戴式生命徵象雷達感測器研製 吳聖偉
106 應用於一維人體定位之24 GHz頻率調變連續波雷達模組研製 陳柏丞
106 Development of 5.8 GHz CMOS Self-Oscillating Mixer and 24 GHz CMOS Push-Push Injection-Locked Oscillator for Non-Contact Human's Heartbeat and Respiration Detection Radar Design Yi-Hua Lin
106 使用自我注入鎖定主動天線實現非接觸式生命徵象感測器 張淑華
106 使用自我注入鎖定技術進行介電係數量測之研究評估 林暐軒
106 24 GHz車用雷達系統研製 陳宏哲
105 Development of Radar Sensor with Self-Oscillating Active Integrated Antenna for Vital-Sign Detection Li-Te Yu
105 Beamforing Network Design of Phased Array Antennas for Marine Radar Application Jheng-Yuan Huang
105 Design of Phased Array Antennas for Marine Radar Applications Chun-Hao Tseng
104 Development of 5.8 GHz Radar Sensor Chip in 0.18-um CMOS for Non-Contact Vital Sign Detection Jyun-Kai Huang
104 Development of 5 GHz and 1-10 GHz CMOS Low Noise Amplifiers Yen-Chun Kuo
104 Development of 24 GHz Non-Contact Radar Module for Infant Vital Sign Monitoring Tzu-Wei Hsu
104 Design of Noncontact Permittivity Measurement System and Vital-Sign Radar Teaching Modules Ya-Ting Chang
104 Development of Doppler Radar Module for Gesture Sensing Application Ssu-Ting Huang
103 Design of 24-GHz CMOS Balanced Divide-by-3 Injection-Locked Frequency Dividers and Their Applications to Implement Divide-by-24 Frequency Dividers Sung-Hao Cheng
103 Development of 5.8 GHz CMOS Voltage Controlled Oscillators Hsiu-Hsien Mei
103 Development of 5.8 GHz Active CMOS Doubly-Balanced Mixers Shih-Hsin Chang
103 Development of 5.8 GHz Radar Modules for Vital-Sign Detection Chia-Hung Chao
102 Development of Microwave and Millimeter-wave Coplanar Waveguide (CPW) Multi-Conductor Interdigitated Couplers Yu-Tzu Chen
102 Development of Doppler Radar Module for Non-Contact Human's Respiration and Heartbeat Detection Yu-Jen Lin
102 Development of Voltage Control Oscillators, Frequency Dividers and Power Amplifier for Microwave Radar System Application Ching-Hsing Lu
102 Design of Microwave Baluns and Applied to Development CMOS Singly Balanced Mixer Chih-Che Lin
101 Phase-Noise Analysis and Improvement of Microwave Feedback Oscillators Muhyin Daud
101 Development of Low-Phase Noise Microwave Voltage-Controlled Oscillators Using Stepped-Impedance Resonator Filters Tien-Sheng Huang
101 Development of Millimeter-Wave Broadband Balun Using CMOS and GIPD Fabrication Processes Yu-Hsiang Huang
100 Development of Low Phase Noise Oscillators Based on Microwave Ring Filters Chang
100 Development of Novel Microwave Branch-Line Coupler, Dual-Band Rat-Race Coupler and Wideband Passive Isolation Component Chia-Hung Mou
99 Development of Miniaturized Microwave Components and Beam-Scanning Phased Array Antenna Using Symmetrical and Asymmetrical Shunt-Stub-Based Artificial Transmission Lines Chi-Hsing Wu
99 Development of Miniaturized Microwave Ring Coupler Using Asymmetrical T-structures and Dual Transmission Lines Po-Hsiang Tu
99 Development of Microwave Oscillators Based on Bandpass Filters Yu-Wen Huang
98 Development of Balun, Mixer and CMOS Millimeter-Wave Bandpass Filter Using New Microwave Guided-Wave Structures Yu-Chih Hsiao
97 Design of Dual-Band Net-Type and Balanced Microwave Bandpadd Filters Hsin-Yung Shao
97 Design of 10 GHz Microwave Oscillator Using Substrate Integrated Waveguide Hong-Chi Haung
96 Development of microwave amplifiers and mixerusing composite right/left-handed transmission line technique Chih-Lin Chang
96 Development of Microwave Ranging Radar Module Using Six-Port Network Ming-Hong Chen
96 Development of Miniaturized Microwave Circuit Using Shunt-Stub-Based Artificial Transmission Lines Hsiang-Ju Chen
Academic Year Project Title Student
Year Deeds
2018 碩士班研究生「翁依呈」獲「2018 亞太微波會議學生設計競賽(高延遲、小尺寸及低損耗傳輸線設計)」第3名
2018 碩士班研究生「呂俊奇」獲「台灣科大選送優秀學生境外研習獎學金」赴美國羅格斯大學進行短期研究(2018.8~2017.11)
2017 碩士班研究生「趙佳宏、徐子威」獲臺灣電磁產學聯盟之「陳俊雄教授電磁人才培育獎學金」研究所組第一名
2017 碩士班研究生「游立得」、「陳宏哲」獲「2017 IEEE IMS高靈敏度暨快速反應動作感測雷達學生設計競賽」第3名
2017 碩士班研究生「林沂樺」獲「台灣科大選送優秀學生境外研習獎學金」赴德國阿亨工業大學進行短期研究(2017.5~2017.9)。
2016 碩士班研究生「張雅婷」獲「台灣科大選送優秀學生境外研習獎學金」赴德國阿亨工業大學進行短期研究(2016.1~2016.4)
2015 碩士班研究生「趙佳宏」、「徐子威」獲「2015 IEEE MTT-S 高靈敏度雷達 (High Sensitivity Radar) 學生設計競賽第一名」。
2014 博士班研究生「張智林」獲「國家晶片系統設計中心優良晶片優等設計奬」 (P15-101B-14,利用梳型濾波器研製具低相位雜訊之壓控振盪器)
2014 碩士班研究生「林宥任」獲「台灣科大選送優秀學生境外研習獎學金」赴德國阿亨工業大學進行短期研究(2014.3~2014.6)。
2013 碩士班研究生「陳又慈」獲「台灣科大選送優秀學生境外研習獎學金」赴德國阿亨工業大學進行短期研究(2013.11~2014.3)。
2012 碩士班研究生「Muhyin Daud」獲「IEEE Microwave Theory and Technique Society Spring 2012 Scholarship」
2010 碩士班研究生「伍祈馨」獲「2010全國電信研討會最佳學生論文奬」
2010 碩士班研究生「蕭語鋕」獲「中國電機工程學會99年度青年論文奬第二名」
2008 碩士班研究生「張智林」獲「中國電機工程學會97年度青年論文奬第三名」