Faculty and Staff

李建育 Jian-Yu Li Assistant Professor

  • Research Office:70920 R

  • (03) 4638800 Ext. 7318

  • jianyu@saturn.yzu.edu.tw

  • Student Lab :RF Circuits Lab.(70909R) TEL:(03) 4638800 Ext.7011 # 909
  • Education

    Ph.D., Institute of Communications Engineering, National Chiao-Tung University.

    M.S., Department of Electrical Engineering, National Sun Yat-sen University.   

    B.S., Department of Electrical Engineering, National Sun Yat-sen University.


    Professional Experience

    Technical Deputy Manager, Information and Communications Research Laboratories (ICL), Industrial Technology Research Institute (ITRI).

    Reviewer, IEEE Transactions on Microwave Theory and Techniques.

    Reviewer, IEEE Transactions on Instrumentation and Measurement.

    Research Area

    RF system design.

    RF circuits design.

  • Journal Papers

    Journal Articles

    1. F.K. Wang, T.S. Horng, K.C. Peng, J.K. Jau, J.Y. Li, and C.C. Chen, "Detection of concealed individuals based on their vital signs by using a see-through-wall imaging system with a self-injection-locked radar," IEEE Transactions on Microwave Theory and Techniques, Vol. 61, No. 1, pp. 696-704, Jan. 2013.
    2. F.K. Wang, T.S. Horng, K.C. Peng, J.K. Jau, J.Y. Li, and C.C. Chen, "Single-antenna Doppler radars using self and mutual injection locking for vital sign detection with random body movement cancellation," IEEE Transactions on Microwave Theory and Techniques, Vol. 59, No. 12, pp. 3577-3587, Dec. 2011.
    3. F.K. Wang, C.J. Li, C.H. Hsiao, T.S. Horng, J. Lin, K.C. Peng, J.K. Jau, J.Y. Li, and C.C. Chen, "A novel vital sign sensor based on a self-injection-locked oscillator," IEEE Transactions on Microwave Theory and Techniques, Vol. 58, No. 12, pp. 4112-4120, Dec. 2010.
    4. J. Y. Li, C. H. Chi, and C. Y. Chang, “Synthesis and design of generalized Chebyshev wideband hybrid ring based bandpass filters with a controllable transmission zero pair,” IEEE Trans. Microw. Theory Tech., vol. 58, no. 12, pp. 3720-3731, Dec. 2010.
    5. C. H. Chen, C. H. Huang, T. S. Horng, S. M. Wu, J. Y. Li, C. C. Chen, C. T. Chiu, and C. P. Hung, “Very compact stacked LC resonator-based bandpass filters with a novel approach to tune the transmission zeros,” IEEE Microwae Wireless Compon. Lett., vol. 19, pp. 293-295, May. 2009.
    6. C. J. Li, C. T. Chen, T. S. Horng, J. K. Jau, and J. Y. Li, “High average-efficiency multimode RF transmitter using a hybrid quadrature polar modulator,” IEEE Trans. on Circuits and Syst. II, Exp. Briefs, vol. 55, No. 3, pp. 249-253, Mar. 2008.
  • Conference Papers

    Conference Papers

    1. J. H Deng, S. K. Liu, C. J. Liu, C. C. Hou, C. Y. Liu, M. L. Ku, J. Y. Li, and Joseph D. S. Deng, "Design of Millimeter Wave Active Array Antenna Module with Embedded System and Calibration of Software Defined Radio Platform," IEEE VTS 17th Asia Pacific Wireless Communications Symposium, Aug. 2021.
    2. J. Y. Li, F. C. Tang, and T. H. Hsien, “Development of High Isolation Ping-Pong DDS-PLL Based Frequency Synthesizer for Fast Frequency Hopping Applications,” Asia Pacific Microwave Conference, Nov. 2018.
    3. K. H. Chien, F. H. Chung, and J. Y. Li, “Co-design of a 140 MHz to 5.4 GHz Inductorless LNA Chip and PCB for Software Defined Radio, ” Asia Pacific Microwave Conference, Nov. 2018.
    4. Y. C. Hsu, J. Y. Li, L. K. Wu, “High Reliable Doherty Power Amplifier Module for LTE Small Cell Base Station, ” IEEE CPMT Symposium Japan, pp. 37-40, Nov. 2017.
    5. Y. C. Hsu, J. Y. Li, L. K. Wu, “Design of Doherty power amplifier for carrier-aggregation in LTE-A small cell base station, ” Asia Pacific Microwave Conference, Nov. 2016.
    6. J. Y. Li, and W. C. Chang, “Wideband and high isolation RF carrier-aggregated switch module for LTE-Advanced Base station,” in Proc.46th European Microwave Conference, pp. 695-698, Oct. 2016.
    7. W. G. Chen, R. J. Chen, J. Y. Li, P. H. Wu, “Compact X-band FMCW sensor module for fast and accurate vehicle occupancy detection,” International Symposium on Antennas and Propagation Conference Proceedings, pp. 155-156, Dec. 2014.
    8. F. H. Chung, J. Y. Li, C. H. Chi, C. M. Lai, C. H. Tu, P. H. Wu, and Y. R. Chuang, “Design of Carrier-Aggregated Modulator for LTE-Advanced, ” IEEE International Microwave Symposium, pp. TU4F-3:1-3, Jun. 2014.
    9. F. H. Chung, C. M. Lai, C. H. Chi, C. H. Tu, P. H. Wu, and J. Y. Li, “A 1.9-2.6 GHz router switch IC for MIMO applications in 0.18 um CMOS technology, ” Asia Pacific Microwave Conference, pp. 710-712, Nov. 2013.
    10. C. M. Lai, J. K. Jau, P. H. Wu, C. H. Tu, and J. Y. Li, “CMOS RF T/R router switch ICs for LTE carrier aggregation transceivers,” European Microwave Conference, pp. 904-907, Oct. 2012.
    11. P. H. Wu, J. Y. Li, Y. C. Wang, and P. Hsu, “GaAs Bi-FET RF front-end MMIC for WiMAX applications, ” IEEE Radio-Frequency Integrated Circuit Symposium, pp. 287-290, Jun. 2012.
    12. F.K. Wang, T.S. Horng, K.C. Peng, J.K. Jau, J.Y. Li, and C.C. Chen, “Seeing through walls with a self-injection-locked radar to detect hidden people,” in Proc. IEEE MTT-S Int. Microw. Symp., pp. THPE-4:1-3, Jun. 2012.
    13. J. Y. Li, C. H. Chi, and C. Y. Chang, “Synthesis of wideband bandpass filters using a hybrid ring shunts with an open-circuited stub,” in Proc. Asia–Pacific Microw. Conf., pp. 1670-1673, Dec. 2011.
    14. Y. T. Kuo, J. Y. Li, S. Y. Cheng, and C. Y. Chang, “Tri-band and quad-band filter design using E-shaped resonators,” in Proc. Asia–Pacific Microw. Conf., pp. 1270-1273, Dec. 2011.
    15. C. M. Lai, J. K. Jau, P. H. Wu, and J. Y. Li, “Compact router transceiver architecture for carrier aggregation systems, ” European Microwave Conference, pp. 693-696, Oct. 2011.
    16. F.K. Wang, C.J. Li, C.H. Hsiao, T.S. Horng, J. Lin, K.C. Peng, J.K. Jau, J.Y. Li, and C.C. Chen, “An injection-locked detector for concurrent spectrum and vital sign sensing,” in Proc. IEEE MTT-S Int. Microw. Symp., pp. 768-771, May 2010.
    17. C. M. Lai, J. K. Jau, and J. Y. Li, “High efficiency RF power amplifier using band limited dynamic supply control method,” in Proc. European Microw. Conf., pp. 350-353, Oct. 2009.
    18. C. H. Huang, T. C. Wei, T. S. Horng, S. M. Wu., J. Y. Li, C. C. Chen, C. C. Wang, C. T, Chiu, and C.P. Hung, “Design and modeling of planar transformer-based silicon integrated passive devices for wireless applications,” in Proc. IEEE RFIC Symp. Dig., pp. 167-170, Jun. 2009.
    19.  C.T. Chen, C. J. Li, T.S. Horng, J.K. Jau, and J.Y. Li, “High efficiency dual-mode RF transmitter using envelope-tracking dual-band Class-E power amplifier for W-CDMA/WiMAX systems,” in Proc. IEEE MTT-S Int. Microw. Symp., pp. 417-420, Jun. 2009.
  • Research Project

    The MOST

    Project name

    Work performed within project

    Y/M of start and end

    Funding or commissioning organization

    Wireless Communications Measurement Alliance (1/2)

    Co-PI

    2022/02/01~2023/01/31

    MOST

    Design and implementation of a multiple-source RF cooking system with even heating and temperature control

    PI

    2021/08/01~2022/07/31

    MOST

    Wireless Communications Measurement Alliance (1/3)

    Co-PI

    2020/02/01~2021/01/31

    MOST

    Design and Implementation of Reconfigurable Wideband Bandpass Filters using CMOS/IPD Technology

    PI

    2019/08/01~2020/10/31

    MOST

    Wireless Communications Measurement Alliance (3/3)

    Co-PI

    2019/02/01~2020/03/31

    MOST

    Development of wideband RF switches with combining and separating paths

    PI

    2018/08/01~2019/10/31

    MOST

    Wireless Communications Measurement Alliance (2/3)

    Co-PI

    2018/02/01~2019/01/31

    MOST

    Wireless Communications Measurement Alliance (1/3)

    Co-PI

    2017/02/01~2018/01/31

    MOST

    Development of Fundamental Technologies for Intelligent Multiband Wireless Communications—including PHY/MAC/TEST/ APPLICATION (3/3)

    Co-PI

    2016/01/01~2016/12/31

    MOST

    Development of Fundamental Technologies for Intelligent Multiband Wireless Communications—including PHY/MAC/TEST/ APPLICATION (2/3)

    Co-PI

    2015/01/01~2015/12/31

    MOST

    Synthesis and design of branch line coupler based wideband bandpass filters.

    PI

    2015/11/01~2016/10/31

    MOST


    Other organization

    Project name

    Work performed within project

    Y/M of start and end

    Funding or commissioning organization

    Millimeter-wave active antenna array module

    PI

    2022/03/01~2022/12/31

    ITRI/ICL

    Development of multi-channel ports module

    PI

    2022/02/01~2022/11/30

    YoungTek electronics Corp.

    Development of Millimeter wave GaN power amplifier

    PI

    2022/02/01~2022/12/31

    ITRI/ICL

    Design and realization of Doherty power module

    PI

    2021/12/01~2022/08/31

    Wistron NeWeb Corporation

    Development of GaAs RF amplifier

    PI

    2021/08/01~2021/11/30

    ITRI/ICL

    Design of Doherty power amplifier

    PI

    2021/05/01~2021/10/30

    Wistron NeWeb Corporation

    Development of GaN high frequency power amplifier

    PI

    2021/01/20~2021/12/20

    ITRI/ICL

    5G Antenna and RF Technology Alliance Center – Design and simulation of millimeter wave circuits (II)

    Co-PI

    2020/04/01~2021/03/31

    MOE

    Design of GaN Doherty power amplifier

    PI

    2020/03/20~2020/12/20

    ITRI/ICL

    Simulation and layout of GaN power amplifier

    PI

    2019/09/10~2019/12/20

    ITRI/ICL

    Adaptive reconfigurable advance sensing technology

    Co-PI

    2019/01/01~2019/12/31

    NCSIST

    5G Antenna and RF Technology Alliance Center – Key technology of wideband transceiver (I)

    Co-PI

    2018/09/13~2020/03/31

    MOE

    Advanced Mobile Broadband Technologies - Design of Next Generation RF Transceiver Modules (II)

    Co-PI

    2016/11/01~2018/01/31

    MOE

    Advanced Mobile Broadband Technologies - Design of Next Generation RF Transceiver Modules (I)

    Co-PI

    2016/05/01~2016/10/31

    MOE

    Analysis Wideband RF Transceiver circuits

    PI

    2015/04/01~2015/12/31

    ITRI/ICL


  • Publications and Patents

    Patents

    1. “Multi-carrier receiver, multi-carrier transmitter and multi-carrier transceiver system,” US8396099B2. (Inventor : C. M. Lai, P. H. Wu, J. Y. Li)
    2. “多載波接收機、多載波發射機及多載波收發機系統,”I449348. (Inventor : C. M. Lai, P. H. Wu, J. Y. Li)
    3. “多載波接收機、多載波發射機及多載波收發機系統,”CN105357164B. (Inventor : C. M. Lai, P. H. Wu, J. Y. Li)
    4. “Receiver and transmitter apparatus for carrier aggregation,”US8971388B2. (Inventor : C. H. Tu, C. M. Lai, J. Y. Li)
    5. “載波聚合接收裝置與發射裝置及收發裝置,”I465050. (Inventor : C. H. Tu, C. M. Lai, J. Y. Li)
    6. “載波聚合接收裝置與發射裝置及收發裝置,”CN103888180B. (Inventor : C. H. Tu, C. M. Lai, J. Y. Li)
    7. “發射機及其基頻處理器與射頻功率放大器之調制方法,”I311878. (Inventor : T. S. Horng, J. K. Jau, Y. A. Chen, J. Y. Li, C. M. Lai)
  • Awards

    Award

    Counseling and Services Outstanding Award, Electrical and Communication Engineering College, 2020.

    Teaching Outstanding Award, Electrical and Communication Engineering College, 2016, 2017, 2019, 2020.

    Teaching Outstanding Award, YZU, 2018

    Achievement Contribution Award, ITRI, 2009.

    Outstanding Chip Design Award, CIC, 2001.

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