專任教師
 
紀佩綾
紀佩綾
教授
組   別:
電波組
辦 公 室:
ED815B
電   話:
03-5131299
信   箱:
peilingchi@nycu.edu.tw
實驗室名稱:
微/毫米波電子實驗室
實驗室位置:
ED913B
實驗室分機:
54574
實驗室網站:
研究 主題:
天線設計, 電磁理論, 射頻電路設計
  • 個人簡歷
    紀博士分別在2004年和2006年於新竹交通大學獲得電機工程學士學位和電機工程碩士學位,並在2011年於加州大學洛杉磯分校取得電機工程博士學位。自2011年開始,她在國立交通大學電機與電腦工程學系擔任助理教授,目前則是副教授。紀博士是中華民國婓陶婓榮譽學會學生會員,於2004年成為國家科學委員會研究創作獎獲獎者,並於2006年獲得加州大學洛杉磯分校全額獎學金,也同時擁有左手(LH) 超穎材料(MTM) 電路應用領域的美國/國際專利。她的研究興趣包括左手超材料電路的分析和設計、微波元件和整合系統的設計以及毫米波/太赫茲天線和通訊的開發

     


  • 經歷與榮譽

    榮譽與獎項

    • 校內榮譽事項        2019        108年績優導師    
    • 校外榮譽事項        2019        吳大猷先生紀念獎        科技部
    • 校內榮譽事項        2018        碩士在職專班107學年度第一學期優良教師教學獎        電機學院/資訊學院
    • 校外榮譽事項        2006        加州大學全額獎學金
    • 校外榮譽事項        2004        研究創作獎            國科會
    • 校內榮譽事項        2004        研究生獎學金        國立交通大學
    • 校外榮譽事項        2004        學生會員        中華民國婓陶婓榮譽學會
    • 校外榮譽事項        2003        獎學金            合勤科技
    • 校外榮譽事項        2002        獎學金            台達電子

    專業經歷

    • 國立陽明交通大學電機工程學系 副主任 (2021.08~present)
    • 國立交通大學電機工程學系 副教授 (2015.08~present)
    • 國立交通大學電機工程學系/毫米波電子實驗室 主任 (2011.03~present)
    • 國立交通大學電機工程學系 助理教授 (2011.03~2015.07)
    • 加州大學洛杉磯分校 研究生研究員 (2006.09~2010.12)

  • 研究主題
    • 左手材料電路分析與設計
    • 微波元件與整合系統設計
    • 毫米波/太赫茲天線與通訊開發。

  • 期刊論文
    • W. Sun, S. Liu, X. Zhu, P.-L. Chi, X. Zhang, and T. Yang, “A novel (1.05 to 1.25) GHz filteringantenna feeding network with reconfigurable frequency and polarization,” IEEE Transactions Antennasand Propagation, vol. 70, no. 1, pp. 156-166, Jan. 2022.
    • P.-L. Chi, S.-A. Shang, and T. Yang, “Novel compact coupler with tunable frequency, phasedifference, and power-dividing ratio,” IEEE Microw. Wireless Compon. Lett., vol. 31, no. 10, pp.1119-1122, Oct. 2021.
    • Z. Wei, T. Yang, P.-L. Chi, X. Zhang, and R. Xu, “A 10.23-15.7-GHz varactor-tuned microstripbandpass filter with highly flexible reconfigurability,” IEEE Transactions Microw. Theory Techn., vol.69, no. 10, pp. 4499-4509, Jul. 2021.
    • J. Lai, T. Yang, P.-L. Chi, and R. Xu, “Design of trisection filter with reconfigurable centerfrequency and transmission zeros using evanescent-mode cavity resonators,” Microw. Opt.Technol. Lett., pp. 1-6, 2021.
    • X. Chen, T. Yang, and P.-L. Chi, “Arbitrary-order balanced filter with reflectionless characteristicsfor both common- and differential-mode signals,” IEEE Microw. Wireless Compon. Lett., vol. 31,no. 6, pp. 553-556, Jun. 2021.
    • P.-L. Chi, H.-T. Shih, and T. Yang, “5G millimeter-wave substrate-integrated waveguidequad-channel diplexer with high in-band and wideband isolation,” IEEE Microw. WirelessCompon. Lett., vol. 31, no. 6, pp. 650-653, Jun. 2021.
    • J. Lai, T. Yang, P.-L. Chi, and R. Xu, “A novel 1.7–2.85-GHz filtering crossover withindependently tuned channel passbands and reconfigurable filtering power-dividing function,”IEEE Transactions Microw. Theory Techn., vol. 69, no. 5, pp. 2458-2469, May 2021.
    • J. Lai, T. Yang, P.-L. Chi, and R. Xu, “1.866-2.782-GHz reconfigurable filteringsingle-pole-multithrow switches based on evanescent-mode cavity resonators,” IEEE TransactionsMicrow. Theory Techn., vol. 69, no. 2, pp. 1355-1364, Feb. 2021.
    • X. Chen, T. Yang, and P.-L. Chi, “Novel single-ended-to-balanced filter with reconfigurableworking modes, frequency, bandwidth, and single/dual-band operations,” IEEE Access, vol. 9, pp.14216-14227, 2021.
    • X. Zhu, T. Yang, P.-L. Chi, and R. Xu, “A tunable vector-sum filtering power divider withcontinuously tuned frequency and arbitrary output phase differences,” IEEE Microw. WirelessCompon. Lett., vol. 30, no. 11, pp. 1033-1036, Nov. 2020.
    • P.-L. Chi, Y.-M. Chen, and T. Yang, “Single-layer dual-band balanced substrate-integratedwaveguide filtering power divider for 5G millimeter-wave applications,” IEEE Microw. WirelessCompon. Lett., vol. 30, no. 6, pp. 585-588, Jun. 2020.
    • X. Zhu, T. Yang, P.-L. Chi, and R. Xu, “Novel reconfigurable filtering rat-race coupler,branch-line coupler, and multiorder bandpass filter with frequency, bandwidth, and powerdivision ratio control,” IEEE Transactions Microw. Theory Techn., vol. 68, no. 4, pp. 1496-1509, Apr.2020.
    • T. Zhang, T. Yang, and P.-L. Chi, “Novel reconfigurable negative group delay circuits withindependent group delay and transmission loss/gain control,” IEEE Transactions Microw. Theory Techn.,vol. 68, no. 4, pp. 1293-1303, Apr. 2020.
    • J. Lai, T. Yang, P.-L. Chi, and R. Xu, “Novel evanescent-mode cavity filter with reconfigurablerat-race coupler, quadrature coupler and multi-pole filtering functions,” IEEE Access, vol. 8, pp.32688-32697, 2020.
    • X. Zhu, T. Yang, P.-L. Chi, and R. Xu, “Novel tunable isolation network used in ring-typesingle-to-balanced, power-dividing, and single-ended filter with arbitrary power-division ratios,”IEEE Transactions Microw. Theory Techn., vol. 68, no. 2, pp. 666-680, Feb. 2020.
    • Q. Li, X. Chen, P.-L. Chi, and T. Yang, “Tunable bandstop filter using distributed couplingmicrostrip resonators with capacitive terminal,” IEEE Microw. Wireless Compon. Lett., vol. 30,no. 1, pp. 35-38, Jan. 2020.
    • P.-L. Chi, H.-M. Lin, and C.-P. Chien, “A tunable balanced coupler with improved phase balanceand extended bandwidth,” IEEE Access, vol. 7, pp. 37927-37935, 2019.
    • X. Zhu, T. Yang, P.-L. Chi, and R. Xu, “Novel reconfigurable single-to-balanced, power-dividing,and single-ended filter with frequency and bandwidth control,” IEEE Transactions Microw. TheoryTechn., vol. 67, no. 2, pp. 670-682, Feb. 2019.
    • P.-L. Chi and T.-C. Hsu, “Highly reconfigurable quadrature coupler with ideal impedancematching and port isolation,” IEEE Transactions Microw. Theory Techn., vol. 65, no. 8, pp. 2930-2941,August 2017.
    • P.-L. Chi and T. Yang, “Three-pole reconfigurable 0.94-1.91-GHz diplexer with bandwidth andtransmission zero control,” IEEE Transactions Microw. Theory Techn., vol. 65, no. 1, pp. 96-108,January 2017.
    • P.-L. Chi and T. Yang, “Novel 1.5-1.9 GHz tunable single-to-balanced bandpass filter withconstant bandwidth,” IEEE Microw. Wireless Compon. Lett., vol. 26, no. 12, pp. 972-974,December 2016.
    • P.-L. Chi and T. Yang, “Novel 1.5-2.4 GHz tunable single-to-balanced diplexer,” IEEE Microw.Wireless Compon. Lett., vol. 26, no. 10, pp. 783-785, October 2016.
    • P.-L. Chi and T. Yang, “A 1.3-2.08-GHz filtering power divider with bandwidth control and highin-band isolation,” IEEE Microw. Wireless Compon. Lett., vol. 26, no. 6, pp. 407-409, June 2016.
    • P.-L. Chi, T. Yang, and T.-Y. Tsai, “A fully tunable two-pole bandpass filter,” IEEE Microw.Wireless Compon. Lett., vol. 25, no. 5, pp. 292-294, May 2015.
    • P.-L. Chi and Y.-S. Shih, “Compact and bandwidth-enhanced zeroth-order resonant antenna,”IEEE Antennas Wireless Propag. Lett., vol. 14, pp. 285-288, 2015.
    • P.-L. Chi and K.-L. Ho, “Design of dual-band coupler with arbitrary power division ratios andphase differences,” IEEE Transactions Microw. Theory Techn., vol. 62, no. 12, pp. 2965-2974,
    • December 2014.P.-L. Chi and T.-Y. Chen, “Dual-band ring coupler based on the composite right/left-handedfolded substrate-integrated waveguide,” IEEE Microw. Wireless Compon. Lett., vol. 24, no. 5, pp.330-332, May 2014.
    • P.-L. Chi and C.-C. Liu, “Novel dual-band quasi-0-dB coupled-line coupler using the compositeright/left-handed transmission lines,” IEEE Transactions Compon., Packag. Manuf. Technol., vol. 4, no.2, pp. 259-267, February 2014.
    • K.-L. Ho and P.-L. Chi, “Miniaturized and large-division-ratio ring coupler using noveltransmission-line elements,” IEEE Microw. Wireless Compon. Lett., vol. 24, no. 1, pp. 35-37,January 2014.
    • T. Yang, P.-L. Chi, R. Xu, and W. Lin, “Folded substrate integrated waveguide-based compositeright/left-handed transmission line and its application to partial H-plane filters,” IEEE TransactionsMicrow. Theory Techn., vol. 61, no. 2, pp. 789-799, February 2013.
    • T. Yang, P.-L. Chi, and R. Xu, “Novel composite right/left-handed leaky-wave antennas based onthe folded substrate-integrated-waveguide structures,” Progress in Electromagnetics Research C,Vol. 29, pp. 235-248, 2012.
    • P.-L. Chi, “Miniaturized ring coupler with arbitrary power divisions based on the compositeright/left-handed transmission lines,” IEEE Microw. Wireless Compon. Lett., vol. 22, no. 4, pp.170-172, April 2012.
    • C.-C. Liu, P.-L. Chi, and Y.-D. Lin, “Compact zeroth-order resonant antenna based on dual-armspiral configuration,” IEEE Antennas Wireless Propag. Lett., vol. 11, pp. 318-321, 2012.
    • P.-L. Chi, R. Waterhouse, and T. Itoh, “Compact and tunable slot-loop antenna,” IEEE TransactionsAntennas Propag., vol. 59, no. 4, pp. 1394-1397, April 2011.
    • T. Yang, P.-L. Chi, and T. Itoh, “Compact quarter-wave resonator and its applications tominiaturized diplexer and triplexer,” IEEE Transactions Microw. Theory Techn., vol. 59, no. 2, pp.260-269, February 2011.
    • P.-L. Chi, R. Waterhouse, and T. Itoh, “Antenna miniaturization using slow wave enhancementfactor from loaded transmission line models,” IEEE Transactions Antennas Propag., vol. 59, no. 1, pp.48-57, January 2011.
    • T. Yang, P.-L. Chi, and T. Itoh, “High isolation and compact diplexer using the hybridresonators,” IEEE Microw. Wireless Compon. Lett., vol. 20, no. 10, pp. 551-553, October 2010.
    • P.-L. Chi and T. Itoh, “Miniaturized dual-band directional couplers using compositeright/left-handed transmission structures and their applications in beam pattern diversitysystems,” IEEE Transactions Microw. Theory Techn., vol. 57, no. 5, pp. 1207-1215, May 2009.
    • C.-K. Liao, P.-L. Chi, and C.-Y. Chang, “Microstrip realization of generalized Chebyshev filterswith box-like coupling schemes,” IEEE Transaciton Microw. Theory Techn., vol. 55, no. 1, pp.147-153, January 2007.
    • Y.-D. Lin and P.-L. Chi, “Tapered bent folded monopole for dual-band wireless local areanetwork (WLAN) systems,” IEEE Antennas Wireless Propag. Lett., vol. 4, pp. 355-357, 2005.

  • 會議論文
    • P.-L. Chi and R. Lee, “Tri-band dual-linear polarized reflectarray antenna with independent beamcontrol,” 2021 IEEE International Symposium on Radio-Frequency Integration Technology (RFIT), Hualien, Taiwan, 2021, pp. 1-3.
    • X. Zhu, T. Yang, P.-L. Chi, and R. Xu, “Miniaturized reconfigurable filtering power divider witharbitrary output phase difference and improved isolation,” in IEEE MTT-S Int. Microw. Symp.Dig., 2021, pp. 104-107.
    • X. Chen, T. Yang, and P.-L. Chi, “Tunable first-order balanced filter with reflectionlesscharacteristics for both common- and differential-mode signals,” 2021 IEEE MTT-S International Wireless Symposium (IWS), Nanjing, China, 2021, pp. 1-3.
    • P.-L. Chi, H.-T. Hsu, and T. Yang, “Wideband microstrip reflectarray antenna usingmultiple-frequency phase synthesis approach,” in 2020 Asia-Pacific Microw. Conf., Dec. 8-11, pp.333-335.
    • J. Lai, T. Yang, P.-L. Chi, and R. Xu, “Novel reconfigurable filtering crossover based onevanescent-mode cavity resonators,” in IEEE MTT-S Int. Microw. Symp. Dig., 2020, pp. 818-820.
    • P.-L. Chi, Y.-W. Chi, and T. Yang, “A 1.1-3.1-GHz tunable quadruplexer with compact size andbandwidth control,” in 2019 Asia-Pacific Microw. Conf., Dec. 10-13, pp. 1215-1217.
    • P.-L. Chi and M.-H. Huang, “Compact circularly-polarized slot antenna with enhanced impedanceand axial-ratio bandwidths,” in 2019 Asia-Pacific Microw. Conf., Dec. 10-13, pp. 519-521.
    • X. Zhu, T. Yang, P.-L. Chi, and R. Xu, “A p-type isolation network for improvement of matchingand isolation in reconfigurable multifunctional bandpass filter,” in Proc. 49th Eur. Microw. Conf.,Oct. 2019, pp. 125-128.
    • P.-L. Chi and C.-K. Chiou, “A 1.16-3.89 GHz tunable six-channel diplexer with compact size andhigh isolation,” in IEEE MTT-S Int. Microw. Symp. Dig., June 2-7, 2019, pp. 5-8.
    • Y.-T. Lin, C.-Y. Hsiao, P.-L. Chi, and C.-N. Kuo, “A 39 GHz reflection-type phase shifter forreflectarray antenna application,” 2019 International Symposium on VLSI Design, Automation and Test (VLSI-DAT), Hsinchu, Taiwan, 2019, pp. 1-3.
    • P.-L. Chi and C.-P. Chien, “Balanced-to-balanced power divider with tunablein-phase/out-of-phase power-dividing ratio,” in 2018 Asia-Pacific Microw. Conf., Nov. 6-9, pp.1483-1485.
    • P.-L. Chi and C.-H. Wang, “A wide impedance bandwidth printed slot antenna for 28, 38, and60-GHz applications,” in 2018 Asia-Pacific Microw. Conf., Nov. 6-9, 2018, pp. 1570-1572.
    • X. Zhu, T. Yang, P.-L. Chi and R. Xu, “A tunable single-to-balanced bandpass filter withbandwidth control,” in 2018 Asia-Pacific Microw. Conf., Nov. 6-9, 2018, pp. 612-614.
    • P.-L. Chi and Y.-C. Chou, “Planar quasi-Yagi antenna for future 5g and WiGig applications,” inProc. IEEE AP-S Int. Symp., July 8-13, 2018, pp. 1213-1214.
    • P.-L. Chi, C.-H. Pao, M.-H. Huang, and T. Yang, “High-gain patch-fed 3d-printing Fresnel zoneplate lens antenna for 60-GHz communications,” in Proc. IEEE AP-S Int. Symp., July 8-13, 2018,pp. 597-598.
    • P.-L. Chi, Y.-W. Chi, and T. Yang, “A reconfigurable in-phase/out-of-phase and power-dividingratio power divider,” 2017 IEEE Asia Pacific Microwave Conference (APMC), Kuala Lumpur, Malaysia, 2017, pp. 287-290.
    • P.-L. Chi and E. Deng, “Switchable quadri-polarization slot antenna using a single feed port,” inProc. IEEE AP-S Int. Symp., July 9-14, 2017, pp. 2211-2212.
    • P.-L. Chi and E. Deng, “Novel dual-band open-ended zeroth-order resonant antenna,” in Proc.IEEE AP-S Int. Symp., July 9-14, 2017, pp. 1733-1734.
    • P.-L. Chi and Y.-T. Yan, “Reconfigurable 1.2-3.16-GHz quad-channel diplexer with compact size,constant absolute bandwidth, and high isolation,” in IEEE MTT-S Int. Microw. Symp. Dig., June4-9, 2017, pp. 933-935.
    • P.-L. Chi and C.-L. Huang, “Reconfigurable 1.5-2.5-GHz phase shifter with 360o relativephase-shift range and reduced insertion-loss variation,” in IEEE MTT-S Int. Microw. Symp. Dig.,June 4-9, 2017, pp. 897-899.
    • P.-L. Chi, T.-C. Hsu, and Y.-T. Yan, “Single-layer dual-band arbitrary power-dividing andin-phase/out-of-phase power divider,” in 2015 Asia-Pacific Microw. Conf., December 2015.
    • P.-L. Chi and T.-C. Hsu, “Novel dual-band and arbitrary output-phase crossover based ontwo-section couplers,” in 2015 Asia-Pacific Microw. Conf., December 2015.
    • P.-L. Chi and W.-Y. Chang, “Compact and dual-band arbitrary power-split quadrature couplerusing the composite right/left-handed transmission lines,” in 2014 Asia-Pacific Microw. Conf.,November 2014, pp. 16-18.
    • P.-L. Chi and P.-W. Huang, “Miniaturized dual-band ring coupler with arbitrary power divisionsusing composite right/left-handed transmission lines,” in 2014 Asia-Pacific Microw. Conf.,November 2014, pp. 19-21.
    • S.-Y. Hsieh and P.-L. Chi, “Miniaturized dual-band composite right/left-handed crossover,” in2013 Asia-Pacific Microw. Conf., November 2013, pp. 282-284.
    • T.-Y. Chen, P.-L. Chi, and T.-T. Lin, “Miniaturized branch-line coupler with coupling-dependentdual-frequency operation,” in 2013 Asia-Pacific Microw. Conf., November 2013, pp. 360-362.
    • Y.-S. Shih and P.-L. Chi, “Miniaturized zeroth-order resonant antenna using coupling-enhancedmeandered structure,” in Proc. IEEE AP-S Int. Symp., July 7-13, 2013, pp. 1378-1379.
    • P.-L. Chi and T. Yang, “Novel compact partial-H plane filter based on the compositeright/left-handed transmission line in folded substrate-integrated waveguide,” in 2012Asia-Pacific Microw. Conf., December 2012, pp. 460-462.
    • T.-Y. Chen and P.-L. Chi, “Bandwidth-enhanced branch-line coupler using the center-loadedvertical line and distributed capacitors,” in 2012 Asia-Pacific Microw. Conf., December 2012, pp.989-991.
    • P.-L. Chi, B. Williams, and T. Itoh, “Recent progress in applications of CRLH structures foractive microwave circuits,” in 2011 XXXth URSI General Assembly Scientific Symp., 2011, pp.1-4.
    • T. Yang, P.-L. Chi, and T. Itoh, “Lumped isolation circuits for improvement of matching andisolation in three-port balun band-pass filter,” in IEEE MTT-S Int. Microw. Symp. Dig., May 2010,pp. 584-587.
    • P.-L. Chi and T. Itoh, “Dispersion engineering with CRLH metamaterials,” in IEEE RFIT Int.Symp., December 2009, pp. 128-131.
    • T. Yang, M. Hashemi, P.-L. Chi, and T. Itoh, “A new way of bandpass filter design based onzeroth-order and negative-order resonance modes,” in 2009 Asia-Pacific Microw. Conf.,December 2009, pp. 163-166.
    • P.-L. Chi and T. Itoh, “Novel diplexer synthesis using the composite right/left-handedphase-advance/delay lines,” in IEEE MTT-S Int. Microw. Symp. Dig., June 2009, pp. 117-120.
    • P.-L. Chi and T. Itoh, “Metamaterial-based components for a compact dual-band beam patterndiversity system,” in Proc. 38th Eur. Microw. Conf., October 2008, pp. 555-558.
    • P.-L. Chi, C.-J. Lee, and T. Itoh, “A compact dual-band metamaterial-based rat-race coupler for aMIMO system application,” in IEEE MTT-S Int. Microw. Symp. Dig., June 2008, pp. 667-670.P.-L. Chi, K. Leong, R. Waterhouse, and T. Itoh, “A miniaturized CPW-fed capacitor-loadedslot-loop antenna,” in IEEE ISSSE Int. Symp Dig., July 2007, pp. 595-598.
    • P.-L. Chi, S.-S. Wu, and Y.-D. Lin, “Integrated antennas and diplexers for dual-band wirelesslocal area network (WLAN) system,” 005 Asia-Pacific Microwave Conference Proceedings, Suzhou, China, 2005, pp. 4 pp.

  • 專  利
    • DIPLEXER SYNTHESIS USING COMPOSITE RIGHT/LEFT-HANDED PHASE ADVANCE/DELAY LINES, International Publication Number: WO 2010/135186 A8, US Patent No: US 8,405,470 B2
    • COMPACT DUAL-BAND METAMATERIAL-BASED HYBRID RING COUPLER, US Patent No: US 8,072,291 B2, US Patent No: US 8,416,033 B2