Faculty and Staff

黃建彰 Chien-Chang Huang Professor

  • Research Office:70921R

  • (03)4638800 Ext. 7315

  • cch@saturn.yzu.edu.tw

  • Student Lab :Electromagnetic and Communication LAB (70911R), TEL: (03) 4638800 Ext. 7011 # 911
  • Education

    Ph.D, Institute of Electrical Engineering, National Taiwan University, Taipei, Taiwan.

    Professional Experience

    • Associate Researcher, Telecommunication LAB, Chunghwa Telecom Laboratories
    • Project Manager, Soloman Technology Inc.
    • Vice President, Syncomm Technology Corp.
    • Assistant Professor, Oriental Institute of Technology
    • Assistant Professor, Yuan Ze University
    • Associate Professor, Yuan Ze University
    • Professor, Yuan Ze University
    • Chairperson, Department of Communication, Yuan Ze University
    • Associate Dean, Colledge of Electrical and Communication Engineering, Yuan Ze University
    • Director, Electrical Engineering Program B

    Research Area

    Wireless Communications, Microwave Engineering, Microwave CAD, RFIC Design.

  • Journal Papers

    Journal Articles

    1. C.-C. Huang and T.-H. Chu, “Analysis of wire scatters with nonlinear or time harmonic loads in the frequency domain,” IEEE Trans. Antennas Propagat., vol. 41, pp. 25-30, Jan. 1993, (SCI, EI).
    2. C.-C. Huang and T.-H. Chu, “Analysis of MESFET injection-locked oscillators in fundamental mode of operation,” IEEE Trans. Microwave Theory Techn., vol. 42, pp. 1851-1857, Oct. 1994, (SCI, EI).
    3. C.-C. Huang and T.-H. Chu, “Radiating and scattering analyses of a slot-coupled patch antenna loaded with a MESFET oscillator,” IEEE Trans. Antennas Propagat., vol. 43, pp. 291-298, Mar. 1995, (SCI, EI).
    4. C.-C. Huang, “On the nonlinear distortion of QPSK-based digital modulation signals in microwave MESFET amplifiers,” Microwave & Optical Tech. Letters, vol. 28, pp. 212-214, Feb. 2001, (SCI, EI), NSC 89-2213-E-161-006.
    5. C.-C. Huang, “Hybrid approach to Volterra analysis for microwave MESFET amplifiers for digital wireless communications,” Microwave & Optical Tech. Letters, vol. 39, pp. 314-317, Nov. 2003, (SCI, EI), NSC 89-2213-E-161-013.
    6. C.-C. Huang, H.-T. Pai and K.-Y. Chen, “Analysis of microwave MESFET power amplifiers for digital wireless communications systems,” IEEE Trans. Microwave Theory Techn., vol. 52, no. 4, pp. 1284-1291, Apr. 2004, (SCI, EI), NSC 92-2213-E-155-042.
    7. C.-C. Huang and H.-T. Pai, “MESFET two-dimensional nonlinear current model extraction for Volterra-series analysis,” Microwave & Optical Tech. Letters, vol. 41, pp. 461-463, June 2004, (SCI, EI), NSC 92-2213-E-155-042.
    8. C.-C. Huang and K.-Y. Chen, “On the solution accuracy of FET nonlinear current model extraction for Volterra-series analysis,” Microwave & Optical Tech. Letters, vol. 45, pp. 400-402, June 2005, (SCI, EI), NSC 92-2213-E-155-042.
    9. C.-C. Huang, “Analysis of multiconductor transmission lines with nonlinear terminations in frequency domain,” J. Electromagn. Waves Appl., vol. 19, no. 8, pp. 1069-1083, Aug. 2005, (SCI, EI), NSC 93-2745-E-155-004-URD.
    10. C.-C. Huang, “Wave representations for SPICE-type circuit simulators,” Microwave & Optical Tech. Letters, Vol. 46, pp. 301-303, Aug. 2005, (SCI, EI), NSC 92-2213-E-155-042.
    11. C.-C. Huang, “Circuit modeling of power/ground plane structures for printed circuit boards,” Microwave & Optical Tech. Letters, vol. 47, pp. 97-99, Oct. 2005, (SCI, EI), NSC 93-2745-E-155-004-URD.
    12. C.-C. Huang and K.-Y. Chen, “Parameter extraction of InGaP/GaAs HBT nonlinear current characteristics for Volterra series analysis,” Microwave & Optical Tech. Letters, vol. 47, pp. 349-353, Nov. 2005, (SCI, EI), NSC 92-2213-E-155-042 and NSC 93-2745-E-155-004-URD.
    13. C.-C. Huang, “A nonlinear microwave circuit simulator for power amplifier designs with QAM-base modulation signals,” International Journal of Microwave & Optical Technology, vol. 1, pp. 290-294, Aug. 2006, NSC 94-2745-E-155-004-URD.
    14. C.-C. Huang, S.-M. Lee, and K.-Y. Chen, “GaAs pHEMT characterization for OFDM power amplifier application,” International Journal of Microwave & Optical Technology, vol. 1, pp. 435-439, Aug. 2006, NSC 94-2745-E-155-004-URD.
    15. C.-C. Huang, W.-T. Chen, and K.-Y. Chen, “High efficiency linear power amplifier for IEEE 802.11g WLAN applications,” IEEE Microwave Wireless Comp. Letters, vol. 16, pp. 508-510, Sept. 2006, (SCI, EI), NSC 93-2745-E-155-004-URD and NSC 94-2219-E-155-004.
    16. C.-C. Huang and K.-Y. Chen, “Performance evaluations of microwave power amplifiers with single- and multi-carrier quadrature amplitude modulations,” Microwave & Optical Tech. Letters, vol. 48, pp. 2375-2378, Dec. 2006, (SCI, EI), NSC 94-2219-E-155-004 and the Aim for the Top University Project.
    17. C.-C. Huang and H.-C. Lin, “A novel calibration algorithm with unknown line-series-shunt standards for broadband S-parameter measurements,” IEEE Trans. Instrum. Meas., vol. 57, no. 5, pp. 891-896, May 2008, (SCI, EI), NSC 96-2221-E-155-002 and the Aim for the Top University Project.
    18. K.-Y. Chen and C.-C. Huang, “Characterisation of GaAs pseudomorphic high electron mobility transistors for Volterra-series circuit analysis,” IET Microwave, Antennas & Propagation, vol. 3, pp. 228-234, Mar. 2009, (SCI, EI), NSC 95-2745-E-155-004-URD.
    19. C.-C. Huang and W.-C. Lin, “A compact high-efficiency CMOS power amplifier with built-in linearizer,” IEEE Microwave Wireless Comp. Letters, vol. 19, no. 9, pp. 587-589, Sept. 2009, (SCI, EI), NSC 95-2745-E-155-004-URD.
    20. D.-M. Lin, C.-C. Huang and Y.-J. Chan, “A symmetrical model for microwave power AlGaAs/InGaAs pHEMT for switch circuit applications,” IEEE Trans. Electron Devices, vol. 56, no. 11, pp. 2638-2643, Nov. 2009, (SCI, EI), NSC 97-2221-E-155-009.
    21. L.-C. Yang, C.-C. Huang, S.-C. Yang and S.-L. Tsao, “Analysis of dynamic encoder and decoder for optical CDMA networks,” IET Optoelectronics, vol. 4, pp. 51-56, Apr. 2010, (SCI, EI).
    22. C.-C. Huang and K.-W. Ku, “Backscattering analysis of impedance loaded wire antenna for passive RFID applications,” IEICE Electronics Express, vol. 7, no. 15, pp. 1169-1174, Aug. 2010, (SCI, EI).
    23. C.-C. Huang, Y.-H. Lin and M.-Y. Chang-Chien, “Accuracy improvement for line-series-shunt calibration in broadband scattering parameter measurements with applications of on-wafer device characterization,” IEEE Trans. Microwave Theory Techn., vol. 58, no. 9, pp. 2497-2503, Sept. 2010, (SCI, EI), NSC 97-2221-E-155-009 and NSC 98-2221-E-155-010.
    24. L.-C. Yang, C.-C. Huang, H.-H. Lin and S.-L. Tsao, “Performance analysis of optical wavelength switching network using multiple output light source,” Optik, vol. 121, no. 22, pp. 2012-2016, Nov. 2010, (SCI, EI).
    25. L.-C. Yang, C.-C. Huang, H.-C. Huang and S.-L. Tsao, “FDTD simulation of time varying optical vortex phenomena in SOI photonic crystal structures,” Optik, vol. 122, no. 10, pp. 924-927, May 2011, (SCI, EI).
    26. L.-C. Yang, C.-C. Huang, H.-C. Huang, S.-L. Tsao, “A novel 1×2 optical power splitter with PBG structures on SOI substrate,” Optik, vol. 123, no. 4, pp. 306-309, Feb. 2012, (SCI, EI).
    27. C.-C. Huang and K.-W. Ku, “Design of low voltage, low power CMOS low noise amplifier for 2.4 GHz wireless communications,” Microwave and Optical Technology Letters, vol. 54, no. 12, pp. 2849-2852, Dec. 2012, (SCI, EI).
    28. C.-C. Huang and Y.-C. Chen, “Generalization and reduction of line-series-shunt calibration for broadband GaAs and CMOS on-wafer scattering parameter measurements,” IEEE Trans. Microwave Theory Techn., vol. 60, no. 12, pp. 4138-4144, Dec. 2012, NSC 100-2220-E-155-002 and NSC 101-2220-E-155-001, (SCI, EI).
    29. C.-C. Huang and W.-C. Lin, “Design of high-efficiency SiGe HBT power amplifier with new adaptive bias configuration,” IET Microwave, Antennas & Propagation, vol. 7, no. 4, pp. 230-236, Mar. 2013, NSC 101-2220-E-155-001 and NSC 102-2218-E-155-001, (SCI, EI)
    30. C.-C. Huang and Y.-C. Chen, “Applying line-series-shunt calibration to one-tier on-wafer device de-embedding up to millimeter waves,” Microwave and Optical Technology Letters, vol. 55, no. 4, pp. 744-747, Apr. 2013, NSC 100-2220-E-155-002 and NSC 101-2220-E-155-001, (SCI, EI).
    31. L.-C. Yang and C.-C. Huang, “Performance analysis of fiber optical wide area network using SDM/WDM router,” Optik, vol. 124, no. 14, pp. 1700-1704, July 2013, (SCI, EI).
    32. C.-C. Huang, “Broadband complementary metal-oxide semiconductor interconnection transmission line measurements with generalized probe transition characterization and verification of multiline thru-reflect-line calibration,” IEEE Trans. Component, Packaging and Manufacturing Technology, vol. 3, no. 9, pp. 1564-1569, Sept. 2013, NSC 100-2220-E-155-002 and NSC 101-2220-E-155-001, (SCI, EI).
    33. C.-C. Huang, G. C. Guu, C.-K. Chen, and C.-W. Huang, “Design of resistive double-balanced mixer in 0.18 μm CMOS technology with low power bulk-injection technique for 5.8 GHz DSRC applications,” Microwave and Optical Technology Letters, vol. 56, no. 5, pp. 1248-1251, May 2014, NSC 102-2220-E-155-001 and Grant NSC 102-2218-E-155-001, (SCI, EI).
    34. C.-C. Huang and G. C. Guu, “CMOS low noise amplifier designs for 5.8 GHz dedicated short-range communications applications,” Microwave and Optical Technology Letters vol. 57, no. 11, pp. 2524-2529, Nov. 2015, MOST 102-2220-E-155-001 and MOST 104-2218-E-155-002, (SCI, EI).
    35. C.-C. Huang, “Accurate and efficient self-calibration algorithm of broadband on-wafer scattering-parameter measurements for production test applications up to 110 GHz,” IEEE Trans. Component, Packaging and Manufacturing Technology, vol. 7, no. 6, pp. 990-998, June 2017, MOST 104-2221-E-155-065 and MOST 105-2218-E-155-001, (SCI, EI).
    36. C.-C. Huang and C.-K. Chen, “A CMOS medium power amplifier with built-in power detector for multi-standard dedicated short range communications applications,” IEEE Microwave Wireless Comp. Letters, vol. 28, no. 1, pp. 58-60, Jan. 2018, MOST 102-2220-E-155-001 and MOST 105-2218-E-155-001, (SCI, EI).
    37. S.-R. Wu, C.-C. Huang, J. Mar, and J.-H. Chou, “A versatile pattern synthesis algorithm for circular antenna array,” Int. J. RF Microw. Computer-Aided Eng., vol. 28, no. 5, e21254, June 2018, (SCI, EI).
    38. C.-C. Huang, “Determination of characteristic impedance of planar transmission lines on lossy/dispersive substrates by using series resistor with frequency-dependent inductance,” IEEE Trans. Microwave Theory Techn., vol. 68, no. 10, pp. 4229-4235, Oct. 2020, MOST 106-2221-E-155-005 and MOST 107-2221-E-155-011, (SCI, EI).
  • Conference Papers

    Conference Papers

    1. C.-C. Huang and T.-H. Chu, “Analysis of wire scatters with nonlinear loads in the frequency domain,” in Proc. National Symposium on Telecommunications, pp. 424~428, Chung-Li, Taiwan, Dec. 1992.
    2. C.-C. Huang and T.-H. Chu, “A linear active dipole array loaded with negative resistance devices,” IEEE AP-S Int. Antennas Propagation Symp. Digest, pp. 744~747, Ann Arbor, Michigan, USA, June/July, 1993, (EI).
    3. C.-C. Huang and T.-H. Chu, “Parameter extraction of MESFET for Volterra series analysis and in application of oscillator design,” in Proc. The First Asian EESOF Users’ Group Meeting, Taipei, Taiwan, Apr. 1993.
    4. C.-C. Huang and T.-H. Chu, “Stability analysis of reflection-type and transmission-type MESFET injection-locked oscillators,” in Proc. Asia-Pacific Microwave Conference (APMC), pp. 6-62~6-65, Hsinchu, Taiwan, Oct. 1993.
    5. C.-C. Huang and T.-H. Chu, “A slot-coupled patch antenna loaded with a MESFET oscillator,” IEEE AP-S Int. Antennas Propagation Symp. Digest, pp. 708~781, Seattle, Washington, USA, July 1994, (EI).
    6. C.-C. Huang, “Radio performance simulation of Personal Access Communications Systems,” in Proc. Radio Science Symposium, pp. 219~222, Kaohsiung, Taiwan, Aug. 1995.
    7. F.-H. Chen, C.-C. Huang, W.-L. Wang and C.-H. Yang, “Radio link architecture simulation and measurement for Personal Access Communications System (PACS),” in Proc. 3rd HP-EESOF User Group Meeting, Taipei, Taiwan, July 1995.
    8. F.-H. Chen and C.-C. Huang, “Low noise amplifier, mixer and power amplifier MMICs used in L-band wireless communications systems,” in Proc. 5th HP-EESOF User Group Meeting, Taipei, Taiwan, 1996.
    9. C.-C. Huang and F-H. Chen, “RF transceiver design for wireless personal communications systems,” in Proc. National Symposium on Telecommunications, pp.106~112, Chung-Li, Taiwan, Dec. 1996.
    10. C.-C. Huang, “Analysis of MESFET amplifiers driven by digital modulation signals using Volterra series,” in Proc.National Symposium on Telecommunication, pp. 2-366~2-370, Chung-Li, Taiwan, Dec. 2000.
    11. Y.-C. Lu, C.-C. Huang, H.-T. Chou and D.-F. Lin, “Development of a high-frequency and high power measurement technique based on an associated heat transformation,” in Proc. Taiwan ElectroMagnetic Compatibility (EMC) Conference, Taipei, Taiwan, pp. 293-295, Oct. 2002.
    12. C.-C. Huang and H.-T. Pai, “Analysis of microwave amplifiers using modified Volterra series for digital wireless communications,” in Proc. National Symposium on Telecommunication, Nan-Tau, Taiwan, Dec. 2002.
    13. C.-C. Huang and H.-T. Pai, “A recursive scheme for MESFET nonlinear current coefficient evaluation applied in Volterra-series analysis,” IEEE MTT-S Int. Microwave Symp. Digest, Vol. 1, pp. 463-466, Philadelphia, PA, USA, June 2003, (EI).
    14. C.-C. Huang, C.-H. Liu and T.-H. Tsai, “Harmonic balance solution of multiconductor transmission lines with nonlinear terminations,” IEEE AP-S Int. Antennas Propagation Symp. Digest, Vol. 1, pp. 749-752, Columbus, Ohio, USA, June 2003, (EI).
    15. Y. Hsiao, Y. Lu, C. Huang and H.-T. Chou, “Calibration of RF power meters based on an isothermal method,” in Proc.International Union of Radio Science Meeting, Columbus, Ohio, USA, June 2003, (EI).
    16. C.-C. Huang, C.-H. Liu and T.-H. Tsai, “Nonlinear Transient Analysis of Multiconductor Transmission Lines in the Frequency Domain,” in Proc. Taiwan ElectroMagnetic Compatibility (EMC) Conference, Taipei, Taiwan, pp. 425-428, Oct. 2003.
    17. 劉芩相,黃建彰,〈IEEE-1394高速傳輸介面之串音雜訊分析〉,《全國電磁相容技術與實務研討會》,台北,2003年10月,頁60-63。
    18. C.-C. Huang, K.-Y. Chen and H.-Y. Kuo, “Parameter extraction of Taylor-series nonlinear current models for heterojunction bipolar transistors,” in Proc. Taiwan Electronic Devices & Material Science (EDMS) Conference, Keelung, Taiwan, pp. 597-600, Nov. 2003.
    19. C.-C. Huang, H.-T. Pai, Y.-C. Lin and W.-P. Tai, “MESFET nonlinear current model extraction with applications of linear power amplifier designs for QAM-base digital modulation systems,” in Proc. International Symposium on Communication (ISCOM)Taipei, Taiwan, Dec. 2003.
    20. C.-C. Huang and K.-Y. Chen, “InGaP/GaAs HBT I/V Characterization for Volterra Series Analysis,” IEEE MTT-S Int. Microwave Symp. Digest, Vol. 2, pp. 1073-1076, Fort Worth, TX, USA, June 2004, (EI), NSC 92-2213-E-155-042.
    21. C.-C. Huang and T.-H. Tsai, “Characterization of Power/Ground Plane Structures in Printed Circuit Boards,” International Conference on Electromagnetic Applications and Compatibility (ICEMAC) Digest, Taipei, Taiwan, Oct. 2004.
    22. C.-C. Huang and K.-Y. Chen, “Source/load-pull characterization of InGaP/GaAs HBT for power amplifier designs in OFDM system applications,” International Conference on Electromagnetic Applications and Compatibility (ICEMAC) Digest, Taipei, Taiwan, Oct. 2004, NSC 92-2213-E-155-042.
    23. 吳紹懋, 黃建彰 , 吳建瑩, 林德棻,〈先進智慧型點火器之ASIC及其控制電路設計與整合探討〉,《九十三年度國防科技學術合作計畫成果發表會論文集》,桃園,2004年12月。
    24. C.-C. Huang, “An efficient computer program for analyzing nonlinear microwave circuits with OFDM modulation signals,” in Proc. National Symposium on Telecommunications, Keelung, Taiwan, Dec. 2004.
    25. 林生峰, 王益彬, 黃建彰,〈使用反相微帶線設計5.2GHz濾波器〉,《全國電信研討會論文集》,基隆,2004年12月。
    26. 陳韋廷, 黃建彰,〈應用於IEEE 802.11a線性化功率放大器設計〉,《全國電信研討會論文集》,基隆,2004年12月。
    27. C.-C. Huang, “  Cavity model applied to power/ground plane structures,” IEEE AP-S Int. Antennas Propagation Symp. Digest, Washington DC, USA, July 2005, (EI), NSC 93-2745-E-155-004-URD.
    28. C.-C. Huang, S.-M. Lee, “5.25 GHz WLAN power amplifier design with linearizing bias scheme,” VLSI Design/CAD Symp. Digest, Hua-Lien, Taiwan, Aug. 2005, NSC 93-2745-E-155-004-URD.
    29. C.-C. Huang, “S-parameter calculation for SPICE-like circuit simulators,” VLSI Design/CAD Symp. Digest, Hua-Lien, Taiwan, Aug. 2005, NSC 92-2213-E-155-042.
    30. C.-C. Huang, “A nonlinear microwave circuit simulator for power amplifier designs with QAM-base modulation signals,” Int. Symp. Microwave & Optical Tech. (ISMOT) Digest, pp. 343-346, Fukuoka, Japan, Aug. 2005, (EI).
    31. C.-C. Huang, S.-M. Lee, and K.-Y. Chen, “GaAs pHEMT characterization for OFDM power amplifier application,” Int. Symp. Microwave & Optical Tech. (ISMOT) Digest, pp. 767-770, Fukuoka, Japan, Aug. 2005, (EI), NSC 94-2745-E-155-004-URD.
    32. K.-Y. Chen and C.-C. Huang“HBT nonlinear current characterization for Volterra analysis,” International Conference on Electromagnetic Applications and Compatibility (ICEMAC) Digest, Taipei, Taiwan, Oct. 2005, NSC 93-2745-E-155-004-URD.
    33. C.-C. Huang, W.-T. Chen, “Dual-bias power amplifier designs for WLAN applications,” in Proc. IEEE Asian Solid-State Circuits Conference (A-SSCC), pp. 385-388, Hsinchu, Taiwan, Nov. 2005, (EI), NSC 93-2745-E-155-004-URD.
    34. C.-C. Huang, H.-C. Lin, “An LST calibration method for broadband S-parameter measurement,” in Proc. IEEE Asian Pacific ElectroMagnetic Compatibility Conference (APEMC), pp. 368-372, Taipei, Taiwan, Dec. 2005, (EI), NSC 93-2745-E-155-004-URD.
    35. C.-C. Huang and K.-Y. Chen, “Performance evaluations of microwave power amplifiers for complex digital communication systems,” in Proc. 36th European Microwave Conference (EuMC), Manchester, United Kingdom, pp. 1633-1636, Sept. 2006, (EI), NSC 94-2219-E-155-004 and Project of Aim for the Top University.
    36. K.-Y. Chen and C.-C. Huang, “GaAs power pHEMT characterization for extracting nonlinear parameters of drain current by harmonic measurement,” in Proc. European Microwave Integrated Circuits Conference (EuMIC), Manchester, United Kingdom, pp. 429-432, Sept. 2006, (EI), NSC 94-2745-E-155-004-URD and NSC 94-2219-E-155-004.
    37. C.-C. Huang, “Analytic solutions of ground bounces in PCBs using perfect magnetic wall approximations,” in Proc. 2006 Asia Pacific Microwave Conference (APMC), Yokohama, Japan, pp. 552-555, Dec. 2006, (EI), NSC 94-2219-E-155-004 and Project of Aim for the Top University.
    38. C.-C. Huang and W.-T. Chen, “Multi-band/multi-mode current folded up-convert mixer design,” in Proc. 2006 Asia Pacific Microwave Conference (APMC), Yokohama, Japan, pp. 759-762, Dec. 2006, (EI), NSC 94-2745-E-155-004-URD and Project of Aim for the Top University.
    39. C.-C. Huang, C.-P Liang and K.-Y. Chen, “Half cross-coupled voltage controlled oscillator design for dual-band WLAN applications,” in Proc. International Electronic Devices and Materials Symposium (IEDMS), Kaohsiung, Taiwan, Dec. 2006, NSC 94-2745-E-155-004-URD and Project of Aim for the Top University.
    40. C.-C. Huang, C.-P. Liang, and H.-K. Wang, “Multi-band low noise amplifier with gain-controlled function for wireless communications,” National Telecommunication Symposium Digest, Kaohsiung, Taiwan, Dec. 2006, NSC 94-2219-E-155-004.
    41. 林生峰,林保君,黃建彰,〈平行式步階阻抗多頻段微波帶通濾波器〉,《全國電信研討會論文集》,高雄,2006年12月,NSC 94-2219-E-155-004。
    42. C.-F. Hou and C.-C. Huang, “Modified bow-tie slot antenna fed by CPW for WiMAX applications,” in National Telecommunication Symposium Digest, Kaohsiung, Taiwan, Dec. 2006.
    43. C.-F. Hou and C.-C. Huang, “Dual-band bow-tie slot antenna fed by CPW for WiFi/WiMAX system applications,” IEEE AP-S Int. Antennas Propagation Symp. Digest, Honolulu, Hawaii, USA, pp. 984-987, June 2007. (EI)
    44. 劉大維,黃建彰,〈基板合成波導之新式指數型饋入微帶線設計〉,《全國電信研討會論文集》,台北,2007年12月。
    45. 王孝綱,林武杰,黃建彰,〈CMOS功率放大器及其無線通訊之應用〉,《全國電信研討會論文集》,台北,2007年12月。
    46. 林保君,林原宏,黃建彰,〈一種改良式電磁能隙結構及其應用〉,《全國電信研討會論文集》,台北,2007年12月。
    47. 侯權峰,楊智?,黃建彰,〈WiMAX系統使用之蝶型領結槽孔主動天線〉,《全國電信研討會論文集》,台北,2007年12月。
    48. D.-M. Lin, C.-C. Huang, C.-K. Lin, Y.-C. Wang, and Y.-J. Chan, “Nonlinear reciprocity device model of microwave power AlGaAs/InGaAs pHEMTs for switch applications,” in Proc. International Electronic Devices and Materials Symposium (IEDMS), Hsinchu, Taiwan, Dec. 2007.
    49. P.-C. Lin, C.-C. Huang and Y.-H. Lin, “A uniplanar hexagon electromagnetic band-gap structure for circuit size reduction applications,” IEEE AP-S Int. Antennas Propagation Symp. Digest, San Diego, USA, July 2008. (EI)
    50. C.-C. Huang and Y.-H. Lin, “Line-series-shunt calibration with transmission lines in arbitrary characteristic impedances for broadband S-parameter measurements,” in Proc. 2008 European Electromagnetics, Lausanne, Switzerland, pp. 99, July 2008. (EI)
    51. 黃建彰,林原宏,〈晶圓探針之寬頻去嵌化技術及其在主動元件特性量測應用〉,《全國電磁相容技術與實務研討會》,台中,2008年7月。
    52. 黃建彰,林原宏,〈0.1GHz~40GHz超寬頻微波散射參數量測自我校正技術〉,《全國電磁相容技術與實務研討會》,台中,2008年7月。
    53. C.-C. Huang and P.-C. Lin, “An improved hexagon electromagnetic band-gap structure with filter size reduction applications,” in Proc. 2008 International Symposium on Antennas and Propagation (ISAP2008), Taipei, Taiwan, Oct. 2008. (EI)
    54. 林武杰,黃建彰,〈高效率/高線性度疊接式CMOS功率放大器設計〉,《全國電信研討會論文集》,雲林,2008年12月。
    55. 黃建彰,蔡宜玲,〈適用於WiMAX系統之高功率/高線性度單刀雙擲開關〉,  《全國電信研討會論文集》,雲林,2008年12月。
    56. C.-C. Huang, M.-Y. Chang-Chien, and Y.-H. Lin, “Broadband de-embedding technique for on-wafer S-parameter measurements with applications of device characterizations,” in Proc. Symposium on Nano Device Technology (SNDT), Hsin-Chu, Taiwan, Apr. 2009.
    57. 黃建彰,吳世傑,〈應用於WiMAX系統之低功耗射頻功率放大器設計〉,《微電子技術發展與應用研討會論文集》,高雄,2009年5月,頁373-377。
    58. 蔡耀漢,黃建彰,吳世傑,〈極小化高密度之開槽式雙模態寬頻帶通濾波器〉,《微電子技術發展與應用研討會論文集》,高雄,2009年5月,頁485-494。
    59. C.-C. Huang, “Analysis and measurement of delta-I noise for power/ground planes in printed circuit boards,” in Proc. 4th International Conference on Electromagnetic Near-field Characterization and Imaging (ICONIC), pp. 61-65, Taipei, Taiwan, June 2009. (EI)
    60. C.-C. Huang, M.-Y. Chang-Chien, and S.-C. Wu, “Characterizations of microstrip lines for measuring substrate dielectric constant of printed circuit boards,” in Proc. 4th International Conference on Electromagnetic Near-field Characterization and Imaging (ICONIC), pp. 117-121, Taipei, Taiwan, June 2009. (EI)
    61. C.-C. Huang, Y.-H. Lin, and M.-Y. Chang-Jian, “Bandwidth extension for line-series-shunt calibration technique of broadband S-parameter measurements,” in Proc. 6th IASTED International Symposium on Antennas, Radar and Wave Propagation, pp. 20-25, Banff, Alberta, Canada, July 2009. (EI)
    62. W.-C. Lin, S.-C. Lin, and C.-C. Huang, “High-efficiency 2.4 GHz SiGe HBT power amplifier with new linearizer design,” in VLSI Design/CAD Symp. Digest, Hua-Lien, Taiwan, Aug. 2009, NSC 96-2622- E-155-005-CC3.
    63. C.-C. Huang, M.-Y. Chang-Chien, and Y.-H. Lin, “A new method for measuring characteristic impedances of CMOS interconnect transmission lines,” in Proc. IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT), pp. 709-712, Taipei, Taiwan, Oct. 2009, NSC 97-2221-E-155-009. (EI)
    64. 何嘉育,許佑丞,黃建彰,〈利用六角型電磁能隙結構進行小型化微波雙模帶通濾波器設計〉,《全國電信研討會論文集》,高雄,2009年12月。
    65. 林聖傑,古鎧維,黃建彰,〈小型化寬頻雙平衡升頻混頻器設計〉,《全國電信研討會論文集》,高雄,2009年12月。
    66. 古鎧維,林俊源,黃建彰,吳紹懋,〈被動式電子標籤電路設計與測試〉,《全國電信研討會論文集》,高雄,2009年12月。
    67. C.-C. Huang, M.-Y. Chang-Chien, Y.-C. Hsu, K.-W. Ku, “Applying line, offset-series, offset-shunt calibration for on-wafer CMOS device characterizations,” in Proc. 2009 Asia Pacific Microwave Conference (APMC), Singapore, Dec. 2009, NSC 97-2221-E-155-009. (EI)
    68. C.-C. Huang and K.-W. Ku, “Analysis of loaded antennas for applications of backscattering modulation in RFID systems,” in Proc. 2009 Asian Pacific International Conference on RFID (APICOR), Taipei, Taiwan, Dec. 2009, CSIST-839-V101 (98).
    69. 黃建彰,古鎧維,張祐禎,〈無線射頻辨識標籤設計與測試〉,《2010資訊科技國際研討會論文集》,台中,2010年4月,CSIST-839-V101 (98)。
    70. C.-C. Huang and Y.-C. Chen, “Differential- and common-mode characterization of coupled interconnect transmission lines using four-port S-parameter measurements,” in Proc. IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT), Taipei, Taiwan, Oct. 2010, NSC 98-2221-E-155-010. (EI)
    71. 古鎧維,袁名宏,黃建彰,〈無線感測網路低功耗低雜訊放大器設計〉,《2010民生電子研討會論文集》,台南,2010年11月。
    72. 陳嘉全,涂崴迪,黃建彰,〈ZigBee模組之內建式小型化天線設計〉,《2010民生電子研討會論文集》,台南,2010年11月。
    73. 張碧香、陳宥全、黃建彰,〈可程控微波答應器設計〉,《全國電信研討會論文集》,  桃園,2010年12月。
    74. C.-C. Huang, “High frequency measurement and calibration techniques for nano device characterization,” in Proc. Symposium on Nano Device Technology (SNDT), Hsin-Chu, Taiwan, Apr. 2011.
    75. C.-C. Huang and W.-D. Tu, “Characterization of probe pad and interconnect line for CMOS on-wafer scattering parameter measurements,” in Proc. 2011 Electronic Technology Symposium (ETS), Kaohsiung, Taiwan, June 2011.
    76. C.-C. Hu, Y.-M. Hsin, D.-M. Lin, C.-C. Huang, C.-K. Lin, and Y.-C. Wang, “Noise characteristics of dual-gate AlGaAs/InGaAs pHEMTs,” in Proc. IEEE 21st Int. Conference on Noise and Fluctuations (ICNF), Toronto, Ontario, Canada, 12-16 June, 2011, pp. 216-219. (EI)
    77. C.-C. Huang and K.-W. Ku, “Design and test of RF front end for UHF RFID tag,” in Proc. IEEE Asia Pacific Wireless Communication Symposium (APWCS), Singapore, Aug. 2011. (EI)
    78. C.-C. Huang, “CMOS interconnect transmission line measurements with new probe pad models,” in Proc. IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT), Taipei, Taiwan, Oct. 2011, pp. 98-101. (EI)
    79. C.-C. Huang and Y.-C. Chen, “Measurements of CMOS coupled microstrip using thru-reflect-line calibration with application of differential device characterization,” in Proc. 12th Electronic Circuit World Convention (ECWC12), Taipei, Taiwan, Nov. 2011, pp. 710-713. (EI)
    80. 黃建彰,陳宥全,徐興祥,〈一階段式毫米波晶圓校正技術研究及其主動元件特性分析〉,《2011民生電子研討會論文集》,台中,2011年11月。
    81. 陳明榆,黃建彰,徐興祥,〈應用於WCDMA系統之射頻功率放大模組設計〉,《2011民生電子研討會論文集》,台中,2011年11月。
    82. 黃建彰,陳宥全,徐興祥,古長麟,〈晶圓元件寬頻校正與去嵌化技術之研究〉,《全國電信研討會論文集》,花蓮,2011年11月。
    83. C.-C. Huang, Y.-C. Chen, H.-H. Hsu, and C.-L. Ku, “Broadband measurement of on-chip CMOS transmission line,” in National Telecommunication Symposium Digest, Hua-Lien, Taiwan, Nov. 2011.
    84. K.-W. Ku and C.-C. Huang, “A low power CMOS low noise amplifier for wireless communications,” in Proc. IEEE 19th International Conference on Microwave, Radar and Wireless Communications, Warsaw, Poland, 23-25 May, 2012, pp. 19-22. (EI)
    85. C.-C. Huang and Y.-C. Chen, “Generalized solving scheme of line-series-shunt type calibration for broadband on-wafer scattering parameter measurements,” in IEEE MTT-S Int. Microwave Symp. Digest, Montreal, Canada, 17-22 June 2012. (EI)
    86. C.-C. Huang and W.-D. Tu, “Design and test of planar transformer using CMOS technology with BALUN applications,” in Proc. 2012 IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT). (EI)
    87. 87. 古長麟,陳家愷,黃志文,黃建彰,〈應用於雙模式微波電子收費系統之射頻晶片系統設計〉,《全國電信研討會論文集》,彰化,2012年11月,NSC 101-2220-E-155-001。
    88. C.-C. Huang, H.-H. Hsu, and George C. Guu, “CMOS device de-embedding without impedance standard substrate calibration for on-wafer scattering parameter measurements,” in Proc. 2012 Asia Pacific Microwave Conference (APMC). (EI)
    89. C.-C. Huang and Y.-C. Chen, “One-tier device de-embedding using on-wafer line-series-shunt calibration,” in Proc. IEEE 2nd International Symposium on Next-Generation Electronics, Kaohsiung, Taiwan, Feb. 25-26, 2013.
    90. G. C. Guu and C.-C. Huang, “Variable gain low noise amplifier using mutual inductor for input matching network,” in Proc. Progress In Electromagnetics Research Symposium, Taipei, Taiwan, Mar. 25-28, 2013, pp. 502-503.
    91. C.-C. Huang and C.-K. Chen, “Characterization of CMOS on-chip transformer for digital transmission line driver applications,” in Proc. 2013 Asia-Pacific International Symposium and Exhibition on Electromagnetic Compatibility, Melbourne, Australia, May 20-23, 2013.
    92. C.-C. Huang and Y.-C. Chen, “Broadband CMOS on-wafer S-parameter measurements using one-tier manipulated line-reflect-line calibration up to 110 GHz,” in Proc. 2013 Asia-Pacific Radio Science Conference (AP-RASC’13), Taipei, Taiwan, Sept. 3-7, 2013.
    93. C.-C. Huang, G. C. Guu, C.-K. Chen, C.-W. Huang, C.-H. Lin, and F.-Y. Lo, “An ultra low power bulk-injection double-balanced mixer in 0.18 μm CMOS technology for 5.8 GHz DSRC applications,” in Proc. 2013 Asia-Pacific Radio Science Conference (AP-RASC’13), Taipei, Taiwan, Sept. 3-7, 2013.
    94. C.-C. Huang, G. C. Guu, C.-K. Chen, C.-W. Huang, C.-H. Lin, and F.-Y. Lo, “A high-efficiency CMOS medium-power amplifier for multi-mode electronic toll collection applications,” in Proc. 2013 Asia-Pacific Radio Science Conference (AP-RASC’13), Taipei, Taiwan, Sept. 3-7, 2013.
    95. C.-C. Huang, G. C. Guu, C.-K. Chen, and C.-W. Huang, “A resistive double-balance mixer using bulk-driven method with low pumping power in 0.18 μm CMOS technology,” in Proc. 2013 IEEE Asia Pacific Microwave Conference (APMC), Seoul, South Korea, Nov. 5-8, 2013, pp. 716-718, NSC 102-2220-E-155-001, NSC 102-2218-E-155-001. (EI)
    96. G. C. Guu, C.-C. Huang, C.-H. Lin, and F.-Y. Lo, “Two CMOS 5.8 GHz low noise amplifier designs with and without mutual inductors for dedicated short range communications,” in National Telecommunication Symposium Digest, Tainan, Taiwan, Nov. 15-16, 2013, NSC 102-2220-E-155-001, NSC 102-2218-E-155-001.
    97. 古長麟,黃建彰,林嘉祥,羅芳鐿,〈使用雙平衡電阻性混頻之5.8GHz射頻前端接收機〉,《全國電信研討會論文集》,台南,2013年11月15-16日,NSC 102-2220-E-155-001。
    98. C.-C. Huang and F.-Y. Lo, “RF characterization of CMOS/GIPD flip-chip transition with on-wafer deembedding technique for scattering parameter measurements,” in Proc. IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT), Taipei, Taiwan, Oct. 2014, (EI), NSC 102-2221-E-155-017, NSC 103-2218-E-155-002.
    99. 黃建彰,羅芳鐿,薛彥鵬,〈應用於車載通訊射頻發射晶片設計〉,《2014民生電子研討會論文集》,台中,2014年11月,pp. 520-524,NSC 102-2220-E-155- 001。
    100. 黃建彰,古長麟、林嘉祥、溫彥俊,〈應用於多模式車載通訊整合型晶片之影像頻率拒斥低中頻接收機〉,《全國電信研討會論文集》,台中,2014年11月, NSC 102-2220-E-155- 001, NSC 103-2218-E-155- 002。
    101. C.-C. Huang, F.-Y. Lo, and W.-C. Lin, “Characterization of flip-chip interconnection for high speed digital transmission,” in Proc. 2015 Asia-Pacific International Symposium and Exhibition on Electromagnetic Compatibility, Taipei, Taiwan, May 26-29, 2015, (EI).
    102. C.-C. Huang and W.-C. Lin, “On-wafer calibration technique with fixed probe positions for production tests of radio frequency integrated circuits,” in Proc. Progress In Electromagnetics Research Symposium, Prague, Czech Republic, July 6-9, 2015.
    103. C.-C. Huang and W.-C. Lin, “On the ill-conditioned problem of on-wafer calibration for broadband device/circuit scattering parameter measurements without impedance-standard substrate,” in National Telecommunication Symposium Digest, Taoyuan, Taiwan, Nov. 26-27, 2015.
    104. C.-C. Huang and Y.-C. Wen, “A triple mode medium power amplifier in CMOS 0.18 μm technology for 5.8 GHz multi-standard dedicated short range communications applications,” in National Telecommunication Symposium Digest, Taoyuan, Taiwan, Nov. 26-27, 2015.
    105. C.-C. Huang, “A fixed probe position self-calibration algorithm of broadband on-wafer scattering parameter measurements without impedance-standard substrate for RFIC production test,” accepted by IEEE MTT-S Int. Microwave Symp., San Francisco, USA, 2016, (EI).
    106. C.-C. Huang and W.-C. Lin, “Characterization and modeling of CMOS on-chip symmetric coupled transmission lines,” IEICE Workshop of Technical Committee on Electromagnetic Compatibility (IEICE-EMCJ), Taipei, Taiwan, June 2-3, 2016.
    107. C.-C. Huang, “Determination of planar transmission line characteristic impedances on lossy/dispersive substrates with three unknown calibration standards up to 110 GHz,” in Proc. Progress In Electromagnetics Research Symposium, St Petersburg, Russia, May 22-25, 2017.
    108. C.-C. Huang and W.-C. Lin, “A radio transceiver architecture for coexistence of 4G-LTE and 5G systems used in mobile devices,” in IEEE MTT-S Int. Microwave Symp. Digest, Honolulu, USA, June 4-9, 2017, (EI).
    109. 黃建彰,林偉哲,廖晟淯,陳又菁,〈氮化鎵高速電子移動電晶體應用於行動通訊微型基地台功率放大器設計〉,《2017民生電子研討會論文集》,台北,2017年11月。
    110. C.-C. Huang, Y.-C. Chen, C.-Y. Liao, and W.-C. Huang, “Characterization of printed circuit board interconnect transmission lines using multiline thru-reflect-line calibration up to 110 GHz,” in Proc. IEEE Conference on Electrical Performance of Electronic Packaging and Systems (EPEPS), San Jose, USA, Oct. 14-17, 2018, pp. 217-219, (EI).
    111. C.-C. Huang, C.-L. Peng, Y.-C. Chen, and C.-Y. Liao, “Experimental characterization of end-launched connectors used in printed circuit boards with multiline thru-reflect-line calibration technique,” in Proc. 2018 IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT), (EI).
    112. C.-C. Huang, Y.-C. Chen, T.-S. Yeh, C.-Y. Liao, and W.-C. Huang, “Characterization of printed circuit board materials using multiple transmission lines with probing techniques up to 110 GHz,” in Proc. 2018 IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT), (EI).
    113. 黃建彰,廖晟淯,吳澤彥,程冠潛,〈GaN HEMT射頻功率放大器快速雛型設計法及其在第五代行動通訊sub-6GHz微型基地台之應用〉,《2018民生電子研討會論文集》,高雄,2017年11月16-17日。
    114. C.-C. Huang, L.-P. Chen, and C.-Y. Liao, “Broadband CMOS transmission line impedance determination using multiline thru-reflect-line calibration with a series resistor,” in National Telecommunication Symposium Digest, Taichung, Taiwan, Jan. 24-26, 2019.
    115. C.-C. Huang, Y.-C. Chen, C.-Y. Liao, and W.-C. Huang, “Applying calibration comparison technique for extracting characteristic impedance of striplines in printed circuit boards,” in National Telecommunication Symposium Digest, Taichung, Taiwan, Jan. 24-26, 2019.
    116. C.-C. Huang, C-L. Peng, C.-Y. Liao, P.-Y. Lin, P.-H. Yang, and K.-C. Cheng, “Modeling and measurement of grounded coplanar waveguide on printed circuit board for 5G and automotive radar applications,” in Proc. IEEE Asia Pacific Wireless Communications Symposium, Singapore, Aug. 28-30, 2019.
    117. Y.-S. Wu, W.-L.·Chou, C.-Y. Lee, C.-S. Chen, C.-C. Huang, and C.-E. Ho, “Effect of surface finish on signal loss of Cu interconnects in 5G high-frequency transmission,” in Proc. IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT), Taipei, Taiwan, Oct. 23-25, 2019.
    118. W.-L.·Chou, Y.-S, Wu, C.-Y. Lee, C.-S. Chen, C.-C. Huang, and C.-E. Ho, “Roughness Effect of Cu Interconnects on Signal Transmission Performance in 5G Communication Applications,” in Proc. IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT), Taipei, Taiwan, Oct. 23-25, 2019.
    119. 黃建彰,程冠潛,楊秉涵,林柏言,傅文灶,〈X頻段氮化鎵高速電子移動電晶體微波功率放大器快速雛型設計法及其驗證測試〉,《2019民生電子研討會論文集》,高雄,2019年11月29日。
    120. C.-C. Huang, C-L. Peng, P.-Y. Lin, B.-H. Yang, K.-C. Cheng, and W.-T Fu, “RDielectric characterization of printed circuit board by microstrip line up to 110 GHz,” in Proc. IEEE Electrical Design of Advanced Packing and Systems (EDAPS), Kaohsiung, Taiwan, Dec. 16-18, 2019.
    121. 黃建彰,林柏言,陳又菁,〈1 GHz ~ 110 GHz印刷電路板接地共平面波導之特性量測設計及其在基板介電參數萃取之應用〉,《全國電信研討會論文集》,高雄,2020年1月14~17日,MOST 107-2221-E-155-011, MOST 108-2221-E-155-004。
    122. B.-H. Yang and C.-C. Huang, “A 77 GHz planar antenna array in four layer printed circuit board for automotive radar applications,” in Proc. IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT), Taipei, Taiwan, Oct. 21-23, 2020, pp. 107-110.
    123. W.-L. Chou, H.-W. Tseng, C.-J. Yu, C.-Y. Lee, H.-R. Fuh, T.-T. Kuo, C.-C. Huang, and C.-E. Ho, “Electromagnetic properties of Ni(P) and its signal transmission performance in 5G communication applications,” in Proc. IEEE International Microsystems, Packaging, Assembly and Circuits Technology Conference (IMPACT), Taipei, Taiwan, Oct. 21-23, 2020, pp. 111-114.
    124. 黃建彰,傅文灶,〈X頻段高功率放大器積體電路設計〉,《2020民生電子研討會論文集》,高雄,2020年12月11日。
  • Research Project

    No

    Project Title

    Position Period

    Sponsor

    Budget (NTD)

    1

    Nonlinear analysis of power amplifiers in digital mobile communications systems by using Volterra series method, NSC 89-2213-E-161-006

    Project Leader

    1999/8/1 - 2000/7/31

    National Science Council

    153,900

    2

    Improved nonlinear analysis with experimental verification of power amplifiers in digital mobile communications systems, NSC 89-2213-E-161-013

    Project Leader

    2000/8/1 - 2001/7/31

    National Science Council

    356,100

    3

    Studies on the calibration techniques of high frequency high power sensors, NSC 91-2623-7-155-011

    Project Leader

    2002/1/1 - 2002/12/31

    National Science Council

    500,000

    4

    HBT load-pulling characterization for power amplifier design in wireless communication applications

    Project Leader

    2003/1/1 - 2003/12/31

    WIN Semiconductors Inc.

    394,795

    5

    Studies on propagation model and performance evaluation for mobile communications

    Project Leader

    2003/3/1 - 2004/2/28

    Far Esat Tone Telecomm.

    500,000

    6

    Improved education program on communication technologies

    Project Leader

    2003/3/1 - 2003/12/31

    Ministry of Education

    90,000

    7

    Development of design methodology for digital wireless transceivers from device characterization, circuit analysis and system simulation with applications of WLAN PA design, NSC 92-2213-E-155-042

    Project Leader

    2003/8/1 - 2004/7/31

    National Science Council

    561,300

    8

    Education program on key components of communications 

    Project Leader

    2004/1/1 - 2004/12/31

    Ministry of Education

    90,000

    9

    Circuit design and package testing of smart Igniter ASIC-1/3

    Project Leader

    2004/2/1 - 2004/11/30

    National Chung-Shan Institute of Science and Technology 

    882,000

    10

    Consultant on high power amplifier design and modeling for OFDM modulation

    Project Leader

    2004/3/1 - 2004/2/28

    Accton Technology Corp.

    282,352

    11

    RF transceiver design with IC implementation for multi-band/multi-mode system applications-1/3, NSC 93-2745-E-155-004-URD

    Project Leader

    2004/8/1 - 2005/7/31

    National Science Council

    616,100

    12

    Circuit design and package testing of smart Igniter ASIC-2/3

    Project Leader

    2005/2/1 - 2005/11/30

    National Chung-Shan Institute of Science and Technology

    882,000

    13

    Initiate program for communication technology education

    Project Leader

    2005/1/1 - 2005/12/31

    Ministry of Education

    70,000

    14

    RF transceiver design with IC implementation for multi-band/multi-mode system applications-2/3, NSC 94-2745- E-155-004-URD

    Project Leader

    2005/8/1 - 2006/7/31

    National Science Council

    669,000

    15

    An SoC Design for Multi-mode Vehicle (ETC/ITS) Communications, NSC 94-2219-E-155-004

    Project Leader

    2005/8/1 - 2006/7/31

    National Science Council

    583,000

    16

    Circuit design and package testing of smart Igniter ASIC-3/3

    Project Leader

    2006/2/1 - 2006/11/30

    National Chung-Shan Institute of Science and Technology

    882,000

    17

    Initiate program on communication education

    Project Leader

    2006/1/1 - 2006/12/31

    Ministry of Education

    130,000

    18

    RF transceiver design with IC implementation for multi-band/multi-mode system applications-3/3, NSC 95-2745- E-155-004-URD

    Project Leader

    2006/8/1 - 2007/7/31

    National Science Council

    691,000

    19

    High-efficiency/high-linearity power amplifier design for wireless LAN

    Project Leader

    2007/5/1 - 2008/4/30

    EPIC Comm., Inc.

    409,400

    20

    WiMAX network technology—studies on propagation and interference with performance evaluation for WiMAX 2.6GHz band

    Project Leader

    2007/7/16 - 2008/7/15

    Industrial Technology Research Institute

    500,000

    21

    Broadband calibration for microwave scattering parameter measurements with device characterization applications, NSC 96-2221-E-155-002

    Project Leader

    2007/8/1 - 2008/7/31

    National Science Council

    545,000

    22

    SiGe power amplifier design for OFDM system applications, NSC 96-2622-E-155-005-CC3

    Project Leader

    2007/11/1 - 2008/10/31

    National Science Council

    554,055

    23

    Promotion program for information and communication courses

    Project Leader

    2007/12/1 - 2008/11/30

    Ministry of Education

    1,150,000

    24

    On-wafer calibration studies for millimeter wave scattering parameter measurements, NSC 97-2221- E-155-009-

    Project Leader

    2008/8/1 - 2009/7/31

    National Science Council

    677,000

    25

    Consultant for RFID IC testing - I

    Project Leader

    2008/9/1 - 2009/8/31

    Mutual-Pak Technology Co., Ltd.

    141,176

    26

    Study on the battery-assisted UHF RFID technology

    Project Leader

    2009/2/1 - 2009/11/30

    National Chung-Shan Institute of Science and Technology

    600,000

    27

    Studies on calibration theory and measurement techniques for differential scattering parameters, NSC 98-2221- E-155-010-

    Project Leader

    2009/8/1 - 2010/7/31

    National Science Council

    748,000

    28

    Consultant for RFID IC testing - II

    Project Leader

    2009/9/1 --2010/8/31

    Mutual-Pak Technology Co., Ltd.

    211,765

    29

    Microstrip with electromagnetic band-gap structures based on CMOS technology—implementation and characterization

    Project Leader

    2009/10/1 ~ 2010/9/30

    Taiwan Semiconductor Research Institute

    0

    30

    Initiate program for network communication education

    Course Content Development

    2010/4/1 - 2011/3/31

    Ministry of Education

    202,500

    31

    Studies on design methodologies and measurement techniques in integrated circuits and antennas for RFID tag applications, NSC 99-2221-E-155-015-

    Project Leader

    2010/8/1 - 2011/7/31

    National Science Council

    684,000

    39

    Development of Fundamental Technologies for Intelligent Multiband Wireless Communications—including PHY/MAC/TEST/ APPLICATION (1/3), NSC 103-2218-E-155-002

    Co-project Leader & Project Leader of Sub-project-II

    2014/1/1 - 2014/12/31

    National Science Council

    11,600,000

    40

    Statistical error analysis and numerical stability improvement of one-tier on-wafer calibration for millimeter wave scattering parameter measurements, MOST 103-2221-E-155-006-

    Project Leader

    2014/8/1 - 2015/10/31

    Ministry of Science and Technology

    818,000

    41

    Development of Fundamental Technologies for Intelligent Multiband Wireless Communications—including PHY/MAC/TEST/ APPLICATION (2/3), MOST 104-2218-E-155-002

    Co-project Leader & Project Leader of Sub-project-II

    2015/1/1 - 2015/12/31

    Ministry of Science and Technology

    14,000,000

    42

    Development and verification of calibration standards for millimeter-wave measurements

    Project Leader

    2014/8/1 - 2015/10/31

    WIN Semiconductors Inc.

    500,000

    43

    Characterization of LTCC transmission lines

    Project Leader

    2015/5/1 - 2016/4/30

    JINGYUE Microwave Integrated Circuit Manufacturing Co., Ltd.

    500,000

    44

    Studies on electromagnetic shielding of RF packaging

    Project Leader

    2015/7/1 - 2015/12/31

    TONG HSING Electronic Industries, Ltd.

    150,000

    45

    Development of Fundamental Technologies for Intelligent Multiband Wireless Communications—including PHY/MAC/TEST/ APPLICATION (3/3), MOST 104-2218-E-155-002

    Co-project Leader & Project Leader of Sub-project-II

    2016/1/1 - 2016/12/31

    Ministry of Science and Technology

    14,000,000

    46

    On-wafer calibrations of scattering parameter measurements for production tests, MOST 104-2221-E-155 -065-

    Project Leader

    2015/8/1 - 2016/7/31

    Ministry of Science and Technology

    610,000

    47

    Applying probing techniques to arbitrary substrates for scattering parameter calibrations/ measurements of planar microwave/ millimeter-wave circuits, MOST 105-2221-E-155-012-

    Project Leader

    2016/8/1 - 2017/7/31

    Ministry of Science and Technology

    630,000

    48

    Simulation and test of electrical performances for AlGaN/GaN HEMT (I)

    Project Leader

    2017/2/1 - 2017/11/30

    National Chung-Shan Institute of Science and Technology

    700,000

    49

    Consultant for GaN HEMT device characterization with power amplifier design

    Project Leader

    2017/5/1 - 2018/4/30

    Crystal Machine Co., Ltd.

    258,824

    50

    Consultant on high frequency characteristics of transmission lines with printed-circuit-boards 

    Project Leader

    2017/8/1 - 2018/7/31

    FAST & BEST Co., Ltd.

    200,000

    51

    Studies on characteristic impedance evaluations for planar transmission lines on lossy/dispersive substrates with applications of broadband device/circuit/ connector characterization, MOST 106-2221-E-155-005-

    Project Leader

    2017/8/1 - 2018/7/31

    Ministry of Science and Technology

    819,000

    52

    Studies of on-wafer measurement techniques and transmission line characterization for microwave/millimeter-wave applications with printer-circuit-boards

    Project Leader

    2017/12/15 - 2019/6/14

    Chunghwa Precision Test Tech. Co., Ltd.

    1,000,000

    53

    Studies on test fixture design and calibration techniques for microwave surface-mount-devices 

    Project Leader

    2018/1/1 - 2018/12/31

    POLYTRONICS Technology Corp.

    700,000

    54

    Consultant on design and test for high-speed/high-frequency transmission lines 

    Project Leader

    2018/3/1 - 2018/8/31

    UNIMICRON Technology Corp. 

    211,765

    55

    Simulation and test of electrical performances for AlGaN/GaN HEMT (II)

    Project Leader

    2018/3/1 - 2018/12/31

    National Chung-Shan Institute of Science and Technology

    700,000

    56

    Applying probing techniques to arbitrary substrates for scattering parameter calibrations/ measurements of planar microwave/ millimeter-wave circuits, MOST 107-2221-E-155-011-

    Project Leader

    2018/8/1 - 2019/7/31

    Ministry of Science and Technology

    718,000

    57

    Consultant for high frequency tests and applications (I)

    Project Leader

    2019/1/1 - 2019/12/31

    NAN YA Plastics Corp.

    804,706

    58

    Simulation and test of electrical performances for AlGaN/GaN HEMT (III)

    Project Leader

    2019/2/1 - 2019/11/30

    National Chung-Shan Institute of Science and Technology

    900,000

    59

    Developments of 3D packaging process, circuit modeling, measurement technique, and system integration design methodology for printed circuit board technology with antenna array applications of millimeter-wave communications and radar systems, MOST 108-2221-E- 155-004-

    Project Leader

    2019/8/1 - 2020/10/31

    Ministry of Science and Technology

    940,000

    60

    Dielectric parameter extractions of PCB substrates based on extended applications of Intel delta-L measurement techniques, MOST 108-2622-E-155-008-CC3

    Project Leader

    2019/11/1 - 2020/10/31

    Ministry of Science and Technology

    771,300

    61

    Simulation and test of electrical performances for AlGaN/GaN HEMT (IV)

    Project Leader

    2020/2/1 - 2020/11/30

    National Chung-Shan Institute of Science and Technology

    700,000

    62

    Consultant for high frequency tests and applications (II)

    Project Leader

    2020/6/1 - 2021/5/31

    NAN YA Plastics Corp.

    922,353

    63

    Studies on wide-band measurement techniques in electrical characterization of vertical interconnections for semiconductor-chip/packaging/ printed-circuit-board applications, MOST 109-2221-E-155-042-

    Project Leader

    2020/8/1 - 2021/7/31

    Ministry of Science and Technology

    950,000

    64

    Consultant on double-sided probing measurement techniques

    Project Leader

    2020/9/1 - 2021/8/31

    FAST & BEST Co., Ltd.

    376,471

    65 Simulation and test of electrical performances for AlGaN/GaN HEMT (V)
    Project Leader
    2021/2/1 - 2021/11/30 National Chung-Shan Institute of Science and Technology
    482,720

    66

    Packaging high-frequency high-speed design and measurement technology for next generation substrate technology-subproject D

    Project Leader

    2021/3/1 - 2024/2/29

    UNIMICRON Technology Corp.

    3,600,000

    67 Consultant for high frequency tests and applications (III)
    Project Leader
    2021/6/1 - 2022/5/31 NAN YA Plastics Corp.
    987,842
    68 Studies on traceable impedance standard of on-wafer scattering parameter measurements with broadband material characterization of advanced substrates for high-speed/high-frequency applications
    Project Leader
    2021/8/1 - 2024/7/31 Ministry of Science and Technology
    3,609,000
    69 Consultant for high frequency tests and applications (IV)
    Project Leader 2022/6/1 - 2023/5/31 NAN YA Plastics Corp.
    922,353


  • Publications and Patents

    Technical Reports

    1. C.-C. Huang, Nonlinear analysis of power amplifiers in digital mobile communications systems by using Volterra series method, NSC project report, No. NSC 89-2213-E-161-006, 1999.
    2. C.-C. Huang, Improved nonlinear analysis with experimental verification of power amplifiers in digital mobile communications systems, NSC project report, No. NSC 89-2213-E-161-013, 2000.
    3. C.-C. Huang, Studies on the calibration techniques of high frequency high power sensors, NSC project report, No. NSC 91-2623-7-155-011, 2002.
    4. C.-C. Huang, HBT load-pulling characterization for power amplifier design in wireless communication applications, Academic-Industrial Research Project Report, WIN Semiconductors Inc., 2002.
    5. C.-C. Huang, Studies on propagation model and performance evaluation for mobile communications, Academic-Industrial Research Project Report, Far Esat Tone Telecomm., 2003
    6. C.-C. Huang, Development of design methodology for digital wireless transceivers from device characterization, circuit analysis and system simulation with applications of WLAN PA design, NSC project report, No. NSC 92-2213-E-155-042, 2004.
    7. C.-C. Huang, Circuit design and package testing of smart Igniter ASIC-1/3, NCSIST Project Report, No. BDP-93-011, 2004.
    8. C.-C. Huang, RF transceiver design with IC implementation for multi-band/multi-mode system applications-1/3, NSC project report, No. NSC 93-2745-E-155-004-URD, 2004.
    9. C.-C. Huang, Circuit design and package testing of smart Igniter ASIC-2/3, NCSIST Project Report, No. BA-94-022P, 2005.
    10. C.-C. Huang, RF transceiver design with IC implementation for multi-band/multi-mode system applications-2/3, NSC project report, No. NSC 94-2745-E-155-004-URD, 2005.
    11. C.-C. Huang, An SoC Design for Multi-mode Vehicle (ETC/ITS) Communications, NSC project report, No. NSC 94-2219-E-155-004, 2005.
    12. C.-C. Huang, Circuit design and package testing of smart Igniter ASIC-2/3, NCSIST Project Report, No. BA-95-022P, 2006.
    13. C.-C. Huang, RF transceiver design with IC implementation for multi-band/multi-mode system applications-2/3, NSC project report, No. NSC 95-2745-E-155-004-URD, 2006.
    14. C.-C. Huang, WiMAX network technology—studies on propagation and interference with performance evaluation for WiMAX 2.6GHz band, Academic-Industrial Research Project Report, Industrial Technology Research Institute, 2007.
    15. C.-C. Huang, Broadband calibration for microwave scattering parameter measurements with device characterization applications, NSC project report, No. NSC 96-2221-E-155-002, 2007.
    16. C.-C. Huang, High-efficiency/high-linearity power amplifier design for wireless LAN, Industrial Research Project Report, EPIC Comm., Inc., 2007.
    17. C.-C. Huang, SiGe power amplifier design for OFDM system applications, NSC project report, No. NSC 96-2622-E-155-005-CC3, 2007.
    18. C.-C. Huang, On-wafer calibration studies for millimeter wave scattering parameter measurements, NSC project report, No. NSC 97-2221-E-155-009, 2008.
    19. C.-C. Huang, Study on the battery-assisted UHF RFID technology, NCSIST Project Report, No. CSIST-839-V101 (98), 2009.
    20. C.-C. Huang, Studies on calibration theory and measurement techniques for differential scattering parameters, NSC project report, No. NSC 98-2221-E-155-010, 2009.
    21. C.-C. Huang, Microstrip with electromagnetic band-gap structures based on CMOS technology—implementation and characterization, NARL project report, No. NDL 98-C07SP-093, 2009.
    22. C.-C. Huang, Studies on design methodologies and measurement techniques in integrated circuits and antennas for RFID tag applications, NSC project report, No. NSC 99-2221-E-155-015, 2010.
    23. C.-C. Huang, An SoC Design for Multi-mode Vehicle (ETC/ITS) Communications (1/3), NSC project report, No. NSC 100-2220-E-155- 001, 2011.
    24. C.-C. Huang, An SoC Design for Multi-mode Vehicle (ETC/ITS) Communications-subproject 1: The RF front-end module design for the SoC of Multi-mode Vehicle (ETC/ITS) Communications (1/3), NSC project report, No. NSC 100-2220-E-155- 002, 2011.
    25. C.-C. Huang, An SoC Design for Multi-mode Vehicle (ETC/ITS) Communications (2/3), NSC project report, No. NSC 101-2220-E-155- 001, 2012.
    26. C.-C. Huang, An SoC Design for Multi-mode Vehicle (ETC/ITS) Communications (3/3), NSC project report, No. NSC 102-2220-E-155- 001, 2013.
    27. C.-C. Huang, One-tier TRL calibration technique without frequency limitation and its application to four-port on-wafer scattering parameter measurements, NSC project report, No. NSC 102-2221-E-155-017, 2013.
    28. C.-C. Huang, Statistical error analysis and numerical stability improvement of one-tier on-wafer calibration for millimeter wave scattering parameter measurements, MOST project report, No. MOST 103-2221-E-155-006, 2014.

    Software

    1. C.-C. Haung, VSA (Volterra Series Analysis)
    2. C.-C. Huang, LSTcal (Line-Series-Shunt calibration)

    Others

    1. C.-C. Haung, High Frequency Circuit Designs, Training Course Notes, Taiwan Testing and Certification Center, Oct. 1996.
    2. C.-C. Haung, High Frequency Measurements with Product Development Applications, Training Course Notes, Taiwan Testing and Certification Center, Aug. 2000.
    3. C.-C. Huang, VSA User Manual, Free software distributed via http://140.138.179.80, April 2005.
    4. C.-C. Huang, K.-W. Gu, Y.-J. Chang, "Back-scattering of resistive and capacitive loading for RFID tag," Electronic Monthly Journal (in Chinese), vol. 16, no. 9, pp. 137-142, Sep. 2010. 
    5. C.-C. Huang, "Single-chip RF transceiver design with CMOS technology for multi-mode vehicle (ETC/ITS) communications-system planning and implementation," Electronic Monthly Journal (in Chinese), vol. 18, no. 12, pp. 126-138, Dec. 2012.

    Patents

    1. C.-C. Huang, C.-P. Liang, Adjustable image rejections for multi-band wireless transceiver designs, Taiwan Patent No. I330009.
    2. C.-C. Huang, Calibration method for radio frequency scattering parameter measurement, Taiwan Patent No. I463146.
    3. C.-C. Huang, Calibration method for radio frequency scattering parameter measurement applying three calibrators and measurement structure thereof, Taiwan Patent I426289.
    4. C.-C. Huang, Measurement Structure for radio frequency scattering parameter measurement applying two calibrators and calibration method thereof, Taiwan Patent I463147.
    5. C.-C. Huang, Calibration method for radio frequency scattering parameter measurement, US Patent No. US8,552,742B2.
    6. C.-C. Huang, Calibration method for radio frequency scattering parameter measurement applying three calibrators and measurement structure thereof, US Patent No. US8,798,953B2.

    Patent License

    1. C.-C. Huang, Calibration method for radio frequency scattering parameter measurement, Taiwan Patent No. I463146; Calibration method for radio frequency scattering parameter measurement applying three calibrators and measurement structure thereof, Taiwan Patent I426289; Measurement Structure for radio frequency scattering parameter measurement applying two calibrators and calibration method thereof, Taiwan Patent I463147; Licensed Company: Chunghwa Precision Test Tech. Co., Ltd.; License period: 2017/12/15-2022/12/14.
  • Awards

    Awards

    1. Calibration method for radio frequency scattering parameter measurement applying three calibrators and measurement structure thereof, 2012 Taipei International Invention Show and Technomart.

    2. YZU Research Outstanding Award, 2012.

     

    Services

    1. Reviewer of Taiwan Semiconductor Research Institute (2006-2018)
    2. Commitee member of examination of government sponsorship for overseas study (2008)
    3. Director of Industrial Cooperation Division, Office of research and development, Yuan Ze University (2012, 2016)
    4. Treasurer, IEEE Taipei Chapter, Electromagnetic Compatibility (EMC) Society (2014)
    5. Technical Program Chair, IEEE Taipei Chapter, Electromagnetic Compatibility (EMC) Society (2015-2018)
    6. Executive Director of Taiwan Microwave Association (2017)
    7. Evaluation committee member of Young Engineer Award of Chinese Institute of Engineers (2017)
    8. Professional Journal Reviewer: IEEE Transactions on Microwave Theory and Techniques; IEEE Transactions on Electron Devices; IEEE Transactions on Component, Packaging and Manufacturing Technology; IEEE Microwave and Wireless Component Letters; IEEE Transactions on Communications; IEEE Communication Letters; IEEE Transactions on Instrumentation and Measurement; IEEE Transactions on Circuits and Systems II; IEEE Antennas and Wireless Propagation Letters; IEEE Transactions on Broadcasting; IET Microwave, Antennas and Propagation
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