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張鴻埜, Hong-Yeh Chang

Education

Ph.D., Graduate Institute of Communication Engineering, National Taiwan University 2000~2004

M.S. E.E., Department of EE, National Central University 1996~1998

B.S. E.E., Department of EE, National Central University 1992~1996

Awards & Honors

Associate Editor of IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS: from Feb. 2019 to now

Luo Jialun Young Scholar Award from the National Central University in 2018

The Outstanding Electrical Engineering Professor Award from the Chinese Institute of Electrical Engineering, Taiwan in 2016

The 2013 Dr. Wu Da-Yu Award from the National Science Council, which is the most outstanding research award for young researchers in Taiwan.

Outstanding Research Award from the National Central University, 2009, 2010, 2011, 2012, 2013-16

Outstanding Patent Award from the National Central University, 2011

The Best Teacher Award from the National Central University, 2009

Member of Phi Tau Phi, 2010.

Marquis Who’s Who in the World, 2010

Publication Lists

A. Journal Papers

[1] Yu-An Lin, Guan-Lin Huang, Ya-Che Yeh, and Hong-Yeh Chang*, “Design and analysis of 0.5-f_T bandwidth THAs with resolution enhancement techniques in 0.18-μm SiGe process,” IEEE Access, vol. 7, pp. 33024-33037, 2019. DOI: 10.1109/ACCESS.2019.2903887

[2] Hong-Yeh Chang*, Chun-Ching Chan, Shen-Ming Li, Han-Nong Yeh, Ian Yi-En Shen, and Gun-Lin Huang, “Design and analysis of CMOS low phase noise low quadrature error V-band sub-harmonically injection-locked quadrature FLL,” IEEE Transactions on Microwave Theory and Techniques, vol. 66, no. 06, pp. 2851-2866, June 2018.

[3] Yu-An Lin, Hong-Yeh Chang*, and Yu-Chi Wang, “A DC-16 GHz GaAs track-and-hold amplifier using sampling rate and linearity enhancement techniques” Electronics Letters, vol. 54, no. 02, pp. 83-85, Feb. 2018.

[4] Shen-Ming Li, Han-Nong Yeh, and Hong-Yeh Chang*, “A V-band 90 nm CMOS Divide-by-10 Injection-Locked Frequency Divider Using Current-Reused Topology,” IEEE Microwave and Wireless Components Letters, vol. 28, no. 01, pp. 76-78, Jan. 2018.

[5] Hong-Yeh Chang*, Chi-Hsien Lin, Yu-Cheng Liu, Wen-Ping Li, and Yu-Chi Wang, “A K-band high efficiency high power monolithic GaAs power oscillator using class-E network,” in IEEE Microwave and Wireless Components Letters, vol. 27, no. 01, pp. 55-57, Jan. 2017.

[6] Hong-Yeh Chang*, Chun-Ching Chan, Ian Yi-En Shen, Yen-Liang Yeh, and Shu-Yan Huang, “Design and analysis of CMOS low phase noise low jitter sub-harmonically injection-locked VCO with FLL self-alignment technique,” IEEE Transactions on Microwave Theory and Techniques, vol. 64, no. 12, pp. 4632-4645, Dec. 2016.

[7] Shou-Hsien Weng, Hong-Yeh Chang*, and Yu-Chi Wang, “A broadband bidirectional amplifier using G_m-bandwidth extension technique,” in IEEE Microwave and Wireless Components Letters, vol. 26, no. 06, pp. 449-451, June 2016.

[8] Hong-Yeh Chang*, Chi-Hsien Lin, Yu-Cheng Liu, Wen-Ping Li, and Yu-Chi Wang, “A 2.5-GHz high efficiency high power low phase noise monolithic microwave power oscillator,” IEEE Microwave and Wireless Components Letters, vol. 25, no. 11, pp. 730-732, Nov. 2015.

[9] Yu-Cheng Liu, Hong-Yeh Chang*, Shu-Yan Huang, and Kevin Chen, “Design and analysis of CMOS high speed high dynamic range track-and-hold amplifiers,” IEEE Transactions on Microwave Theory and Techniques, vol. 63, no. 09, pp. 2841-2853, Sept. 2015.

[10] Yen-Liang Yeh and Hong-Yeh Chang*, “Design and analysis of a K-band low phase noise phase-locked loop with subharmonically injection-locked technique,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 61, no. 12, pp. 1927-1937, Dec. 2014.

[11] Guan-Yu Chen, Hong-Yeh Chang*, Shou-Hsien Weng, Yue-Ming Hsin, and Yu-Chi Wang, “A 2.8-dB conversion gain broadband HBT-HEMT balanced frequency tripler with high harmonic suppression,” IET Electronics Letters, vol. 40, no. 11, pp. 812-814, May 2014.

[12] Shou-Hsien Weng, Hong-Yeh Chang*, Pei-Si Wu, and Yu-Chi Wang, “A Ka-band monolithic bidirectional up-down converter for high speed applications,” IEEE Transactions on Microwave Theory and Techniques, vol. 62, no. 03, pp. 610-622, Mar. 2014.

[13] Hong-Yeh Chang*, Yen-Liang Yeh, Yu-Cheng Liu, Meng-Han Li, and Kevin Chen, “A low jitter low phase noise 10-GHz sub-harmonically injection-locked PLL with self-aligned DLL in 65 nm CMOS technology,” IEEE Transactions on Microwave Theory and Techniques, vol. 62, no. 03, pp. 543-555, Mar. 2014.

[14] Shou-Hsien Weng, and Hong-Yeh Chang*, “A broadband inductorless active power divider for 10-Gbps high speed transmissions,” IEEE Microwave and Wireless Components Letters, vol. 24, no. 03, pp. 197-199, Mar. 2014.

[15] Guan-Yu Chen, Hong-Yeh Chang*, Shou-Hsien Weng, Chih-Chun Shen, Yen-Liang Yeh, Jia-Shiang Fu, Yue-Ming Hsin, and Yu-Chi Wang, “Design and analysis of a Ka-band monolithic high efficiency frequency quadrupler using GaAs HBT-HEMT common-Base/ common-Source balanced Topology,” IEEE Transactions on Microwave Theory and Techniques, vol. 61, no. 19, pp. 3674-3689, Oct. 2013.

[16] Hong-Yeh Chang*, Chi-Hsien Lin, Yu-Cheng Liu, Yeh-Liang Yeh, Kevin Chen, and Szu-Hsien Wu, “65 nm CMOS dual-gate device for Ka-band broadband low noise amplifier and high-accuracy quadrature voltage controlled oscillator,” IEEE Transactions on Microwave Theory and Techniques, vol. 61, no. 06, pp. 2402-2413, Jun. 2013.

[17] Yen-Liang Yeh, and Hong-Yeh Chang*, “A W-band wide locking range and low DC power injection-locked frequency tripler using transformer coupled technique,” IEEE Transactions on Microwave Theory and Techniques, vol. 61, no. 02, pp. 860-870, Feb. 2013.

[18] Shou-Hsien Weng, Hong-Yeh Chang*, Chau-Ching Chiong, and Yu-Chi Wang, “Gain-bandwidth analysis of broadband Darlington amplifiers in HBT-HEMT process,” IEEE Transactions on Microwave Theory and Techniques, vol. 60, no. 11, pp. 3458-3473, Nov. 2012.

[19] Chi-Hsien Lin, and Hong-Yeh Chang*, “A low phase noise CMOS quadrature voltage controlled oscillator using a self-injection coupled technique,” IEEE Transactions on Circuits and Systems II, vol. 59, no. 10, pp. 623-627, Oct. 2012.

[20] Chi-Hsien Lin, and Hong-Yeh Chang*, “A broadband injection-Locking class-E power amplifier” IEEE Transactions on Microwave Theory and Techniques, vol. 60, no. 10, pp. 3232-3242, Oct. 2012.

[21] Chih-Chun Shen, Hong-Yeh Chang*, and Yu-Chi Wang, “A Monolithic 3.5-to-6.5 GHz GaAs HBT-HEMT/common-emitter and common-gate stacked power amplifier” IEEE Microwave and Wireless Components Letters, vol. 22, no. 09, pp. 474-476, Sept. 2012.

[22] Yeh-Liang Yeh, and Hong-Yeh Chang*, “Design and analysis of a W-band divide-by-3 injection-locked frequency divider using second harmonic enhancement technique,” IEEE Transactions on Microwave Theory and Techniques, vol. 60, no. 06, pp. 1617-1625, Jun. 2012.

[23] Hong-Yeh Chang*, Yuan-Ta Chiu, “K-Band CMOS differential and quadrature voltage-controlled oscillators for low phase noise and low power applications,” IEEE Transactions on Microwave Theory and Techniques, vol. 60, no. 01, pp. 46-59, Jan. 2012.

[24] Hong-Yeh Chang*, Yu-Cheng Liu, Shou-Hsien Weng, Chi-Hsien Lin, Yeh-Liang Yeh, and Yu-Chi Wang, “Design and analysis of A DC-43.5 GHz fully integrated distributed amplifier using GaAs HEMT-HBT cascode gain stage,” IEEE Transactions on Microwave Theory and Techniques, vol. 59, no. 02, pp. 443-455, Feb. 2011.

[25] Hong-Yeh Chang*, and Kung-Hao Liang, “A 0.18-μm dual-gate CMOS device modeling and applications for RF cascode circuits,” IEEE Transactions on Microwave Theory and Techniques, vol. 59, no. 01, pp. 116-124, Jan. 2011.

[26] Kung-Hao Liang, and Hong-Yeh Chang*, “A 0.5-6 GHz low-voltage low-power mixer using a modified cascode topology in 0.18 μm CMOS technology,” IET Microwaves, Antennas & Propagation, vol. 05, issue 02, pp. 167-174, Jan. 2011.

[27] Chi-Hsien Lin, and Hong-Yeh Chang*, “A high efficiency broadband class-E power amplifier using a reactance compensation technique, “ IEEE Microwave and Wireless Components Letters, vol. 20, no. 09, pp. 507-509, Sept. 2010.

[28] Hong-Yeh Chang*, Guan-Yu Chen, and Yue-Ming Hsin, “A broadband high efficiency high output power frequency doubler,” IEEE Microwave and Wireless Components Letters. vol. 20, no. 04, pp. 226-228, Apr. 2010.

[29] Hong-Yeh Chang*, and Ching-Yan Chan, “A low loss high isolation DC-60 GHz SPDT traveling-wave switch with a body bias technique in 90 nm CMOS process,” IEEE Microwave and Wireless Components Letters, vol. 20, no. 02, pp. 82-84, Feb. 2010.

[30] Hong-Yeh Chang*, Ruei-Yun Hung, Yan-Liang Yeh, Kevin Chen, Szu-Hsien Wu, and Yu-Chi Wang, “An 86-92 GHz frequency shift keying transmitter with an integrated antenna in 0.5 µm E/D-PHEMT technology,” IEEE Microwave and Wireless Components Letters, vol. 19, no. 11, pp. 749-751, Nov. 2009.

[31] Shou-Hsien Weng, Hong-Yeh Chang*, and Chau-Ching Chiong, “A DC-21 GHz low imbalance active balun using darlington cell technique for high speed data communications,” IEEE Microwave and Wireless Components Letters, vol. 19, no. 11, pp. 728-730, Nov. 2009.

[32] Hong-Yeh Chang*, Yi-Shuo Wu, and Yu-Chi Wang, “A 38% tuning bandwidth low phase noise differential voltage controlled oscillator using a 0.5 μm E/D-PHEMT process,” IEEE Microwave and Wireless Components Letters, vol. 19, no. 07, pp. 467-469, July 2009.

[33] Hong-Yeh Chang*, Shou-Hsien Weng, and Chau-Ching Chiong, “A 30-50 GHz wide modulation bandwidth bidirectional BPSK demodulator/modulator with low LO power,” IEEE Microwave and Wireless Components Letters, vol. 19, no. 05, pp. 332-334, May 2009.

[34] Hong-Yeh Chang*, and Huei Wang, “A 98/196 GHz Low Phase Noise Voltage Controlled Oscillator with a Mode Selector Using a 90 nm CMOS Process” IEEE Microwave and Wireless Components Letters, vol. 19, no. 3, pp. 170-172, Mar. 2009.

[35] Hong-Yeh Chang*, “Design of Broadband Highly Linear IQ Modulator Using a 0.5-μm E/D-PHEMT Process for Millimeter-Wave Applications” IEEE Microwave and Wireless Components Letters, vol. 18, no. 7, pp. 491-493, July 2008.

[36] Kung-Hao Liang, Chi-Hsein Lin, Hong-Yeh Chang*, and Yi-Jen Chan, “A new linearization technique for CMOS RF mixer using third-order transconductance cancellation,” IEEE Microwave and Wireless Components Letters, vol. 18, no. 5, pp. 350-352, May 2008.

[37] Hong-Yeh Chang*, Cheng-Kuo Lin, and Yu-Chi Wang, “A 30-130 GHz ultra broadband direct-conversion BPSK modulator using a 0.5-μm E/D-PHEMT process,” IEEE Microwave and Wireless Components Letters, vol. 17, no. 11, pp. 805-807, Nov. 2007.

[38] Hong-Yeh Chang*, Ming-Fong Lei, Chin-Shen Lin, Yi-Hsien Cho, Zuo-Min Tsai, and Huei Wang, “A 46 GHz direct wide modulation bandwidth ASK modulator in 0.13-μm CMOS technology,” IEEE Microwave and Wireless Components Letters, vol. 17, no. 9, pp. 691-671, Sept. 2007.

[39] Kung-Hao Liang, Hong-Yeh Chang*, and Yi-Jen Chan, “A 0.5-7.5 GHz ultra low-voltage low-power mixer using bulk-injection method by 0.18-μm CMOS technology,” IEEE Microwave and Wireless Components Letters, vol. 17, no. 7, pp. 531-533, July 2007.

[40] Chin-Shen Lin, Pei-Si Wu, Mei-Chao Yeh, Jia-Shiang Fu, Hong-Yeh Chang, Kun-You Lin, and Huei Wang*, “Analysis of multi-conductor coupled-line Marchand baluns for miniature MMIC design,” IEEE Transactions on Microwave Theory and Techniques vol. 55, pp. 1190-1199, June 2007.

[41] Jeng-Han Tsai, Hong-Yeh Chang, Pei-Si Wu, Yi-Lin Lee, Tian-Wei Huang, and Huei Wang*, “Design and analysis of a 44-GHz MMIC low-loss built-in linearizer for high-linearity medium power amplifier,” IEEE Transactions on Microwave Theory and Techniques, vol. 54, pp. 2487-2496, June 2006.

[42] Zuo-Min Tsai, Mei-Chao Yeh, Hong-Yeh Chang, Ming-Fong Lei, Kun-You Lin, Chin-Shen Lin and Huei Wang*, “Analysis of traveling-wave switches using novel FET-integrated CPW above 100 GHz,” IEEE Transactions on Microwave Theory and Techniques vol. 54, pp. 2090-2097, May 2006.

[43] Chin-Shen Lin, Pei-Si Wu, Hong-Yeh Chang, and Huei Wang*, “A 9 – 50-GHz Gillbert-cell down-conversion mixer in 0.13-μm CMOS technology,” IEEE Microwave and Wireless Components Letters, vol. 16, pp. 296-298, May 2006.

[44] Hong-Yeh Chang, Pei-Si Wu, Tian-Wei Huang, Huei Wang*, Chung-Long Chang, and John G.J. Chern, “Design and analysis of CMOS broadband compact high-linearity modulators for gigabit microwave/millimeter-wave applications,” IEEE Transactions on Microwave Theory and Techniques, vol. 54, pp. 20-30, Jan. 2006.

[45] Pei-Si Wu, Hong-Yeh Chang, Ming-Da Tsai, Tian-Wei Huang and Huei Wang*, “New miniature continuous phase/amplitude control MMICs using 0.18-μm CMOS technology,” IEEE Transactions on Microwave Theory and Techniques, vol. 54, pp. 10-19, Jan. 2006.

[46] To-Po Wang, Ren-Chieh Liu, Hong-Yeh Chang, Liang-Hung Lu, Huei Wang*, “A 22-GHz push-push CMOS oscillator using micromachined Inductors,” IEEE Microwave and Wireless Components Letters, vol. 15, pp. 859-861, Dec. 2005.

[47] Hong-Yeh Chang, Jeng-Han Tsai, Tian-Wei Huang, Huei Wang*, Yongxiang Xia, and Yonghui Shu, “A W-band high-power direct-conversion digital modulation transmitter,” IEEE Microwave and Wireless Components Letters, vol. 15, pp. 600-602, Sept. 2005.

[48] Kun-You Lin, Wen-Hua Tu, Ping-Yu Chen, Hong-Yeh Chang, Huei Wang*, and Ruey-Beei Wu, “Millimeter-wave MMIC passive HEMT switches using traveling-wave concept,” IEEE Transactions on Microwave Theory and Techniques, vol. 52, pp. 1798-1808, Aug. 2004.

[49] Hong-Yeh Chang, Tian-Wei Huang, Huei Wang*, Yu-Chi Wang, Pane-Chane Chao, and Chung-Hsu Chen, “Broad-band HBT BPSK and IQ modulator MMICs and millimeter-wave vector signal characterization,” IEEE Transactions on Microwave Theory and Techniques, vol. 52, pp.908-919, Mar. 2004.

[50] Hong-Yeh Chang, Huei Wang*, Michael Yu, and Yonghui Shu, “A 77-GHz MMIC power amplifier for automotive radar applications,” IEEE Microwave and Wireless Components Letters, vol. 13, pp. 143-145, Apr. 2003.

B. Conference Papers

[1] Wei-Cheng Chen, Han-Nong Yeh, and Hong-Yeh Chang*, “An 100-to-110 GHz low-dc-power sub-harmonically injection-locked quadrature oscillator using stacked boosting technique in 90-nm CMOS Process,” in 2019 IEEE MTT-S International Microwave Symposium Digest, Boston, MA, USA, June 2019, pp. xxx-xxx.

[2] Han-Sen Yang, Ian Yi-En Shen, and Hong-Yeh Chang*, “A K-band CMOS low-phase-noise sub-harmonically injection-locked QVCO with divider-less frequency-tracking loop,” in 2019 IEEE MTT-S International Microwave Symposium Digest, Boston, MA, USA, June 2019, pp. xxx-xxx.

[3] Guan-Lin Huang, Cheng-Rui Li, Han-Sen Yang, Hong-Yeh Chang*, “A low droop rate wide input bandwidth high dynamic range track-and-hold amplifier in 0.18 μm SiGe process,” in 2018 Asia Pacific Microwave Conference Proceedings, Kyoto, Japan, Nov. 2018, pp. 1 - 3.

[4] Shao-Wei Peng, Jyun-Jia Huang, Hong-Yeh Chang*, and Yeong-Maw Chen, “A 76-98 GHz broadband low-DC-power low noise amplifier using coplanar waveguide in 40 nm CMOS process,” in 2018 Asia Pacific Microwave Conference Proceedings, Kyoto, Japan, Nov. 2018, pp. 1 - 3.

[5] Hao-En Liu, Xiang Lin, Hong-Yeh Chang*, and Yu-Chi Wang, “10-MHz-to-70-GHz Ultra-Wideband Low-Insertion-Loss SPST and SPDT Switches using GaAs PIN Diode MMIC Process,” in 2018 Asia Pacific Microwave Conference Proceedings, Kyoto, Japan, Nov. 2018, pp. 1-3.

[6] Kuan-Hsueh Lu, Jyun-Jia Huang, Wei-Cheng Chen, Hong-Yeh Chang*, and Yu-Chi Wang, “A K-band frequency doubler in 0.15-μm GaAs pHEMT with an autonomous circuit for stability Analysis,” in 2018 IEEE International Symposium on Radio-Frequency Integration Technology, Melbourne, Australia, Aug. 2018, pp. xxx-xxx.

[7] Kuan-Hsueh Lu, Guan-Lin Huang, and Hong-Yeh Chang, “A 17.5-dBm output power 11.2% DC-to-RF efficiency low phase noise CMOS quadrature voltage-controlled oscillator,” in 2018 IEEE MTT-S International Microwave Symposium Digest, Philadelphia, PA, USA, June 2018, pp. xxx-xxx.

[8] Yu-An Lin, Ching-Yen Chan, Hao-En Liu, Jyun-Jia Huang, and Hong-Yeh Chang*, “A low loss high isolation double-pole double-throw traveling-wave switch using 0.5-µm GaAs Process,” 2017 Progress in Electromagnetics Research Symposium, Singapore, Nov. 2017, pp. 2001- 2005.

[9] Xiang Lin, Hao-En Liu, Hong-Yeh Chang*, and Yu-Chi Wang, “A 25-65 GHz broadband low-LO-driving wide-modulation-bandwidth monolithic BPSK modulator in GaAs PIN diode MMIC process,” 2017 Asia Pacific Microwave Conference Proceedings, Kuala Lumpur, Malasia, Nov. 2017, pp. xxx - xxx.

[10] Yu-An Lin, Jien-Rong Ji, Tzu-Han Chien, Hong-Yeh Chang*, and Yu-Chi Wang, “A Ka-Band 25-dBm output power high efficiency monolithic Doherty power amplifier in 0.15-μm GaAs E-mode pHEMT process,” 2017 Asia Pacific Microwave Conference Proceedings, Kuala Lumpur, Malasia, Nov. 2017, pp. xxx - xxx.

[11] Chun-Ching Chan, Han-Nong Yeh, Gun-Lin Huang, and Hong-Yeh Chang*, “A V-band low-phase-noise low-jitter sub-harmonically injection-locked QVCO with high quadrature accuracy in 90-nm CMOS process,” in 2017 IEEE MTT-S International Microwave Symposium Digest, Honolulu Hawai’i, USA, June 2017, pp. 1-4.

[12] Yu-An Lin, Ya-Che Yeh, and Hong-Yeh Chang*, “A 27-GHz 45-dB SFDR track-and-hold amplifier using modified Darlington amplifier and cascoded SEF in 0.18-μm SiGe process,” in 2017 IEEE MTT-S International Microwave Symposium Digest, Honolulu Hawai’i, USA, June 2017, pp. 1-4.

[13] Yu-An Lin, Shou-Hsien Weng, Hong-Yeh Chang*, and Yu-Chi Wang, “A DC-to-82.4-GHz broadband amplifier using bandwidth extension technique in 0.15 μm pHEMT process,” 2016 Asia Pacific Microwave Conference Proceedings, New Delhi, India, Dec. 2016, pp. xxx - xxx.

[14] Guan-Yu Chen, Hong-Yeh Chang*, Yu-Cheng Liu, and Yue-Ming Hsin, “A 49-to-64 GHz frequency doubler using active CS-based Gm-boosted technique in 90 nm CMOS process,” in 11th European Microwave Integrated Circuits Conference Digest, London, UK, Oct. 2016, pp. xxx-xxx.

[15] Yen-Liang Yeh, Xiang Lin, Hong-Yeh Chang*, and Kevin Chen, “A V-band 65 nm CMOS low DC power low phase noise PLL using divide-by-three injection-locked frequency divider,” in 2016 IEEE International Symposium on Radio-Frequency Integration Technology, Taipei, Taiwan, Aug. 2016, pp. xxx-xxx.

[16] Shou-Hsien Weng, Chau-Ching Chiong, Chih-Chen Chang, Hsiao-Ling Wu, Yau-De Huang, Yuh-Jing Hwang, Hong-Yeh Chang*, and Ming-Jye Wang, “A 35-50 GHz triple cascode mixer module with intermediate frequency of 4-12 GHz based on low noise GaAs PHEMT process,” in 2016 IEEE International Symposium on Radio-Frequency Integration Technology, Taipei, Taiwan, Aug. 2016, pp. xxx-xxx.

[17] Yu-An Lin, Ya-Che Yeh, Yu-Cheng Liu, and Hong-Yeh Chang*, “A 55-dB SFDR 16-GS/s Track-and-Hold Amplifier in 0.18 μm SiGe Using Differential Feedthrough Cancellation Technique,” in 2016 IEEE MTT-S International Microwave Symposium Digest, San Francisco, USA, May 2016, pp. xxx-xxx

[18] Yu-Cheng Liu, Yi-Wei Chang, Ya-Che Yeh, Shou-Hsien Weng, Jeng-Han Tsai, and Hong-Yeh Chang*, “A 2-to-67 GHz 0-dBm LO power broadband distributed NMOS-HBT Darlington mixer in 0.18 μm SiGe process,” in 2016 IEEE MTT-S International Microwave Symposium Digest, San Francisco, USA, May 2016, pp. xxx-xxx.

[19] Yen-Liang Yeh, Shu-Yan Huang, Yi-En Shen, and Hong-Yeh Chang*, “A 90 nm CMOS low phase noise sub-harmonically injection-locked voltage-controlled oscillator with FLL self-alignment technique,” in 2016 IEEE MTT-S International Microwave Symposium Digest, San Francisco, USA, May 2016, pp. xxx-xxx.

[20] Chi-Hsien Lin, Hsuan-Yin Huang, Yi-En Shen, Tsung-Hsien Lin, and Hong-Yeh Chang*, “A V-Band two-element phased-array receiver using reflection-type vector modulator in 90-nm CMOS technology,” 2015 Asia Pacific Microwave Conference Proceedings, Nanjing, China, Dec. 2015, pp. xxx - xxx.

[21] Yu-An Lin, Tsung-Hsien Lin, and Hong-Yeh Chang*, “A 42-71 GHz 90 nm CMOS injection-locked voltage-controlled oscillator using bulk injection technique,” in 10th European Microwave Integrated Circuits Conference Digest, Paris, France, Sept. 2015, pp. xxx-xxx.

[22] Yen-Liang Yeh, Yu-Cheng Liu, Hong-Yeh Chang*, and Kevin Chen, “Evaluation of a D-band divide-by-3 injection-locked frequency divider in 65 nm CMOS Process,” in 2015 IEEE International Symposium on Radio-Frequency Integration Technology, Sendai, Japan, Aug. 2015, pp. xxx-xxx.

[23] Chun-Ching Chan, Tsung-Hsien Lin, and Hong-Yeh Chang*, “A 31.2% locking range K-band divide-by-6 injection-locked frequency divider using 90 nm CMOS technology,” in 2015 IEEE MTT-S International Microwave Symposium Digest, Phoenix, USA, May 2015, pp. xxx-xxx.

[24] Meng-Han Li, Yen-Han Liao, and Hong-Yeh Chang*, “A K-Band Low Power High Accuracy Quadrature VCO Using Gate-Modulated Coupling and Transformer Feedback Technique,” 2014 Asia Pacific Microwave Conference Proceedings, Sendai, Japan, Nov. 2014, pp. 895 - 897.

[25] Yen-Liang Yeh, Cheng-Han Lu, Hong-Yeh Chang*, and Kevin Chen, “A 2.2-2.4 GHz self-aligned sub-harmonically injection-locked phase-locked loop using 65 nm CMOS process,” in 9th European Microwave Integrated Circuits Conference Digest, Rome, Italy, Oct. 2014.

[26] Guan-Yu Chen, Hong-Yeh Chang*, Shou-Shen Weng, Yue-Ming Hsin, and Yu-Chi Wang, “A K-Band high performance frequency quadrupler using CG-CS balanced configuration in E/D-mode PHEMT process,” in 9th European Microwave Integrated Circuits Conference Digest, Rome, Italy, Oct. 2014.

[27] Yu-Cheng Liu, Hong-Yeh Chang*, and Kevin Chen, “A 12 GB/s 3-GHz input bandwidth track-and-hold amplifier in 65 nm CMOS with 48-dB spur-free dynamic range,” in 2014 IEEE MTT-S International Microwave Symposium Digest, Florida, USA, June 2014.

[28] Yen-Liang Yeh and Hong-Yeh Chang*, “A W-Band divide-by-1.5 injection-locked frequency divider in 90 nm CMOS process,” in 2014 IEEE MTT-S International Microwave Symposium Digest, Florida, USA, June 2014.

[29] Che-Chen Lee, and Hong-Yeh Chang*, “A monolithic 10-dBm Q-band high efficiency wideband CMOS voltage-controlled oscillator with Q-enhancement technique,” in 2014 IEEE MTT-S International Microwave Symposium Digest, Florida, USA, June 2014.

[30] Shu-Yan Huang, Chih-Chun Shen, Yu-Cheng Liu, Yen-Han Liao, Hong-Yeh Chang*, Yo-Shen Lin, and Yu-Chi Wang, “A K-band monolithic broadband low phase noise voltage controlled oscillators using HBT-HEMT cascode topology,” in 2013 Asia Pacific Microwave Conference Proceedings, Seoul, Korea, Nov. 2013.

[31] Si-Hua Chen, Chih-Chun Shen, Shou-Hsien Weng, Yu-Cheng Liu,Hong-Yeh Chang*, and, and Yu-Chi Wang, “Design of A DC-33 GHz cascode distributed amplifier using dual-gate device in 0.5-μm GaAs E/D-Mode HEMT Process,” in 2013 Asia Pacific Microwave Conference Proceedings, Seoul, Korea, Nov. 2013.

[32] Si-Hua Chen, Shou-Hsien Weng, Yu-Cheng Liu, and Hong-Yeh Chang*, “A monolithic DC-70-GHz broadband distributed amplifier using 90-nm CMOS process,” in 8th European Microwave Integrated Circuits Conference Digest, Nuremberg, Germany, Oct. 2013.

[33] Wei-Chu Wang, Shou-Hsien Weng, and Hong-Yeh Chang*, “A 25-to-70 GHz and Low LO Power Mixer using Modified SiGe NMOS-HBT Darlington Cell for Gigabit BPSK Demodulation,” in 2013 IEEE MTT-S International Microwave Symposium Digest, Seattle, USA, June 2013. (EI)

[34] Chi-Hsien Lin, Yu-Cheng Liu, Yen-Liang Yeh, Han-Chi Chiu, and Hong-Yeh Chang*, “A 60-GHz low dc power self-injection coupling CMOS quadrature voltage-controlled oscillator with high quadrature accuracy,” in 2013 IEEE MTT-S International Microwave Symposium Digest, Seattle, USA, June 2013. (EI)

[35] Cheng-Han Lu, Chi-Hsien Lin, Yen-Han Liao, Hong-Yeh Chang*, and Yu-Chi Wang, “Monolithic 2-μm/0.5-μm GaAs HBT-HEMT (BiHEMT) process for low phase noise voltage controlled oscillators (VCOs),” in 2012 Asia Pacific Microwave Conference Proceedings, Kaohsiung Taiwan, Dec. 2012, pp.1235-1237.

[36] Si-Hua Chen, Yu-Cheng Liu, Shou-Hsien Weng, Hong-Yeh Chang*, Kevin Chen, and Szu-Hsien Wu, “A monolithic DC–31 GHz distributed amplifier using cascode HBT-NMOS gain cell in 0.18 μm SiGe technology,” in 2012 Asia Pacific Microwave Conference Proceedings, Kaohsiung Taiwan, Dec. 2012, pp.211 - 213.

[37] Cheng-Ta Yu, Han-Chieh Ho, Hong-Yeh Chang*, Jia-Shiang Fu, and Heng-Kuang Lin, “DC-30 GHz SPDT switch using antimonide-based compound semiconductor (ABCS) 2-μm InAs/AlSb HEMT process for low-voltage and high-speed applications,” in 2012 Asia Pacific Microwave Conference Proceedings, Kaohsiung Taiwan, Dec. 2012, pp. 196-198.

[38] Shou-Hsien Weng, Wei-Chu Wang, Hong-Yeh Chang*, Chau-Ching Chiong, and Ming-Tang Chen, “A cryogenic 30-50 GHz balanced low noise amplifier using 0.15-μm MHEMT process for radio astronomy applications,” in 2012 IEEE International Symposium on Radio-Frequency Integration Technology, Singapore, Nov. 2012, pp.177-179.

[39] Shou-Hsien Weng, Che-Hao Shen, and Hong-Yeh Chang*, “A wide modulation bandwidth bidirectional CMOS IQ modulator/demodulator for microwave and millimeter-wave gigabit applications,” in 7th European Microwave Integrated Circuits Conference Digest, Amsterdam, Netherlands, Oct. 2012, pp. 8-11.

[40] Yu-Cheng Liu, and, Hong-Yeh Chang*, “Design of a V-Band active integrated antenna (AIA) with voltage controlled oscillator,” in 2012 IEEE International Symposium on Antennas and Propagation Digest, Chicago, USA, July. 2012.

[41] Guan-Yu Chen, Yeh-Liang Yeh, Hong-Yeh Chang*, and Yue-Ming Hsin, “A Ka-band broadband active frequency doubler using a CB/CE balanced configuration in 0.18-mm SiGe BiCMOS Process,” in 2012 IEEE MTT-S International Microwave Symposium Digest, Montreal, Canada, June 2012. (EI)

[42] Yeh-Liang Yeh, Chih-Sheng Huang, and Hong-Yeh Chang*, “A 20.7% locking range W-band fully integrated injection-locked oscillator using 90 nm CMOS technology,” in 2012 IEEE MTT-S International Microwave Symposium Digest, Montreal, Canada, June 2012, pp. 1-3. (EI)

[43] Guan-Yu Chen, Shou-Hsien Weng, Hong-Yeh Chang*, and Yue-Ming Hsin, “A K-Band high efficiency high output power CGF-CSF frequency doubler in 0.5-μm GaAs E/D-mode PHEMT process,” in 2011 Asia Pacific Microwave Conference Proceedings, Melbourne Australia, Dec. 2011, pp.1258-1261.

[44] Yen-Liang Yeh, Ruei-Yun Hung, Hong-Yeh Chang*, Kevin Chen, and Szu-Hsien Wu, “A K-Band linearized amplifier with a modified third-order transconductance cancellation technique in 0.18 μm CMOS process,” in 2011 Asia Pacific Microwave Conference Proceedings, Melbourne Australia, Dec. 2011, pp.363-366.

[45] Yu-Cheng Liu, Shou-Hsien Weng, Hong-Yeh Chang*, “Bandwidth enhancement of cascode distributed amplifiers using inductive peaking technique and modified m-derived network,” in 2011 Asia Pacific Microwave Conference Proceedings, Melbourne Australia, Dec. 2011, pp.13-16.

[46] Chi-Hsien Lin, Wen-Ping Li, and Hong-Yeh Chang*, “A Fully Integrated 2.4-GHz 0.5-W high efficiency class-E voltage controlled oscillator in 0.15-μm PHEMT process,” in 2011 Asia Pacific Microwave Conference Proceedings, Melbourne Australia, Dec. 2011, pp.864-868.

[47] Shou-Hsien Weng, Hong-Yeh Chang*, Chau-Ching Chiong, and Ming-Tang Chen, “Cryogenic evaluation of a 30-50 GHz 0.15-μm MHEMT low noise amplifier for radio astronomy applications,” in 41st European Microwave Conference Digest, Manchester, UK, Oct. 2011, pp. 934-937.

[48] Yuan-Ta Chiu, Chi-Hsien Lin, and Hong-Yeh Chang*, “Design and analysis of two modified Colpitts VCOs with and without transformer feedback,” in 6th European Microwave Integrated Circuits Conference Digest, Manchester, UK, Oct. 2011, pp. 430-433.

[49] Chih-Chun Shen, and Hong-Yeh Chang*, “A fully integrated power amplifier with switched output network in GaAs HBT-HEMT process,” in 6th European Microwave Integrated Circuits Conference Digest, Manchester, UK, Oct. 2011, pp. 208-211. *

[50] Yan-Liang Yeh, and Hong-Yeh Chang*, “Linearity Enhancement of CMOS Device using a Modified Third-Order Transconductance Cancellation Technique for Microwave Amplifier,” in 2011 IEEE MTT-S International Microwave Symposium Digest, Baltimore, Maryland, June 2011.

[51] Yan-Liang Yeh, and Hong-Yeh Chang*, Kevin Chen, and Szu-Hsien Wu, “An Innovative Injection-Locked Frequency Divider with Transformer Transconductance-Boosted Technique,” in 2010 Asia Pacific Microwave Conference Proceedings, Yokohama Japan, Dec. 2010.

[52] Chi-Hsien Lin, Yi-Shuo Wu, Yen-Liang Yeh, Shou-Hsien Weng, Guan-Yu Chen, Che-Hao Shen, and Hong-Yeh Chang*, “A 24-GHz Highly Integrated Transceiver in 0.5-μm E/D-PHEMT Process for FMCW Automotive Radar Applications,” in 2010 Asia Pacific Microwave Conference Proceedings, Yokohama Japan, Dec. 2010.

[53] Guan-Yu Chen, Hong-Yeh Chang*, Ching-Yan Chan, Chin-Shen Lin, Kevin Chen, and Szu-Hsien Wu, “Cold-mode Characteristics of 90 nm CMOS Device with Negative Body Bias and Highly Linear Millimeter-Wave Switch Applications,” in 2010 Asia Pacific Microwave Conference Proceedings, Yokohama Japan, Dec. 2010.

[54] Chih-Chun Shen, Hong-Yeh Chang*, and Chang-Sheng Chen, “A New Estimation Method of Efficiency for Class-E Power Amplifier Operated above Theoretical Maximum Operation Frequency,” in 2010 Asia Pacific Microwave Conference Proceedings, Yokohama Japan, Dec. 2010.

[55] Fan-Hsiu Huang, Meng-Hsiu Tsai, Hong-Yeh Chang*, and Yue-Ming Hsin, “A Dual-gate Subharmonic Injection-Locked Oscillator using 0.5 µm GaAs pHEMT Technology”, in 2010 Asia Pacific Microwave Conference Proceedings, Yokohama Japan, Dec. 2010.

[56] Fan-Hsiu Huang, Chin-Cheng Chen, Hong-Yeh Chang, and Yue-Ming Hsin, “A 60-GHz 2´2 Phased-Array Transmitter using Injection-Locked Oscillator in 0.18 µm CMOS Technology”, n 2010 Asia Pacific Microwave Conference Proceedings, Yokohama Japan, Dec. 2010.

[57] Shou-Hsien Weng, Hong-Yeh Chang*, and Chau-Ching Chiong, “Design of a 0.5-30 GHz Darlington Amplifier for Microwave Broadband Applications,” in 2010 IEEE MTT-S International Microwave Symposium Digest, Atlanta, Anaheim, California, May 2010. (EI)

[58] Shou-Hsien Weng, Hong-Yeh Chang*, Kevin Chen, and Szu-Hsien Wu^, “Design of a Broadband Low Imbalance Active Balun Using Darlington Cell Technique in 0.35-μm SiGe BiCMOS Process,” in 2009 Asia Pacific Microwave Conference Proceedings, Singapore, Dec. 2009.

[59] Guan-Yu Chen, Hong-Yeh Chang*, Yue-Ming Hsin, and Chau-Ching Chiong, “A 60-110 GHz Low Conversion Loss Tripler in 0.15-μm MHEMT Process,” in 2009 Asia Pacific Microwave Conference Proceedings, Singapore, Dec. 2009.

[60] Chih-Chun Shen, Hong-Yeh Chang*, and George D. Vendelin, “Comparison of enhancement- and depletion-mode triple stacked power amplifiers in 0.5 μm AlGaAs/GaAs PHEMT Technology”, in 2009 European Microwave Conference Digest, Rome, Italy, Oct. 2009.

[61] Chi-Hsien Lin, and Hong-Yeh Chang*, “A low phase noise low DC power quadrature voltage-controlled oscillator using a 0.18-μm CMOS process”, in 2009 European Microwave Conference Digest, Rome, Italy, Oct. 2009.

[62] Hong-Yeh Chang*, Yi-Shuo Wu, Shou-Hsien Weng, Yan-Liang Yeh, Chi-Hsein Lin, Sheng-Ming Luo, and Yu-Chi Wang, “24-GHz Front-end Monolithic Microwave Integrated Circuits Using 0.5-μm GaAs Enhancement/Depletion-mode (E/D-mode) PHEMT Technology for Automotive Radar Applications,” 2009 Progress In Electromagnetics Research Symposium, Moscow, RUSSIA, Aug. 2009.

[63] Chih-Chun Shen, George D. Vendelin, Hong-Yeh Chang*, and Yu-Chi Wang, “Design of Stacked Power Amplifiers Using GaAs Monolithic Microwave Integrated Circuit (MMIC) Technology,” 2009 Progress In Electromagnetics Research Symposium, Moscow, RUSSIA, Aug. 2009.

[64] Chih-Chih Shen, Fan-Hsiu Huang, Cheng-Kuo Lin, Hong-Yeh Chang*, and Yi-Jen Chan, “A Broadband Stacked Power Amplifier Using 2-μm GaAs HBT Process for C-band Applications,” in 2008 Asia Pacific Microwave Conference Proceedings, Hong Kong/Macau, China, Dec. 2008.

[65] Fan-Hsiu Huang, Chi-Hsien Lin, Hong-Yeh Chang*, Yi-Jen Chan, “A low-power subharmonic injection-locked oscillator using E/D-mode GaAs PHEMTs for Ka-band applications,” in 2008 Asia Pacific Microwave Conference Proceedings, Hong Kong/Macau, China, Dec. 2008.

[66] Sheng-Ming Luo, Shou-Hsien Weng, Yan-Liang Ye, Chi-Hsien Lin, Chia-Ning Chung, and Hong-Yeh Chang*, “24-GHz MMIC Development Using 0.15-μm GaAs PHEMT Process for Automotive Radar Applications,” in 2008 Asia Pacific Microwave Conference Proceedings, , Hong Kong/Macau, China, Dec. 2008.

[67] Yan-Liang Yeh, Hong-Yeh Chang*, and Chau-Ching Chiong, “A 29-GHz Low Phase Noise Differential Voltage Controlled Oscillator Using 2-μm GaAs HBT Process,” in 2008 Asia Pacific Microwave Conference Proceedings, Hong Kong/Macau, China, Dec. 2008.

[68] Chau-Ching Chiong, Hong-Yeh Chang, and Ming-Tang Chen, “Ka-Band Wide-Bandwidth Voltage-Controlled Oscillators in InGaP-GaAs HBT Technology,” in 2008 European Microwave Conference Digest, Amsterdam, Netherlands, Oct. 2008.

[69] Y.-J. Hwang, C.-C. Chiong, Y.-S. Lin, S.-W. Chang, T. Wei, C.-C. Han, M.-T. Chen, H. Wang, and H.-Y. Chang, “Cryogenic testing and multichip module design of a 31.3-45 GHz MHEMT MMIC-base heterodyne receiver for radio astronomy,” in SPIE Astronomical Telescopes and Instrumentation, Marseille, Jun. 2008.

[70] Chi-Hsien Lin, and Hong-Yeh Chang*, “An eight-phase voltage controlled oscillator with reflection-type modulators in 0.18-μm CMOS technology,” in 2008 IEEE MTT-S International Microwave Symposium Digest, Atlanta, Georgia, June 2008, pp. 1465-1468. (EI)

[71] Shou-Hsien Weng, Chi-Hsien Lin, Hong-Yeh Chang*, and Chau-Ching Chiong, “Q-band low noise amplifiers using a 0.15-μm MHEMT process for broadband communication and radio astronomy applications,” in 2008 IEEE MTT-S International Microwave Symposium Digest, Atlanta, Georgia, June 2008, pp. 455-458. (EI)

[72] Chau-Ching Chiong, Hong-Yeh Chang, and Ming-Tang Chen, “Wide bandwidth Voltage-controlled oscillators for radio astronomical applications using 2 μm InGaP-GaAs HBT process,” in 2008 Global Symposium on Millimeter Waves Digest, Nanjing, P. R. China, April 2008, pp. 185-188.

[73] C.-C. Shen, Kung-Hao Liang, Hong-Yeh Chang, and George D. Vendelin, “Design of power amplifiers using stacked topology,” 2007 Asia Pacific Microwave Conference Proceedings, vol. 1, Bangkok, Thailand, Dec. 2007, pp. 567-570.

[74] Chi-Hsien Lin, Shou-Hsien Weng, Kung-Hao Liang, Hong-Yeh Chang*, Yi-Jen Chan, and Chau-Ching Chiong “A Ku-band low phase noise wide tuning range voltage controlled oscillator using 2-μm GaAs HBT process,” 2007 Asia Pacific Microwave Conference Proceedings, vol. 4, Bangkok, Thailand, Dec. 2007, pp. 2571-2574.

[75] Pei-Si Wu, Hong-Yeh Chang, Ming-Fong Lei, Bo-Jr Huang, Huei Wang, Cheng-Ming Yu,and John G. J. Chern, “A 40-74 GHz amplitude/phase control MMIC using 90-nm CMOS technology,” 2007 European Microwave Conference Digest, Munich, Germany, Oct. 2007, pp. 115-118.

[76] Hong-Yeh Chang*, Yan-Liang Yeh, Chi-Hsein Linand, Kung-Hao Liang, Chau-Ching Chiong, and Eric Bryerton, “Development of voltage controlled oscillators using 2-μm GaAs HBT monolithic integrated circuit technology for Atacama large millimeter/submillimeter array application,” 2007 Progress In Electromagnetics Research Symposium, Prague Czech Republic, Aug. 2007.

[77] Chi-Hsein Lin, Kung-Hao Liang, Hong-Yeh Chang*, Yi-Jen Chan, Chau-Ching Chiong, and Eric Bryerton, “A Q-band Low Phase Noise Voltage Controlled Oscillator Using Balanced �-Feedback in 2-μm GaAs HBT Process,” 2007 IEEE RFIC Symposium Digest, Honolulu, Hawaii, June 2007, pp. 119-122. (EI)

[78] Chin-Shen Lin, Hong-Yeh Chang, Pei-Si Wu, Kun-you Lin, and Huei Wang, “A 35-50 GHz IQ-Demodulator in 0.13-μm CMOS Technology,” 2007 IEEE MTT-S International Microwave Symposium Digest, Honolulu, Hawaii, June 2007, pp. 1397-1400. (EI)

[79] Hong-Yeh Chang*, Huei Wang, and Wesley Lin, “A Miniature 35-110 GHz Modified Reflection-type BPSK Modulator Using 65-nm CMOS Technology,” 2007 IEEE MTT-S International Microwave Symposium Digest, Honolulu, Hawaii, June 2007, pp. 2165-2168. (EI)

[80] C.-H. Wang, Hong-Yeh Chang, Pei-Si Wu, Kun-you Lin, Tian-Wei Huang, Huei Wang, and C-H Chen, “A 60GHz low-power six-port transceiver for gigabit software-defined transceiver applications,” 2007 International Solid-State Circuit Conference (ISSCC), San Francisco, Feb. 2007, pp. 192-193. (EI)

[81] Yi-Hsien Cho, Fong-Cheng Chang, Ming-Fong Lei, Ming-Da Tsai, Hong-Yeh Chang*, and Huei Wang, “A Low Noise Bulk-coupled Colpitts CMOS Quadrature VCO,” 2006 Asia Pacific Microwave Conference Proceedings, vol. 2, Yokohama, Japan, Dec. 2006, pp.997-1000.

[82] Ching-Hung Chiu, Kung-Hao Liang, Hong-Yeh Chang*, and Yi-Jen Chan, “A Low Phase Noise 26-GHz Push-Push VCO with A Wide Tuning Range in 0.18-μm CMOS Technology,” 2006 Asia Pacific Microwave Conference Proceedings, vol. 2, Yokohama, Japan, Dec. 2006, pp.1131-1134.

[83] Ching-Hung Chiu, Kung-Hao Liang, Hong-Yeh Chang*, and Yi-Jen Chan, “A 3-34 GHz GaAs PHEMT Distributed Mixer with Low DC Power Consumption,” 2006 IEEE Compound Semiconductor IC Symposium Digest, San Antonio, Texas, Nov. 2006, pp. 73-76.

[84] Ping-Chen Huang, Ren-Chieh Liu, Hong-Yeh Chang, Huei Wang, J. Yeh, C.-Y. Lee, J. Chern, “A Compact 35–65 GHz Up-conversion Mixer with Integrated Broadband Transformers in 0.18 μm SiGe BiCMOS Technology,” 2006 IEEE RFIC Symposium Digest, San Francisco, CA, June 2006, pp. 11-13.

[85] To-Po Wang, Ren-Chieh Liu, Hong-Yeh Chang, Jeng-Han Tsai, Liang-Hung Lu, Huei Wang, “A 30-GHz Low-Phase-Noise 0.35-μm CMOS Push-Push Oscillator Using Micromachined Inductors, 2006 IEEE MTT-S International Microwave Symposium Digest, San Francisco, CA, June 2006, pp. 569-572.

[86] Hong-Yeh Chang*, Yi-Hsien Cho, Ming-Fong Lei, and et al, “A 45-GHz quadrature voltage controlled oscillator with a reflection-type IQ modulator in 0.13 μm CMOS Technology,” 2006 IEEE MTT-S International Microwave Symposium Digest, San Francisco, CA, June 2006, pp. 739-742.

[87] Yi-Hsien Cho, Ming-Da Tsai, Hong-Yeh Chang, Chia-Chi Chang, and Huei Wang, “A low phase noise 52-GHz push-push VCO in 0.18-μm bulk CMOS Technologies,” 2005 IEEE RFIC Symposium Digest, Long Beach, CA, June 2005, pp. 131-134.

[88] Ping-Chen Huang, Ren-Chieh Liu, Hong-Yeh Chang, Chin-Shen Lin, Ming-Fong Lei, Huei Wang, Chia-Yi Su, and Chia-Long Chang, “A 131 GHz push-push VCO in 90-nm CMOS Technology,” 2005 IEEE RFIC Symposium Digest, Long Beach, CA, June 2005, pp. 613-616.

[89] Zuo-Min Tsai, Mei-Chao Yeh, Ming-Fong Lei, Hong-Yeh Chang, Chin-Shen Lin, and Huei Wang, “DC-to-135 GHz SPST and 15-to-135 GHz SPDT traveling wave switches using FET-integrated CPW line structure,” 2005 IEEE MTT-S International Microwave Symposium Digest, Long Beach, CA, June 2005, 1393-1396.

[90] Jiang-Han Tsai, Hong-Yeh Chang, Tian-Wei Huang, and Huei Wang, “A 44-GHz high-linearity MMIC medium power amplifier with a low-loss built-in linearizer,” 2005 IEEE MTT-S International Microwave Symposium Digest, Long Beach, CA, June 2005, pp. 1575-1578.

[91] Hong-Yeh Chang, Pei-Si Wu, Tian-Wei Huang, Huei Wang, Yung-Chih Tsai and Chun-Hung Chen, “An ultra compact and broadband 15-75 GHz BPSK modulator using 0.13-μm CMOS process,” 2005 IEEE MTT-S International Microwave Symposium, Long Beach, CA, June 2005, pp.41-44.

[92] Hong-Yeh Chang, Huei Wang, Yu-Chi Wang, Pane-Chane Chao, and Chung-Hsu Chen, “A 22-GHz ultra low phase noise push-push dielectric resonator oscillator using MMICs,” 2004 European GaAs Conference Proceedings, Amsterdam, Netherlands, Oct. 2004, pp. 33-36.

[93] Ren-Chieh Liu, Hong-Yeh Chang, Chi-Hsueh Wang, and Huei Wang, “A 63GHz VCO using standard 0.25μm CMOS Process,” 2004 International Solid-State Circuit Conference (ISSCC), San Francisco, Feb. 2004, pp. 446-447. (EI)

[94] Hong-Yeh Chang, Tian-Wei Huang, and Huei Wang, “Vector signal characterization for a HEMT IQ modulator MMIC at 94 GHz,” 2003 Asia Pacific Microwave Conference Proceedings, vol. 3, Seoul, Korea, Nov. 2003, pp.1684-1687.

[95] Hong-Yeh Chang, Tian-Wei Huang, Huei Wang, Yu-Chi Wang, Pane-Chane Chao, and Chung-Hsu Chen, “A broadband HBT MMIC IQ modulator and millimeter-wave vector signal characterization”, 2003 IEEE MTT-S International Microwave Symposium Digest, vol. 1, Philadelphia, PA, June 2003, pp. 99-102.

[96] Hong-Yeh Chang, Huei Wang, Yu-Chi Wang, Pane-Chane Chao, Chung-Hsu Chen, and Dow-Chih Niu, “A 45-90 GHz BPSK Modulator Using HBT Technology,” 2002 Asia Pacific Microwave Conference Proceedings, vol. 1, Kyoto, Japan, Nov. 2002, pp.60-62.

C. Patent

[1] Hong-Yeh Chang*, Xiang Lin, Chien-Te Yu, and Hung-Ting Chou, “Signal modulator,” U.S. patent no. US 10097389, Oct. 9, 2018.

[2] Hong-Yeh Chang*, Yuan-Ta Chiu, Chia-Hung Chang, and Chun-Jen Chen, “Inductance-capacitance (LC) oscillator,” U.S. patent no. 8717112, May 6, 2014.

[3] Hong-Yeh Chang*, Yen-Liang Yeh, Chia-Hung Chang, and Chun-Jen Chen, “Injection-locked frequency divider,” U.S. patent no. 8390343, Mar. 5, 2013.

[4] Hong-Yeh Chang*, and Chi-Hsien Lin, “Oscillating system and assistant measuring circuit for oscillator,” U.S. patent no. 7952443, May 31, 2011.

[5] Hong-Yeh Chang*, and Shou-Hsien Weng, “Wideband active balun using Darlington pair,” U.S. patent no. 07728673, Jun. 1, 2010.

D. Book chapters

[1] Huei Wang, Kun-You Lin, Ren-Chieh Liu, and Hong-Yeh Chang, “Millimeter-wave integrated circuits,” Encyclopedia of RF and Microwave Engineering, vol. 4, pp. 3021- 3046, edited by Kai Chang, John Wiley & Sons, Inc., 2005.

Working Experience

1 Graduated Institute of Communication Engineering, NTU, Taipei, Taiwan, Postdoctoral Research Fellow, 08/2004 ~ 01/2006.

2 Syncomm Technology Corp., Chungli, Taiwan, Chief Engineer, 08/1999 ~ 08/2000.

3 Chunghwa Telecom Laboratories, Chungli, Taiwan, Assistance Researcher, 07/1998 ~ 07/1999.

Updated date: May 12 2019