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FANG Xiaohu

Assistant Professor
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Dr. Fang Xiaohu received his Ph.D. degree from the Chinese University of Hong Kong in 2015, and worked as a postdoctoral fellow at the Chinese University of Hong Kong and the University of Waterloo in Canada from 2015 to 2016 and 2017 to 2019, progressively. He is currently an Assistant professor in the School of Microelectronics at Southern University of Science and Technology. Dr. Fang has been extensively involved in the research of RF integrated circuits, RF front-end circuits, microwave and millimeter wave high-performance wireless transmitters, and associated broadband, high-efficiency, low-cost, and multiplexable 4G and 5G radio frequency front-end circuits. He has authored or co-authored more than 20 technical publications in which he served as the first author or corresponding author. Additionally, Dr. Fang Xiaohu is an senior member of the IEEE and actively contributes to the academic community as a reviewer for high quality journals and conferences such as IEEE TMTT, IEEE MWTL, IEEE TCAS-I and TCAS-II, MTT-S IMS.

Hiring
Dr. Fang welcomes individuals passionate in research to join his research group. He has openings for Research Assistant Professor, Postdoctoral Fellows, Research Assistants, Graduate Students, as well as Internships. Interested individuals are invited to email a copy of his/her CV to his email address, with subject titled “Research position application <Position, Name>”.
Contact:fangxh@sustech.edu.cn

Educational Background

2015 EE Department, Chinese University of Hong Kong, Doctor of Philosophy
2011 EST Department, HuaZhong University of Science and Technology, Master of Philosophy
2008 EST Department, HuaZhong University of Science and Technology, Bachelor Degree

Professional Experience

09/2021-Present School of Microelectronics, Southern University of Science and Technology, Assistant Professor
2017-2019 ECE Department, University of Waterloo, Post-doctoral Fellow
2015-2016 EE Department, Chinese University of Hong Kong, Post-doctoral Fellow

Research Interests

Microwave and mmWave RF front-end design
Energy-efficient transmitters and their linearization technology
Wideband and high efficiency RF power amplifiers

Honors & Awards

"Pengcheng Peacock Program" Category C talent
Postgraduate Scholarship of Hong Kong, 2011-2014

Selected Publication

SCI papers published as first or corresponding author:
[1] J. Shi, X. Fang*, H. Yu, J. Sui and K. -K. M. Cheng, "Novel Wideband Millimeter-wave GaN Power Amplifier Design using Transistors with Large Drain Capacitance and High Optimum Load Impedance," IEEE Trans Circuits Syst. II, Exp. Brief., doi: 10.1109/TCSII.2023.3291383.
[2] J. Shi, W. Dai, X. Fang*, X Zhou, J Sui, J Xia, K Cheng, "Novel Wideband Fully Integrated GaN Power Amplifier Design Using a Hybrid Bandpass-Lowpass Output Matching Network," IEEE Microw. Wireless Techn Lett., doi: 10.1109/LMWT.2023.3281389.
[3] X. Fang, J. Xia*, and S. Boumaiza, "A 28-GHz beamforming Doherty power amplifier with enhanced AM-PM characteristic," IEEE Trans. Microw. Theory Techn. vol. 68, no. 7, 3017-3027, Jun. 2020.
[4] J. Xia, X. Fang*, and S. Boumaiza, "Millimeter wave SOI-CMOS power amplifier with enhanced AM-PM characteristic," IEEE Access, vol. 8, pp. 8861-8875, 2020.
[5] M. Liu, X. Fang*, and S. Boumaiza, "Dual band 3-way Doherty amplifier with extended back-off power range and bandwidth," IEEE Trans Circuits Syst. II, Exp. Brief., vol. 67, no. 2, 270-274, Feb. 2020.
[6] X. Fang*, A. Cheng and S. Boumaiza, "Linearity enhanced Doherty power amplifier using output combining network with pre-defined AM-PM characteristic," IEEE Trans. Microw. Theory Techn.. vol. 67, no. 1, 195-204, Jan. 2019.
[7] Y. Li, X. Fang*, A. Jund, H. Huang and S. Boumaiza, "Two-port network theory based design method for broadband Class J Doherty amplifiers," IEEE Access, vol. 7, pp. 51028-51038, 2019.
[8] X. Fang*, H. Liu, K. M. Cheng, S. Boumaiza, "Modified Doherty amplifier with extended bandwidth and back-off power range using optimized combining currents," IEEE Trans. Microw. Theory Techn., vol. 66, no. 12, 5347-5357, Dec. 2018.
[9] X. Fang*, H. Liu, K. M. Cheng, S. Boumaiza, "Two-way Doherty power amplifier efficiency enhancement by incorporating transistors’ nonlinear phase distortion," IEEE Microw. Wireless Compon. Lett., vol. 28, no. 2, pp. 168–170, Feb 2018.
[10] X. Fang*, H. Liu, K. M. Cheng, "Extended Efficiency Range, Equal-cell Doherty Amplifier Design Using Explicit Circuit Model," IEEE Microw. Wireless Compon. Lett. vol. 27, no. 5, pp. 497–499, May 2017.
[11] X. Fang*, K. M. Cheng, "Improving power utilization factor of broadband Doherty amplifier by using band-pass auxiliary transformer," IEEE Trans. Microw. Theory Techn., vol. 63, no. 9, 2811-2820, Sep. 2015.
[12] X. Fang*, K. M. Cheng, "Extension of high-efficiency range of Doherty amplifier by using complex combining load," IEEE Trans. Microw. Theory Techn., vol. 62, no. 9, pp. 2038–2047, Sep. 2014.
Other co-authors of SCI papers:
[13] X. Y. Zhou, W. S. Chan, W. Feng, X. Fang, T. Sharma and S. Chen, "Broadband Doherty Power Amplifier Based on Coupled Phase Compensation Network," IEEE Trans. Microw. Theory Techn, vol. 70, no. 1, pp. 210-221, Jan. 2022.
[14] H. -Y. Liu, K. -K. M. Cheng, C. Zhai and X. -H. Fang, "Peak-Current-Ratio-Enhanced Compact Symmetrical Doherty Amplifier Design by Using Active Harmonic Control," IEEE Trans. Microw. Theory Techn, vol. 69, no. 6, pp. 3158-3170, June 2021.
[15] H. Liu*, X. Fang and K. M. Cheng, ""Bandwidth Enhancement of Frequency Dispersive Doherty Power Amplifier," IEEE Microw. Wireless Compon. Lett., vol. 30, no. 2, 185-188, Feb. 2020.
[16] J. Xia*, X. Fang, and S. Boumaiza, "60-GHz Power Amplifier in 45-nm SOI-CMOS Using Stacked Transformer-Based Parallel Power Combiner," IEEE Microw. Wireless Compon. Lett., vol. 28, no. 8, 711-713, Aug. 2018.
[17] X. Zhou*, S. Zheng, W. Chan, X. Fang and D. Ho, “Post-matching Doherty power amplifier with extended back-off range based on self-generated harmonic injection”, IEEE Trans. Microw. Theory Techn., vol. 66, no. 4, 1951-1963, Apr. 2018.

Conference Papers:
[18] B. Wei, J. Shi, X. Fang*, X. Zhou, Q. Wang and H. Yu, "Stability and Efficiency Enhancement of a C-band Class-F Power Amplifier Using a Coupling Compensation Method," 2022 IEEE Conference on Antenna Measurements and Applications (CAMA), Guangzhou, China, 2022, pp. 1-4.
[19] J. Shi, X. Fang*, J. Sui, X. Zhou, H. Yu and H. Yu, "A Linear Envelope Tracking Power Amplifier with Varactor-based Phase Compensation Network," 2021 IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition (IWEM), Guangzhou, China, 2021, pp. 1-3.
[20] J. Sui, X. Fang and Z. Luo, "A Four-Element 5G MIMO Antenna Design for Mobile Terminals Using Self-Curing Decoupling Technique," 2021 Cross Strait Radio Science and Wireless Technology Conference (CSRSWTC), Shenzhen, China, 2021, pp. 117-119.
[21] J. Shi, X. Fang* and X. Zhou, "A New Method to Design Highly Efficient C-band Harmonic-tuned Power Amplifiers," 2021 Cross Strait Radio Science and Wireless Technology Conference (CSRSWTC), Shenzhen, China, 2021, pp. 154-156.
[22] X. Y. Zhou, W. S. Chan, W. J. Feng, X. Fang, T. Sharmar, and Z. Liu, “Bandwidth enhanced Doherty power amplifier based on coupled phase compensation network with specific optimal impedance,” IEEE MTT-S International Wireless Symposium (IWS 2020), Shanghai, China., 2020, pp. 1-3.
[23] X. Fang*, H. Golestaneh and S. Boumaiza, “Broadband and linearity enhanced Doherty power amplifier using complex-valued Load Modulation”, IEEE MTT-S 2018 Int. Microw. Symp. Dig., USA, Jun., 2018.
[24] H. Liu*, X. Fang and K. M. Cheng, “Built-in AM/AM and AM/PM distortion study of generalized symmetrical Doherty amplifier”, Proc. European Microwave Conference, pp. 148–151, Oct. 2017
[25] X. Fang* and K. M. Cheng, "Broadband, wide efficiency range, Doherty amplifier design using frequency-varying complex combining load", IEEE MTT-S 2015 Int. Microw. Symp. Dig., USA, May, 2015.
[26] X. Fang, G. Wu*, W. Li, Y. Zhai, "A lumped-element analog predistorter for VHF application", IEEE Int. Symp. on Signals Systems and Electronics, Nanjing, China, Sep. 2010.


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