人物經歷
教育經歷
2011.9-2017.1 清華大學 微電子與納電子學系 博士
2007.9-2011.6 清華大學 微電子與納電子學系 學士
工作經歷
授課課程
高級模擬積體電路設計(研究生)
工程倫理(研究生)
研究方向
1. 矽基毫米波及太赫茲通信積體電路技術
2. 矽基光無線通信積體電路技術
科研項目
中山大學百人計畫引進人才啟動經費,主持。
代表性論著
[1] Milad Kalantari, Xiangyu Meng, Ali Fotowat-Ahmady, C. Patrick Yue, “A Tunable Reflection/Transmission Coefficient Circuit Using a 45° Hybrid Coupler With Two Orthogonal Variables” [J]. IEEE Transactions on Microwave Theory and Techniques. (Early Access)
[2] Xiangyu Meng, Baoyong Chi, Yibo Liu, Taikun Ma and Zhihua Wang, “A Fully Integrated 150-GHz Transceiver Front-End in 65-nm CMOS” [J]. IEEE Transactions on Circuits & Systems II Express Briefs. (Early Access)
[3] XiangyuMeng, C. Wang, M. Kalantari, C. P. Yue, “A 16-Gb/s 0-dB Power Back-off 16-QAM Transmitter at 28 GHz in 65-nm CMOS.” [C]. IEEE Symp. VLSI Circuits, 2018, pp. C217-C218.
[4] XiangyuMeng, Baoyong Chi and Zhihua Wang, “CMOS Cross-Coupled Oscillator Operating Close to the Transistor's fmax.” [J]. IEEE Microwave & Wireless Components Letters, 2017, PP(99):1-3.
[5] XiangyuMeng, Baoyong Chi and Zhihua Wang, “A 152-GHz OOK Transmitter With 3-dBm Output Power in 65-nm CMOS.” [J]. IEEE Microwave & Wireless Components Letters27.8(2017):748-750.
[6] XiangyuMeng, Baoyong Chi and Zhihua Wang,“D-band neutralized amplifier design based on accurate millimeter-wave de-embedding method.” Analog Integrated Circuits & Signal Processing, v.91, no.3, 2017 June, p.367(10).
[7] Xiangyu Meng, Baoyong Chi and Zhihua Wang, “A 110 GHz CMOS Colpitts VCO based on switched coupled-inductor.” Analog Integrated Circuits & Signal Processing 86.1(2015):1-6.
[8] Xiangyu Meng, Zhihua Wang and Baoyong Chi, “A 180 GHz differential Colpitts VCO in 65 nm CMOS.” Analog Integrated Circuits & Signal Processing 86.1(2015):1-7.
[9] Xiangyu Meng, Baoyong Chi, Haikun Jia, Lixue Kuang and Zhihua Wang, “142 GHz amplifier with 18.5 dB gain and 7.9 mW DC power in 65 nm CMOS,” Electronics Letters, Vol. 50, No. 21, pp. 1513–1514, October 2014.
[10]Xiangyu Meng, Baoyong Chi, Haikun Jia, Lixue Kuang, Wen Jia and Zhihua Wang, “A wideband on-chip millimeter-wave patch antenna in 0.18 um CMOS”, Journal of Semiconductors, Vol. 34, No. 10, pp. 1050101-1050105, 2013.