- 教师名称:王科平
- 教师拼音名称:Wang Keping
- 性别:男
- 职称:教授
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Kai Li, Shaoquan Wang, Keping Wang*, "10-to-30-GHz Blocker-Tolerant Mixer-First Receivers with 40-dB/decade Transition-Band Roll-Off and Maximum 61.7-dB LO-to-RF Isolation ", IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 2025. Accepted.
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Usama Afzal, Keping Wang*, Jiran Liang*, Zongle Ma, Yetong Wang, Jialei Wu, Adeena Fatima, Lanxiang Zhang, Zhaoyang Wang, "Hybrid Carbon-Metal Oxide Nanocomposites for Enhanced Multimode Sensing", Sensors and Actuators B: Chemical (SNB, Q1 Top), 2025. Accepted.
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Z. Zhao, X. Chen, F. Meng, Z. Yang, B. Liu, N. Zhu, K. Wang, K. Ma, K. S. Yeo, "Design and Analysis of a 22.6-to-73.9 GHz Low-Noise Amplifier for 5G NR FR2 and NR-U Multiband/Multistandard Communications", IEEE Journal of Solid-State Circuits (JSSC), 2025. Accepted.
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Kai Li, Keping Wang*, "A 13.7-41 GHz Ultra-wideband Frequency Doubler with Cross-coupled Push-push Structure Achieving 10.6% Peak Efficiency and 7-dBm Psat", IEEE International Microwave Symposium (IMS), 2025. Accepted.
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Simeng Yin, Yixing Zhou, Xiaguang Li, Jinzhe Qin, Hao Zhang, Kaixue Ma, Keping Wang*, "A Hybrid All-NMOS Rectifier With Two Gate-Biasing Techniques Achieving 22.3 dB Power Dynamic Range", IEEE International Symposium on Circuits & Systems (ISCAS), 2025. Accepted.
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Rundi Wu, Yetong Wang, Qing Li, Zongle Ma, Keping Wang*, "A 1.92mW 1.6-to-3.2GHz Third-Harmonic Blocker-Tolerant Receiver Front-End Using Dual Current-Reuse N-Path LNA and Band-Switchable Balun", IEEE International Symposium on Circuits & Systems (ISCAS), 2025. Accepted.
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Kai Li, Jialei Wu, Keping Wang*, "A 6-18-GHz Reflectionless Blocker-canceling Mixer-first Receiver with Maximum 55.6-dB Out-of-band Rejection for Satellite Communication Systems", IEEE Custom Integrated Circuits Conference (CICC), 2025. Accepted.
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Jialei Wu, Simeng Yin, Yixin Zhou, Jianye Li, Kai Li, Xiaoyan Shen, Tinghui Sun, Xinlong Zhang, Keping Wang*, "A Tripolar Stimulator with Return-Electrode-Based Charge-Pack Injection Technique for Charge Imbalance Correction in Spatiotemporal Stimulation", IEEE Custom Integrated Circuits Conference (CICC), 2025. Accepted.
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Rundi Wu, Yetong Wang, Ran Hong, Zongle Ma, Kenan Xie, Fanyi Meng, Kaixue Ma, and Keping Wang*, "A Low-Power Blocker-Tolerant Wideband Receiver with Bias-Tunable Mixer and Effective Switch Resistance Compensation", IEEE Journal of Solid-State Circuits (JSSC), 2025. Accepted.
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Zhijun Zhou*, Longbin Zhu, Wenjie Wang, Siyuan Xie, Yang Zhou, Risheng Su, Jianan Zheng, Zhengtao Zhu, Fan Luo, Paul Warr, Fanyi Meng, and Keping Wang*, "A 97dB-CMRR Gm-Controlled Inverter-Based Amplifier Employing Multi-CMFB Loops for MultiChannel Bio-Signal Recording", IEEE Transactions on Circuits and Systems I: Regular Papers (TCAS-I), 2025. Accepted.
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W. Wang, Z. Li, Kai Li, H. Cheng, F. Guo, Y. Zhang, K. Wang*, "A 216-to-226-GHz Watt-Level GaN Solid-State-Power-Amplifier with Multi-Band Large-Signal Impedance Correction and Circuit-Package Co-Design Technique", IEEE International Solid-State Circuits Conference (ISSCC), 2025. (Highlight Paper)
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B. Liu, J. Huang, Z. Yang, X. Li, J. Zhang, X. Wang, H. Shi, F. Li, Z. Xu, R. Liu, S. Li, Y. Wang, K. Wang, H. Fu, F. Meng, K. Ma, "A 132-to-148GHz CMOS 4TX-4RX FMCW Radar Transceiver Array with Cavity-Backed Antenna-in-Package Achieving 28dBm EIRP", IEEE International Solid-State Circuits Conference (ISSCC), 2025. (Highlight Paper)
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Kenan Xie, Rundi Wu, Fanyi Meng, Kaixue Ma, Kiat Seng Yeo, Keping Wang*, "Design and Analysis of Ka-band Power Amplifier with Sandwiched-Coupler-Balun and Folded-T-line Power Combiner", IEEE Transactions on Microwave Theory and Techniques (TMTT), 2024. Accepted.
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Kejie Hu, Kaixue Ma, Zonglin Ma, Keping Wang, “A Reusable Superheterodyne Dual-Band Down-Conversion Mixer with Hybrid Linearity-Enhanced Technique for 5G Non-Contiguous Multiband NR”, IEEE Journal of Solid-State Circuits (JSSC), 2024. Accepted.
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Yu Sun, Kai Li, Geliang Yang, Hao Zhang, Kaixue Ma, Keping Wang, "A 25-32-GHz Frequency Doubler with 21% Efficiency and 41-dBc Fundamental Rejection", IEEE Transactions on Circuits and Systems II: Express Briefs (TCAS-II), 2024. Accepted
