师资队伍

张雷 副研究员

联系电话:+86-10-7277-2102

E-mail:zhang.lei@tsinghua.edu.cn

通信地址:清华大学自强科技楼2号楼2-511室

张雷,博士,副教授,博士生导师2003年毕业于清华大学电子工程系,获工学学士学位;2006年至2008年,在美国加州大学洛杉矶分校(UCLA)联合培养,2008年获工学博士学位。2008年至2010年在UCLA从事博士后工作,IEEE会员,主要研究方向为模拟射频与毫米波太赫兹集成电路与系统高速、高精度传感器信号链芯片技术,AI驱动集成电路设计方法学,AI多模态信号处理等。主持/参与国家重点研发计划、国家973863、国家科技重大专项、国家自然科学基金等项目30余项。工作曾被选为国家973计划项目重大研究成果。应邀参加国家十二五科技成就展、军博全国科技周暨北京科技周、世界新能源汽车大会等展出。在国际重要学术期刊与会议上发表SCI/EI论文130余篇,他引500余次。研究成果获国家省部级科技奖励7项,国际会议论文奖4项,发表学术专著4部,专利40余项。主要国际学术任职包括IEEE电路与系统协会(CASSASPTC专家组成员,全国汽车标准化技术委员会智能网联汽车分技术委员会委员,担任10余个国际重要学术期刊与会议的审稿专家。

办公地址:北京市海淀区清华大学自强科技楼2-511

电话:+86-10-6277-2102

Email: zhang.lei@tsinghua.edu.cn

科研方向:

1、 6G通信毫米波与太赫兹芯片与系统

2、 高速、高精度传感器信号链芯片技术

3、 AI驱动集成电路设计方法学

4、 AI多模态信号处理

5、 集成生物芯片技术

代表性著作:

· Weiping Wu, Xun Bao, Jingze Wang, Shi Chen, Shulan Chen, Yan Wang, and Lei Zhang, “An H-Band Continuous Broadband RF-Domain Quadrature Receiver Using a Harmonic-Enhanced LO Generator in 65-nm CMOS, IEEE J. Solid-State Circuits, in press. (SCI, EI)

· Congrui Li, Jiahao Wang, Yan Wang, and Lei Zhang, “A Capacitor-Array-Based Phase Calibration Method for Digital Switched Attenuators, IEEE Microw. Wireless Tech. Lett., in press. (SCI, EI)

· Weiping Wu, Xun Bao, Jingze Wang, Shi Chen, Yan Wang, and Lei Zhang, “A 256-316-GHz Frequency Quadrupler with Polyphase Continuous Harmonic Tuning and Power Combining Network in 65-nm CMOS, IEEE Europ. Solid-State Electron. Research Conf. (ESSERC), Palma, Spain, Sep. 2026. (EI)

· Weiping Wu, Yanjun Ma, Xun Bao, Lei Zhang, and Aoyang Zhang, “An H-Band CMOS Frequency Doubler with 6.01dBm Single-Element Pout and 1.49%-DC-to-RF-Efficiency Using Dual-Harmonic Continuous-Mode Tuning Technique, IEEE Custom Integr. Circuits Conf. (CICC), Seattle, WA, U.S.A., Apr. 2026. (EI)

· Jiahao Wang, Congrui Li, Yan Wang, Zhiping Yu, and Lei Zhang, “A 123-GHz Power Amplifier Utilizing Adaptive Gain and Linearity Compensation Achieving 31.6-dB Gain With 12.05-dBm Psat and 10.18-dBm OP1dB, IEEE Trans. Microw. Theory Tech., vol. 73, no. 12, pp. 10441-10451, Dec. 2025. (SCI, EI)

· Xun Bao, Weiping Wu, Zelong Chen, Yan Wang, and Lei Zhang, “A 74-to-100 GHz High-Efficiency Power Amplifier with Interdigitated-Coupled-Four-Line-Based Matching Networks, IEEE Europ. Solid-State Electron. Research Conf. (ESSERC), Munich, Germany, Sep. 2025. (EI)

· Wenlong Wang and Lei Zhang, “DOA Estimation for Coherent and Non-Coherent Mixed Signals Using Toeplitz Diagonal Diffusion, IEEE Signal Process. Lett., vol. 32, pp. 1985-1989, 2025. (SCI, EI)

· Weiping Wu, Xun Bao, Shi Chen, Jingze Wang, Shulan Chen, Yan Wang, Lei Zhang, “A CMOS 228-324GHz RF Domain Quadrature Receiver with a Broadband Harmonic-Enhanced LO Generator, IEEE Custom Integr. Circuits Conf. (CICC), Boston, MA, U.S.A., Apr. 2025. (EI)

· Weiping Wu, Xun Bao, Shulan Chen, Yan Wang, Lei Zhang, “A 67.8-to-108.2GHz Power Amplifier with a Three-Coupled-Line-Based Complementary-Gain-Boosting Technique Achieving 442GHz GBW and 23.1% peak PAE,” IEEE Int. Solid-State Circuits Conf. (ISSCC), San Francisco, CA, U.S.A., Feb. 2024. (EI)

· Weiping Wu, Jingze Wang, Shi Chen, Shulan Chen, Xun Bao, Yan Wang, and Lei Zhang, “A 276–312-GHz (×12) Frequency Multiplier Chain With Milliwatt Level Output Power in 65-nm CMOS Technology,” IEEE Microw. Wireless Tech. Lett., vol. 33, no. 11, pp. 1556-1559, Nov. 2023. (SCI, EI)

· Weiping Wu, Ruolan Chen, Shi Chen, Jingze Wang, Liang Chen, Lei Zhang, and Yan Wang, “A Compact W-Band Power Amplifier with a Peak PAE of 21.1% in 65nm CMOS Technology,” IEEE Microw. Wireless Tech. Lett., vol. 33, no. 6, pp. 703-706, Jun. 2023. (SCI, EI)

· Liang Chen, Lei Zhang, Weiping Wu, and Yan Wang, “A Compact 140-GHz CMOS Power Amplifier With 10.5-dBm Output Power and 27.6-dB Power Gain Supporting up to 128-QAM Modulation,” IEEE Solid-State Circuits Lett., vol. 5, pp. 214-217, Aug. 2022. (SCI, EI)

· Liang Chen, Lei Zhang, Yan Wang, and Zhiping Yu, “A Compact E-Band Power Amplifier with Gain-Boosting and Efficiency Enhancement,” IEEE Trans. Microw. Theory Tech., vol. 68, no. 11, pp. 4620-4630, Nov. 2020. (SCI, EI)

· Liang Chen, Lei Zhang, and Yan Wang, “A 26.4 dB Gain 15.82 dBm 77 GHz CMOS Power Amplifier with 15.9% PAE Using Transformer Based Quadrature Coupler Network,” IEEE Microw. Wireless Comp. Lett., vol. 30, no. 1, pp. 78-81, Jan. 2020. (SCI, EI)

· Lei Zhang et al., “New Technological Trends for Automotive Radar,” Blue Book of Intelligent Connected Vehicle, Social Science Academic Press, Beijing, 2019.

· Ji Dong, Lei Zhang, and Yan Wang, “Reconfigurable Antenna for Automotive Radar System,” IEEE Int. Symp. Antennas Propagation USNC-URSI Radio Science Meeting (APS/URSI), Atlanta, GA, U.S.A., Jul. 2019. (EI)

· Wei Zhu, Lei Zhang, and Yan Wang, “A 10.56-GHz Broadband Transceiver with Integrated T/R Switching via Matching Network Reuse and 0.3–2.1-GHz Baseband in 28-nm CMOS Technology,” IEEE Trans. Microw. Theory Tech., vol. 67, no. 7, pp. 2599-2617, Jul. 2019. (SCI, EI)

· Liang Chen, Lei Zhang, Weiping Wu, Li Zhang, and Yan Wang, “A Compact 76-81 GHz 3TX/4RX Transceiver for FMCW Radar Applications in 65-nm CMOS Technology,” IEEE Radio-Frequency Integr. Circuits Symp. (RFIC), Boston, MA, U.S.A., Jun. 2019. (EI)

· Liang Chen, Lei Zhang, Li Zhang, and Yan Wang, “A Compact E-Band PA with 22.37% PAE 14.29 dBm Output Power and 26 dB Power Gain with Efficiency Enhancement at Power Back-off,” IEEE Radio-Frequency Integr. Circuits Symp. (RFIC), Boston, MA, U.S.A., Jun. 2019. (EI)

· Wei Zhu, Wei Lv, Bingbing Liao, Yanping Zhu, Yuefei Dai, Pei Li, Lei Zhang, and Yan Wang, “A 21 to 30-GHz Merged Digital-Controlled High Resolution Phase Shifter-Programmable Gain Amplifier with Orthogonal Phase and Gain Control for 5-G Phase Array Application,” IEEE Radio-Frequency Integr. Circuits Symp. (RFIC), Boston, MA, U.S.A., Jun. 2019. (EI)

· Lei Zhang, “Technological Trends for Automotive Radar,” Blue Book of Intelligent Connected Vehicle, Social Science Academic Press, Beijing, 2018.

· Dong Huang, Lei Zhang, Li Zhang, and Yan Wang, “A 60-GHz, 15-dB Gain Range Digitally Controlled Phase-Inverting VGA with 0-dBm OP1dB and 3° Phase Variation in 65-nm CMOS,” IEEE Microw. Wireless Compon. Lett., vol. 28, no. 9, pp. 819-821, Sep. 2018. (SCI, EI)

· Jinwen Geng, Lei Zhang, Cheng Zhu, Lan Dai, Xizeng Shi, and He Qian, “An Oscillator-Based CMOS Magneto-Sensitive Microarray Biochip with On-Chip Inductor Optimization Methodology,” IEEE Trans. Microw. Theory Tech., vol. 66, no. 5, pp. 2556-2569, May 2018. (SCI, EI)

· Chuan Qin, Lei Zhang, Chunyuan Zhou, Li Zhang, Yan Wang, and Zhiping Yu, “Dual AC Boosting Compensation Scheme for Multi-Stage Amplifiers,” IEEE Trans. Circuits Syst. II: Exp. Briefs, vol. 64, no. 8, pp. 882-886, Aug. 2017. (SCI, EI)

· Dong Huang, Lei Zhang, Di Li, Li Zhang, Yan Wang and Zhiping Yu, “A 60 GHz 360° 5-bit Phase Shifter with Constant IL Compensation Followed by a Normal Amplifier with ±1 dB Gain Variation and 0.6dBm OP-1dB,” IEEE Trans. Circuits Syst. II: Exp. Briefs, vol. 64, no. 12, pp. 1437-1441, Dec. 2017. (SCI, EI)

· Jinwen Geng, Lei Zhang, Cheng Zhu, and He Qian, “An Oscillator-based CMOS Magneto-Sensitive Biosensor with In-Situ Switched Capacitor Calibration Scheme,” IEEE Microw. Wireless Compon. Lett., vol. 26, no. 8, pp. 640-642, Aug. 2016. (SCI, EI)

· Chuan Qin, Lei Zhang, Li Zhang, Yan Wang, Zhiping Yu, “An 5-GHz Inductor-Noise Cancelling Receiver with 1.8 dB Noise Figure in 65nm LP CMOS,” IEEE Radio-Frequency Integr. Circuits Symp. (RFIC), San Francisco, CA, U.S.A., May 2016. (EI)