2009年在华东师范大学获微电子学与固体电子学专业博士学位，2010年在华东师范大学任讲师，2013年至今，先后受聘为华东师范大学副教授、教授、博士生导师，入选上海市人才计划，获上海市产学研合作优秀项目奖，华东师范大学师德标兵、优秀共产党员。 现任华东师范大学，通信与电子工程学院/集成电路科学与工程学院院长助理，微电子电路与系统研究所所长，集成电路设计与应用研究所所长。 教育经历 2004-2009年，华东师范大学电子工程系，微电子与固体电子学专业，硕博连读，理学博士学位 工作经历 2009年12月，华东师范大学博士毕业，留校任教，2013年至今历任华东师范大学副教授、教授、博士生导师

研究兴趣：集成电路芯片设计，具体包括： 传统领域： 1. 自动驾驶汽车毫米波雷达芯片 单通道、多通道自动驾驶汽车雷达芯片、毫米波相控阵雷达芯片 2. 高性能射频、模拟、数字及混合信号集成电路的设计技术 5G/6G无线通信收发机芯片、射频识别读写器芯片、低功耗无线收发机芯片、高速有线通信芯片、高性能频率综合器芯片、高性能功率放大器芯片、高速中高精度模/数转换器芯片 3. 超低功耗IoT SoC芯片、无线能量获取RFEH芯片、全集成电源管理芯片 超低功耗唤醒式无源散射无线通信收发器芯片、IoT无线能量获取芯片、LDO及DCDC、ACDC集成开关电源管理芯片 新兴领域： 1. IMC存算一体芯片 基于SRAM与MRAM的In-memory Computing 芯片 2. 太赫兹感知/雷达芯片 太赫兹感知/雷达芯片 3. 量子计算控制器与读写器芯片 Qubit读写器与控制器芯片 4. 智能电子药物、合成生物学人工智能芯片 电子药物胶囊芯片、人体健康诊断与治疗（糖尿病、高尿酸症等）合成生物学芯片、可穿戴健康监测芯片 5. 生命体征探测、雷达成像和行为动作识别算法研究 基于WiFi的生命体征、行为探测算法与系统研究

IEEE SSCS, MTTS 会员，日本电子情报通信学会（IEICE）会员，上海市系统仿真协会会员 Journal of Semiconductors, Electronics Letters, Analog Integrated Citcuit and Signal Processing, IEEE Microwave Wireless Components Letters, IEEE Transactions on Circuits and Systems II: Express Briefs，IEEE Sensors Journal，IEEE Transactions on Very Large Scale Integration Systems等杂志同行评议

课题组最新论文: 2024年（8篇） [No.8 毫米波通信芯片] A Dual-Path Low Noise Amplifier using Ultra-Wideband Noise Optimization for Millimeter-Wave 5G Communication IEEE Conference on Microwave and Millimeter-Wave Technology，2024，Accepted. [No.7 电源芯片] A Buck DC-DC Achieving High Efficiency in an Ultra-wide-load Range from 0.001 to 2A IEEE Conference on Microwave and Millimeter-Wave Technology，2024，Accepted. [No.6 毫米波雷达芯片] A High-Linear FMCW Frequency Synthesizer with Low RMS FM Error and Wide Chirp Bandwidth IEICE Electronics Express (SCI), 2024， Accepted. [No.5 WiFi射频芯片] A 1.8 dB Noise Figure 5.3-7.4 GHz BW3dB CMOS LNA for 802.11ax Applications IEEE Wireless and Microwave Technology Conference，2024，Accpeted. [No.4 毫米波Radar芯片] A High-Linear PLL-based FMCW Frequency Synthesizer with 42-kHz rms FM Error and 1.2-GHz Chirp Bandwidth IEEE Wireless and Microwave Technology Conference，2024，Accepted. [No.3 太赫兹 Radar芯片] A Terahertz Dual-Channel Radar Transceiver in 22nm CMOS With 60GHz Bandwidth IEEE Global Symposium on Millimeter-Wave and Terahertz，2024，Accepted. [No.2 感知算法] A PCA Acceleration Algorithm for WiFi Sensing and Its Hardware Implementation IEEE International Symposium on Circuits and Systems, 2024, Accpeted. [No.1 低功耗RF射频通信收发机芯片] A 44μW IoT Tag Enabling 1μs Synchronization Accuracy and OFDMA Concurrent Communication with Software-Defined Modulation（学校官网新闻：华东师大历史上首篇ISSCC，打破了学校记录） IEEE International Solid-State Circuits Conference， 2024. DOI: 10.1109/ISSCC49657.2024.10454346 2023年（10篇） [No.10 ADC芯片] A Low Power 8-to-12 bit Reconfigurable SAR ADC for Portable Ultrasound Systems, IEEE Biomedical Circuits and Systems，2023. [No.9, ADC芯片] A 10.31 ENOB 3.125 MHz BW fully passive 2nd-order noise-shaping SAR ADC for low cost IoT sensor networks， IEICE Electronics Express (SCI), 2023， [No.8，ADC芯片] A 400-MS/s 10-bit SAR-Assisted Two-Step Digital-Slope ADC IEEE International Midwest Symposium on Circuits and Systems (MWCAS)，2023，Accpeted. [No.7，ADC芯片] A 5GS/s 11b Time-Interleaved TDC-Assisted SAR ADC with High-Speed Latch-based VTC IEEE European Solid-State Circuits Conference (ESSCIRC)，2023, Accepted. [No.6，LNA芯片] A 74.8-88.8 GHz Wideband CMOS LNA Achieving +4.73 dBm OP1dB and 6.39 dB Minimum NF IEEE International Microwave Symposium（IMS），2023. DOI: 10.1109/IMS37964.2023.10188098 [No.5，ADC芯片] A 5GS/s 11b Time-Interleaved TDC-Assisted SAR ADC with High-Speed Latch-based VTC in 22nm FDSOI IEEE Symposium on VLSI Technology and Circuits, 2023，Submitted. [No.4，PLL芯片] A 3.84 GHz 32 fs RMS Jitter Over-Sampling PLL with High-Gain Cross-Switching Phase Detector， IEEE International Symposium on Circuits and Systems, ISCAS（CCF）, 2023. DOI: 10.1109/ISCAS46773.2023.10181713 [No.3, 毫米波芯片] A High-Gain and Low-Noise Mixer With Hybrid Gm-Boosting For 5G FR2 Applications， IEEE International Symposium on Circuits and Systems, ISCAS（CCF）, 2023. DOI: 10.1109/ISCAS46773.2023.10181820 [No.2, 低功耗芯片] A 88% Peak-Efficiency 10-mV Voltage Ripple Dual-Mode Switched-Capacitor DC-DC Converter for Ultra-Low-Power Battery Management， IEEE International Symposium on Circuits and Systems, ISCAS（CCF）, 2023. DOI: 10.1109/ISCAS46773.2023.10182121 [No.1, ADC芯片] On-Chip Fast Signal Generation and Low-Power SAR ADC for SiPM Readout IEEE Transactions on Nuclear Science, Early Access, 2023 https://ieeexplore.ieee.org/document/10032595 2022年（13篇） [No.13, 实时感知算法] A Real-time Respiration Monitoring System Using WiFi Sensing Based on the Concentric Circle Model， IEEE Transactions on Biomedical Circuits and Systems, 2022.12，（5.2/JCR Q1） DOI: 10.1109/TBCAS.2022.3229435 [No.12, 高速时钟数据恢复芯片] A 21.3-24.5 Gb/s Low Jitter PLL-Based Clock and Data Recovery Circuit with Cascode-Coupled Quadrature LC-VCO， IEICE Electronics Express (SCI), 2022， https://doi.org/10.1587/elex.19.20220432 [No.11，高速模数转换器芯片] A 550-MS/s 10-Bit 7.5-fJ/conv.-step SAR ADC with A Double-Rate Comparator, IEEE Transactions on Very Large Scale Integration Systems, submitted, 2022 [No.10, 模拟电源芯片] A Fast Transient Response Capacitor-Less LDO Achieving -88 dB PSR at 10 kHz，IEEE International Conference on Microwave and Millimeterwave Technology，2022 DOI: 10.1109/ICMMT55580.2022.10022942 [No.9, 低功耗电路芯片] A 12 nA Ultra-Low Quiescent Current Capacitor-Less LDO with 350 ns Fast Transient Respone， IEEE International Conference on Circuits and Systems，2022, DOI: 10.1109/ICCS56666.2022.9936586 [No.8，毫米波手势识别系统] Gesture Recognition System Using 24 GHz FMCW Radar Sensor Realized on Real-Time Edge Computing Platform, IEEE Sensors Journal,30 March 2022，（3.301/JCR Q2）， DOI: 10.1109/JSEN.2022.3163449 [No.7，双模雷达锁相环芯片] A 24 GHz FMCW/Doppler Dual-Mode Frequency Synthesizer with 68.8 kHz RMS FM Error and 1.25 GHz Chirp Bandwidth, IEEE Transactions on Circuits and Systems--II: Express Briefs, 16 March 2022，(3.292/JCR Q2）, DOI: 10.1109/TCSII.2022.3159790 [No.6, 射频毫米波前端芯片] 基于级间电容抵消技术的74～88 GHz高性能CMOS LNA设计 固体电子学研究与进展，Vol. 42，No. 6，2022 [No.5, 低功耗电路芯片] A 1.28-nW 1.97-kHz Relaxation Oscillator for Ultra-Low Power System， IEEE International Conference on Circuits and Systems，2022, DOI: 10.1109/ICCS56666.2022.9936292 [No.4，射频毫米波前端芯片] A 71-86 GHz Cascaded Harmonic Enhanced Tripler with -69 dBc Fundamental and -66 dBc Second Harmonic Suppression, IEEE International Symposium on Circuits and Systems, ISCAS（CCF）, 2022. DOI: 10.1109/ISCAS48785.2022.9937280 [No.3，压控振荡器芯片] A 23.4-27.6GHz ZigZag VCO with Continuous Frequency Switching for FMCW Radars, IEEE International Symposium on Circuits and Systems, ISCAS（CCF）, 2022. DOI: 10.1109/ISCAS48785.2022.9937550 [No.2，实时呼吸监测算法] A Real-time Respiration Monitoring System Using WiFi-Based Radar Model, IEEE International Symposium on Circuits and Systems, ISCAS（CCF）, 2022. DOI: 10.1109/ISCAS48785.2022.9937494 [No.1，毫米波锁相环芯片] A 24 GHz FMCW/Doppler Dual-Mode Frequency Synthesizer with 68.8 kHz RMS FM Error and 1.25 GHz Chirp Bandwidth, IEEE International Symposium on Circuits and Systems, ISCAS（CCF）, 2022. 2021年（10篇） [No.10，射频电路芯片] A Wideband Noise and Harmonic Distortion Canceling Low-Noise Amplifier for High-Frequency Ultrasound Transducers， Sensors Journal(SCI)，2021，21，8476，（3.576/JCR Q2） DOI: 10.3390/s21248476 [No.9，模拟电源芯片] A Fast Transient response Capacitor-Less LDO with 123 nA Ultra-Low Quiescent Current, IEEE International Conference on Circuits and Systems，2022, DOI: 10.1109/ICCS52645.2021.9697200 [No.8，毫米波电路芯片] A 22-33 GHz Wideband CMOS LNA Using Low-k Non-inverting MCCRs for 5G mmW Communication Applications, IEEE 2021 14th International Conference on ASIC DOI: 10.1109/ASICON52560.2021.9620394 [No.7，数字电路系统] 基于24GHz调频连续波雷达的二维近场成像系统， 微波学报，2021 [No.6，数字电路系统] 基于FPGA的毫米波雷达信号处理系统设计 固体电子学研究与进展，2021。 [No.5，混合信号芯片] A Highly-Linear FPGA-Based TDC and a Low-Power Multi-Channel Readout ASIC with a Shared SAR ADC for SiPM Detectors, IEEE Transactions on Nuclear Science (SCI), vol. 68， no. 8, August, 2021.（1.679/JCR Q3） DOI: 10.1109/TNS.2021.3096162 [No.4，毫米波电路芯片] A High Gain V-band Power Amplifier for 5G Applications, IEICE Electronics Express (SCI), 2021.（0.578/JCR Q4） DOI: 10.1587/elex.18.20210049 [No.3，毫米波电路芯片] A 64-84 GHz CMOS LNA with Excellent Gain Flatness for Wideband mmW Applications, IEEE International Symposium on Circuits and Systems,ISCAS（CCF）, 2021. DOI: 10.1109/ISCAS51556.2021.9401228 [No.2，毫米波电路芯片] A 25-37 GHz VCO Employing Stacked-Coupled Switched Inductor and Co-tuned Buffer in 55nm CMOS for Multi-band 5G mmW Applications, IEEE Topical Meetings on Silicon Monolithic Integrated Circuits in RF Systems, SiRF，2021. DOI: 10.1109/SiRF51851.2021.9383369 [No.1，模数转换器芯片] 一款8位480 MS/s逐次逼近型模数转换器, 固体电子学研究与进展，2021（该刊2021年度最佳论文） 2020年（13篇） [No.13，毫米波功放芯片] 一种用于76-81 GHz汽车雷达的CMOS毫米波下混频器, 红外与毫米波学报(SCI)，Vol. 39，No. 4，2020。 [No.12，低噪声放大器芯片] 一种采用双耦合等效跨导增强技术的94GHz CMOS LNA, 红外与毫米波学报(SCI)，Vol. 39，No. 3，2020。 [No.11，毫米波功放芯片] 一款用于77/79 GHz汽车雷达的宽带功率放大器, 固体电子学研究与进展，Vol. 40，No. 3，2020。 [No.10，模数转换器芯片] An Automatic Comparator Offset Calibration for High-Speed Flash ADCs in FDSOI CMOS Technology, IEEE 2020 IEEE 11th Latin American Symposium on Circuits & Systems (LASCAS) DOI: 10.1109/LASCAS45839.2020.9069018 [No.9，毫米波混频器芯片] A Ka-Band High-Gain and Wideband mmW Down-Conversion Mixer for 5G Communication Applications, IEEE 2020 15th International Conference on Solid-State & Integrated Circuit Technology DOI: 10.1109/ICSICT49897.2020.9278246 [No.8，模数转换器芯片] A Low-Power 16-Channel SiPM Readout Front-end with a Shared SAR ADC in 180 nm CMOS, IEEE 2020 15th International Conference on Solid-State & Integrated Circuit Technology DOI: 10.1109/ICSICT49897.2020.9278142 [No.7，低噪声放大器芯片] A 64.5-88 GHz Coupling-Concerned CMOS LNA with >10 dB Gain and 5 dB minimum NF, IEEE International Microwave Symposium, IMS,2020. DOI: 10.1109/IMS30576.2020.9224000 [No.6，毫米波功率放大芯片] Two W-Band Wideband CMOS mmW PAs for Automotive Radar Transceivers, IEEE International Microwave Symposium, IMS, 2020. DOI: 10.1109/IMS30576.2020.9223962 [No.5，混频器芯片] A 76-81 GHz CMOS mmW Quadrature Down-Conversion Mixer for Automotive Radar Applications, IEICE Electronics Express (SCI), 2020.（0.578/JCR Q4） [No.4，锁相环电路芯片] A Quadrature Frequency Synthesizer with 118.7-fs Jitter,27.94% Locking Range for Multiband 5G mmW Applications, IEEE International Symposium on Circuits and Systems, ISCAS（CCF）, 2020. DOI: 10.1109/ISCAS45731.2020.9181060 [No.3，模数转换器芯片] A 6-b 20-GS/s 2-Way Time-Interleaved Flash ADC with Automatic Comparator Offset Calibration in 28-nm FDSOI, IEEE International Symposium on Circuits and Systems, ISCAS（CCF）, 2020. DOI: 10.1109/ISCAS45731.2020.9180695 [No.2，功率放大器芯片] Two High Power and Broadband Power Amplifiers using Transformer-based Resonating Peak Control Technique for E-Band Communication and Automotive Radars in 55-nm CMOS, IEEE International Conference on Microwave and Millimeter Wave Technology, ICMMT, 2020. DOI: 10.1109/ICMMT49418.2020.9386474 [No.1，模拟电路芯片] A 1.2 GHz Bandwidth and 88 dB Gain Range Analog Baseband for Multi-Standard 60 GHz Applications, IEICE Electronics Express (SCI), 2020.（0.578/JCR Q4） 2019年（4篇） [No.4，压控振荡器芯片] Two wide-tuning-range mm-wave VCOs with SCTL and SCCPW in 45 nm SOI CMOS for 5G applications, Journal of Analog Integrated Circuits Signal and Processing (SCI),2019.(1.337/JCR Q4） DOI: 10.1007/s10470-019-01574-z [No.3，模数转换器芯片] A 500MS/s 10-Bit Single-Channel SAR ADC with a Double-Rate Comparator, IEEE European Solid-State Circuits Conference,ESSCIRC,2019. DOI: 10.1109/ESSCIRC.2019.8902706 [No.2，锁相环电路芯片] A Wide Tuning Range and Low Phase Noise Quotient Frequency Synthesizer for Multiband Millimeter-Wave Applications, IEEE 2019 Texas Symposium on Wireless and Microwave Circuits and Systems DOI: 10.1109/WMCaS.2019.8732534 [No.1，模数转换器芯片] A Low-Power SiPM Readout Front-End with Fast Pulse Generation and Successive Approximation Register ADC in 0.18 μm CMOS, IEEE International Symposium on Circuits and Systems,ISCAS（CCF）, 2019. DOI: 10.1109/ISCAS.2019.8702235 2018年（8篇） [No.8, 低噪声放大器芯片] A Current Reuse Wideband LNA with Complementary Noise and Distortion Cancellation for Ultrasound Imaging Applications IEEE 2018 Asia Pacific Conference on Circuits and Systems (APCCAS) DOI: 10.1109/APCCAS.2018.8605575 [No.7，功率放大器芯片] A 24–28 GHz high-stability CMOS power amplifier using commongate-shorting (CGS) technique with 17.5 dBm Psat and 16.3% PAE for 5G millimeter-wave applications, Journal of Analog Integrated Circuits Signal and Processing (SCI), 2018.(1.337/JCR Q4） DOI: 10.1007/s10470-018-1350-y [No.6，压控振荡器芯片] An 88.68% Tuning Range Enhancement and High Process Compatibility mm-Wave QVCO with SCHI Achieving -196.6 FOMT, IEEE Asia-Pacific Microwave Conference, APMC, 2018. DOI: 10.23919/APMC.2018.8617654 [No.5，锁相环电路芯片] A Bandwidth-Tracking Self-Biased 5-to-2800 MHz Low-Jitter Clock Generator in 55nm CMOS, IEEE Asia Pacific Conference on Circuits and Systems, APCCAS, 2018. DOI: 10.1109/APCCAS.2018.8605563 [No.4，锁相环电路芯片] A Ka-band Dual Co-tuning Frequency Synthesizer with 21.9% Locking Range and Sub-200 fs RMS Jitter in CMOS for 5G mm-Wave Applications, IEEE International Symposium on Circuits and Systems, ISCAS（CCF）, 2018. DOI: 10.1109/ISCAS.2018.8351240 [No.3，分频器芯片] Analytical and Experimental Study of Wide-Range CMOS Static Frequency Divider for 5G mm-Wave Applications, IEEE International Conference on Solid-State and Integrated Circuit Technology, ICSICT,2018. DOI: 10.1109/ICSICT.2018.8565700 [No.2，数模转换器芯片] A 4.7-mW 12-bit 100-MS/s Hybrid DAC, IEEE International Conference on Solid-State and Integrated Circuit Technology, ICSICT, 2018. DOI: 10.1109/ASICON.2015.7517105 [No.1，毫米波发射机芯片] A 76-81GHz Millimeter-Wave Quadrature Transmitter for Automotive Radar System, IEEE International Conference on Solid-State and Integrated Circuit Technology, ICSICT, 2018. DOI: 10.1109/ICSICT.2018.8564866 以往学术论文（部分列出，*表示论文通信作者）： 英文 [2018] Tianye He, Runxi Zhang*, Hui Yang, Jiefu Wang, and Chunqi Shi, A Ka-band Dual Co-tuning Frequency Synthesizer with 21.9% Locking Range and Sub-200 fs RMS Jitter in CMOS for 5G mm-Wave Applications, IEEE ISCAS, 2018. [2016] Meng-Lei Lv, Ying-Hong Tian, Chun-Shen Jiang, Runxi-Zhang, Chun-Qi Shi*, An Improved RFID Anti-collision Algorithm，IEEE ICSICT, 2016. [2016] Yujuan He, Runxi Zhang*, Chunqi Shi, A wide Locking Range and Low Phase Noise Quadrature Frequency Synthesizer suitable for the Next Generation of Wireless Communication, IEEE ICSICT, 2016. [2016] Tianyu Shen, Runxi Zhang*, Chunqi Shi，A Single-Element of Ka-Band 0.13μm CMOS All-RF Phased-Array Receiver with 4-bit Phase Resolution, IEEE ICSICT, 2016. [2016] Yong Huang, Runxi Zhang*, and Chunqi Shi, A Fully-integrated Ka-Band CMOS Power Amplifier with Psat of 20dBm and PAE of 19%, IEEE ICUWB, 2016. [2016] Runxi Zhang*, Chunqi Shi, Yang You, and Jinghong Chen, A 20% Locking Range and -125dBc/Hz Phase Noise Quotient Frequency Synthesizer for Multiband Millemeter-Wave Applications, submitted to IEEE Journal of Solid State Circuits, 2016. [2016] Pengfei Tian, Zhibo Song, Feng Yang, Runxi Zhang* and Chunqi Shi, A Novel Blocker Rejection Receiver Front-end for Single-chip UHF RFID Reader, IEEE ICMMT, 2016. [2015] R. X. Zhang*, C. Q. Shi and T. Y. He, A 20% Locking Range and -125dBc/Hz Phase Noise Quotient Frequency Synthesizer Suitable for Multiband Millimeter-Wave Applications, IEEE Asia Pacific Microwave Conference (APMC), 2015. [2015] Guang Zhong，R. X. Zhang* and C. Q. Shi, A 65nm CMOS +14dBm-Psat and 10%-PAE 81-86GHz Power Amplifier with Parallel Combiner, IEEE Asia Pacific Microwave Conference (APMC), 2015. [2015] Feng Yang, Chunqi Shi, Runxi Zhang*, Zhibo Song, A Low-Voltage Low-Power High-PSRR CMOS Voltage Reference, IEEE PrimeAsia, 2015. [2015] Jianqiao Tang, Runxi Zhang*, Chunqi Shi,A Wideband VCO with Constant Tuning-Gain andUniform Sub-Band Interval for Single-Chip UHF RFID Reader, IEEE ASICON, 2015. [2015] Wei Xu, C. Q. Shi and Runxi Zhang*, Research of Segmented 8bit Voltage-Mode R-2R Ladder DAC，IEEE ASICON, 2015. [2014] Hui He, R. X. Zhang*, Jian Zhang, Two 81-96GHz Active Frequency Triplers MMIC, IEEE ICCIT, 2014（EI） [2014] Jianhang Fan,C. Q. Shi* , R. X. Zhang and Z. S. Lai, A high linearity cmos UP-conversion mixer for UHF RFID reader application, IEEE ICSICT, 2014（EI）. [2014] Yiyu Yan, R. X. Zhang*, C. Q. Shi and Z. S. Lai,A Power-efficient 4:1 Dynamic Frequency Divider with Periodical Injection Technique, IEEE ICSICT, 2014 （EI）. [2014] Sheng Chen, R. X. Zhang*, C. Q. Shi and Z. S. Lai, A Q-band CMOS LNA with common source topology based on algorithmic design, IEEE ICSICT, 2014,（EI）. [2014] R. X. Zhang*, C. Q. Shi and Z. S. Lai, A Single-Chip UHF RFID Reader Transceiver for Mobile Applications, IEEE International Wireless Symposium (IWS), 2014,（EI）. [2013] R. X. Zhang*, C. Q. Shi and Z. S. Lai, A Single-Chip SiGe BiCMOS UHF RFID Reader Transceiver IC, Journal of Communications and Networks, 2013, vol.5, no.3, (EI). [2013] C.Q. Shi, Runxi Zhang* and Z. S. Lai, A 30GHz Wideband CMOS ILFD for 60GHz Transceiver, Journal of Communications and Networks, 2013, vol.5, no.3, (EI). [2012] Y. D. Jiang, R. X. Zhang*, C. Q. Shi, A 76-dBm IIP2 Down-conversion Mixer for TD-SCDMA/RFID Applications, Journal of Analog Integr Circand Sig Process, 2012, vol.70, no.1, (SCI). [2012] Chen Lei, Shi Chunqi*, Zhang Runxi, Ruan Ying, Lai Zongsheng, An Ultra-Wide-Band 3.1-10.6GHz LNA Design in 0.18um SiGeBiCMOS, International Journal of Electronics and Communications, Vol.66, No.2, pp.157-161,2012, (SCI). [2012] Q. Yan, L. Hua, C. Q. Shi*, R. X. Zhang , Zongsheng Lai, A Fully Integrated 0.35um SiGe Power Amplifier Design, IEEE ICSICT, 2012, Vol.1, pp.352-355, (EI). [2011] L. Chen, R. X. Zhang*, C. Q. Shi and Z. S. Lai, A Noval High-isolation RF-SOI Switch for 2.4GHz Multi-standard Applications, Journal of Analog Integr Circand Sig Process, 2011, vol.67, no.2, (SCI). [2011] L. Hua, Q. Yan, L. Chen, Runxi Zhang*, Chunqi Shi, A 0.8-2.5GHz Wideband SiGe BiCMOS Low Noise Amplifier with Noise Fiugre of 1.98-3.3dB, IEEE ASICON, 2011, pp.1086-1089, (EI). [2011] L. Huang, Runxi Zhang*, Wei Li. A 15 GHz CMOS Low Phase Noise VCO Using Coupled Coplanar Waveguide. IEEEICSSIC, 2011, (EI). [2011] Q. L. Xu, Runxi Zhang*, A 5.15-5.825GHz CMOS down-conversion mixer for WLAN 802.11a, WiCOM, 2011, (EI) [2010] R. X. Zhang*, C. Q. Shi, Y. H. Chen, W. He, P. Xu, S. Xu, and Z. S. Lai,A single-chip CMOS UHF RFID reader transceiver,IEEE Radio Frequency Integrated Circuits (RFIC) Symposium, 2010, (EI). [2010] R. X. Zhang*, C. Q. Shi, Y. H. Chen, and Z. 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