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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. S. Lai, A Single-Chip UHF RFID Reader Transceiver in 0.18um CMOS Technology, IEEE GSMM, 2010, (EI).
[2010] R. X. Zhang*, C. Q. Shi, Y. H. Chen, W. He, P. Xu, S. Xu, and Z. S. Lai, Several Key Issues in Single-chip UHF RFID Reader Design, IEEE ICMMT, 2010, (EI).
[2010] S. Xu, W. He,C. Q. Shi, R. X. Zhang andZ. S. Lai*, Design of Wideband and Low Phase Noise LC VCO, IEEE ICSICT, 2010, Vol.1, pp.650-652, (EI).
[2010] C. Q. Shi, R. X. Zhang*, L. Chen and Z. S. Lai, An Optimized ΔΣ Modulator in Fractional-N Frequency Synthesizer for UHF RFID Reader, IEEE ICMMT,2010, 2010.5, pp.1468-1471, (EI).
[2010] C. Q Shi, R. X. Zhang*, L. Chen, Z. S. Lai and L. Huang , An Implementation of CMOS ΔΣ Fractional-N Frequency Synthesizer for UHF RFID Reader, IEEE GSMM, 2010, (EI).
[2010] L. Chen, C. Q. Shi*, R. X. Zhang, L. Huang and Z. S. Lai, A 2.4GHz SiGe BiCMOS LNA Design For Multi-mode 802.11b/g Receiver Applications, IEEE GSMM, 2010, (EI).
[2009] C. Q. Shi, R. X. Zhang* and Z. S. Lai, An Optimized ΔΣ Fractional-N Frequency Synthesizer for CMOS UHF RFID Reader, IEEE ASICON, 2009, vol.2, (EI).
[2009] C. Q. Shi, R. X. Zhang* and Z. S. Lai, A Low Noise VCO with Quadrature Prescaler for UHF RFID Reader,IEEE NSWCTC, 2009, vol.2, (EI).
[2008] R. X. Zhang*, C. Q. Shi and Z. S. Lai, Linearity Enhancement Technology for Mixer in Monolithic CMOS UHF RFID Interrogator, IET Electronics Letters, 2008, vol.44, no.14, (SCI).
[2008] R. X. Zhang*, C. Q. Shi and Z. S. Lai, A Fractional-N Frequency Synthesizer for Single-Chip UHF RFID Reader,Journal of Analog Integr Circ and Sig Process, 2008, vol.54, no.1, (SCI).
[2008] R. X. Zhang*, C. Q. Shi and Z. S. Lai, A Low Phase Noise Frequency Synthesizer for Single-Chip CMOS UHF RFID Reader, IEEE ICMMT, 2008, vol. 3, (EI).
[2008] H. L. Ma, L. Chen, R. X. Zhang*, Z. Y. Chen, Z. S. Lai, A differential low-noise amplifier for ask receiver, IEEE ICSICT, 2008, vol. 2, (EI).
[2006] Y. Y. Chen, R. X. Zhang* and Z. S. Lai, A 0.18um CMOS LNA for UHF RFID Reader Application, IEEE ICSICT, 2006, vol. 3, (EI).
中文
[2019] 一种60 GHz高速无线通信系统宽带低功耗基带电路,张坤,张润曦*,石春琦,固体电子学研究与进展,2019,vol.39,no.4,(核心)
[2017] 用于RFID阅读器的低噪声高电源抑制比LDO,任兵兵,张润曦*,石春琦,微电子学,2017,已录用, (核心)
[2017] 一种符合多种协议要求的UHF RFID阅读器发射机设计,杨亚,石春琦*,张润曦,微电子学,2017,已录用, (核心)
[2016] 杨峰,石春琦,张润曦*,赖宗声, 一种低电压低功耗高PSRR CMOS基准电路,微电子学,2016,vol.46,no.6, (核心)
[2016] 姚祺杰,张润曦*,石春琦,赖宗声,一种完全前馈式单环多位Σ-Δ调制器,微电子学,2015,vol.45,no.5, (核心)
[2016] 张启帆,王建伟,石春琦,张润曦*,CMOS UHF RFID中低噪声宽带LC-VCO的设计,固体电子学研究与进展,2015,vol.35,no.2,(核心)
[2016] 王建伟,张启帆,张润曦*,石春琦,一种用于VCO供电的低噪声LDO设计,微电子学,2015,vol.45,no.5, (核心)
[2014] 陆泼,张楠,谢磊,刘宝宝,李巍,张润曦*,应用于30GHz锁相环的高性能电荷泵设计,微电子学,2014,vol.44,no.6, (核心)
[2014] 郭东君,聂丹萍,石春琦,张润曦*,应用于EoC芯片宽带低噪声下混频器设计,微电子学,2014,vol.44,no.5, (核心)
[2014] 聂丹萍,刘柳,郭东君,石春琦,张润曦*,应用于EoC芯片的1.2/2/2.4GHz三频段上混频器,微电子学,2014,vol.44,no.5, (核心)
[2014] 苏浩,郭东君,张楠,石春琦,张润曦*,一种高性能宽带直接变频射频前端设计,微电子学,2014,vol.44,no.5, (核心)
[2014] 张楠,陆泼,苏浩,石春琦,张润曦*,8-25GHz 1:8高速分频器的设计,微电子学,2014,vol.44,no.5, (核心)
[2014] 郑金汪,张润曦*,阎跃鹏等,低增益变化宽线性范围低噪声压控振荡器设计,微电子学与计算机,2014,vol.31,no.6, (核心)
[2013] 蔡雨昕,尤琳,张润曦*,用于UHF RFID读写器的可编程高线性上混频器,微电子学,2013,vol.43,no.4, (核心)
[2013] 尤琳,张书霖,袁圣越,石春琦,张润曦*,用于UHF RFID阅读器的自动频率校准模拟基带,微电子学,2013,vol.43,no.2, (核心)
[2013] 谢磊,刘宝宝,谢淼,袁圣越,石春琦,张润曦*,UHF RFID阅读器中线性化调谐增益压控振荡器设计,微电子学,2013,vol.43,no.1, (核心)
[2012] 谢淼,任旭,马聪,张润曦*,赖宗声,一种多频多模接收机低功耗信道选择滤波器,微电子学,2012,vol.42,no.4, (核心)
[2011] 胡骁,蒋颖丹,徐倩龙,石春琦,赖宗声,张润曦*,一种1.8V 0.8~2.1GHz直接变频CMOS正交下变频器,微电子学,2011,vol.41,no.6, (核心)
[2011] 任旭,谢淼,张勇,赖宗声,张润曦*,一种0.13um CMOS多模信道选择滤波器的设计,微电子学,2011,vol.41,no.5, (核心)
[2011] 朱彤,黄飞,谢淼,赖宗声,张润曦*,一种低温度系数高驱动能力的带隙基准电路,微电子学,2011,vol.41,no.4, (核心)
[2011] 黄飞,任旭,张勇,张润曦,赖宗声* ,多模多频收发机中可编程增益放大器的设计,微电子学,2011,vol.41,no.2, (核心)
[2010] 徐萍,何伟,张润曦*,433 MHz ASK 接收机射频前端电路设计,固体电子学研究与进展,2010, vol.30,No.4,(核心)
[2010] 张润曦*,石春琦,赖宗声,超高频射频识别阅读器的高线性低噪声前端,固体电子学研究与进展,2010, vol.30,No.4,(核心)
[2010] 许帅,何伟,张润曦*,赖宗声,433MHz ASK接收机中低噪声锁相环的设计,微电子学,2010,vol.40,no.6,(核心)
[2010] 蒋颖丹,田应洪,张润曦,赖宗声*等,低功耗流水线ADC中多阈值比较器的设计,微电子学,2010,vol.40,no.5, (核心)
[2010] 刘静,顾彬,陈亦灏,张润曦*,赖宗声等,符合EPC C1 G2标准的UHF RFID阅读器数字基带ASIC实现,微电子学,2010,vol.40,no.5, (核心)
[2010] 何伟,徐萍,张润曦*,UHF RFID 阅读器中低噪声小数频率综合器的设计,固体电子学研究与进展,2010, vol.30,No.3,(核心)
[2010] 徐萍,何伟,张润曦*,便携式UHF RFID 阅读器中发射前端电路设计,固体电子学研究与进展,2010, vol.30,No.3,(核心)
[2010] 何伟,徐萍,张润曦*,赖宗声,单片CMOS UHF RFID阅读器中低噪声LC VCO的设计,固体电子学研究与进展,2010, vol.30,No.2,(核心)
[2010] 张润曦*,何伟,石春琦,赖宗声,UHF RFID阅读器中优化小数频率综合器设计, 固体电子学研究与进展,2010, vol.30,no.2,(核心)
[2010] 石春琦,马和良,张润曦*,赖宗声等,WLAN中带ESD保护的低噪声放大器设计,微电子学,2010,vol.40,no.1, (核心)
[2009] 何伟,张润曦*,赖宗声等,单片UHF RFID阅读器中低噪声频率综合器的设计, 微电子学,2009,vol.39,no.6, (核心)
[2009] 张勇,张润曦*,赖宗声,用于射频识别阅读器的并行放大求和结构对数放大器,微电子学,2009,vol.39,no.5, (核心)
[2009] 马和良,陈磊,张润曦*,赖宗声,用于无线局域网的双频段低噪声放大器, 固体电子学研究与进展,2009,vol.29,no.3,(核心)
[2009] 陈子晏,张润曦,赖宗声*等,单片UHF RFID阅读器中频率综合器的研究, 微电子学,2009, vol.39,no.1,(核心)
[2008] 刘琳,张润曦,赖宗声*等,UHF RFID阅读器中可编程全差分低通滤波器的设计,微电子学,2008, vol.38,no.6,(核心)
[2008] 陈子晏,张润曦,赖宗声*等,单片UHF RFID阅读器中VCO及其预分频器设计, 微电子学,2008, vol.38,no.5,(核心)
[2008] 马和良,沈怿皓,张润曦,赖宗声*,433MHz ASK接收机中低噪声放大器的设计,电子器件,2008,vol.32,no.4
[2008] 沈怿皓,张润曦,赖宗声*,多双曲正切法则在高线性度CMOS混频器设计中的分析与应用,电子器件,2008,vol.32,no.4
[2008] 谢传文,张润曦,赖宗声*,一种用于单片UHF RFID阅读器中的低相位噪声LC VCO设计,电子器件,2008,vol.32,no.4
[2008] 李萌,张润曦,赖宗声*,基于MATLAB的新型Pipeline ADC的建模和仿真,电子器件,2008,vol.31,no.3
[2008] 陈磊,张润曦,石春琦,赖宗声*,一种带输出缓冲的低温度系数带隙基准电路,电子器件,2008,vol.31,no.3
[2007] 张润曦,石春琦,赖宗声*,UHF RFID接收前端中混频器的交调性能改进, 微电子学,2007,vol.37,no.6, (核心)
[2007] 吴岳婷,张润曦*,赖宗声等,433MHz ASK 接收机版图设计, 微电子学,2007,vol.37,no.6,(核心)
[2007] 张润曦*,石春琦,赖宗声*,零中频UHF RFID接收机中的低噪声放大器设计,电子器件,2007,vol.30,no.2
[2007] 张润曦,石春琦,赖宗声*,UHF RFID阅读器中的堆叠式CMOS LNA设计, 微电子学,2007,vol.37,no.2, (核心)
[2007] 沈佳铭,洪亮,石春琦,张润曦,赖宗声*,一种可重构的24bitΣ-Δ调制器的设计,微电子学与计算机,2007,vol.24,no.4,(核心)