无线通信与信息处理芯片设计团队,主要以高性能射频、模拟及混合信号集成电路和超低功耗集成电路为核心的医疗人工智能芯片为研究内容,致力于突破毫米波相控阵、超低功耗电路设计等关键技术,研发具有自主产权的高性能芯片。

1. 高性能射频、模拟及混合信号集成电路的设计技术      

自动驾驶汽车雷达芯片、5G通信射频芯片、毫米波相控阵通信芯片、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、高速高精度模数与数模转化器芯片、低功耗姿态感知手势识别雷达芯片。

2. 以超低功耗集成电路芯片为核心的医疗人工智能芯片

电子药物胶囊芯片、人体健康诊断与治疗的合成生物学芯片、内窥镜芯片、可穿戴健康监测芯片。

    团队成员

  • 张润曦
    教授

    13524641665
    rxzhang@ee.ecnu.edu.cn
    闵行信息楼639室

  • 石春琦
    副教授

    18017492087
    cqshi@ee.ecnu.edu.cn
    闵行信息楼639室

代表性论文

1.Kaijuan Zhang, Chunqi Shi, Jinghong Chen, and Runxi Zhang, A 64.5-88 GHz Coupling-Concerned CMOS LNA with >10 dB Gain and 5 dB Minimum NF, International Microwave Symposium, 2020

2.Yuting Xue, Chunqi Shi, Jinghong Chen, and Runxi Zhang, Two W-Band Wideband CMOS mmW PAs for Automotive Radar Transceivers, International Microwave Symposium, 2020

3.Runxi Zhang, Hui Yang, Zitong Zhang, and Chunqi Shi, A Quadrature Frequency Synthesizer with 118.7-fs Jitter, <-64>27.94% Locking Range for Multiband 5G mmW Applications, IEEE International Symposium of Circuits and Systems, 2020

4.Shengyu Rao, Chunqi Shi, and Runxi Zhang, A 76-81 GHz CMOS mmW Quadrature Down-Conversion Mixer for Automotive Radar Applications, IEICE Electronics Express,2020, 17(4)

5.Zhen Chen, Qi Wu, Chunqi Shi, and Runxi Zhang, A 1.2 GHz Bandwidth and 88 dB Gain Range Analog Baseband for Multi-Standard 60 GHz Applications, IEICE Electronics Express,2020, 17(4)

6.Hui Yang, Tianye He, Rumeng Wang, Runxi Zhang, and Chunqi Shi, Two wide-tuning-range mm-wave VCOs with SCTL and SCCPW in 45 nm SOI CMOS for 5G applications, Analog Integrated Circuits and Signal Processing, 2020, 102:457–463

7.Chunshen Jiang, Runxi Zhang, and Chunqi Shi, A 24–28 GHz high-stability CMOS power amplifier using common-gate-shorting (CGS) technique with 17.5 dBm Psat and 16.3% PAE for 5G millimeter-wave applications, Analog Integrated Circuits and Signal Processing, 201998:193-200

8.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 International Symposium of Circuits and Systems, 2018

在研科研项目

1. 人工基因回路设计、构建及其用于代谢疾病智能诊疗的研究,国家重点研发计划“合成生物学”专项

2. 毫米波芯片研发及产业化合作,企业委托

3. 毫米波汽车雷达芯片R600技术转让

4. 多普勒、调频连续波多模雷达芯片研发与产业化,企业委托