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郭本青博士

2021-12-27 14:39 (阅读：)

硕士生导师郭本青简介

【个人简介】

郭本青，男，讲师，群众，博士研究生学历，博士学位。先后在杭州UT 斯达康公司，电子科技大学工作，有丰富的科研和工程经验。2018年意大利帕维亚大学国家公派访问学者。多年来，在射频模拟集成电路领域发表论文60多篇，期刊论文SCI检索33篇，Ei检索2篇（多数为一作），申请国内发明专利25项，授权14项（均为一作），代表性研究贡献包含噪声消除低噪声放大器（IEEE JSSC）、有源反馈低噪声跨导放大器（IEEE TCAS1）、低噪声混频器（IEEE TMTT）、低功耗蓝牙接收前端（IEEE SSCL）、亚-6 GHz CMOS无线接收机前端（IEEE RFIC symp.）。主持/参与国家自然科学基金面上、青年项目、四川省科技厅面上项目等纵向科研项目；30多份国际期刊会议审稿人（含IEEE JSSC, TCAS1&2, TMTT, MWCL TVLSI,ACCESS等）；国家自然基金项目评议人；CRC Press学术图书出版项目评审人；国际会议ICCEAI2021程序委员会成员；IEEE会员。

【主持（研）项目】

1．射频/微波/毫米波集成电路与系统

2．通信专用集成电路与微电子系统

【在研项目】

1. 超低功耗唤醒电路关键技术研究61704022 国家自然科学青年基金 2018-2020

2. 面向5G应用的无线通信接收技术意大利帕维亚大学 2018-2022

3. 基于数字辅助技术的可重构射频接收技术61871073 国家自然科学基金面上项目 2019-2022

4. 用于涡旋电磁波成像的阵列天线方向图综合研究 2018JY0246 四川省科技厅面上项目 2018-2020

【发表论文】

[1]. B Guo, H Wang, H Wang, L Li, W Zhou, K Jalali，A 1–5 GHz 22 mW receiver frontend with active‐feedback baseband and voltage‐commutating mixers in 65 nm CMOS， IET Circuits, Devices & Systems，2022

[2]. B. Guo, H. Wang, Y. Wang, K. Li, L. Li, and W. Zhou，A Mixer-First RX Frontend with Resistive-Feedback Baseband Achieving 200 MHz IF Bandwidth in 65 nm CMOS， IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 2022

[3]. B. Guo, R. Fan, A Mixer-First Receiver Frontend with Dual-Feedback Baseband Achieving >300 MHz IF Bandwidth in 65 nm CMOS，2022 IEEE International Conference on Semiconductor Electronics (ICSE)

[4]. B Guo, J Gong，A Dual-Band Low-Noise CMOS Switched-Transconductance Mixer with Current-Source Switch Driven by Sinusoidal LO Signals， IEEE International Midwest Symposium on Circuits and Systems (MWSCAS)，2021

[5]. J. Wu, B. Guo, H. Wang, H. Liu, L. Li, and W. Zhou, “A 2.4 GHz 87 μW low-noise amplifier in 65 nm CMOS for IoT applications,” Mod. Phys. Lett. B, vol. 35, no. 32, p. 2150485, Nov. 2021, doi: 10.1142/S0217984921504856.

[6]. B. Guo, J. Chen, L. Li, H. Jin, and G. Yang, “A Wideband Noise-Canceling CMOS LNA With Enhanced Linearity by Using Complementary nMOS and pMOS Configurations,” IEEE Journal of Solid-State Circuits, vol. 52, no. 5, pp. 1331-1344, 2017.

[7]. B Guo, J Chen, Y Wang, H Jin, G Yang A wideband complementary noise cancelling CMOS LNA， IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 201

[8]. B. Guo, H. Chen, X. Wang, J. Chen, X. Xie, and Y. Li, “A 60 GHz balun low-noise amplifier in 28-nm CMOS for millimeter-wave communication,” Mod. Phys. Lett. B, vol. 33, no. 32, p. 1950396, Nov. 2019.

[9]. E. Kargaran, B. Guo, D. Manstretta, and R. Castello, “A Sub-1-V, 350-μW, 6.5-dB Integrated NF Low-IF Receiver Front-End for IoT in 28-nm CMOS,” IEEE Solid-State Circuits Lett., vol. 2, no. 4, pp. 29–32, Apr. 2019

[10]. B. Guo, J. Gong, and Y. Wang, “A Wideband Differential Linear Low-Noise Transconductance Amplifier With Active-Combiner Feedback in Complementary MGTR Configurations,” IEEE Transactions on Circuits and Systems I: Regular Papers, vol. 68, no. 1, pp. 224-237, 2021.

[11]. B. Guo et al., "Low-Frequency Noise in CMOS Switched-gm Mixers: A Quasi-Analytical Model," in IEEE Access, vol. 8, pp. 191219-191230, 2020, doi: 10.1109/ACCESS.2020.3032297.

[12]. B. Guo, G. Yang, and X. Bin, “A Differential CMOS Common-Gate LNA Linearized by Cross-Coupled Post Distortion Technique,” Frequenz, vol. 68, no. 5–6, Jan. 2014.

[13]. B. Guo, H. Wang, J. Chen, and M. M. Deilamsalehi, “A CMOS low-noise active mixer with enhanced linearity and isolation by exploiting capacitive neutralization technique,” Mod. Phys. Lett. B, vol. 33, no. 18, p. 1950204, Jun. 2019.

[14]. B. Guo, D. Prevedelli, R. Castello, and D. Manstretta, “A 0.08 mm 2 1-6.2 GHz Receiver Front-End with Inverter-Based Shunt-Feedback Balun-LNA,” in 2020 IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 2020, pp. 379–382.

[15]. B. Guo, J. Chen, H. Chen. Wang, “A 0.1–1.4 GHz inductorless low-noise amplifier with 13 dBm IIP3 and 24 dBm IIP2 in 180 nm CMOS,” Mod. Phys. Lett. B, vol. 32, no. 02, p. 1850009, Jan. 2018

[16]. B. Guo and X. Li, ‘A 1.6–9.7 GHz CMOS LNA Linearized by Post Distortion Technique’, IEEE Microw. Wirel. Compon. Lett., vol. 23, no. 11, pp. 608–610, Nov. 2013

[17]. B. Guo, G. Yang, and S. An, ‘A Wideband Noise-canceling CMOS LNA Using Cross-coupled Feedback and Bulk Effect’, Frequenz, vol. 68, no. 5–6, Jan. 2014.

[18]. Benqing Guo, Guangjun Wen, Shiquan An， 6.8-mW 15dBm IIP3 CMOS common-gate LNA employing post linearization technique, IET Electronics letter, Volume:50 , Issue: 3，2014

[19]. Y Wang, M Yao, B Guo, Z Wu, W Fan, JJ Liou，A low-power high-speed dynamic comparator with a transconductance-enhanced latching stage，IEEE Access, 93396-93403， 2019

[20]. Benqing Guo, huifen wang, Guoing Yang, A Wideband Merged CMOS Active Mixer Exploiting Noise Cancellation and Linearity Enhancement, IEEE Trans. Microwave theory and techniques, Sep, 2014

[21]. J Chen, B Guo, F Zhao, Y Wang, G Wen，A low-voltage high-swing colpitts VCO with Inherent tapped capacitors based dynamic body bias technique，IEEE International Symposium on Circuits and Systems (ISCAS), 2017

[22]. Benqing Guo*, Jing Gong and Jun Chen, Low Frequency Noise in CMOS Switched-gm Mixers: A Quasi-Analytical Model ,IEEE International Conference on IC Design and Technology (ICICDT), 2019

【专利申请】

1. 郭本青，王慧芬，安士全，一种宽带低噪声有源混频器电路，国内发明 201410300735.6[授权]

2. 郭本青，安士全，一种线性化共栅低噪声放大器电路，国内发明 201410293725.4[授权]

3. 郭本青，安士全，一种巴伦低噪声放大器电路，国内发明 201410293721.6 [授权]

4. 郭本青, 陈俊, 文光俊, 一种电阻反馈式噪声消除宽带低噪声跨导放大器,国内发明 201510221909.6[授权]

5. 郭本青, 王耀, 文光俊, 徐里坚, 一种负阻式单端共栅CMOS低噪声放大器,国内发明 201510221915.x[授权]

6. 郭本青, 王耀, 陈俊, 文光俊, 一种噪声消除宽带射频接收前端,国内发明 201510223389.0[授权]

7. 郭本青, 陈俊, 文光俊, 一种无电感器型宽带低噪声跨导放大器,国内发明 201510293677.3 [授权]

8. 郭本青, 陈俊, 文光俊, 一种线性化宽带低噪声放大器,国内发明 201510855712.6[授权]

9. 郭本青,陈俊(学)一种跨阻放大器国内发明201610627320.9[授权]

10. 郭本青,陈俊(学),李玥玥(学),王耀,金海焱,杨拥军,陈伟建一种具有本振相位失配补偿功能的混频器电路国内发明 201610630786.4[授权]

11. 郭本青,陈俊(学),许炜鹏(学),李玥玥(学),王耀,金海焱一种CMOS互补结构的混频器电路国内发明201611094284.0[授权]

12. 郭本青, 陈鸿鹏，王雪冰，陈俊等,一种宽带线性化CMOS低噪声放大器电路,国内发明201710858969.6

13. 郭本青,王雪冰，陈鸿鹏，陈俊等, 一种后畸变CMOS低噪声放大器,国内发明 2018201811268081.8

14. 郭本青, 陈鸿鹏，王雪冰，陈俊等,一种低噪声开关跨导混频器-国内发明 2018201811268084.1

15. 郭本青,王雪冰，陈鸿鹏等一种CMOS电容中和有源混频器国内发明 201910304159.5[授权]

16. 郭本青,陈鸿鹏，王雪冰等一种CMOS宽带巴伦射频接收前端电路国内发明 201910353752.9

17. 郭本青,陈鸿鹏，王雪冰等一种低失真低噪声放大器电路国内发明 202010830059.9

18. 郭本青，王雪冰等一种硅基毫米波接收前端电路国内发明 202010829675.2

19. 郭本青，王雪冰等一种毫米波CMOS正交混频器电路国内发明 2020113570047

20. 郭本青，王雪冰等一种Ku波段低功耗CMOS低噪声放大器电路国内发明 2020113570297

21.郭本青，一种CMOS环形1/4占空比高速时钟电路国内发明 202111361091.8

22.郭本青，一种宽带集成CMOS全局反馈接收机前端电路国内发明- 202111362252.5

23.郭本青，一种射频接收机的线性化校正方法及装置国内发明202210399185.2

24.郭本青，一种CMOS射频接收机的前端电路国内发明 202210184167.2

【学术经历】

30多份国外学术期刊，会议审稿人，代表性的如：

期刊：

1. IEEE J. Solid-State Circuits (JSSC), (SCI)

2. IEEE Trans. Circuits and Systems I(T-cas1): Regular Papers (SCI)

3. IEEE Trans. Circuits and Systems 2(T-cas2): brief (SCI)

4. ieee Trans. Microwave theory and techniques(SCI)

5. IEEE Trans. very large scale integration (TVLSI) (SCI)

6. IEEE Microwave magazine (SCI)

7. IEEE Microwave wireless component letter (MWCL) (SCI)

8. IEEE Access(SCI)

9. IET Electronics letter(SCI)

10. IET Microwaves, Antennas & Propagation(SCI)

11. IET circuit, devices and systems(SCI)

12. IET communication(SCI)

会议：

1. IEEE ISCAS2017

2. IEEE MWSCAS 2019

3. IEEE ISNE2019

4. IEEE ISPACS2017

其它：

l 研究成果受到同行认可：多篇论文被英国Gabriel Vasilescu 教授 (IEEE Life Senior Member) 收录在噪声研究在线文库中。http://bioelecnoise.scienceontheweb.net/index.html

l CRC Press学术出版公司（隶属于英国Taylor & Francis集团），图书出版项目评审人

l 国家自然科学基金项目评议人

l Program Committee Member, ICCEAI 2021

l IEEE会员（2019~）

【联系方式】

电子邮件：gbq@cuit.edu.cn 或 rficgbq@gmail.com

办公电话： 15184359775

【关闭窗口】

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