段权珍
一、个人简介
中山大学“百人计划”副教授,集成电路学院从事教学科研岗,自攻读博士以来,一直从事模拟集成电路设计方向研究。目前主持了多项国家级、省部级、市级以及横向项目,共发表SCI/EI论文40余篇,获得美国、韩国和中国授权专利共12项,共指导已毕业硕士研究生12名(均从事模拟集成设计研发工作),指导学生参与全国大学生集成电路设计创新创业大赛,多次获得国家级和赛区级奖。此外,主要讲授《模拟电路》和《模拟集成电路设计》及配套实验课程,受到学生喜爱。
二、 研究领域
重点围绕信号频率范围为kHz级别电容型和电压型传感器的适配专用集成电路(ASIC)及关键技术开展技术攻关研究,具体包括:C/V转换电路(CDC)、增益放大电路、模数转换电路、基准电路、电源管理电路等模拟集成电路设计技术。
三、 教育背景
1.2009.09-2015.08,韩国汉阳大学(公派留学),电子通信工程,硕博连读
2.2005.09-2009.07,哈尔滨工业大学(威海),通信工程,学士学位
四、工作经历
1.2022.06-至今, 中山大学, 集成电路学院,“百人计划”,副教授
2.2015.09-2022.05, 天津理工大学,讲师/副教授
五、部分代表性成果
1.发表SCI论文情况
[1] Q. Duan#, Y. Duan, M. Kong, and S. Huang*, "A novel-16-60 V input common-mode voltage current-shunt monitor", Microelectronics Journal, accept, 2022.
[2] Q. Duan#, M. Kong, X. Lin, S. Huang, and Y. Ding, “A switched-capacitor, integrator-multiplexing, second-order delta-sigma modulator featuring a single differential difference amplifier for portable EEG application”, Journal of Circuits, Systems and Computers, accepted.
[3] J. Kim#, Q. Duan, J. Choi, C, Song and J. Roh*, "A 2.16 µW Low-Power Continuous-Time Delta-Sigma Modulator with Improved-Linearity Gm for Wearable ECG Application", IEEE Transactions. Circuits and Systems II, accept.
[4] W. Liang, and Q. Duan*, "A 14-bit 40-MS/s Split-DAC based SAR ADC in 65 nm CMOS", Microelectronics Journal, vol.123, pp.105424(1-5), 2022, . (SCI, IF:1.5)
[5] Q. Duan#, C. Lin, S. Huang*, and Z. Meng, "A 2.1 ppm/ºC, 0.55-2.4 V, 5.6 nW, 235 mV, CMOS-only subthreshold voltage reference", Microelectronics Journal, vol.113, pp.1050602021(1-7), 2021.
[6] S. Huang#, P. Liu, Q. Duan*, Y. Ding, and, Z. Meng, “A-4-4V input common-mode range bidirectional current shunt monitor”, Journal of Circuits, Systems and Computers, vol. 29, no. 14, pp. 2050221(1-14), Nov. 2020.
[7] Q. Duan#, X. Wang, S. Huang*, Z. Meng, Y. Ding, and K. Shi, “0.55-1.8V, 7.5nW,225,5mV, CMOS-only subthreshold voltage reference”, Electronics Lett., vol. 55, no. 6, pp. 306-307, Mar. 2019.
[8] Q. Duan#, W. Li, S. Huang*, Y. Ding*, Z. Meng, and K. Shi, “A two-module linear regulator with 3.9-10V input, 2.5V output, and 500 mA load”, Electronics, vol. 8, no. 10, pp. 1143(1-14), 2019.
[9] Q. Duan#, S. Huang#, T. Guo, Y. Cheng, J. Yin, and Y. Ding*, “A 300-mA load CMOS low dropout regulator withtout an external capacitor for SOC and embedded applications”, Internal Journal of Circuit Theory and Applications, vol. 45, no. 12, pp. 2281-2289, 2017.
[10] Y. Jung#, Q. Duan, and J. Roh*, "A 17.4-bit Delta-Sigma Capacitance-to-Digital Converter for One-Terminal Capacitive Sensors", IEEE Transactions. Circuits and Systems II, vol. 64, no. 10, pp. 1122-1126, Jul. 2017.
[11] Q. Duan#, Y. Jung, D. Choi, J. Roh*, and J. Kim, “A 1.2-V 83-dB DR single-ended input SC delta-sigma modulator including a large-swing analog buffer for portable ECG applicaiotn”, Internal Journal of Circuit Theory and Applications, vol. 44, no. 12, pp. 2164-2173, Dec. 2016.
[12] Q. Duan#, Z. Wang, and J. Roh*, “A 7.5-uW 0.08-mm\2 SC delta-sigma ADC for acoustic sensor applications”, Internal Journal of Circuit Theory and Applications, vol. 44, no. 5, pp. 1173-1185, May 2016.
[13] Y. Yoon#, Q. Duan, and J. Roh*, “A Delta-sigma modulator for low-power analog front ends in biomedical instrumentation”, IEEE Transactions on Instrumentation and Measurement, vol. 65, no. 7, pp. 1530-1539, Jul. 2016.
[14] Q. Duan#, and J. Roh*, “A 1.2-V 4.2ppm/C high-order curvature-compensated CMOS bandgap reference”, IEEE Transactions on Circuits and System I-Regulator Paper, vol. 62, no. 3, pp. 662-670, May 2015.
[15] Z. Wang#, Q. Duan, and J. Roh*, “A 0.03mm\2 Delta-sigma modulator with cascaded inverter amplifier”, Analog Integrated Circuits and Signal Procesing, vol. 81, no. 2, pp. 495-501, Nov. 2014.
[16] Y. Jung#, Q. Duan, and J. Roh*, “A single-electrode capacitive sensor using incremental Delta-sigma architecture”, Analog Integrated Circuits and Signal Procesing, vol. 76, no. 2, pp. 261-265, Aug. 2013.
2.授权专利情况
[1] 段权珍;林晨曦;孟真;黄胜明;姜懿真,一种基于差分差值放大器的虚拟二阶delta-sigma调制器电路, 专利号ZL202111050470.5,授权公告号CN113676185(2021.09.08),中国,2023-05-16。(技术发明专利)
[2] 李维宽; 黄胜明; 段权珍;杨雪; 程亚萍,超低电压负反馈调制能量收集电路,专利号ZL202010204888.6,授权公告号CN111509966B(2020-03-22),中国,2023-04-25。(技术发明专利)
[3] 段权珍;谢鹏;孟真;黄胜明, 一种开关电容过采样delta-sigma调制器电路,授权号ZL202011066801.X(2020-10-03),中国,2022-04-01。(技术发明专利)
[4]段权珍;丁月民;黄胜明;刘慧敏;苏林;郭天,一种基于双采样技术的高压信号采样电路, 授权号ZL201710311485.X(2017-05-05),中国,2020-07-07。(技术发明专利)
[5]黄胜明;王煊;段权珍;丁月民,一种低功耗低电压低温漂的亚阈值基准电压产生电路,授权号ZL201811440576.4(2018-11-29),中国,2020-10-09。(技术发明专利)
[6]李维宽; 黄胜明; 段权珍;杨雪; 程亚萍,超低电压负反馈调制能量收集电路,申请号CN202010204888.6,授权公开号CN111509966A,中国,公开日2020-08-07。(实用新型专利)
[7] J. Roh, J. Kim, Y. Jung, Q. Duan, T. Lee, and D. Choi, Delta-sigma modulator having differential ouput, 授权号US Patent 9,444,489, 2016。(技术发明专利)
[8]노정진, 뚜안취엔쩐, 낮은 공급 전압을 제공하는 고정밀 CMOS 밴드갭 기준 회로, 授权号10-2014-0035028,韩国,2014。(技术发明专利)
[9]노정진, 김종팔, 뚜안취엔쩐, 이탁형, 정영재, 최단비, 차동 출력을 갖는 델타-시그마 모듈레이터, 授权号10-2014-0164693,韩国,2014。(技术发明专利)
[10] 黄胜明;杨雪;程亚萍;段权珍,一种基于变压器的高效能量收集电路路,申请号CN201820565988.X,公开号CN208353220U,中国,公开日2019-01-08。(实用新型专利)
[11] 段权珍;王煊;黄胜明;李素文;张国辉;张学涛,一种高精度的电流基准电路,申请号CN201821942936.6,公开号CN209198979U,中国,公开日2019-08-02。(实用新型专利)
[12] 段权珍;丁月民;黄胜明;李素文;张国辉;张学涛,一种宽频率内高电源抑制比的带隙基准电路,申请号CN201821943906.7,公开号CN209198980U,中国,公开日2019-08-02。(实用新型专利)