个人简介
教育经历
1 993.09-199 8 .06 清华大学 汽车工程 学士学位
1 999.08- 2001 .0 5 美国北卡罗来纳农工州立大学 机械工程 硕士学位
2001.05 - 200 3 . 12 美国锡拉丘兹大学 电子工程 硕士学位
2003.12 - 2007. 12 美国锡拉丘兹大学 电子工程 博士学位;应用统计 硕士学位
工作经历
2007.12-2012.11 美国阿肯色电力电子公司 资深设计 /研发工程师
2 0 12 . 11至今 东北大学 信息科学与工程学院 教授
获奖
1. 2017 年沈阳市高层次人才“领军人才”
2. 2015 年辽宁省 十百千高端人才引进工程 百人层次
3. 2010 年阿肯色电力电子公司年度最佳员工
4. 2010 年收录于“美国名人录”第 64 版
专利(上限 1 0 项)
1. 一种芯片热布局方法,中国专利, 2016111073170
2. 一种高温二选一开关电路,中国专利, 2014108516032
3. 基于 FPGA 的小功率电机驱动系统,中国专利, 2015201864190
4. Chopper Circuitry Operable in A High Temperature Environment of A Turbine Engine ,美国专利, 8717095
5. Voltage Regulator Circuitry Operable in A High Temperature Environment of A Turbine Engine ,美国专利, 8952674
6. Electronic Circuitry for High-Temperature Environments Hybrid Load Differential ,美国专利, 8803703
7. Amplifier Operable in A High Temper a ture Environment of A Turbine Engine ,美国专利, 8766720
研究领域
模拟 / 数字 (FPGA, DSP , ARM 等 ) 电路设计、高温电子封装及系统集成;高性能功率变换系统;宽禁带半导体器件;人工智能在电路与系统方向的研究
近期论文
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1. J. Yang* and X. Guo, A 60-MHz Silicon Carbide Voltage-Controlled Oscillator for Extreme Temperature Applications, IEEE Transactions on Circuits and Systems II: Express Briefs , vol. 70, no. 1, pp. 56-60, Jan. 2023.
2. Jie Yang* and Junxian Zhu, A silicon carbide high gain differential amplifier for extreme temperature applications, Microelectronics Journal , vol. 130, Dec. 2022, 105632.
3. Jie Yang* and Junxian Zhu, An extended-temperature I-V model for GaN HEMTs, Solid-State Electronics , vol. 194, Aug. 2022, 108389.
4. 杨杰 * ; 张书杰 ; 基于密集 YOLOv3 的印刷电路板缺陷识别 , 北京邮电大学学报 , 2022, 45(05): 42-48 .
5. Jie Yang *; Yeting Jia; Ning Ye; ShuoGao ; A novel empirical I-V model for GaN HEMTs , Solid State Electronics , 2018, 146: 1-8.
6. 杨杰 *; 叶柠 ; 高伟 ; 闫逸伍 ; 150 ℃ 半桥式 SiC 高温直流开关电源设计 , 电工电能新技 术 , 2018, 37(10): 71-76.
7. Zhenyu Yuan; Jie Yang *; Xiaoyang Li; Shikai Wang; Tingnian Xu ; The micro-scale analysis of the micro direct methanol fuel cell , Energy , 2016, 100(1): 10-17.
8. Jie Yang ; Tapan K. Sarkar* ; Accurate Interpolation of Amplitude-Only Frequency Domain Response Based on an Adaptive Cauchy Method, IEEE Transactions on Antenna and Propagations , 2016, 64(3): 1005-1013.
9. Yuan Zhenyu; Yang Jie *; Ye Ning; Li Zipeng; Sun Yuge; Shen Hongyuan ; Analysis of the capillary-force-based μDMFC (micro direct methanol fuel cell) supplied with pure methanol , Energy , 2015, 89: 858-863.
10. Zhenyu Yuan; Jie Yang * ; The effect of temperature on the output characteristics of micro direct methanol fuel cell , Journal of Power Sources , 2015, 285: 318-324.
11. Yang S, Yang J* , Zhang S., Defect Recognition of Printed Circuit Board Based on YOLOv3-DenseNet Optimization Model, in Proceedings of 2022 4th International Conference on Image, Video and Signal Processing. March 2022: 62-69.
12. Jie Yang *; Ning Ye ; Hongyuan Shen ; DongDong Ye ; Wei Zheng ; Jia Di ; A Novel Optimization Algorithm for Thermal Design of MCMs, The 32nd Chinese Control and Decision Conference (CCDC 2020) , Hefei, China, May 5-7, 2020.
13. Ning Ye ; Jie Yang * ; Ye Tao ; Thermal Chip Layout Method in MCM Based on an Improved Particle Swarm Algorithm, The 31th Chinese Control and Decision Conference (CCDC 2019) , Nanchang, China, June 3-5 , 2019.
14. J. Yang *; Y. Jia; N. Ye; Z. Yuan; H. Shen; J. Di; An Improved I-V Model of GaN HEMT for High Temperature Applications , The 2017 International Conference on Silicon Carbide and Related Materials , Washington, Sep .17-22, 2017 .
15. Ning Ye; Jie Yang *; Hongyuan Shen; Nannan Zhao; Jia Di; Jingyan Mo ; An Optimization Algorithm Based on TFPA for Multiple Components Modules , 11th IEEE Conference on Industrial Electronics & Applications ICIEA 2016 , Hefei, China, June 5-7, 2016.
16. Jie Yang ; Zhenyu Yuan*; Hongyuan Shen; Xiaoyang Li; Jia Di; Jingyan Mo ; Influence of Anode Flow Field on Mass Transport in a Air-breathing Micro Direct Methanol Fuel Cell , 11th IEEE Conference on Industrial Electronics & Applications ICIEA 2016 , Hefei, China, June 5-7, 2016.
17. Hongyuan Shen; Jie Yang *; Zhenyu Yuan; Ning Ye; Jia Di; Jingyan Mo ; Research of Optimal Parameters in MOSFET Structure based on Wide Band Gap Semiconductor Material GaN , Control and Decision Conference (CCDC), 2016 Chinese , Yinchuan, China, May 28-30, 2016.
18. Zhenyu Yuan; Jie Yang *; Lei Zhou ; Investigation of MEMS-based micro direct methanol fuel cell based on novel cross cathode , 10th International Conference on Industrial Electronics and Applications, IEEE ICIEA 2015 , Auckland, New Zealand, June 15-17, 2015.
19. Jie Yang ; A high temperature RF wireless pressure sensing system , 2014 IEEE International Conference on Wireless for Space and Extreme Environments (WiSEE) , Noordwijk, Netherlands, Oct 30-31, 2014.
20. Jie Yang ; A high temperature VCO for extreme environment wireless applications , 2013 IEEE International Conference on Wireless for Space and Extreme Environments (WiSEE) , Baltimore, MD, United states, Nov 7-9, 2 013.
学术兼职
1. 《空间控制技术与应用》期刊编委
2. IEEE 会员
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