个人简介

English

姓名：韩丰田

职称：研究员

联系电话：010-62798645

E-mail：hanft99@mails.tsinghua.edu.cn

通信地址：清华大学精密仪器及机械学系 100084

办公地点：导航技术工程中心2005房间

教育背景

2002年7月，清华大学精密仪器及机械专业，获工学博士学位

1996年4月，北京航空航天大学工业自动化专业，获工学硕士学位

1990年7月，南京理工大学工业自动化仪表专业，获工学学士学位

工作履历

2012.12 - 至今清华大学精仪系研究员

2015.08 –2016.08 佛罗里达大学电子与计算机工程系访问学者

2004.09 - 2012.12 清华大学精仪系副研究员（博士生导师, 2011年）

2002.09 - 2004.09 清华大学精仪系博士后

1996.04 - 2004.09 郑州大学机电工程系讲师/副教授（2002.10）

学术兼职

中国惯性技术学会理事，科普部副主任

教育部重力导航国防科技重点实验室学术委员会委员

清华大学学位评定委员会光学与仪器分委员会委员

研究领域

MEMS惯性传感器

MEMS热电扫描微镜

高精度惯性仪表及惯性导航技术

研究概况

近年来的主要研究方向包括：

1. MEMS传感器与执行器

导航级硅微静电陀螺仪
高精度硅微谐振加速度计
硅微静电加速度计及数字地震检波器
MEMS热电微镜及光谱测量技术

2. 高精度惯性仪表及导航技术

面向新型等效原理空间实验的差分静电加速度计
高精度静电加速度计及重力测量技术
惯性导航系统精密伺服控制技术

奖励与荣誉

2013年度国家技术发明二等奖（排名第二）

2010年度清华大学实验技术成果三等奖（排名第一）

2006年度高等学校科学技术一等奖（排名第九）

2002年度清华大学优秀博士学位论文

学术成果

已在国内外学术期刊和学术会议上发表论文80余篇，其中被SCI和EI检索论文60余篇，授权和申请发明专利10余项。

1、代表性论文

[1] F T Han, B Q Sun, L L Li and Q P Wu, Performance of a sensitive micromachined accelerometer with an electrostatically suspended proof mass, IEEE Sensors Journal, 2015, 15(1):209-217.

[2] G Y Ma, F T Han, P C You, L Zhang and X J Yan. Experimental study of a low-g micromachined electrostatically suspended accelerometer for space applications, Microsyst. Technol., 2015, 21(1): 29-39.

[3] P D Hu, Z Y Gao, Y J She, L Cai, F T Han. Shipborne heading determination and error compensation based on a dynamic baseline, GPS Solutions, 2015, 19(3):403-410.

[4] F T Han, Q P Wu, Z B Zhou and Y Z Zhang. Proposed space test of the new equivalence principle with rotating extended bodies, Chinese Physics Letters, 2014, 31(11) , 110401(5pp).

[5] Han F T, Sun B Q, Li L L and Ma G Y. A sensitive three-axis micromachined accelerometer based on an electrostatically suspended proof mass, IEEE Sensors Conference 2013, Nov. 4-6, 2013, Baltimore, MD, USA, pp175-178.

[6] F T Han, Y F Liu, L Wang and G Y Ma. Micromachined electrostatically suspended gyroscope with a spinning ring-shaped rotor, J. Micromech. Microeng.，2012, 22, 105032 (9pp).

[7] D Fa, Y F Liu, F T Han and J X Dong. Identification and adjustment of the position and attitude for the electrostatic accelerometers proof mass, Sensors and Actuators A: Physical, 2012, 187: 190-193.

[8] F T Han, L Wang, Q P Wu and Y F Liu. Performance of an active electric bearing for rotary micromotors, Journal of Micromechanics and Microengineering，2011, 21, 085027 (10pp), selected for inclusion in IOP Select.

[9] Q P Wu and F T Han. Electrostatic Space Accelerometers with Adaptive Preload Control, IEEE 2011 the 10th International Conference on Electronic Measurement & Instruments, Aug. 2011, Chengdu, V2, pp300-303.

[10] Q P Wu and F T Han. New optimal approach to space-stable inertial navigation system, IEEE 2011 10th International Conference on Electronic Measurement and Instruments, Aug. 2011, Chengdu, v2, pp 296-299.

[11] F T Han, Q P Wu and L Wang. Experimental study of a variable capacitance micromotor with electrostatic suspension, Journal of Micromechanics and Microengineering，2010,20(11): 115034(9pp).

[12] C X Wan, J X Dong, F T Han. Analysis and prevention for oscillation failure of capacitive micro accelerometer, Chinese Journal of Mechanical Engineering, 2010, 23(3):336-345.

[13] F T Han，Q P Wu. Capacitive sensor interface for an electrostatically levitated micromotor，IEEE Transactions on Instrumentation and Measurements, 2009, 58(10):3519-3526.

[14] F T Han, Q P Wu, R Zhang. Modeling and analysis of a micromotor with an electrostatically levitated rotor, Chinese Journal of Mechanical Engineering, 2009, 22(1):1-8.

[15] Q P Wu, F T Han. Electrostatic force generation circuit for single-side electrostatic suspension, International Conference on Electronic Measurement and Instruments, 2009，Aug. 16-19, Beijing, pp1052-1055.

[16] F T Han, Z B Fu, Q P Wu. Design and simulation of an active electrostatic bearing for MEMS micromotors，The 4th IEEE International Conference on NEMS, 2009, Jan. 5-8, Shenzhen.

[17] L M Wu, J X Dong, F T Han and Y F Liu. Gas film damping research in electrostatically levitated micromachined accelerometer, The 3^rd IEEE International Conference on NEMS, 2008, Jan. 6-8, Sanya.

[18] X Chen, F T Han and Y F Liu. Modeling of an electrostatic micro-motor based on a levitated rotor, Proceedings of MNC2007, Jan. 10-13, 2007, Sanya.

[19] F T Han, Q P Wu, and Z Y Gao. Initial levitation of active electrostatic bearings without bias, Sensors and Actuators A. Sensors and Actuators A. 2006, 130-131, 513-522.

[20] F T Han, Q P Wu, K Liu, and Z Y Gao. Analysis and Evaluation of a High-Voltage AC Amplifier for Electrostatic Suspension. CES/IEEE 5^th IPEMC2006, August 14-16, 2006 Shanghai.

[21] F T Han, Z Y Gao, D M Li, and Y L Wang. Nonlinear compensation of active electrostatic bearings supporting a spherical rotor, Sensors and Actuators A. 2005, 113(2), 177-186.

[22] F T Han, Z Y Gao and Y L. Wang. Performance of a high-voltage DC amplifier for electrostatic levitation applications, IEEE Transactions on Industrial Electronics, 2003, 50(6), 1253-1258.

[23] F T Han, Z Y Gao and Y L Wang. A differential capacitance to voltage converter for electrostatic levitation applications, Sensors and Actuators A, 2002, 99(3), 249-255.

2、出版教材

[1] 韩丰田，《TMS320F281x DSP原理及应用技术》，清华大学出版社，2009.04

[2] 韩丰田，李海霞，《TMS320F281x DSP原理及应用技术》，清华大学出版社，2014.09