Bin Li Work Address Home Address 409 Dana building 117 Summer St. # 31 Northeastern University Malden,MA 02148 Boston, MA 02115 (617) 324-9376 (617) 373-2039 email: binli@ece.neu.edu Summary * Experienced in analog, digital IC design, test and fabrication * Proficient in the design, model and simulation of circuits * Skilled in RF circuit design, analysis and measurement * Working knowledge in device physics, process technology and mask design * Experienced in numerical techniques and software development Education Northeastern University Boston, MA * Ph.D in Electrical Engineering (Sept.'97). G.P.A 3.8/4.0 Thesis title: Large signal and self-heating characterization of heterojunction bipolar transistors NanJing Institute of Technology Nanjing, China * M.S.E.E in Electrical Engineering, July 1988. G.P.A 3.8/4.0 Thesis title: A fully integrated silicon flow sensor * BS in Electrical Engineering, July 1985. G.P.A 3.9/4.0 Courses VLSI design, Computer Architecture, Software Engineering, Semiconductor Physics, VLSI Architecture, Digital System Design, Microwave Circuit Design, Solid State device, Digital Signal Processing, Digital Communication, VHDL Experience Northeastern Univ. Boston, MA Research Assistant 1993 - present * Worked on small signal and large signal model of HBT (heterojunction bipolar transistor). developed a small signal equivalent circuit parameter extraction procedure and a large signal modified Ebers-Moll model for the HBT * Analyzed the interactions and contributions of nonlinear elements to the nonlinearity of the HBT's by using Volterra series * Developed a mathematical model (nonlinear integral method) for the HBT's based on DC and small signal parameters * Characterized the self-heating effect of the power HBT * Measured the power characteristic of the HBT (harmonic distortion and two tone intermodulation), skilled in using network analyzer, spectrum analyzer and other instrument for device characterization, programmed GPIB to synchronize HP4145, HP8510. * Worked on the design and process development for micromachining microspectrometers. built a simple electrical-mechanical feedback model and designed a set of mask. China HuaJin Electronics Group Co. WuXi, P.R.China Circuit design and test engineer 1988 - 1993 * Maintained a 10MHz, 96 pin digital test system (Ando's DIC 8032) * involved in designing and testing ASIC's, including a digital pulse dial phone circuit and electric organ circuit * Motivated and developed a test data recording, sampling and analyzing system * Developed test algorithm and program for various memory circuits ranging from 16K to 1MB * Involved in designing and testing 1M bit DRAM Nanjing Institute of Technology Nanjing, P.R.China Research assistant 1985 - April 1988 * Worked on the design of semiconductor flow sensor based on constant chip temperature mechanism. * Designed, layouted and tested a two-stage CMOS differential amplifier for silicon flow sensor * Worked on noise model of the switch capacitor circuit Computer Skill Programming languages: C, C++, Fortran,Basic and Perl Operating systems: UNIX, DOS, Window 95, X Window Software application: MATLAB, AutoCAD, LabView, GPIB and VLSI design and simulation tool (MAGIC, KIC, OCTTOOL, HSPICE, LIBRA, MEDICI, TSUPREM and VHDL). Publications * Harmonic and Two-tone intermodulation distortion analysis of the inverted InGaAs/InAlAs/InP HBT, IEEE transaction on MTT, July 1997 * Intermodulation analysis of the inverted InGaAs/InAlAs/InP HBT using Volterra series, 1996 Asia - Pacific Microwave Conference * A large signal HBT model for two-tone intermodulation analysis, 1995 International Semiconductor Device Research Symposium * A large signal model of the inverted InGaAs/InAlAs/InP HBT for harmonic distortion analysis, 1995 IEEE/Cornell University Conference on Advanced Concept in High Speed Semiconductor Devices * A fully integrated silicon flow sensor, China Semiconductor Journal, 1990 Reference Professor Sheila Prasad, Northeastern University, prasad@hilbert.cdsp.neu.edu Professor Mankuan Vai, Northeastern University, vai@gateway.ece.neu.edu