Hong T. Kim
Address: **** ****** ***. #*, *** Angeles, CA 90026
Phone: 213-***-**** - Email: acuw4r@r.postjobfree.com
Career Objective:
New Graduate with a strong background in analog circuits and electronics looking for an entry level electrical engineer position. Ready to represent company with innovation and professionalism.
Education:
Binghamton University, State University of New York December, 2015
M.S. in Electrical Engineering – Binghamton, NY GPA: 3.41
Master’s Thesis: Modeling and Parameter Extraction of Distributed-Feedback Lasers with Quarter Wave Shifts or Un-Grated Regions
Binghamton University, State University of New York May, 2014
B.S. in Electrical Engineering – Binghamton, NY, Department GPA: 3.1
Internship/Experience:
Graduate Researcher, Binghamton University January ‘15 – May ‘16
Invented a new procedure for fabricating inexpensive calcium ion specific probes by line printing silver on flexible transparency, and depositing calcium ionophore over the silver
Increased accuracy of blood calcium ion sensing method through implementation of a time rate of change algorithm to treat calcium ion induced potential as a capacitive effect
Created a software application called Glaparex for extracting semiconductor laser parameters using curve fitting algorithms to fit theoretical models to experimental laser spectra
Expanded functionality of Glaparex to feature slope-efficiency models, production yield estimations, and capabilities to extract parameters from partially grated, and quarter wave shifted lasers
Electrical Engineer Co-Op, Transonic Systems Inc. January ‘15 – May ‘15
Reduced the size of an electronic flowmeter control board by more than 500% by converting the board into a 6 layered multi-chip module (MCM) with over 150 electrical components laid out into a 2.5x2.5cm2 space
Ensured that all differential signals held a high standard of integrity by strategically placing the signal pairs such that high frequency interference is minimized
Demonstrated that the MCM design met IPC standards and production capabilities while maintaining ease of manufacturing by reviewing design drawings with manufacturer
Undergraduate Researcher, Binghamton University June ‘13 – August ‘14
Engineered a maximum power point tracker (MPPT) and data logger using instrumentation amplifiers, ADCs, and DACs to measure microbial fuel cell power over a span of 3 days
Cut down MPPT response time by simulating frequency response on LTSPICE, and optimizing the values of various components to minimize the system settling time while maintaining stability
Improved space efficiency and user friendliness by incorporating an LCD screen, and laying out a printed circuit board for the MPPT on Mentor Graphics Pads
Technical Skills:
MATLAB, Simulink, Python, C, C++, PSPICE, LTSPICE, Multisim, Cadence, Mentor Graphics, PADS, Ultiboard, AutoCAD, PCB, Electronics, Semiconductors, Optics, Analog Circuits, Visio, MS Project, Microsoft Office
Collegiate Affiliations:
Society of Hispanic Professional Engineers – Former President September ’11 – Present
Institute of Electrical and Electronics Engineers – Member September ’10 – Present