Electrical Power

Jingjiang Wang *** Osage Ave., Apt.*, West Columbia, SC

29169

Cell: 803-***-****

*********@*****.***

OBJECTIVE: To obtain a full-time position in Electrical Engineering

SKILLS: Engineering:

Programming:

. Proficient in MATLAB, Program for DSP with Assembly,

feedback control, PID, PWM; working knowledge of C++, C,

Fortran

Virtual circuit and logic analysis:

. Proficient in Virtual Test Bed (VTB), Matlab & Simulink,

PSpice, Protel; working knowledge of Advanced Design

System (ADS), EMTP/ATP, CAD.

Hardware:

. Digital/analog/power system design and debug, DC-AC, AC-

DC, DC-DC converter design, PCB layout, EMC, PLC,

function generator, multi meter, oscilloscope

Basic Computer:

. Proficient with Word, Excel, PowerPoint, Visio, Adobe

illustrator and LaTeX

Languages:

. English (fluent), Japanese (beginner), Chinese (native)

EDUCATION: M.E. in Electrical Engineering

Dec. 2008 University of South Carolina (USC),

Columbia, SC

GPA: 3.965

M.S. in Electrical Engineering (Power Electronics)

Jun. 2003

Thesis: High Performance Three Phase Inverter under Unbalance and

Nonlinear Load

B.S. in Electrical Engineering Jun.

2000

Huazhong University of Science and Technology (HUST), Wuhan, China

GPA: 88/100

WORK EXPERIENCE:

Huazhong University of Science and Technology (HUST), Wuhan,

China

Research Assistant at Power Electronics Lab

2001 - 2003

. Armaments Department of Chinese Navy: "NCPC 50 Hz IGBT PWM

Inverter"

- Main developer of the project, responsibility includes:

1) Design and simulation of the main circuit and

control system.

2) Schematic capture and PCB board design with protel.

3) Assembly and error shoot of the prototype.

4) Feedback control algorithm coding, debugging.

5) Performance test and EMI/EMC test.

- Designed and debugged control circuit which controls

the parallel operation of two above inverters

Santak Electronic Co., Ltd., Shenzhen, China

Intern/Engineer

Jun. - Sept. 2003

. Assisted the performance test of the Uninterrupted Power

Supply (UPS) Array (1KVA~4KVA)

University of South Carolina, Columbia, SC

Research Assistant

2006-Present

. National Science Foundation (NSF): "Diagnostics and

Prognostics of Electric Cables in Aging Power

Infrastructure"

- Performed laboratory experiments for the detection and

location of hard and incipient defects on cable types

typically employed in electric ship and nuclear

environments using joint time-frequency domain

reflectometry

- Performed accelerated aging test for XLPE, EPR and SIR

insulated electric cables to verify the capability of

JTFDR to monitor the health status of three materials.

. NASA South Carolina Experimental Program to Stimulate

Competitive Research (EPSCoR): "Diagnostics & Treatment of

Electric Wiring Systems in Aging Aircraft"

- Studied the time-frequency signature of real-world

arcing faults in F-18 planes with data provided by the

Federal Aviation Administration (FAA) to obtain a

proper arc fault characterization for future

modeling/simulation and advanced circuit protection

. Electric Ship Research and Development Consortium (ESRDC),

Office of Nava Research (ONR): "Power Electronics,

Architecture, Controls, and Design Tools for Electric Ship

Systems"

- Modeled and simulated multiple next-generation Naval

electric ship integrated power systems, e.g., Medium-

Voltage AC (MVAC), High-Frequency AC (HFAC)

- Analyzed the flow of injected harmonic currents in

those systems to determine the most efficient harmonic

filter location for proper electrical protection and to

identify a particular architecture as optimal in terms

of harmonic vulnerability

. National Science Foundation (NSF): "Predictive

Methodologies for the Design of Lamb-Wave Piezoelectric

Wafer Active Sensors for Structural Health Monitoring,

Damage Detection and Failure Prevention"

- Detection and evaluation of the corrosion on the

pipeline with time-frequency analysis

HONORS:

Scholarship for Excellent Graduate from Lite-on Technology

Incorporation 2002

Science and Technology Production Scholarship from HUST

2002

Excellent Study Student Award from HUST (Top 5%)

'96, '97, 98', '99

PUBLICATIONS

1. Jingjiang Wang, "The control technique of three-phase voltage-source

inverter output waveform based on internal model theory ". Industrial

Electronics Society, 2003. IECON '03.

2. Philip E.C. Stone, J. Wang, etc. "Harmonic Flow Analysis of

Reconfigurable Electric Ship Integrated Power System Architectures,"

submitted to IEEE PES Transactions on Power Delivery, Nov. 2009.

3. Jingjiang Wang, Philip E.C. Stone, etc. "Application of Joint Time-

Frequency Domain Reflectometry for Electric Power Cable Diagnostics,"

IET Signal Processing, Accepted at Nov. 2009

4. Jingjiang Wang, Yong-June Shin, etc. "Theory of Cross Time-Frequency

Analysis and its Application to Pipeline Corrosion Detection,"

submitted to IEEE Transactions on Inst. and Meas., Dec. 2009.

RELATED COURSE (Taken in US):

891C Grid Connected Power Electronics A

772 Advanced Power Electronics A

837 Modern Control Theory A

871 Photovoltaic Power System A

891Q Advanced Digital Signal Processing A

752 Power System Transients A

751 Advanced Power System Analysis A

753 Electrical Drives B+

761 Fundamental Electromagnetic A

551 Power System Design and Analysis A

531 Digital Control Systems A

564 RF Circuit Design A

580 Audio Engineering A

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