Design Engineering

Haojiong Liu

Phone: 973-***-**** Address: *** Martin Luther King Blvd, Newark, NJ, 07102, USA

Email: ************@*****.***

OBJECTIVE: To obtain a full time engineering job in RF & Microwave fields

EDUCATION:

2010-2012: New Jersey Institute of Technology, Master of Science in Electrical Engineering in Electromagnetic Field and Microwave track. Overall GPA: 3.5

2006-2010: University of Electronic Science and Technology of China (UESTC), Bachelor of Science in Electronic Engineering in Electromagnetic Field and Wireless Technology. Major GPA: 3.63; Last two years' GPA: 3.54

Primary Courses:

Graduate level: Electromagnetic Field Theory, Antenna Theory, Microwave Electronic System, Wave Propagation, Optoelectronics, Wireless & Personal Comm System, VLSI

Undergraduate level: Fundamental of Microwave Technology, Radio Frequency Electronic Circuit, Microwave Integrated Circuit, Microwave Solid State Circuit, Microwave and Antenna Measurement

PUBLICATION: H.J. Liu, O. Manzhura, I. Tekin and E. Niver, “Broadband Circularly Polarized Moxon Based Antennae for RFID and GPS,” PIERS, Moscow, 2012.

RESEARCH EXPERIENCE:

Master Thesis: Moxon Based RFID Tag Reader and GPS Antenna

Focusing on the design and modification of a recently developed Moxon based antenna for dual band GPS and RFID tag reader applications. Simulation and experimental results yield higher than industrial counterpart antenna gain, bandwidth and cross-polarization for much reduced physical size.

Research report of Optoelectronics device

Learned and summarized more than thirty IEEE papers on gas laser. Wrote a summarized report.

WiMax signal and data rate compute, OFDM frame and cyclic prefix simulation (group of 2 students)

Used Matlab to compute WiMax signal data rate and to simulate OFDM frame and cyclic prefix.

Used HSpice and Mentor Graphics to design a 32-bits Synchronous Counter (group of 2 students)

Designed and programmed the whole circuit, did half of the circuit layout and the packaging part of the circuit.

Senior Project: Use ADS to design a Low Noise Amplifier with working frequency 9GHz-10GHz, gain 20dB, noise figure 1.5dB, VSWR equal to 2

Experienced all procedures of design, simulation, fabrication and testing. Used ADS to simulate the circuit to meet all the requirements, utilized Spectrum Analyzer and Network Analyzer to get the test results of the real circuit. My results are Gain=21dB, Noise figure=1.1dB, VSWR=1.8.

PORFESSIONAL AFFILIATION: IEEE student member

WORKING EXPERIENCE:

8/2011 Volunteer of the Domestic Graduate Student Orientation

8/2008 Volunteer of the Beijing Olympic Games

5/2008 Volunteer of the Social Logistic Support Team after the Wenchuan 8.0 earthquake

COMPUTER AND LABORATORY PROFICIENCY:

Programming Language: C

Software: HFSS, ADS, AWR, MATLAB, Auto CAD, HSpice, Mentor Graphics

Laboratory Equipment: Vector Network Analyzer, Spectrum Analyzer, signal generators

HONORS:

2006-2010: People’s Scholarship of UESTC for four consecutive years

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