PRERANA BHATT K S
**** ******** ****, ******, ***** 75252
469-***-****, acusoy@r.postjobfree.com
Linkedin- www.linkedin.com/in/preranabhattks
OBJECTIVE
Seeking Full-Time opportunities in the field of RF and Microwave/Wireless Engineering.
EDUCATION
Masters in Electrical Engineering GPA 3.369/4
The University of Texas at Dallas, Richardson, Texas May 2016
Bachelor degree in Instrumentation Technology GPA 8.76/10
Autonomous college affiliated to Visvesvaraya Technological University, India Sep 2008 - June 2012
TECHNICAL SKILLS
Tools: AWR-AXIEM,VSS,HFSS,MWO,FEKO, Matlab, Labview, Virtual photonics, SAP ERP, Xilinx ISE
Hardware: Vector Network Analyzer, Spectrum Analyzer, Power meter, Oscilloscope, Multimeter, Signal generator, Soldering Station
Programming Languages: C,C++,Java/J2EE,Python
EXPERIENCE
Design and testing of RF and Microwave Components-Lab,UTD September 2015
Design of components – series and parallel resonators, Wilkinson Power Divider, Directional Coupler, Filters, Microwave Amplifier using an EM simulator in AWR –MWO environment
The S-parameter response of each component is analysed a vector network analyser (VNA)
Designed a Microstrip patch antenna on Duroid and observed radiation patterns.
SAP Security Consultant
TATA Consultancy Services, Bangalore, India Feb 2013 – Jul 2014
Handled User administration, Authorization, Profiles,Role maintenance and fire fighter IDs
Web Based Application Developer : Environment: Java/J2EE and Oracle Data Base :Developed a web based application to provide telecom related solutions to customers and retailers
ACADEMIC PROJECTS
Defined a wire antenna and a complex wire structure using FEKO Feb 2016
Developed an analytic solution for the wire antenna to operate at single design frequency and used FEKO to calculate the response and compare the results.
Physical layer Simulation of a simplified LTE-OFDM System April 2015
Simulated bit error rate performance of OFDM system for different channel profiles
Employed Adaptive Modulation Scheme to plot empirical spectral efficiency for various channel models
Fading Simulator and Design of digital modulation schemes March 2015
A fading simulator was designed using Matlab for different modulation schemes namely M-PSK, QPSK, QAM to determine the performance of the system in the presence of noise and interference.
Design of an octave-bandwidth feedback MMIC amplifier on GaAs November 2015
Integrated all amplifier RF impedance matching and RF probe pads on one GaAs chip and Predicted MMIC performance (from AWR) for S11, S22 & S21 (all in dB) and ‘k’ & B1 plotted across 0.1 to 10 GHz freq range.
MMIC chip layout total area and cost is calculated, minimum overall cost and minimum DC power consumption is achieved.
Design of Two-Stage Broadband RF Amplifier August 2015
Performed DC and high frequency AC analysis, Analyzed output and input stability of the amplifier,
Calculate gain and return loss. Deviation in gain and bandwidth is observed.
Design of Two Stage Low Noise Amplifier Design November 2015
Designed using matching networks and DC bias networks in AWR-MWO to achieve optimum gain, low noise figure and high output return loss and Performed stability analysis for the overall amplifier
Design of Microstrip resonator and implementation of distributed matching of Circuits April 2015
Design of a 2GHz micro strip resonator is performed using a quarter wavelength (λ/4) open circuited stub and its return loss(S11) and Transmission coefficient(S21) are plotted Vs frequency
ACADEMIC COURSES
Antenna engineering and wave propagation, Microwave design & Measurement lab,RF & Microwave Amplifier Design, RF and Microwave System Engineering and Circuits, Introduction to Wireless Communication systems, Digital Communication Systems, Advanced digital Logic Algorithmic aspects of telecommunication networks
WORK AUTHORIZATION: F-1