Areas of interest include signal integrity, RF integrity, measurement, analysis, board design, RF system integration, and automation.
EDA tools: HFSS, ADS, AWR, MATLAB, Hyperlynx, Altium, Python, CST Microwave studio.
Equipment: Vector Network Analyzer, Time Domain Reflectometer, Spectrum Analyzer, Oscilloscope, power meter, Signal Generator, Frequency generator.
True creativity lies in our understanding and whatever else we do design, build or automate is an expression of it.
Staunch believer of shaping ideas into reality and to become problem solver focused on enhancing my skills in design, scripting and continuously acquiring knowledge in areas like Signal integrity, RF Design and automation, measurement and analysis. At present researching the design methodologies to suppress cavity resonance in high-speed boards.
Work experience
[University of Colorado Boulder]
[Student Assistant]
Thesis work:
Researching the methodologies to suppress cavity resonance.
Developing design methodologies from analytical solution to design transparent interconnect for launching signal through single ended via.
Developing best simulation practices in HFSS for signal integrity applications.
[Qorvo]
[Design application engineer intern]
Work includes developing MATLAB script to read netlist of BAW filter topology and GUI design.
Automating the process of mux topology optimization for BAW filters used for wireless mobile applications.
[Defense Research and Development Organization]
[Junior Research Fellow]
EMC/ EMI testing.
Implemented field oriented control algorithm on TI DSP preocessor to control the movement of mechanical arm.
Education
[University of Colorado Boulder]