Building Hardware from Theory to Prototype
Focused on RF systems, embedded electronics, FPGA design, and hardware prototyping. I enjoy turning concepts from electromagnetics, digital systems, and signal processing into hardware that can be tested, measured, and improved.
Areas of Interest
RF Engineering • Antenna Design • Embedded Systems • FPGA Development • Radio Astronomy • Hardware Prototyping
Current Project
A systematic approach to hardware development, bridging the gap between rigorous academic theory at Duke University and rugged, lab-tested physical execution.
RF & Embedded Hardware
Developing custom RF front-ends and high-speed digital boards. Designs prioritize signal integrity, thermal dissipation, and rigorous power distribution network analysis down to the physical layer.
FPGA & RTL Design
Writing synthesized RTL in Verilog and VHDL. Projects focus on hardware-in-the-loop validation, timing closure, and high-throughput digital signal processing pipelines on physical FPGA fabric.
Skills
Programming
CAD
Circuits
Tools
Python
MATLAB
C/C++
Verilog
Applications
Signal Processing
Data Analysis
Embedded Development
Simulation & Modeling
Projects
RF Data Analysis
ESP32 Sensor Systems
FPGA Development
Onshape
AutoCAD
SolidWorks
Experience
Mechanical Enclosures
Mounting Fixtures
Technical Drawings
Design for Manufacturing
Projects
Radio Telescope Components
Electronics Enclosures
Prototype Hardware
Oscilloscopes
Signal Generators
Multimeters
Logic Analyzers
RF Equipment
Spectrum Analyzers
SDR Platforms
Antenna Test Equipment
Fabrication
Soldering
PCB Assembly
Hardware Debugging
Kicad
Pspice
Fritzing
CST Studio
Focus Areas
RF Systems
Embedded Electronics
Sensor Interfaces
Control Systems