Power Electronics,Signal Processing With Machine Learning, RF & FPGA Engineer Delivering Production-Ready Hardware Solutions
I am an Electronics Engineer specialising in power electronics, RF and antenna systems, FPGA development, and multiplayer PCB design for industrial and embedded applications. My work focuses on developing reliable, production-ready hardware solutions that perform efficiently in real-world environments.
I support clients from concept development through schematic design, simulation, PCB layout, validation, and final manufacturing documentation. My expertise includes DC-DC converters, inverter systems, motor drive electronics, RF antenna design, electromagnetic simulation, and FPGA-based digital architectures using Verilog and VHDL.
I have worked on projects involving renewable energy systems, electric vehicle components, wireless communication hardware, embedded control boards, and high-efficiency power conversion systems. Each design is developed with careful attention to signal integrity, EMI reduction, thermal management, grounding strategy, and long-term reliability.
My technical toolkit includes:
• MATLAB & Simulink (control and system modeling)
• Altium Designer & KiCad (professional PCB design)
• LTspice (circuit simulation)
• ANSYS HFSS & CST Studio Suite (RF simulation)
• Xilinx Vivado & Intel Quartus (FPGA development)
I deliver structured design files, Gerber files, BOM, simulation reports, and technical documentation ready for fabrication and testing. My approach combines theoretical understanding with practical implementation to ensure hardware that is scalable, efficient, and manufacturable.
I value clear communication, organised project management, and engineering precision. Whether you are building a prototype, optimising an existing design, or developing a new hardware product, I aim to provide dependable technical support and high-quality engineering solutions.
Work Terms
Hours of Operation:
Available Monday to Saturday, with flexibility for urgent deadlines.
Communication:
Preferred communication via Guru messaging. Technical discussions can include detailed documentation, design files, and structured progress updates to ensure clarity throughout the project.
Project Workflow:
1)Requirement discussion and technical review
2)System architecture and design proposal
3)Simulation and validation
4)PCB layout or FPGA implementation
5)Final documentation and manufacturing files
Payment Terms:
Projects can be structured as fixed-price milestones or hourly contracts. Clear scope definition is required before starting work to ensure efficient delivery and mutual understanding.
Commitment:
I prioritise professional conduct, confidentiality of client data, and timely delivery of high-quality engineering work.