I'm a hardware design engineer who turns ideas into boards that actually ship.

I design PCB-based systems around ESP32, STM32, Nordic nRF, and NXP i.MX — taking projects from a blank schematic to a manufacturable, field-ready product. The work I love most sits at the messy intersection of power, signal integrity, and thermal: where a 0.5 mm trace decision changes whether the board passes EMC, where a missing stitching via shows up as a phantom reset three weeks into testing, where the difference between a board that works and one that scales is hidden in the layout.

My approach is built on a simple bias: catch problems in the schematic and layout, not in the lab. That means clean power architecture, deliberate grounding, return-path discipline, and component choices made with the BOM, the assembler, and the end environment all in mind — not just the datasheet.

What I work on:

• Power boards — supplies, converters, battery charging, and protection circuitry built for sustained real-world load
• Mixed-signal PCBs — designs where analog precision and digital noise have to coexist cleanly on the same board
• DSP and embedded systems — high-speed digital layouts with disciplined PDN and signal integrity
• End-to-end product hardware — schematic, layout, BOM, fabrication, and bring-up

Across all of it, I optimize for the same three things: stability, manufacturability, and scale — boards that work the first time, get built without DFM headaches, and hold up when volume goes from 10 to 10,000.

If you're working on hardware that has to be reliable in the real world — not just on the bench — let's talk.