About

Founder Story

I didn’t learn power electronics from a textbook—I learned it the hard way.

About fifteen years ago, as a college student, I set out to design my first switch-mode power supply from scratch. At the time, I had very limited knowledge. Like many beginners, I started with an online course—following steps without truly understanding the principles behind them.

So I did what many engineers end up doing: I taught myself.

I learned schematic capture and PCB design from scratch, mostly through YouTube and trial-and-error. I built my own component libraries, drew schematics, and spent days struggling with PCB layout. To save money, I made my own boards—printing layouts on toner transfer paper, etching copper manually, drilling holes, and soldering everything by hand.

It was messy. It was slow. And debugging that first board was incredibly frustrating.

But eventually, after many failed attempts, it worked.

I still remember the moment I saw a stable waveform on the oscilloscope. That moment changed everything.From there, I became deeply interested in power electronics. Even though my formal research was in a different field, I continued building, experimenting, and learning on my own. I set up a small home lab so I could work freely, without limitations.

I immersed myself in:

• Classic textbooks
• Application notes
• Simulations and modeling
• Real hardware prototyping

Over time, I transitioned into industry, working on high-power systems including solar inverters and medical devices. I had the opportunity to contribute to complex engineering projects, including high-current, high-voltage systems used in MRI technology.

Through these experiences, one thing became very clear:

There is a huge gap between what engineers learn and what they actually need to build real systems.

That gap is why I created EESanity.

EESanity is built on a simple idea:

Engineers don’t just need theory—they need to know how things actually work.

Through my courses, I focus on:

• Real circuit behavior (not ideal equations)
• Simulation workflows that reflect industry practice
• Debugging strategies that actually save time
• Automation tools (like Python) to scale engineering work

Today, EESanity has helped 4000+ students across 90+ countries, along with a growing YouTube community of engineers learning practical design.

Why This Matters

If you’re early in your engineering journey, you don’t need more information—you need clarity, structure, and real-world guidance.

Everything I teach is what I wish I had when I started.

My goal is simple:

Help you go from “learning circuits” → to actually building ones that work.

Start Your Journey

Whether you’re just starting or trying to level up your skills, you’re in the right place.

Let’s build something real