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I will design motor drive, automotive, power electronics, esc and industrial automation
Project Management and Review, PCB, Power Electronics and Motor Drive, IOT
I am an embedded systems designer with 10+ years of experience in automotive and industrial products.
I provide end-to-end development, from idea to working, reliable devices.
I specialize in solvin...
Level 1
Has met certain performance criteria and shows strong potential in the marketplace.
About this Gig
I am an experienced embedded and power electronics engineer specializing in industrial-grade motor control and high-reliability systems.
In power electronics, I have hands-on experience designing and validating systems up to 380V / 7.5kW, working with IPM, PIM, discrete IGBTs, and power MOSFETs. I understand real-world constraints such as thermal behavior, switching losses, EMI, and long-term reliability.
In motor drive systems, I have practical experience with BLDC, PMSM, induction motors, and DC motors. I am highly familiar with encoder and resolver feedback systems, and I have strong theoretical and hands-on expertise in FOC (Field-Oriented Control), including tuning and real hardware validation.
For high-reliability industrial control systems, I am experienced with development ecosystems from TI, Renesas, and NXP, and I understand how to design robust firmware and hardware for demanding environments.
I focus on practical, working solutionsnot just theory. I can support your project from concept to validation with a strong engineering mindset and clear communication.
Device brands:
Panasonic
•
Other
Programming language:
C/C++
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MATLAB
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Go
Software:
Ignition
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Matlab
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Other
Other Electronics Engineering Services I Offer
FAQ
How much experience do you have in power electronics?
I have over 10 years of experience in AC motor control using FOC. I am highly proficient with BLDC and AC servo motors, and have hands-on experience designing and working with IPM-based systems up to 380V / 7.5kW.
What is your design principle for automotive-grade products and industrial control modules?
My main design principle is high operational reliability. For this reason, I prefer to design with chips from long-established and highly reliable brands such as NXP, Texas Instruments, and Renesas. Low-cost chips such as STM32 are used only when the client specifically requires low-cost mass produc
