Володимир
Hardware-інженер
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Paslavskyi
Hardware & Software Developer | Embedded Systems &
Prototyping Fanatic
Personal Info
Strongly devoted to embedded systems, software
[
[
level programming are my expertise. I work in
Kraków, Poland
designing hardware, optimizing processes, and custom
Nationality
automation solutions.
Ukrainian
Skills
Competitions & Achievements
Embedded Programing
Golden Byte Competition – Startup Category
Hardware design Participated in a prestigious competition called
Golden Byte organized by the STEP IT Academy.
Microcontroller Achieved 1st and 3rd placement in the regional final
Integration stage with the innovative projects Magnetic Shoes and
Smart Glove. Presented the Magnetic Shoes project on
Hardware debugging
the National Stage in Taras Shevchenko National
Digital Logic University of Kyiv.
Design
Innovative Spring
Embedded Systems Smart Glove project won 1st prize.
Signal Processing Projects
PCB Layout Magnetic Shoes
A unique shoe for safe locomotion on ferromagnetic
Power Managment
materials. An electromagnetic system is used that can
Hardware dynamically change the polarity of magnetic flux
Documentation based on step recognition algorithms, ensuring strong
yet flexible grip. Designed for use by professionals
3D Design&Printing working at heights or other places with magnetic
adhesion, like in shipbuilding and high-altitude
Real-time computing
construction.
C#/WPF
Smart Glove
Python Assistive device for visually impaired users that
enhances mobility and safety. Proximity sensors for
HTML/CSS detecting obstacles within reach. Vibrational
Neural networks feedback is then used to inform the user of distance
and direction to allow intuitive navigation. A
lightweight and ergonomic design propels daily use.
Absorbed Radiation Dose Measurement Program
C#/WPF program for measuring radiation doses absorbed
by a crystal. Connects to a microcontroller,
gathering the data from sensors based on crystal.
Involves data-processing algorithms that help
dynamically analyze levels of radiation. Involves a
graphing interface that is interactive; users can
change visualization parameters in real-time and
track historical data.
Automatic Gates
Radio-controlled automatic gate operation system.
Based on an Atmega8 microcontroller, which allows
remote control of the mechanism. The secure remote
activation system makes sure no misuse happens with
some fail-safe functionality.
Graph Editor (In Progress)
Graph Editor - C#/WPF Library for Visual and
Interactive Graph Editing. Drag-and-drop editing of
graphs by nodes. Dynamic rendering engine bigger
datasets. Designed for real-time graph manipulation
applications, circuit design, pathfinding algorithms,
and neural network visualization.
Automatic Water Supply Control System
STM32-based automation system controlling water
level. Monitors water levels in reservoir and
maintains optimum water level. Avoids pump
malfunction by monitoring well depletion and
controlling pressure. Towards real-time monitoring
and automated actions, ensuring efficient water
distribution in buildings.
Power Inverter System
A high-performance power conversion system designed
for industrial and renewable energy applications.
This project involves the development of a modular
high-power inverter system, consisting of multiple
conversion stages:
PFC Converter (~220V AC → 400V DC, 3.5 kW,
Completed)
Active Power Factor Correction (PFC) circuit to
ensure high efficiency and minimal harmonic
distortion.
Converts mains 220V AC to a stable 400V DC bus with
>98% efficiency under full load.
Utilizes advanced digital control algorithms for
dynamic load adjustments.
Designed for robust operation with overvoltage,
overcurrent, and thermal protection.
High-efficiency step-up converter designed to boost
low-voltage DC sources (e.g., batteries, solar
panels) to a 400V DC bus.
Uses a high-frequency isolated topology to improve
efficiency and reduce size.
Optimized for use in off-grid and renewable energy
systems, enabling seamless integration of battery
storage.
DC/AC Inverter (400V DC → 220V AC, In
Development)
Pure sine wave inverter designed to convert 400V DC
to 220V AC for powering standard electrical loads.
Implements advanced modulation techniques
(SPWM/SVPWM) to minimize harmonics and improve power
quality.
Includes smart grid connectivity features, allowing
integration with home energy management systems.
Designed with scalability in mind, enabling
configurations for single-phase or three-phase
operation.
The entire system is being developed with a focus on:
High efficiency (>95%) to minimize power loss.
Scalability for applications ranging from UPS systems
to renewable energy storage.
Embedded control (STM32) for real-time monitoring and
adaptive power management.
Comprehensive protection circuits (short-circuit,
overcurrent, thermal).
Work Experience
Hardware Engineer, Renesas
January 2022 - Present
Design and optimize complex GreenPAK microchip
configurations and high-efficiency electronic
circuits, such as DC/DC converters, motor
controllers, and advanced power management systems.
Create state-of-the-art software tools with WPF and
Python that enhance GreenPAK development and testing.
Implement automation solutions to increase the
accuracy and reliability of microchip programming by
reducing configuration time by more than 50%.
Engineer-physicist, FMF named after Karpenko, Lviv
September 2021 - December 2021
For defectoscopy, software development is done using
WPF—displaying and processing high-speed video data.
For accurate defect analysis, I used the Chronos 2.1-
HD high-speed camera that can record up to 1000 FPS.
I developed advanced visualization tools for
efficient large-scale data handling.
Software Engineer, LLC "Market MATS", Lviv
February 2017 - December 2019
The design of advanced software for 3D radar data
visualization using C#. Developed an original
proprietary OpenGL-based rendering engine, capable of
rendering high-resolution results from Fourier
transforms. Designed algorithms for efficient
processing and visualization of the datasets while
ensuring the provision of detailed and accurate
spectral analysis.
Software&Hardware engineer (Freelance)
December 2014 - 2022
Completion of various projects using multiple
programming languages such as C/C++, C#, Java, and
JavaScript. Especially developed responsive layouts
using HTML and CSS as well as designed mechanical
parts using SolidWorks. Engineered, assembled, and
debugged complex electronic boards and devices,
ensuring high reliability and performance. Compiled
and submitted over 100 scientific or technical
student projects such as reports, research papers,
coursework, and top-notch thesis projects both at
bachelor's and master's levels.
Education
Upper secondary education, Lviv Physics and
Mathematics Lyceum
September 2011 - June 2014
Baccalaureate , Ivan Franko National University of
Lviv – Faculty of Electronics
September 2014 - June 2016
Baccalaureate, Ivan Franko National University of
Lviv – Faculty of Physics
September 2016 - June 2019
Theoretical physics
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