A professional engineering style shaped by trust, technical depth, and the discipline to deliver sound results.
Across more than 20 years in electrical and electronics engineering, I have focused on building systems that are not only functional, but also manufacturable, reliable, and aligned with real project constraints.
I am hardworking, patient, and strongly self-motivated. That mindset helps me stay consistent in demanding projects and build confidence that the final result will be safe, stable, and professionally executed.
My working style is solution-oriented, pragmatic, and systematic. I pay close attention to detail, but I never lose sight of the final objective. In practice, that means making decisions that support reliability, manufacturability, and performance together.
I also approach projects through the lens of the customer's real priorities. If a project is driven by price-performance targets, I shape the solution accordingly. If the work belongs to a medical or defense-grade context, I raise the standard through more disciplined material choices and engineering decisions.
Within teams, I usually take the role of the person who gives direction, restores momentum when a project gets stuck, and helps bring the work to a balanced and dependable conclusion.
I value concise technical communication, visible trade-off decisions, and a process where product, production, and field realities are aligned from the very beginning.
An end-to-end engineering approach focused on turning real-world problems into systems that truly work in the field.
More than 20 years in electrical and electronics engineering, with responsibility spanning architecture, hardware, embedded integration, validation, and product transfer.
My expertise is concentrated around industrial automation, automotive electronics, power-distribution systems, and embedded software development. I have particularly strong depth in systems built across different processor architectures, high-current applications, advanced PCB design workflows, and tight hardware-software integration.
My engineering mindset is driven more by practice than theory. For me, the value of a system is measured by how stably it performs in real operating conditions. That is why reliability, sustainability, and performance remain priorities in every product I shape.
Rather than taking only one role in a project, I prefer to own the process from start to finish. By approaching hardware, software, and system integration together, I optimize the whole instead of isolated parts. This helps programs move faster, more efficiently, and with fewer issues.
Today, I use all of this experience to build systems that are strong, clear, and genuinely functional.
Alongside technical work, I also stay active in music, visual design, and animation. That balance helps me bring analytical thinking together with a stronger sense of aesthetics, usability, and presentation.
The timeline below reflects the strongest roles and project environments captured in the source CV and portfolio documents currently attached to this website.
Links point to the official websites of the companies I worked with.
Continuing product development through my own company with a focus on electronics design, embedded systems, custom hardware, and client-specific engineering work.
Served in a separate CFO role during the final two years at WOLFER, taking executive responsibility beyond the earlier engineering leadership position.
Led electronics development for hotel access products and elevator-related boards, covering circuit design, embedded software, production coordination, and post-field product improvement.
Expanded R&D and electronics production capabilities for heavy commercial vehicle and rail-system projects with responsibility across design, EMC-aware PCB execution, testing, and team guidance.
Developed CANBUS-based elevator products aligned with EN 81-70 and EN 81-20 and transferred them into field use as a repeatable product family.
Worked across hardware, embedded software, and PCB design for UPS platforms, conversion systems, display/interface boards, and system integration projects.
Teknim Elektronik / NA-DE Elektronik
Contributed to early R&D work in electronics and fire-alarm-related products during the transition into the sector.
Worked on automotive electronics and lighting systems for heavy commercial vehicles, taking active roles in PCB and software design, production transfer, and FMEA-centered product-development work.
These projects come from the source CV and portfolio material and help show the wider range of electronics work carried out beyond the main company timeline.
Molecular UV Mobile Test Device
A molecular UV mobile test device designed to analyze substances through chemical and biological testing workflows and report neutral, evidence-based results.
Official site