Mechanical Design
Precision mechanical design, simulation and 3D engineering for complex motion systems.
Learn more →Engineering
intelligent motion.
Talaxon is a European engineering company building advanced robotics and electromechanical systems. We design actuators, embedded electronics, PCBs and prototypes — from concept to small-series manufacturing.
Our Vision
Becoming an indispensable technology partner in humanoid robotics and hardware prototype development.
We strengthen Europe’s technological autonomy through innovation, precision engineering and reliable execution from idea to real-world performance.
What We Do
End-to-end engineering for intelligent systems.
Electronics & Embedded Systems
Custom PCB design, embedded firmware and system integration for high-performance hardware.
Learn more →Prototype Development
Rapid prototyping, testing and small-series manufacturing with a focus on quality and reliability.
Learn more →Past and Future Projects
Past and future engineering projects.
Robotic Tendon Actuator Platform →
Smart Energy Meter Platform →
E-bike Conversion Kit Concept →
Gate Control Electronics →
Onboard Electronics for Agricultural Drones →
Smart Dental Scanner →
Smart Crane Track Monitoring Equipment →
Smart Machinery Vibration Monitoring Device →
Linear Actuator for Flight Simulator Motion Seats →
About Talaxon
Co-founder
Bálint Kováts-Megyesi
Talaxon was founded by engineers with hands-on experience in prototype development, automotive hardware, embedded systems, test automation, EMC validation, and industrial product development.
Bálint combines multidisciplinary engineering, business thinking and hands-on execution to support reliable, high-performance hardware development.
01
Robotics, actuation, electromechanics and product development
02
From concept and requirements to prototype and small-series production
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Quality, precision, validation thinking and long-term partnerships
About Talaxon
Co-founder
József Komár
József brings strong expertise in automotive electronics, validation and laboratory testing, helping Talaxon deliver reliable hardware from concept through verification.
He combines hands-on debugging, standards-driven engineering and practical product-development experience to support robust electronics, test strategies and production-ready engineering solutions.
01
Automotive hardware design, validation and certified laboratory testing
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FMEA, worst-case analysis, debugging and test automation expertise
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Practical electronics development focused on reliability and execution
Co-founders
Built by engineers with real product-development experience.
Bálint Kováts-Megyesi
MSc Biomedical Engineering | MSc Economics | BSc Electrical Engineering
Bálint has a multidisciplinary background in biomedical engineering, economics, and electrical engineering. In the early years of his career, he worked on prototype development, starting with an infrared dental scanner, then moving into onboard electronics for drones and Wi-Fi-connected industrial monitoring systems.
In recent years, he has been involved in automotive hardware development based on ISO 26262 processes, including motor-control circuit design, requirements analysis, standards-based validation, FMEA, worst-case circuit analysis, and test automation using a PyVISA-based toolchain.
Key skills: Company management, requirements analysis, engineering project management, hardware design, Altium, KiCad, schematic design, Fusion 360, 3D printing, DFM, WCA, LTspice, Python, MATLAB, C/C++, STM, ESP32, FPGA, VHDL, and effective use of AI tools.
József Komár
BSc Electrical Engineering
József has strong experience in automotive hardware design, validation, and laboratory testing. He started his career as a test engineer at Continental, where he programmed end-of-line tests and performed root-cause analysis.
Over the past seven years, he has gained extensive experience in FMEA, worst-case analysis, debugging complex hardware, and executing high-complexity measurements in certified electrical test laboratories. He is highly familiar with ISO 26262, IEC TR 62380, and related engineering workflows.
Key skills: Analog and digital circuit design, PCB design, Altium, KiCad, LTspice, test planning, test automation, laboratory measurements, FMEA, IQ-RM, Windchill, Fusion 360, WCA, hands-on lab work, embedded systems, UART/I2C/SPI/CAN, STM, Infineon AURIX, PIC, Vector CANape, TRACE32, Python, C/C++, FPGA, VHDL, and effective use of AI tools.
Services
Engineering services from concept to prototype.
System Design
System architecture, requirements analysis, interface definition, early feasibility assessment and development planning.
Mechanical Engineering
CAD design, 3D modelling, actuator mechanisms, enclosures, assemblies and manufacturable prototypes.
Electronics & PCB Design
Circuit concepts, schematic design, PCB design, component selection, sensor integration, actuator electronics and bring-up.
Robotics & Actuator Development
Tendon-driven systems, motorized mechanisms, force and position sensing concepts and compact robotic motion systems.
Validation & Testing
Electrical testing, EMC-related planning, automated measurements, debugging, root-cause analysis and engineering documentation.
Small-Series Manufacturing Support
Supplier coordination, DFM, documentation, industrialization support and production handover.
Start a Project
Tell us what you want to build.
To help us understand your technical needs, please fill out the project request form below and upload the completed requirements template.
Let’s build the future of
intelligent motion — together.
Have a project in mind? Let’s turn your idea into a reliable, high-performance product.
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