The demand for more powerful, energy efficient, and compact electronic systems is increasing across industries ranging from aerospace and robotics to industrial automation and advanced manufacturing. As engineers push the limits of performance, traditional silicon based technologies are increasingly being challenged by new semiconductor materials capable of delivering greater efficiency and power density. Gallium nitride, commonly known as GaN, has emerged as one of the most promising technologies in this transition. However, despite its advantages, widespread adoption remains constrained by technical challenges related to control, integration, and reliability. Swiss startup Minysa is working to solve these issues, and the company has now secured new funding to accelerate the development of its advanced semiconductor solutions.
Minysa has received €163,000 in funding from Venture Kick to support the development of its next generation gallium nitride control chips.
The investment will help the company accelerate product development and bring its technology closer to commercial deployment in demanding high reliability applications.
Unlocking the Potential of Gallium Nitride
Gallium nitride is increasingly recognised as a breakthrough material for modern power electronics.
Compared with traditional silicon based components, GaN devices can deliver significantly higher power density, improved energy efficiency, faster switching speeds, and reduced heat generation.
These characteristics make the technology particularly attractive for applications where size, weight, efficiency, and reliability are critical.
Industries such as aerospace, robotics, industrial automation, electric mobility, and advanced manufacturing are actively exploring the use of GaN to improve system performance.
Despite these benefits, implementing GaN devices remains technically challenging.
Engineers must overcome complex control requirements and ensure reliable operation under demanding conditions, factors that have slowed broader adoption across many sectors.
Developing Advanced Control Technology
Founded by Salem Abid, Minysa focuses on addressing these barriers through the development of specialised GaN gate driver integrated circuits.
These semiconductor components play a crucial role in controlling GaN power devices safely and efficiently.
The company’s technology is designed to simplify integration while improving performance and reliability.
By reducing design complexity, Minysa aims to help manufacturers deploy GaN based systems more quickly and with greater confidence.
The company believes its solutions can enable smaller, cooler, and more reliable power electronics platforms across a wide range of applications.
This approach addresses one of the most important challenges facing the GaN ecosystem today: transforming a highly promising technology into a practical solution for commercial and mission critical environments.
Supporting High Reliability Applications
Minysa is targeting sectors where performance requirements are especially demanding.
Potential applications include satellite power conversion systems, motor drives, robotic actuators, industrial control equipment, and other advanced electronic platforms.
In these environments, even small improvements in efficiency and reliability can deliver substantial operational benefits.
The company’s gate driver technology is intended to help manufacturers build systems that consume less power, generate less heat, and maintain stable performance under challenging operating conditions.
These advantages are particularly important in space applications where reliability and efficiency directly affect mission success.
Focusing on Europe’s Space Industry
The company’s initial commercial focus is the European space power electronics market.
As Europe increases investment in space technologies and strategic technological capabilities, demand is growing for advanced electronic components that can meet strict performance and reliability requirements.
Minysa has already established a promising customer pipeline within the sector.
The company reports engagement with four space industry customers and participation in two European Space Agency funded programmes focused on power management chips for power conversion systems and compact motor drive applications.
These collaborations provide valuable validation of the technology and highlight growing industry interest in the company’s solutions.
Accelerating Product Development
The newly secured funding will be used to support the development of Minysa’s first GaN gate driver application specific integrated circuits.
These chips are being designed specifically for space and other high reliability environments where performance and operational stability are critical.
As demand for more efficient power electronics continues to grow, technologies that simplify the adoption of gallium nitride are expected to play an increasingly important role.
With fresh funding, early industry traction, and a focus on one of the most promising areas of semiconductor innovation, Minysa is positioning itself to become a key contributor to the next generation of high performance electronic systems. By helping manufacturers unlock the full potential of GaN technology, the company aims to support more efficient, reliable, and compact power solutions across Europe and beyond.