Swiss Startup Minysa Accelerates GaN Chip Development for Advanced Power Systems
June 21, 2026, 9:38 pm
Location: France, Ile-de-France, Paris
Employees: 1001-5000
Founded date: 1975
Total raised: $198.67K
Swiss startup Minysa secured €163K from Venture Kick. The company pioneers advanced GaN gate-driver chips. These innovations boost power electronics efficiency and reliability. They tackle complex GaN control challenges. Minysa's technology targets high-reliability sectors: space, robotics, industrial electronics. The European space market is a key focus, driven by sovereignty needs. This funding fuels development of Minysa's crucial GaN ASICs. The goal: smaller, cooler, more robust power systems. This marks a significant step in semiconductor innovation for critical infrastructure.
Minysa, a deeptech startup from Switzerland, has secured critical funding. Venture Kick awarded €163,000 (CHF 150,000). This investment fuels the development of next-generation gallium nitride (GaN) control chips. The funding propels Minysa's mission. It aims to revolutionize high-performance power electronic systems.
Gallium nitride represents a seismic shift. It offers profound advantages over traditional silicon technologies. GaN devices boast higher power density. They deliver improved energy efficiency. Crucially, they generate less heat. These attributes make GaN ideal for demanding applications. However, GaN's widespread adoption faces hurdles. Complex control requirements present a significant barrier. Reliability challenges persist. Demanding qualification processes further complicate integration. Minysa directly confronts these issues.
The company develops specialized GaN gate-driver integrated circuits. These chips empower manufacturers. They control GaN power devices with enhanced safety. Efficiency sees marked improvement. The circuits also allow for greater compactness. Minysa's technology simplifies integration. It paves the way for smaller, cooler, more reliable power systems. This innovation is vital. It enables the full potential of GaN in critical environments.
Minysa targets high-reliability sectors. The European space power electronics market is a primary focus. Efficiency is paramount here. Reliability is non-negotiable. Technological sovereignty is a growing priority. Minysa addresses these critical needs directly. The European space market currently stands at an estimated $120 million. Projections show growth to $600 million by 2035. Minysa positions itself at the forefront of this expansion.
The applications extend beyond space. Motor drives benefit greatly. Actuators gain new capabilities. Robotics demand efficient power. High-reliability industrial electronics are a key segment. These sectors require robust and compact power solutions. Minysa's chips deliver precisely that. They ensure stable operation in the harshest conditions.
Venture Kick's investment provides crucial validation. It acknowledges Minysa's innovative approach. The funding specifically supports the development of Minysa's initial GaN gate-driver ASICs. These Application-Specific Integrated Circuits are tailored. They serve space and other high-reliability uses. This accelerates the path from concept to commercialization. It ensures rapid progress.
Minysa's technology significantly reduces integration complexity. This translates to lower overall system costs. It shrinks the physical footprint of power systems. It simultaneously enhances their performance. This dual benefit is attractive across industries. It provides a distinct competitive edge. Manufacturers gain greater design flexibility. End-products become more sophisticated.
The company's leadership brings deep expertise. Salem Abid leads as founder and CEO. His vision guides Minysa forward. The R&D team boasts impressive credentials. They collectively possess over 100 years of experience. Their track record includes over 80 patents in power semiconductors. This rich background underpins Minysa's innovation. It ensures technical excellence.
Minysa has already established a robust customer pipeline. Four space industry clients are actively engaged. Two European Space Agency (ESA)-funded programs are also underway. These programs focus on customized power-management chips. They target power conversion systems. They also address compact motor drives. This early traction demonstrates market demand. It validates the technology's promise.
The drive for technological sovereignty gains momentum. European nations seek greater independence in critical technologies. Minysa's development of advanced GaN chips supports this objective. It establishes a strong domestic supply chain for high-reliability components. This reduces reliance on external sources. It strengthens national technological bases.
Minysa's work contributes to broader energy goals. Enhanced energy efficiency is a core benefit. This reduces power consumption. It lessens heat generation. These factors contribute to a smaller carbon footprint. They promote sustainable technology development. The societal impact is substantial.
The future of power electronics relies on such advancements. Minysa stands at a critical juncture. Its GaN gate-driver chips are set to redefine performance standards. They enable a new generation of compact, efficient, and reliable systems. This Swiss startup is not just developing chips. It is shaping the power infrastructure of tomorrow. Its impact will resonate across industries demanding peak performance and unwavering reliability.
Minysa, a deeptech startup from Switzerland, has secured critical funding. Venture Kick awarded €163,000 (CHF 150,000). This investment fuels the development of next-generation gallium nitride (GaN) control chips. The funding propels Minysa's mission. It aims to revolutionize high-performance power electronic systems.
Gallium nitride represents a seismic shift. It offers profound advantages over traditional silicon technologies. GaN devices boast higher power density. They deliver improved energy efficiency. Crucially, they generate less heat. These attributes make GaN ideal for demanding applications. However, GaN's widespread adoption faces hurdles. Complex control requirements present a significant barrier. Reliability challenges persist. Demanding qualification processes further complicate integration. Minysa directly confronts these issues.
The company develops specialized GaN gate-driver integrated circuits. These chips empower manufacturers. They control GaN power devices with enhanced safety. Efficiency sees marked improvement. The circuits also allow for greater compactness. Minysa's technology simplifies integration. It paves the way for smaller, cooler, more reliable power systems. This innovation is vital. It enables the full potential of GaN in critical environments.
Minysa targets high-reliability sectors. The European space power electronics market is a primary focus. Efficiency is paramount here. Reliability is non-negotiable. Technological sovereignty is a growing priority. Minysa addresses these critical needs directly. The European space market currently stands at an estimated $120 million. Projections show growth to $600 million by 2035. Minysa positions itself at the forefront of this expansion.
The applications extend beyond space. Motor drives benefit greatly. Actuators gain new capabilities. Robotics demand efficient power. High-reliability industrial electronics are a key segment. These sectors require robust and compact power solutions. Minysa's chips deliver precisely that. They ensure stable operation in the harshest conditions.
Venture Kick's investment provides crucial validation. It acknowledges Minysa's innovative approach. The funding specifically supports the development of Minysa's initial GaN gate-driver ASICs. These Application-Specific Integrated Circuits are tailored. They serve space and other high-reliability uses. This accelerates the path from concept to commercialization. It ensures rapid progress.
Minysa's technology significantly reduces integration complexity. This translates to lower overall system costs. It shrinks the physical footprint of power systems. It simultaneously enhances their performance. This dual benefit is attractive across industries. It provides a distinct competitive edge. Manufacturers gain greater design flexibility. End-products become more sophisticated.
The company's leadership brings deep expertise. Salem Abid leads as founder and CEO. His vision guides Minysa forward. The R&D team boasts impressive credentials. They collectively possess over 100 years of experience. Their track record includes over 80 patents in power semiconductors. This rich background underpins Minysa's innovation. It ensures technical excellence.
Minysa has already established a robust customer pipeline. Four space industry clients are actively engaged. Two European Space Agency (ESA)-funded programs are also underway. These programs focus on customized power-management chips. They target power conversion systems. They also address compact motor drives. This early traction demonstrates market demand. It validates the technology's promise.
The drive for technological sovereignty gains momentum. European nations seek greater independence in critical technologies. Minysa's development of advanced GaN chips supports this objective. It establishes a strong domestic supply chain for high-reliability components. This reduces reliance on external sources. It strengthens national technological bases.
Minysa's work contributes to broader energy goals. Enhanced energy efficiency is a core benefit. This reduces power consumption. It lessens heat generation. These factors contribute to a smaller carbon footprint. They promote sustainable technology development. The societal impact is substantial.
The future of power electronics relies on such advancements. Minysa stands at a critical juncture. Its GaN gate-driver chips are set to redefine performance standards. They enable a new generation of compact, efficient, and reliable systems. This Swiss startup is not just developing chips. It is shaping the power infrastructure of tomorrow. Its impact will resonate across industries demanding peak performance and unwavering reliability.