Swiss startup Minysa, founded by Salem Abid, secured CHF 150,000 (≈€163,000) from Venture Kick Stage III in June 2026 to accelerate its gallium nitride (GaN) gate driver ASICs for power electronics. Minysa initially targets European space power electronics — where radiation tolerance, efficiency, and miniaturization...

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Silicon power electronics have hit a wall. Today’s silicon-based drivers are overheating, oversized, and too expensive for demanding applications like e-mobility, drones, satellites, and data centers . Gallium nitride (GaN) can fix that — but only if you can drive it correctly.
Enter Minysa, a Swiss deep-tech semiconductor startup founded by Salem Abid. In June 2026, Minysa secured CHF 150,000 (≈€163,000) from Venture Kick Stage III funding to accelerate its GaN gate-driver ASICs and power modules . The company is building the missing piece that makes GaN accessible to mainstream power electronics manufacturers.
GaN is a wide-bandgap (WBG) semiconductor. Its material properties give it fundamental advantages over conventional silicon:
Published technical literature consistently documents these advantages. One industry comparison describes GaN transistors as “10 times faster and 10 times smaller” than silicon counterparts . Another source notes that GaN FETs have zero reverse-recovery charge, resulting in 4–5× lower switching losses than silicon
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Despite GaN’s clear advantages, widespread adoption has been blocked by three obstacles :
Minysa’s approach is to deliver integrated GaN gate-driver ASICs and plug-and-play power modules (including system-in-package solutions) that handle the difficult driver integration and protection functions on-chip. As Venture Kick’s own profile states, Minysa’s goal is to make GaN “accessible to mainstream power electronics manufacturers” .
Minysa’s initial focus is the European space power electronics sector, where radiation tolerance, efficiency, and miniaturization are critical . The company has officially joined ESA Business Incubation Centre Switzerland (ESA BIC Switzerland), gaining access to the space ecosystem and strategic partners
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Broader addressable markets worth > $5B in total include :
Public sources confirm Minysa is working on radiation-tolerant GaN ICs for space and is already engaged with space and industrial customers . The company’s ambition, as stated on its own materials, is to “build, from Switzerland, sovereign semiconductor technologies for the European space industry”
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It is important to note that the names of four specific space industry customers and two named ESA-funded programmes referenced in some inquiries are not explicitly listed in currently available public reporting (Tech.eu, Venture Kick, punkt4, Moneycab) . Earlier ESA development work on monolithic GaN integration — such as the GANIC4S programme with partners like Thales Alenia Space and IMEC — exists in the broader European GaN ecosystem, but those programmes predate Minysa’s current commercial traction and are distinct from its own product roadmap
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Minysa is tackling the hardest engineering problem in GaN power electronics: the gate driver. By integrating protection, sensing, and monitoring into a single chip, it removes the design barriers that have kept GaN from going mainstream. With €163K in fresh Venture Kick funding and a clear path from space to e-mobility, Minysa is positioning itself as a key enabler of the next generation of power systems — smaller, cooler, and radically more efficient.
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Swiss startup Minysa, founded by Salem Abid, secured CHF 150,000 (≈€163,000) from Venture Kick Stage III in June 2026 to accelerate its gallium nitride (GaN) gate driver ASICs for power electronics.
Swiss startup Minysa, founded by Salem Abid, secured CHF 150,000 (≈€163,000) from Venture Kick Stage III in June 2026 to accelerate its gallium nitride (GaN) gate driver ASICs for power electronics. Minysa initially targets European space power electronics — where radiation tolerance, efficiency, and miniaturization are critical — and has joined ESA BIC Switzerland to access the space ecosystem [4][11][15].