SolMOS Patent Milestone: Building Modular Power Architecture
Helionix has filed the provisional patent for SolMOS, a modular power architecture designed to make power electronics more scalable, intelligent, fault-aware, and adaptable for clean energy, EV infrastructure, aerospace, defense, and advanced industrial systems.
Helionix Reaches a Key Milestone: SolMOS Provisional Patent Filed
Today marks an important milestone for Helionix: the provisional patent for SolMOS has officially been filed.
SolMOS was born from a simple belief: power systems should be as modular, scalable, and intelligent as modern computing. As electrification expands across energy, mobility, aerospace, defense, and industrial systems, power electronics need to become easier to configure, easier to scale, and more resilient under real-world operating conditions.
Traditional power modules are often rigid, application-specific, and difficult to adapt across multiple voltage classes or system requirements. SolMOS takes a different approach.
Instead of treating power electronics as a fixed stack of separate components, SolMOS is being developed as a modular power architecture built around intelligent MOSFET tile concepts. These tiles are designed to support system identification, configuration, protection, and scalable integration across different power environments.
The goal is to create a new category of power architecture that is:
Modular
Mix-and-match
Fault-aware
Field-replaceable
Scalable like “power Lego”
SolMOS is not intended to be just another MOSFET process. It is a system-level innovation focused on how switching, protection, sensing, configuration, and scalability can work together inside a more flexible power platform.
This matters because modern power systems are facing increasing pressure to deliver higher efficiency, better thermal behavior, faster development cycles, and greater reliability. Whether in solar inverters, EV infrastructure, battery systems, aerospace platforms, or defense electronics, engineering teams need power architectures that can adapt without requiring a complete redesign every time requirements change.
The provisional patent filing represents an early but meaningful step toward protecting the SolMOS architecture and advancing Helionix’s development roadmap.
The next phase is focused on:
simulation,
PCB design,
prototype development,
university collaboration,
and technical validation.
Helionix is actively working toward collaboration with the University at Buffalo and other technical partners to support SPICE simulation, layout development, and prototype planning.
This is only the beginning, but it is an important step forward.
If you are building the future of power, energy, hardware, EV infrastructure, aerospace, or defense technology, Helionix would welcome the opportunity to connect.
SolMOS is being built around a clear idea: power electronics should be modular, intelligent, scalable, and ready for the next generation of electrified systems.