Silicon carbide technology boosts efficiency, reliability, and scalability for AI data centers and electrification systems
California, United States, 7 April 2026 – As artificial intelligence continues to expand rapidly, the demand for efficient and reliable power infrastructure is becoming more critical than ever. In response to this growing need, DG Matrix has partnered with Infineon Technologies to integrate advanced silicon carbide semiconductor technology into its power systems.
This collaboration focuses on using next-generation silicon carbide MOSFETs in DG Matrix’s Interport platform, a multi-port solid-state transformer designed for modern energy applications. In simple terms, this technology helps convert and manage electricity more efficiently, making it ideal for high-demand environments like AI data centers, microgrids, and electric vehicle charging networks.
One of the key advantages of silicon carbide technology is its ability to handle higher power levels with less energy loss. By using these advanced semiconductors, DG Matrix’s systems can achieve efficiency levels of up to 98.5 percent. This means less wasted energy, lower operating costs, and improved overall performance.
The Interport platform is designed with a single-stage power conversion architecture. Unlike traditional systems that require multiple steps to convert electricity, this approach simplifies the process. As a result, it reduces the size of the system, improves energy efficiency, and enhances reliability. This is especially important for AI-driven data centers, where consistent and high-quality power is essential.
The partnership also strengthens DG Matrix’s supply chain, ensuring access to high-performance semiconductor components as demand continues to grow. Infineon’s silicon carbide devices play a crucial role in enabling compact, high-density power systems that can support large-scale digital infrastructure.
Beyond data centers, this technology has wide-ranging applications. It can support utility microgrids, helping communities manage energy more effectively, and power fleet-charging systems for electric vehicles, contributing to the shift toward cleaner transportation.
The collaboration builds on a long-standing relationship between the engineering teams of both companies. As DG Matrix moves from early-stage products to commercial deployments, the integration of advanced semiconductor technology has been key to improving performance at every stage.
Looking ahead, both companies plan to continue working together on future innovations. Their focus will include scaling systems to support even higher voltage levels and larger deployments, including multi-megawatt solutions designed for global infrastructure needs.
As industries move toward digital transformation and electrification, efficient energy systems are becoming the backbone of progress. Partnerships like this highlight how advanced semiconductor technology can enable smarter, more sustainable power solutions for the future.
