Powering the WBG era with Niobium‑bearing nanocrystalline materials
As switching speeds increase in WBG applications, conventional magnetic materials often become a limiting factor – driving higher losses, larger EMI filters, and thermal constraints.
By contrast, nanocrystalline materials alloyed with Niobium deliver a unique combination of low core losses, high permeability, strong thermal stability, and excellent EMC performance.
These properties make them ideally suited for
• EMI filters for fast‑switching SiC and GaN systems
• High‑frequency inductors and transformers
• Compact, high‑efficiency power converters
From EV traction inverters and fast DC chargers to data centers, renewable energy systems, and industrial power supplies, niobium‑containing nanocrystalline magnetics help designers reduce losses, increase power density, and meet demanding EMC requirements.
The rapid adoption of SiC and GaN wide‑bandgap semiconductors is driving higher switching frequencies, increased power density, and more compact power electronics – while significantly intensifying electromagnetic interference (EMI) challenges.
Niobium‑enabled nanocrystalline soft magnetic materials provide an optimal solution, delivering low losses and superior high‑frequency performance that enable effective EMI suppression in smaller footprints.
From AI‑driven data centers facing rising energy demand to 800V electric vehicle platforms enabling ultra fast charging, these materials support higher efficiency, improved reliability, and reduced copper usage, helping designers meet performance, compliance, and sustainability goals as global power consumption continues to grow.
Discover how advanced nanocrystalline materials can support your next generation of power electronics designs.
9–11 June 2026
Nuremberg, Germany
Hall 5 | Booth 303