Post by onsemi

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Moving more power through smaller spaces shouldn't mean compromising on reliability, efficiency or thermal performance. Success depends on the architecture as much as the components. Gallium nitride (GaN) has the potential to dramatically reduce system size, increase power density and minimize switching losses. But unlocking those benefits requires knowing where GaN delivers the greatest system-level value. Our new GaN Power Architectures Guide explores how high-frequency GaN enables more compact, efficient power systems by transforming everything from front-end conversion to point-of-load regulation. Rather than replacing silicon (Si) or silicon-carbide (SiC), GaN complements them by helping engineers optimize each stage of the power path for maximum performance. If you're designing next-generation AI infrastructure, industrial systems, renewable energy or EV power electronics, this guide offers a fresh perspective on where GaN can have the greatest architectural impact. Download the GaN Power Architectures Guide for free: πŸ‘‰ https://lnkd.in/gkXJTNSz

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