<p>When it comes to ensuring the safety and reliability of your electrical systems, the NH DIN Blade Fuse is a robust choice for industrial and commercial applications. Designed to handle demanding environments, this fuse provides dependable protection for your electrical circuits.</p><p>With a rated current of 500 A and a rated voltage of 500 VAC, this fuse is well-suited for high-demand applications. It offers an impressive breaking capacity of 120 kA, which means it can effectively interrupt fault currents without compromising on performance or safety. This level of breaking capacity ensures that even in cases of severe short-circuit conditions, your system remains protected from potential damage.</p><p>The NH DIN Blade Fuse is specifically designed to be compatible with NH2 Bases and Disconnects. This compatibility allows for seamless integration into existing systems, making it an ideal replacement component or part of new installations. The body size measures at 51 mm, providing a compact yet efficient solution that fits comfortably within standard setups.</p><p>Another key feature is its classification as an NH2-sized fuse. This indicates its suitability for medium-voltage distribution networks where reliability and efficiency are paramount. The NH2 size also makes it versatile enough to be used across various sectors including manufacturing plants, data centers, and other facilities requiring reliable power distribution solutions.</p><p>In summary, the NH DIN Blade Fuse combines high current handling capabilities with excellent breaking capacity in a compact form factor. Its compatibility with NH2 Bases and Disconnects enhances its versatility while maintaining ease of installation and maintenance. Whether you&#39;re upgrading existing infrastructure or planning new projects, this fuse offers the dependability needed to keep operations running smoothly without unnecessary interruptions or risks.</p><p>This product&#39;s specifications make it clear why it&#39;s trusted by professionals who prioritize safety without sacrificing performance in their electrical systems.</p>