<p>The NH DIN Blade is a reliable and robust choice for professionals in the industrial and commercial sectors who require dependable circuit protection. Designed to meet stringent safety standards, this product offers a rated current of 200 A, making it suitable for applications requiring substantial power handling capabilities. With a rated voltage of 500 VAC, it ensures compatibility with various electrical systems, providing flexibility across multiple uses.</p><p>One of the standout features of this NH DIN Blade is its impressive breaking capacity of 120 kA. This high breaking capacity means that it can safely interrupt fault currents without causing damage to the system or posing a risk to personnel. This makes it an ideal solution for environments where high fault levels are possible, ensuring both safety and reliability.</p><p>The blade&#39;s body size measures at 39.5 mm, which aligns well with industry standards for ease of integration into existing setups. Its compact yet sturdy design allows for straightforward installation and maintenance within NH2 bases and disconnects, ensuring seamless operation without unnecessary complications.</p><p>Specifically designed as an NH2 fuse size component, this product fits perfectly within its intended applications, maintaining compatibility with other components in your system architecture. The NH2 designation indicates not only its physical dimensions but also its suitability for medium-voltage networks commonly found in industrial settings.</p><p>In summary, the NH DIN Blade provides robust performance with high current and voltage ratings while offering exceptional safety through its significant breaking capacity. It integrates effortlessly into existing systems using standard NH2 bases and disconnects due to its precise sizing and design specifications. For professionals seeking reliable circuit protection that meets demanding technical requirements without compromise on quality or safety standards, this product stands as a solid choice in any mid-cycle evaluation process.</p>