<p>When considering the selection of a Molded Case Circuit Breaker (MCCB) for industrial or commercial applications, it&#39;s essential to weigh the technical specifications and features that align with your system requirements. This MCCB type is designed to provide robust protection and operational reliability.</p><p>The MCCB in question offers a rated current of 630 A, making it suitable for high-demand applications where substantial current handling is necessary. With a breaking capacity of 70 kA, this device ensures effective interruption of fault currents, reducing potential damage from electrical faults.</p><p>One notable feature is its Rated Short Time Withstand Current of 6 kA. This specification indicates the breaker’s ability to handle short-duration overcurrents without tripping immediately, which can be crucial in systems requiring brief overload tolerance.</p><p>This MCCB comes equipped with three poles, establishing it as an ideal choice for three-phase power systems commonly used in industrial settings. The inclusion of auxiliary contacts adds versatility by allowing integration into control circuits for signaling and monitoring purposes.</p><p>Additionally, the MOE (Motor Operator Electric) capability at 240 VAC/VDC provides enhanced automation potential. It allows remote operation of the breaker, contributing to improved safety and efficiency by minimizing manual intervention.</p><p>The XT5 frame size denotes a compact form factor while maintaining performance integrity. This sizing facilitates easier installation within space-constrained environments without compromising on functionality or protection levels.</p><p>Mechanical interlocking is another critical feature incorporated into this MCCB design. It prevents simultaneous closing operations between interconnected devices or panels, thereby enhancing operational safety and preventing accidental circuit engagement during maintenance activities.</p><p>In summary, this MCCB presents itself as a reliable component capable of meeting demanding electrical distribution needs across various sectors. Its combination of high-rated current capacity, substantial breaking capacity, auxiliary functionalities like motor operator electric compatibility, and mechanical interlock mechanisms make it well-suited for modern-day industrial applications seeking both performance and safety assurances in their electrical infrastructure solutions.</p>