<p>The XT2 MCCB offers a robust solution for industrial and commercial applications requiring reliable circuit protection. Designed to handle rated currents ranging from 40 to 100 amps, this molded case circuit breaker (MCCB) is well-suited for various electrical systems demanding consistent performance.</p><p>At the core of its functionality is the Ekip Dip LSI trip unit, which provides advanced protection features. The trip unit ensures precise monitoring and response to overloads, short circuits, and other electrical anomalies, enhancing system reliability and safety. This makes it an ideal choice for environments where maintaining operational integrity is critical.</p><p>The XT2 MCCB features a three-pole configuration, offering balanced load distribution across phases. This design supports optimal current flow management in three-phase systems commonly found in industrial settings. Its fixed connection type further simplifies installation and maintenance processes by providing secure attachment points that minimize downtime during setup or servicing.</p><p>Compatibility with the XT2N frame size allows seamless integration into existing setups using similar components. This compatibility ensures ease of replacement or upgrades without extensive reconfiguration of your system infrastructure.</p><p>Engineered with attention to durability and efficiency, the XT2 MCCB meets rigorous industry standards while delivering dependable performance throughout its lifecycle. Its construction supports long-term use in demanding conditions typical of Australian industrial landscapes.</p><p>In summary, this MCCB stands out as a dependable component for those seeking reliable circuit protection within specified amperage ranges. By focusing on essential features such as precise trip mechanisms and ease of integration with existing systems, it serves as a practical choice for professionals aiming to enhance their electrical installations&#39; safety and efficiency without unnecessary complexity or cost implications inherent in more elaborate solutions.</p>