<p>When selecting the right Molded Case Circuit Breaker (MCCB) for your industrial or commercial needs, understanding its specifications is crucial. This particular MCCB is designed to handle demanding environments with precision and reliability. With a rated current of 800 A, it offers robust performance suitable for various applications.</p><p>The MCCB has a rated impulse withstand voltage of 8 kV and an insulation voltage of 1000 V, ensuring resilience against electrical surges and maintaining safety across operations. It operates at a rated voltage of 690 VAC, making it compatible with a wide range of electrical systems.</p><p>Equipped with an Ekip Dip LSI trip unit, this MCCB provides advanced protection features including long-time, short-time, and instantaneous tripping functions. The release type EL enhances its operational efficiency by providing precise control over fault detection and interruption.</p><p>One notable feature is its power loss rating of just 24 W, which contributes to energy efficiency while maintaining optimal functionality. The breaker accommodates four poles and boasts a breaking capacity of 50 kA, ensuring reliable interruption capability in high fault conditions.</p><p>Installation is straightforward thanks to its front connection type. The device also offers an IP20 degree of protection, safeguarding against solid objects greater than 12 mm in diameter while being mindful that additional enclosure may be needed for higher protection levels in certain environments.</p><p>Measuring at a width of 280 mm and weighing 12.5 kg, this MCCB strikes a balance between compactness and durability—ideal for installations where space is at a premium but performance cannot be compromised.</p><p>Compliance with IEC60947-2 standards assures adherence to international quality benchmarks, offering peace of mind regarding safety and reliability in operation.</p><p>This MCCB serves as an excellent choice for professionals seeking dependable circuit protection solutions that meet rigorous technical requirements without unnecessary complexity or cost implications.</p>