<p>When selecting an Automatic Air Circuit Breaker (ACB) for your industrial or commercial application, understanding the technical specifications is crucial to ensure it meets your operational needs. This ACB model offers a robust and reliable solution tailored for demanding electrical environments.</p><p>With a rated current ranging from 2520 to 6300 Amperes, this ACB caters to high-capacity installations, making it ideal for large-scale operations. It supports a rated voltage of up to 690 VAC and boasts an impressive rated insulation voltage of 1000 VAC, ensuring safe operation under various conditions.</p><p>The breaker’s ability to withstand transient overvoltage is assured with its rated impulse withstand voltage of 12 kV. Additionally, its frame size E6.2 design allows it to handle substantial electrical loads efficiently.</p><p>One of the standout features is its breaking capacity and short-time withstand current, both rated at an impressive 100 kA. This ensures that the circuit breaker can manage fault currents effectively without compromising safety or performance.</p><p>Equipped with the Ekip Touch LSIG trip unit, users benefit from advanced protection functions including overload (L), short-circuit (S), instantaneous (I), and ground fault (G) protection. The intuitive touch interface simplifies monitoring and adjustments, enhancing user experience while maintaining precise control over circuit parameters.</p><p>The power loss stands at 1550 W which should be factored into energy management strategies but remains within acceptable limits for such high-capacity devices. Furthermore, the horizontal rear spread terminal type facilitates straightforward installation in existing setups where space may be a constraint.</p><p>Compliant with IEC 309 standards and approvals, this ACB guarantees adherence to international safety and performance benchmarks—providing peace of mind when integrating into critical systems.</p><p>Overall, this Automatic ACB combines reliability with cutting-edge technology suitable for complex electrical infrastructures requiring robust protection mechanisms against potential faults or disruptions in service continuity.</p>