<p>When it comes to industrial and commercial electrical systems, reliability and performance are paramount. The Automatic ACB you&#39;re considering is designed with these priorities in mind, offering robust features that cater to demanding environments.</p><p>This ACB supports a rated current range from 1000 to 2500 A, making it versatile for various applications within this spectrum. With a rated impulse withstand voltage of 12 kV and an insulation voltage of 1000 VAC, the unit is engineered to handle high-stress scenarios while maintaining safety and operational integrity.</p><p>The device&#39;s rated short-time withstand current stands at an impressive 85 kA, ensuring resilience against potential faults over short durations. Coupled with a breaking capacity of 100 kA, it provides reliable interruption capabilities during overcurrent conditions.</p><p>Operating at a rated voltage of up to 690 VAC, this automatic circuit breaker integrates seamlessly into many existing electrical infrastructures. The Ekip Touch LSIG trip unit offers advanced protection functions including long-time (L), short-time (S), instantaneous (I), and ground fault (G) protections—ensuring comprehensive system safeguarding.</p><p>With three poles and a frame size classified as E2.2, the product fits well within standard installation frameworks. Its horizontal rear spread terminal type facilitates straightforward connectivity without complicating wiring layouts or requiring additional space accommodations.</p><p>Despite its powerful performance metrics, the unit maintains efficiency with a power loss rating of just 550 W—balancing energy consumption without compromising on functionality or safety standards.</p><p>Adhering to IEC 309 standards ensures that this ACB meets international benchmarks for quality and reliability. This compliance not only underscores its dependability but also aligns with global best practices in electrical engineering solutions.</p><p>In summary, this Automatic ACB brings together essential specifications tailored for high-demand settings—delivering on both performance and safety fronts without unnecessary complexity or excessive footprint requirements.</p>