When selecting a Molded Case Circuit Breaker (MCCB) for industrial or commercial applications, understanding the technical specifications is crucial. This MCCB offers a reliable solution with its robust design and comprehensive features.
The MCCB is rated for a current of 40 A, making it suitable for moderate load circuits. It supports an impulse withstand voltage of 8 kV and an insulation voltage of up to 1000 V, ensuring safety and performance stability under various conditions. The device operates efficiently at a rated voltage of 690 VAC and accommodates both 50 Hz and 60 Hz frequencies, providing versatility across different electrical systems.
Equipped with an EL release type and the Ekip Dip LSI trip unit, this breaker ensures precise protection by detecting overloads, short circuits, and ground faults effectively. The breaking capacity stands at 15 kA, which means it can handle significant fault currents without compromising on safety.
This MCCB features four poles and uses a front connection type with bolt terminals for secure installation. Its IP20 degree of protection indicates that it is resistant to solid foreign objects greater than 12 mm in diameter but should be installed in environments where moisture exposure is controlled.
With dimensions measuring 140 mm in width and weighing approximately 3.5 kg, this compact yet sturdy device fits neatly into standard installations without adding excessive bulk or weight to your panel configurations.
Compliance with IEC60947-2 standards assures users of its adherence to international safety guidelines. Additionally, it's designed to work seamlessly with XT4H equipment enhancing compatibility within existing setups.
The main circuit connecting capacity ranges from 85-200 sq-mm allowing flexibility in conductor sizes depending on your specific application needs while maintaining efficient power distribution across connected loads.
Overall this MCCB delivers dependable performance tailored for professionals seeking durable solutions that meet rigorous industrial demands while offering ease of integration into existing electrical infrastructures without unnecessary complexity or cost implications.