When it comes to selecting a reliable Molded Case Circuit Breaker (MCCB) for industrial and commercial applications, the key is in the details. This MCCB offers a robust solution with features tailored to meet demanding electrical requirements.
Rated at 10 A, this MCCB provides dependable protection for your electrical circuits. It stands out with its impressive rated impulse withstand voltage of 8 kV and a rated voltage capacity of up to 1000 V, ensuring resilience against sudden voltage spikes.
The Ekip Dip LSI trip unit incorporated within this device ensures precise and effective circuit interruption. This feature is crucial in protecting equipment from overloads or short circuits, making it suitable for critical installations where reliability cannot be compromised.
With a breaking capacity of 15 kA, this MCCB can handle significant fault currents before tripping, providing an added layer of safety. Its three-pole configuration makes it versatile for various applications requiring multi-phase power distribution.
For ease of installation and maintenance, the breaker features a front connection type and bolt terminal type. The compact width of just 90 mm allows it to fit comfortably within standard panel configurations without consuming excessive space.
The degree of protection is rated at IP20, indicating that while it's protected against solid foreign objects larger than 12 mm like fingers or similar objects, it's not waterproof—an important consideration when planning installation environments.
Designed in compliance with IEC60947-2 standards and approvals, you can trust that this MCCB meets international safety and performance benchmarks. Its compatibility with XT2H systems further enhances its versatility across different setups.
Weighing in at just 1.12 kg yet capable of handling main circuit connecting capacities between 32.5-100 sq-mm ensures that despite its light weight, it doesn’t compromise on performance or durability.
Operating seamlessly across frequencies ranging from 50/60 Hz makes it suitable for both domestic Australian grid conditions as well as international operations where frequency variations may occur.
In terms of energy efficiency—a factor increasingly relevant today—the power loss is minimal at only 0.1 W during operation which contributes towards reduced operational costs over time by conserving energy usage within systems where multiple units might be deployed concurrently.
This MCCB represents an optimal blend between technical prowess and practical usability catering specifically toward those who prioritize factual data-driven decisions when selecting components integral to their electrical infrastructure needs.