The Nybus Chassis is a robust and reliable solution designed to meet the demanding requirements of industrial and commercial applications. With its impressive specifications, this chassis ensures optimal performance and safety in electrical distribution systems.
Rated for a current of 630 A, the Nybus Chassis handles substantial electrical loads with ease, making it suitable for various heavy-duty applications. Its rated short time withstand current of 36 kA provides assurance that it can endure high fault currents without compromising integrity or safety, an essential feature for maintaining system stability during unexpected surges.
This product offers flexibility with options for either 6 or 12 poles, allowing you to tailor your setup based on specific project requirements. The bulbar cross-section measures at 6.4 x 40 sq-mm, providing ample capacity for efficient power distribution across circuits while minimizing energy loss.
Designed with versatility in mind, the Nybus Chassis features a single feed double-sided configuration. This design facilitates straightforward integration into existing setups and simplifies maintenance procedures by offering easy access from both sides—an advantage when space constraints are a consideration.
The frame size XT4 is specifically suitable for use with ABB MCCB-XT4 circuit breakers, ensuring seamless compatibility between components. This compatibility not only enhances system reliability but also streamlines installation processes by reducing potential mismatches between parts.
Compliance with AS/NZS 61439.1:2016 standards underscores the Nybus Chassis's commitment to quality and safety. Meeting these stringent Australian and New Zealand standards guarantees that this product adheres to regional regulations concerning low-voltage switchgear and control gear assemblies—a critical aspect when considering equipment for local projects.
In summary, the Nybus Chassis offers a dependable choice for those seeking an effective solution in managing complex electrical demands within industrial settings. Its combination of high-rated current capacity, robust construction, flexible pole configurations, and adherence to recognized standards makes it an invaluable asset in any electrical distribution network's infrastructure planning.