<p>The Nybus Chassis is a robust solution designed to meet the demanding needs of industrial and commercial electrical systems in Australia. Engineered with precision, this chassis offers a rated current capacity of 630 A, making it suitable for high-power applications where reliability is paramount. It operates efficiently across standard frequencies of 50/60 Hz, ensuring compatibility with diverse power systems.</p><p>One of the standout features of the Nybus Chassis is its impressive rated short-time withstand current of 36 kA. This specification underscores its ability to handle significant short-circuit conditions without compromising performance or safety, providing peace of mind in critical situations.</p><p>The chassis accommodates a total of 36 poles, configured as RWB+AUX. This configuration allows for flexibility in wiring and integration into existing setups, supporting auxiliary functions alongside primary operations. The pitch size measures at 30 mm, offering compact yet efficient spacing that facilitates streamlined installation within constrained environments.</p><p>Constructed with a bulbar cross-section measuring 6.4 x 40 sq-mm, the Nybus Chassis ensures optimal conductivity and minimal resistance losses. Its single feed type design simplifies connections while maintaining robustness in power distribution tasks.</p><p>Housed within an XT2 frame size, this product balances durability with space efficiency—a crucial consideration for installations where space is at a premium but performance cannot be compromised.</p><p>Compliance with AS/NZS 61439.1:2016 standards further attests to its quality and suitability for use within Australian markets. These standards ensure that the Nybus Chassis meets rigorous safety and performance benchmarks required by industry regulations.</p><p>In summary, whether you&#39;re upgrading an existing system or building new infrastructure from scratch, the Nybus Chassis provides a reliable backbone for your electrical distribution needs—delivering efficiency and safety without unnecessary complexity or cost implications.</p>