<p>The Nybus Chassis is a robust and reliable solution designed for industrial and commercial applications where efficiency and compliance with Australian standards are paramount. With a rated current of 630 A, this chassis is equipped to handle substantial electrical loads, making it suitable for demanding environments.</p><p>Operating at a rated frequency of 50/60 Hz, the Nybus Chassis offers flexibility across various applications. Its ability to withstand short-term currents up to 36 kA ensures durability and safety during unexpected surges or fault conditions. This feature underscores its reliability in maintaining system integrity under stress.</p><p>The chassis accommodates 36 poles, providing ample capacity for complex installations that require multiple circuit connections. Each pole is spaced at a pitch size of 35 mm, optimizing space within electrical enclosures while ensuring easy access and maintenance.</p><p>Configured with an NRWB pole arrangement, the Nybus Chassis supports versatile installation options tailored to specific project needs. The bulbar cross-section measures 6.4 x 40 sq-mm, offering a sturdy framework that enhances structural stability and efficient power distribution throughout the system.</p><p>This product features a universal single-sided feed type, simplifying installation processes by allowing connections from one side only. This design not only streamlines setup but also reduces potential points of failure by minimizing unnecessary complexity in wiring arrangements.</p><p>Built on the XT4 frame size platform, the Nybus Chassis combines compactness with strength—ideal for spaces where both form factor and performance are critical considerations. The adherence to AS/NZS 61439.1:2016 standards assures users that this product meets rigorous safety and quality benchmarks set forth by industry regulations in Australia.</p><p>In summary, the Nybus Chassis stands out as a dependable choice for those seeking an industrial-grade electrical solution characterized by high current capacity, resilience against short circuits, flexible configuration options, and compliance with national standards—all essential attributes when selecting equipment intended to support vital infrastructure projects efficiently and safely.</p>