<p>The Nybus Chassis is a robust and reliable solution for industrial and commercial electrical systems, designed to meet the demands of modern infrastructure projects. With a rated current of 630 A, it offers substantial capacity for handling significant electrical loads, making it suitable for various applications where efficiency and safety are paramount.</p><p>Operating at a rated frequency of 50/60 Hz, this chassis provides flexibility in diverse environments, ensuring compatibility with standard power systems. One of its key strengths is its ability to withstand short-circuit conditions with a rated short time withstand current of 36 kA. This level of durability ensures that the system can handle unexpected surges without compromising performance or safety.</p><p>The Nybus Chassis features an impressive configuration with 30 poles, allowing for extensive connectivity options. The pitch size of 35 mm facilitates streamlined installation and maintenance processes while optimizing space within electrical enclosures. Its pole configuration is RWB+AUX, providing additional auxiliary connections that enhance functionality and adaptability in complex setups.</p><p>The bulbar cross section measures 6.4 x 40 sq-mm, indicating a solid construction capable of supporting high currents efficiently while minimizing energy loss due to resistance. Its single feed type simplifies design considerations by centralizing power input management.</p><p>Designed with the XT4 frame size, this chassis integrates seamlessly into existing systems or new installations requiring compact yet powerful solutions. Adherence to AS/NZS 61439.1:2016 standards underscores its compliance with rigorous safety and quality benchmarks essential in Australian markets.</p><p>In summary, the Nybus Chassis stands out as a dependable choice for professionals seeking durable and efficient electrical distribution components tailored to their technical requirements. It combines high performance with adherence to critical industry standards, ensuring reliability across varied applications.</p>