Introduction to RN2 type indoor high voltage current limiting fuse

Introduction to RN2 type indoor high voltage current limiting fuse
​RN2 indoor high-voltage current-limiting fuse is an essential component in the power system, especially for short-circuit protection of voltage transformers. This type of fuse is designed to limit line current to a minimum value in the event of a short circuit, ensuring the safety and integrity of the electrical infrastructure. The RN2 type fuse has a breaking capacity of 10002MVA and is a reliable and efficient solution for high voltage applications.
​One of the main features of the RN2 indoor high-voltage current-limiting fuse is its ability to perform instantaneous breaking in the event of a short circuit. This quick response is critical to preventing damage to electrical equipment and minimizing downtime. By limiting line current, fuses effectively isolate faults and protect the rest of the system from short circuits.
​The melting current of the RN2 type fuse is designed to range from 0.6 to 1.8A in 1 minute, ensuring precise and consistent performance under different conditions. This level of control over fusing current allows for customized protection of electrical systems, optimizing safety and reliability.
​In addition to its technical capabilities, the RN2 type indoor high-voltage current-limiting fuse is designed for indoor use, making it suitable for a wide range of applications requiring high-voltage protection. Its sturdy construction and high-performance materials ensure durability and longevity, even in demanding environments.
​Generally speaking, the RN2 indoor high-voltage current-limiting fuse is a key component to ensure the safety and reliability of high-voltage electrical systems. Its advanced features, including instantaneous breaking and precise fusing current control, make it ideal for protecting voltage transformers and other critical equipment. With its proven track record and high breaking capacity, type RN2 fuses are a trusted solution for short circuit protection in indoor high voltage applications.


Post time: Aug-06-2024