The 0BLS.200T is an advanced and efficient fusing element that offers a high degree of safety and protection for electrical components and circuits. It is UL- and CSA-listed for use in various applications that include motor protection, motor starting, equipment protection, and general-purpose overcurrent protection.
The 0BLS.200T is manufactured using a proprietary melt-blend process that allows for the production of larger cross-sections than those available using traditional casting techniques. This process also allows for higher current ratings than most other fuses, making them suitable for many different types of applications. Additionally, the 0BLS.200T comes with a high-temperature rating, allowing it to be used in environments with high levels of heat.
The 0BLS.200T offers a wide range of current ratings, from 1-100 amperes, allowing for use in both low and high current applications. Additionally, it is designed with a number of features that are aimed at providing the user with improved reliability and safety. These features include: a chip-design that provides protection against short circuits, surge protection, and overload protection; an epoxy-resin encapsulation for maximum protection from corrosion; an ultra-hard, corrosion-resistant coating; and easy-to-replace fuse elements.
The 0BLS.200T features an advanced working principle that enables it to protect circuits and components from overcurrent, and to protect them from dangerous short circuits. It is designed to detect the current flowing through a circuit, and if this current rises to a hazardous level, the element will open, thus protecting the circuit. The 0BLS.200T can also detect an increase in current due to a sudden surge, and this will cause the element to open and protect the circuit in the same way.
The 0BLS.200T is suitable for high-performance applications, and it is recommended for use in all types of motor protection and motor starting applications. It is also suitable for general-purpose overcurrent protection. Additionally, it can be used as a supplement to other fusing elements in order to ensure that a circuit is protected from the most extreme overload and short-circuit events.