Product Description
The FC-302N200T7134G0920H2XGCXXXSXXXXAXBXCXXXXDX controller module is a sophisticated piece of equipment designed for robust automation solutions. This module is a key component of the VLT AutomationDrive FC 302 series. It offers a reliable solution for various control applications, thanks to its versatile features. One notable aspect is its wide-ranging 100-240 VAC input voltage range, ensuring compatibility across diverse electrical systems. Consuming a modest 14.5 W of power, operational efficiency is ensured. For seamless integration into complex automation networks, this controller module boasts network capability. Furthermore, secure and reliable operation is achieved through electrically isolated CAN interfaces. You'll find two of these CAN interfaces, ensuring versatile communication capabilities. The module utilizes a practical screw-in mounting design; however, keep in mind the TB712 terminal block should be ordered separately for proper installation.
Connectivity is a defining characteristic of the FC-302N200T7134G0920H2XGCXXXSXXXXAXBXCXXXXDX. Its integrated network capabilities facilitate seamless communication within larger automation systems. Data exchange is enabled by the presence of two CAN interfaces, each electrically isolated to prevent signal interference and ensure data integrity. Consider its practical mounting solution – a screw-in module design that simplifies installation. However, don't forget that successful implementation requires the separate acquisition of a TB712 terminal block. This seemingly minor detail is crucial for establishing all necessary connections. The module is categorized as a Controller Module, clearly defining its role within a larger system.
The robust design of the FC-302N200T7134G0920H2XGCXXXSXXXXAXBXCXXXXDX controller module is further underscored by its operational specifications. Supporting a broad input voltage range of 100-240 VAC, this module adapts to various power environments. With a power consumption of just 14.5 W, it proves to be an energy-efficient choice.