Product Description
The FC-202N315T7134H1814 controller module boasts a sophisticated design, enabling precise control in various applications. It operates on a 100-240 VAC power supply, consuming 14.5 W of power. For seamless integration into complex systems, the module offers network capability, ensuring robust communication. Its functionality is further enhanced by electrically isolated interfaces, safeguarding against electrical interference. The device is categorized as a Controller Module and intended for industrial automation tasks. Notably, the module's mounting mechanism involves a screw-in module design; however, users need to procure the TB712 terminal block separately for proper installation. The FC-202N315T7134H1814 is designed for demanding environments and provides reliable performance.
Central to its communication capabilities are the two CAN interfaces integrated into the module. This feature allows for real-time data exchange with other devices. The module's input voltage range is within 100-240 VAC. One might consider the compact design, facilitating integration into space-constrained systems. This controller module, with its comprehensive features, embodies a robust solution for industrial control applications requiring reliable communication and robust performance. There's a significant emphasis placed on ensuring electrical isolation.
Consider its operational parameters: this module comes equipped with dual CAN interfaces, enabling seamless communication with other industrial components, thereby enhancing system integration. For installation, one should procure a separate TB712 terminal block as the module employs a screw-in module mounting system. The FC-202N315T7134H1814 certainly packs advanced functionality into a compact, robust package engineered for industrial applications. One finds the requirement for an external terminal block noteworthy, adding a layer of flexibility in terminal selection. Finally, consider the module's network capabilities, these ensure connectivity for remote monitoring and control in modern industrial settings.