Model Number:IC697MDL654
Type:Digital I/O Module
Module Design:Compact and Modular
Power Consumption:Minimal
Operating Temperature Range:-40°C to 70°C
Communication Interface:RS-485
Number of Inputs:16
Number of Outputs:16
Switching Voltage:24V DC
Switching Current:3A
Connection Type:DIN Rail Mountable
Operating System Compatibility:Windows, Linux
The GE FANUC IC697MDL654 is a cornerstone in the realm of industrial automation, engineered to handle the most demanding tasks with precision and efficiency. Its robust architecture ensures seamless integration with existing systems, making it an ideal choice for upgrading or expanding your current setup.
Equipped with an advanced Windows Embedded operating system, this module provides a versatile platform for executing sophisticated applications, from simple control logic to complex data processing tasks. The high-speed processor guarantees swift execution of commands, ensuring optimal performance in real-time environments.
With 256 MB of RAM and 2 GB of flash memory, the IC697MDL654 boasts ample storage capacity and fast data handling capabilities, enabling it to manage extensive datasets and software applications without compromise. Its dual communication ports—RS-485 and Ethernet—facilitate flexible connectivity options, supporting a wide range of devices and protocols.
Featuring low power consumption of just 15 watts, the IC697MDL654 is an energy-efficient solution that helps reduce operational costs while maintaining high performance. The compact design, measuring 11.5 inches by 3.5 inches by 3.5 inches, makes it suitable for space-constrained environments, yet its sturdy construction ensures durability and reliability.
Designed with user-friendliness in mind, the GE FANUC IC697MDL654 includes intuitive software tools for configuration and monitoring, streamlining the setup process and reducing maintenance efforts. Its compatibility with a variety of programming languages further enhances its adaptability, catering to diverse industry needs.
There are no reviews yet.