Model:IC695NKT001
Series:RX3i
Communication Interface:Ethernet
Data Transfer Rate:Up to 10 Mbps
Compatibility:Universal for diverse control applications
Power Consumption:Less than 3W
Dimensions:100mm x 86mm x 54mm
Weight:Approx. 0.12kg
The GE FANUC IC695NKT001 RX3i Communication Module is a cutting-edge component designed for integration into complex industrial automation setups. Its high-speed processor ensures swift data processing, while its robust memory capacity supports extensive communication tasks without lagging. Compatible with a wide array of communication protocols including Modbus, Ethernet/IP, and Profinet, this module ensures interoperability across various systems and devices, enhancing overall system efficiency.
Engineered for durability and reliability, the IC695NKT001 operates effectively within a broad temperature range (-20°C to +70°C), making it suitable for use in harsh industrial environments. Its compact design allows for easy integration into existing control panels, without compromising on functionality.
With support for up to 8 concurrent communication sessions, the module significantly boosts the throughput of information exchange, making it ideal for applications requiring high-speed data transfer and real-time control adjustments. This feature is particularly beneficial in scenarios where multiple devices need to communicate simultaneously, ensuring smooth operation and enhanced productivity.
Designed with future scalability in mind, the IC695NKT001 RX3i Communication Module ensures a seamless transition to newer technologies or upgrades without the need for major system reconfigurations. This forward-thinking design not only protects your investment but also prepares your system for future advancements in automation technology.
For optimal performance, we recommend pairing the IC695NKT001 with other GE RX3i components, such as controllers, input/output modules, and human machine interfaces (HMIs). This combination allows for a fully integrated solution that optimizes workflow, reduces downtime, and maximizes operational efficiency in industrial settings.
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