Processor Speed:300MHz and 700MHz Pentium III or 1.8GHz Pentium M CPU

Memory Capacity:Supports up to 64MB user memory and 64MB flash memory

Communication Capabilities:Compatible with industrial standard fieldbus communications like Profibus and DeviceNet

Network Interface:Embedded 10/100 Mbps self-adaptive half/double data rate Ethernet interface

Compatibility:Seamless integration with existing 90-30, 90-70 applications and industrial control systems

Upgradability:Controller can be upgraded without disrupting original cabling

Environmental Specifications:Operational temperature range: -10°C to +55°C, storage temperature range: -20°C to +70°C

    The GE Fanuc IC697ACC722 Control System Module is an indispensable component for modern industrial automation systems. Designed with advanced technology, it seamlessly integrates into various control networks, ensuring smooth operation and reliable data processing.

    Featuring a compact and robust design, this module supports multiple communication protocols, enhancing compatibility with a wide range of devices and systems. Its high-speed processor ensures efficient execution of complex control algorithms, while its ample memory capacity accommodates extensive programming needs.

    Operated within an expanded temperature range of -40°C to +70°C, the IC697ACC722 is suitable for deployment in harsh industrial environments. The IP20 enclosure protects the internal components from dust and splashes, maintaining optimal functionality under challenging conditions.

    Easy to install and integrate, this control system module simplifies the setup process without compromising on performance. It is compatible with GE Fanuc’s comprehensive suite of software tools, enabling users to configure, monitor, and optimize their systems efficiently.

    Equipped with dual communication ports, the IC697ACC722 facilitates flexible connectivity options, allowing for the exchange of data between different subsystems. This feature is particularly beneficial in complex manufacturing setups where coordination among multiple machines and processes is essential.