Compatibility:Supports ESB and ER Buses, Compact Field Control Units (FIO) and Vnet/IP FIO
Communication Speed:Interfaces with FOUNDATION fieldbus (H1) at Low speed Voltage Mode
Ports:Equipped with 4 ports for versatile connectivity
Data Transfer Rate:Standard at 31.25 kbps for robust data flow
Safety Standards:UL/CSA and CE compliant for enhanced operational reliability
Integrating cutting-edge technology, the Yokogawa ALF111-S00 FIELDBUS COMMUNICATION MODULE is engineered to elevate the performance of industrial automation systems. This module acts as a Link Active Scheduler (LAS) for FOUNDATION fieldbus (H1), ensuring precise data exchange between field devices and control systems.
With its compatibility across multiple bus systems, including ESB and ER Buses, and compact field control units, this module provides unparalleled flexibility for system integration. It is specifically designed to work seamlessly with FIO and Vnet/IP FIO, making it a versatile choice for modern industrial environments.
Featuring 4 ports for FOUNDATION fieldbus (Low speed Voltage Mode), the ALF111-S00 ensures a robust and reliable connection, enabling efficient data transmission at a standard rate of 31.25 kbps. This high-speed capability is crucial for maintaining smooth operations and responsiveness in complex automation setups.
Safety and compliance are paramount in industrial applications. The module adheres to UL/CSA and CE safety standards, ensuring that it meets the stringent requirements for operational reliability and safety in various geographical locations. This compliance allows for peace of mind, knowing that the product has been rigorously tested and approved for use in demanding industrial settings.
Designed with durability and reliability in mind, the ALF111-S00 FIELDBUS COMMUNICATION MODULE is an essential component for upgrading or integrating existing industrial control systems. Its seamless integration capabilities, combined with its advanced functionality and safety features, make it a preferred choice for enhancing the efficiency and reliability of industrial automation processes.
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