Model Type:Redundancy Module
Manufacturer:Allen-Bradley
Module Series:ControlLogix
Channels:Dual
Current Rating (A):Max. 1.16 A at 5.1 VDC, 3.4 mA at 24 VDC
Enclosure:Open Type
RFI Suppression:Radiated: 10 V/M with 1 KHz sine-wave 80% AM from 80 – 2000 MHz, 10 V/M with 200 Hz 50% pulse 100% AM at 900 MHz, 3 V/M with 1 KHz sine-wave 80% AM from 2000 – 2700 MHz
Display:4-character alpha/numeric
Mounting:Chassis
Temperature Range:32 – 140 °F
The Allen-Bradley 1756-RM Redundancy Module is specifically designed to provide a level of fault tolerance essential for high-reliability industrial control systems. It features dual redundant channels that automatically switch to the standby channel in case of a primary failure, ensuring uninterrupted operation and minimizing downtime.
Engineered for ControlLogix systems, this module seamlessly integrates with the Allen-Bradley ecosystem, offering advanced communication protocols for efficient data exchange. Its robust design withstands challenging industrial environments, including high vibration and humidity conditions, making it suitable for a wide range of applications.
With its open-type enclosure and 4-character alpha-numeric display, the 1756-RM is easy to install and monitor. The module’s compact size allows for flexible integration within existing control cabinets, optimizing space and improving system layout efficiency.
The RFI suppression capabilities of the module ensure reliable performance even in environments prone to electromagnetic interference, safeguarding against potential disruptions caused by external signals. This feature is particularly important in manufacturing settings where high-frequency noise can interfere with sensitive control functions.
Designed with the latest technology and built to withstand harsh industrial conditions, the Allen-Bradley 1756-RM Redundancy Module is a critical component for maintaining the integrity and efficiency of complex automation systems. Its integration with ControlLogix platforms provides a scalable solution for enhancing system availability and reducing maintenance costs.
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