Model Type:Redundancy Module
Manufacturer:Allen-Bradley
Module Number:1756-RM/A
Channels:2
Current Rating (5.1VDC):1.16A
Current Rating (24VDC):3.4mA
Enclosure Type:Open
RFI Suppression (80-2000MHz):10V/M
RFI Suppression (900MHz):3V/M
RFI Suppression (1890MHz):10V/M
Temperature Rating:-40°C to 70°C
Display:4-character alphanumeric
Mounting:Chassis
Display Contrast:High visibility
Communication Speed:10/100 Mbps
Power Supply:5.1VDC
Environmental Conditions:Non-condensing relative humidity 5-95%
Shock Resistance:30G
Vibration Resistance:2G
Isolation Type:Basic insulation
Connection Type:ControlNet A/B to backplane
Power Dissipation:5.1W
Isolation Rating:30V continuous
Engineered for critical control systems, the Allen-Bradley 1756-RM/A module ensures continuous operation even under adverse conditions. This redundant module provides dual-channel functionality, ensuring that if one channel fails, the other seamlessly takes over without interrupting production.
With an open-type enclosure and robust RF immunity, it meets stringent industrial standards for reliability and safety. Its 4-character alpha-numeric display allows for quick status checks, enhancing system management efficiency.
Built for durability and ease of integration, this module is compatible with ControlLogix platforms, offering seamless connectivity and performance. It supports advanced communication protocols and interfaces, including ControlNet, facilitating integration with a wide range of industrial automation equipment.
Designed for seamless installation within industrial control cabinets, the 1756-RM/A requires no special tools or skills. Its compatibility with standard connection cables ensures a quick setup process, minimizing downtime during installation.
Certified for operation in extreme temperature ranges, this module ensures reliable performance in harsh environments. With its high-level isolation and environmental conditions resistance, it withstands vibrations and shocks commonly encountered in industrial settings.
There are no reviews yet.