Model:1794-ADN
Flexibility:Flexible modular design for easy integration
Input/Output Channels:Multiple configurable input and output channels
Communication Protocol:Supports MODBUS RTU for seamless data exchange
Power Supply:12-24V DC, wide voltage range for robust operation
Operating Temperature:-20°C to +60°C, suitable for harsh industrial conditions
Dimensions:Compact size for efficient space utilization
Connectivity:DIN rail mountable for flexible installation
Introducing the AB 1794-ADN FLEX I/O, an innovative modular control solution that revolutionizes industrial automation by offering unparalleled performance and reliability. This compact yet powerful module is designed to integrate seamlessly with existing systems, enhancing efficiency and productivity on the factory floor.
Featuring advanced Ethernet/IP technology, the AB 1794-ADN FLEX I/O provides fast and reliable communication speeds, ensuring smooth data flow between devices. Its robust design withstands harsh industrial conditions, guaranteeing uninterrupted operation even under extreme temperatures and humidity levels.
With 8 analog input and output channels, this module caters to a wide range of industrial applications, from monitoring critical process variables to controlling complex machinery. The DC 24V power supply ensures compatibility with various industrial standards, making it a versatile choice for diverse automation needs.
Crafted with precision and durability, the AB 1794-ADN FLEX I/O boasts a sleek and compact design, measuring 124 x 50 x 120 mm, and weighing only 0.3 kg. This lightweight yet sturdy module can be easily integrated into any existing system without compromising on functionality or performance.
Experience the future of industrial automation with the AB 1794-ADN FLEX I/O. Its compatibility with Allen-Bradley’s comprehensive ecosystem of products and services ensures a seamless integration experience, allowing you to optimize your operations and drive productivity gains across your manufacturing processes.
There are no reviews yet.