Place of Origin:USA
Model Number:1756-BATM
Order Number:96391474
Brand:Allen-Bradley
Operating Voltage:120 – 240 VAC/DC
Input Current:Max. 20 mA
Output Current:Max. 1 A
Communication Interface:RS-485 Modbus RTU
Memory Capacity:512 bytes RAM, 64 KB EEPROM
Operating Temperature:-40°C to +70°C
Storage Temperature:-55°C to +85°C
Certifications:UL, CE, CSA, FCC
The Allen-Bradley 1756-BATM ControlNet Module is a crucial component in any advanced ControlLogix automation setup, offering unparalleled performance and reliability. It facilitates efficient data exchange between different devices in a ControlNet network, ensuring smooth operation and enhanced system responsiveness.
This module is meticulously designed to withstand harsh industrial environments, boasting dust-proof, rust-proof, and shock-proof capabilities, making it ideal for demanding applications across various industries. Its robust construction ensures longevity and reliability under challenging conditions.
Equipped with a high-speed RJ-45 connector, the 1756-BATM allows for fast and secure data transmission, reducing latency and improving overall system performance. This feature is particularly beneficial in applications requiring real-time data processing and decision-making.
With its compatibility with DC 24V power supply, the module is versatile and can be easily integrated into existing control systems without requiring significant modifications. This flexibility makes it an attractive choice for both new installations and retrofit projects.
Moreover, the Allen-Bradley 1756-BATM operates within a temperature range of -20°C to +60°C, ensuring continuous functionality in a wide variety of climates. Whether you’re dealing with cold storage facilities or hot manufacturing plants, this module is engineered to maintain peak performance.
Investing in the Allen-Bradley 1756-BATM ControlNet Module is an investment in your automation system’s future. Its combination of advanced technology, durability, and compatibility makes it an indispensable tool for achieving optimal performance and efficiency in industrial settings.
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