Number of Channels:8
Common Mode Voltage Range:-20 to +20 V
Absolute Input Voltage:+/-7.5 VDC or 7.5 VAC RMS
Input Range:-20 to +20 mA
Absolute Input Current:-30 to +30 mA
Overvoltage Protection:7.5 VAC RMS
Input Range (Voltage):-10 to +10 VDC – 1 LSB
Current Rating (Backplane):35 MA at 5 V, 85 MA at 24 V
Isolation (Backplane):500 VDC
Enclosure Type:Open Type
Mounting Type:Chassis
Temperature Rating:0 to 60°C
Environmental Conditions:5% to 95% non-condensing humidity
The Allen Bradley AB 1746-NR8 SLC 500 Analog Input Module boasts an advanced design, offering high precision in measuring analog signals within industrial environments. This module ensures reliable data acquisition, making it an indispensable component in various automation systems.
Equipped with 8 input channels, the module can accurately capture a wide range of signal variations, essential for complex manufacturing processes and continuous monitoring applications. Its robust voltage handling capabilities, including overvoltage protection, guarantee system integrity even under harsh conditions.
With its open-type enclosure, the module is suitable for diverse mounting scenarios, enhancing its adaptability in different industrial settings. The ability to operate in temperature ranges from 0°C to 60°C and withstand environmental conditions from 5% to 95% humidity ensures consistent performance regardless of the operational environment.
Designed for seamless integration with Allen Bradley’s comprehensive control systems, this input module facilitates efficient communication through multiple protocols, supporting EtherNet/IP, DeviceNet, and other standard interfaces. This interoperability simplifies system expansion and maintenance, reducing downtime and enhancing overall productivity.
The Allen Bradley AB 1746-NR8 is manufactured with premium materials to withstand the rigors of industrial use, ensuring longevity and reliability over extended periods. Its modular design allows for easy customization and upgrading, catering to evolving industrial requirements without the need for extensive system redesign.
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