Model Type:Input/Output Modules
Model Number:1756-IF16IH
Manufacturer:Allen-Bradley
Application Environment:-20°C to +60°C
Power Consumption:10 Watts
Communication Protocol:ControlNet
Data Transfer Rate:10 Mbits/s
Number of Channels:16
Channel Configuration:8 Single-Ended, 8 Differential
Signal Range:-10V to +10V DC
Accuracy:±1% of Full Scale
Enclosure Type:IP20
Mounting:Panel
Power Supply Compatibility:24V DC
The Allen-Bradley 1756-IF16IH modules offer high precision and reliability in industrial environments, making them an essential choice for complex automation systems. With 16 versatile analog input channels, they efficiently process signals within the range of -10 to +10 V DC, ensuring accurate data capture.
Equipped with a robust ControlLogix communication interface, these modules seamlessly integrate into larger automation networks, enabling smooth data exchange with other devices. Their compatibility with Ethernet/IP protocols ensures compatibility across various industrial systems, enhancing system interoperability.
Designed for versatility, the Allen-Bradley 1756-IF16IH modules can operate within a wide temperature range from -20°C to +70°C, ensuring reliable performance in diverse industrial settings. Their IP20 enclosure type provides basic protection against dust and splashing water, suitable for many manufacturing environments.
These modules are not just about functionality; they also prioritize safety and efficiency. With a power consumption of up to 100 mA, they are energy-efficient, reducing operational costs without compromising performance. The modular design allows for easy installation on the panel, simplifying the setup process and minimizing downtime.
Furthermore, the Allen-Bradley 1756-IF16IH Analog Input/Output Modules come with Allen-Bradley’s renowned quality assurance, backed by extensive testing and industry-leading support. This commitment to excellence ensures that these modules deliver exceptional performance throughout their lifespan, contributing significantly to the overall productivity and reliability of industrial automation systems.
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