Operating Voltage:220V
Input Range:4-20mA / 0-5V
Resolution:12-bit
Accuracy:+/- 0.05% + 2 LSBs
Sampling Rate:Up to 1 kHz
Power Consumption:≤ 5 W
Connectors:Standard terminal block connectors
Dimensions:100 x 90 x 35 mm
Weight:0.5 kg
Temperature Range:-40°C to +85°C
Certifications:CE, UL, FCC
Experience unparalleled precision with the National Instruments FP-AI-110 Analog Input Module, engineered specifically for demanding industrial applications. This robust module boasts an impressive 16-bit resolution, ensuring exceptional accuracy in signal acquisition. With its 8-channel design, it efficiently processes multiple signals simultaneously, making it ideal for complex automation setups.
Designed for versatility, the FP-AI-110 is compatible with a wide range of control systems through its USB interface, facilitating seamless integration and real-time data exchange. Its operating voltage flexibility from 9 to 36 VDC ensures compatibility across various power sources, while its operating temperature range (-40°C to +85°C) guarantees reliable performance in extreme conditions.
Built with durability and efficiency in mind, this module consumes a maximum of 5 watts of power, making it energy-efficient without compromising on performance. Whether you’re monitoring critical machinery or collecting data for process control, the National Instruments FP-AI-110 delivers the precision and reliability you need.
Engineered with cutting-edge technology, the FP-AI-110 simplifies the setup process, reducing the time and effort required for integration into existing systems. Its user-friendly interface and comprehensive documentation make it accessible to both novice and experienced users alike, ensuring quick adoption and easy maintenance.
Backed by National Instruments’ reputation for quality and innovation, the FP-AI-110 Analog Input Module comes with industry-leading support and a commitment to continuous improvement. Upgrade your industrial automation capabilities today with this state-of-the-art solution, and experience the benefits of precise, efficient, and reliable signal processing.
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