Operating Voltage:24V DC
Communication Protocol:HART 7
Input Type:4-20mA Current Loop
Channels:8
Signal Processing Accuracy:±0.01%
Operating Temperature:-40°C to +85°C
Humidity Range:0% to 95% RH (non-condensing)
Introducing the FOXOBORO FBM214 P0914XQ, a cutting-edge communication Hart input module that revolutionizes the way industries manage their control systems. This module is meticulously designed to ensure reliable and efficient data transmission in even the most challenging environments. With its advanced communication protocol, the FBM214 P0914XQ seamlessly integrates with existing systems, providing a robust solution for industrial automation needs.
Equipped with a wide operating temperature range from -40°F to 185°F (-40°C to 85°C), this module ensures uninterrupted operation across various climatic conditions. Its compatibility with HART protocol guarantees compatibility with a broad spectrum of devices and systems, enhancing the flexibility and scalability of industrial control setups.
Featuring a current input type, the FBM214 P0914XQ supports a maximum input current of 60 mA, making it suitable for a wide range of applications. The accuracy at 20 mA is remarkable, at ±0.02% of full scale, ensuring precise measurement and control. Moreover, the power consumption is typically less than 1 W, optimizing energy usage and reducing operational costs.
The protection class IP67 ensures dust-tight and waterproof performance, making it ideal for outdoor or harsh indoor industrial settings. This feature is particularly beneficial in environments where maintenance access might be limited or where equipment needs to withstand adverse conditions.
With its versatile voltage range of 12 VDC to 28 VDC, the FOXOBORO FBM214 P0914XQ offers adaptability to different power sources, ensuring compatibility and ease of installation across various industrial settings. This module is an indispensable tool for engineers and technicians seeking to enhance their control system’s efficiency and reliability.
There are no reviews yet.