FOXBORO FBM201 P0914SQ: Advanced Analog Input Modules for Industrial Automation
Input Type:Analog
Model:FBM201
Sub-Model:P0914SQ
Operating Voltage:12-48V DC
Frequency Response:DC ± 1% at 0Hz, 0.01% at 1kHz
Input Range:-10V to +10V or 0V to 10V
Channels:4
Power Consumption:≤ 5W
Communication Interface:MODBUS RTU
Reliability Rating:IP67
Temperature Range:-20°C to +85°C
Dimensions:140mm x 140mm x 110mm
Weight:1.5kg
Engineered for robust industrial environments, the FOXBORO FBM201 P0914SQ Analog Input Modules provide unparalleled accuracy and reliability in data acquisition tasks. These modules are specifically designed to interface seamlessly with Foxboro's advanced process control systems, ensuring efficient integration into existing automation networks.
With an operating voltage range of 12-48V DC, these modules are versatile enough to function in a wide variety of industrial settings, supporting diverse power supply requirements. Their exceptional frequency response guarantees high-quality signal processing, even under varying operational conditions.
Featuring a wide input range of -10V to +10V or 0V to 10V, these modules can accurately capture and process a broad spectrum of analog signals, making them ideal for monitoring critical parameters in industrial processes. The inclusion of 4 channels allows for simultaneous data acquisition from multiple sources, enhancing productivity and efficiency.
The FOXBORO FBM201 P0914SQ modules are equipped with a MODBUS RTU communication interface, facilitating easy connection and communication with a wide range of control systems and software platforms. This feature ensures seamless data exchange, streamlining the setup and operation of complex automation systems.
Engineered with reliability in mind, these modules are rated IP67, offering protection against dust, water, and other environmental hazards commonly encountered in industrial settings. Their ability to operate within a temperature range of -20°C to +85°C ensures durability and longevity in challenging environments, contributing to overall system uptime and reliability.