The Siemens SM331-7HF01-0AB0 Analog Input Modules offer high-performance, precise analog input capabilities designed for industrial control systems, ensuring reliable data acquisition in harsh environments.
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The Siemens SM331-7HF01-0AB0 Analog Input Modules offer high-performance, precise analog input capabilities designed for industrial control systems, ensuring reliable data acquisition in harsh environments.
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Model Type:Analog Input Modules
Manufacturer:Siemens
Model Number:SM331-7HF01-0AB0
Dimensions:12.90 x 14.80 x 5.10 mm
Weight:0.291 kg
Analog Input Channels:8
Resolution:14-bit
Input Types:[“Voltage”,”Current”]
Alarm and Diagnostics:Yes
Bus Interface:Active Backplane Bus
Operating Temperature:-25°C to +70°C
Conformity:EN50155 T1 KAT 1 KL A/B
ISOchronous Mode Support:Improved Bus Cycle Time
The Siemens SM331-7HF01-0AB0 Analog Input Modules are engineered for precision and reliability, ensuring accurate data acquisition in harsh industrial conditions. These modules are equipped with advanced signal processing algorithms that enhance noise immunity and provide stable readings under varying environmental conditions.
Each module is compatible with a wide range of sensors, including thermocouples, resistive, thermistors, and Pt100 sensors, making it a versatile choice for diverse applications in process control, manufacturing, and automation.
Designed with a compact footprint, the SM331-7HF01-0AB0 is ideal for space-constrained systems without compromising on functionality or performance. Its robust design ensures longevity and reduces maintenance requirements.
The device supports DeviceNet communication protocol, facilitating seamless integration with other Siemens devices and third-party systems, enhancing system efficiency and connectivity.
Installation and configuration are straightforward, thanks to the user-friendly programming environment provided by the SIMATIC S7-400 PLC. Technical support and comprehensive documentation are available to assist users in optimizing their setup and achieving maximum operational efficiency.
