Type:Analog Input Module
Model:6ES7134-4NB01-0AB0
Manufacturer:Siemens
Signal Acquisition:8-channel
Sampling Rate:500 Hz
Resolution:12-bit
Power Supply:DC 5 V
Input Range:-10 V to +10 V
Operating Temperature:-25°C to +60°C
Connection Type:M8 connector
Communication Interface:Profinet
Safety Features:Ex approved
The SIMENS 6ES7134-4NB01-0AB0 Analog Input Module is a critical component in industrial automation systems, designed for applications requiring precise analog signal acquisition. Its modular and compact design allows for flexible installation and integration within existing setups, enhancing operational efficiency.
Equipped with built-in PLC functionality, this module simplifies control operations by providing advanced programming capabilities directly on the device, eliminating the need for external PLCs. This feature ensures streamlined automation processes and reduces costs associated with additional hardware.
With an integrated EMI filter, the module safeguards against electrical disturbances caused by radio frequency interference, ensuring stable operation in challenging environments. This robust feature is particularly beneficial in settings where electromagnetic compatibility is crucial for system performance.
Offering compatibility with multiple fieldbus protocols through optional modules, the SIMENS 6ES7134-4NB01-0AB0 seamlessly integrates with a wide range of industrial communication networks. This versatility supports seamless connectivity and data exchange between different devices and systems, enhancing overall system integration.
The inclusion of an RFI-switch for mains provides an extra layer of safety and reliability. It ensures that the module can operate effectively even in environments with fluctuating or potentially hazardous power supplies, minimizing downtime and improving operational safety.
Ease of DC BUS sharing enables efficient power management among connected modules, optimizing energy usage and reducing maintenance requirements. This feature is particularly advantageous in complex systems where resource allocation is critical for optimal performance.
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