Frequency Range:0.1~600Hz
Modular & Compact Design:Compact yet versatile, facilitating easy integration in diverse industrial setups
Built-in PLC Function:Enhances system efficiency by integrating control logic directly within the module
Built-in EMI Filter:(230V 1 phase / 460V 3 phase) Ensures reliable operation in noisy environments
Optional Fieldbus Modules:DeviceNet, Profibus, LonWorks, and CANopen support seamless connectivity across industrial networks
RFI-Switch for Mains:Prevents interference, ensuring robust performance under varying electrical conditions
Easy DC BUS Sharing:Facilitates efficient power distribution, enhancing system scalability
Flexible Extension:Offers adaptability to evolving system requirements
Complete Protection:Ensures operational safety and reliability
Nominal Input VAC:208;240 Volts AC
Amps (CT):4.2 Amps
Max. Frequency:600 Hertz
Product Model:SIMATIC 6ES7134-6GD01-0BA1
Product Category:SIEMENS PLC Systems
Engineered with precision for industrial automation applications, this Analog Input Module from SIEMENS is a critical component for signal processing in manufacturing environments.
Featuring a modular and compact design, it seamlessly integrates into existing control systems, enhancing operational efficiency without compromising on space.
Equipped with built-in PLC functionality, the module offers advanced control options directly integrated into its hardware, streamlining system architecture and reducing complexity.
With an integrated EMI filter, the module ensures robust performance by mitigating electromagnetic interference across different power supply configurations, ensuring reliable data transmission and processing.
Supporting various fieldbus protocols through optional modules (DeviceNet, Profibus, LonWorks, CANopen), the module facilitates interoperability with a wide range of automation devices, fostering a cohesive network environment.
Equipped with an RFI switch for the mains supply, the module ensures enhanced protection against radio frequency interference, safeguarding against potential disruptions in signal integrity.
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