Operating Frequency Range:0.1~600 Hz
Modular & Compact Design:Yes
Built-in PLC Function:Yes
Built-in EMI Filter:230V 1 phase / 460V 3 phase
Fieldbus Modules:Optional (DeviceNet, Profibus, LonWorks, CANopen)
RFI-Switch for Mains:Yes
Easy DC BUS Sharing:Flexible
Complete Protection:Nominal Input VAC: 208;240 Volts AC, Amps (CT): 4.2 Amps, Max. Frequency: 600 Hertz
The Siemens SIMATIC S7-400, 6ES7414-3XJ00-0AB0 is an essential component for modern industrial automation systems, engineered with precision to withstand the rigors of continuous operation. This robust automation module offers unparalleled reliability and efficiency, making it a preferred choice for applications requiring high accuracy and performance.
Featuring a modular and compact design, this unit seamlessly integrates into existing systems without compromising on space or functionality. Its built-in PLC function ensures smooth operation, eliminating the need for separate controllers, thus streamlining your system architecture.
Equipped with an integrated EMI filter for 230V single-phase and 460V three-phase configurations, the module is designed to minimize interference and maintain signal integrity, ensuring optimal performance under various electrical conditions. The inclusion of optional fieldbus modules like DeviceNet, Profibus, LonWorks, and CANopen facilitates easy communication with other devices in the network, enhancing system flexibility and scalability.
The RFI switch for mains provides protection against electromagnetic interference, safeguarding critical components from potential damage. This feature is particularly valuable in environments prone to electrical disturbances, ensuring uninterrupted operation even under challenging conditions.
With its complete protection measures, the module ensures safety and longevity. It is capable of handling nominal input voltages of 208 and 240 Volts AC, with a maximum current of 4.2 Amps, making it suitable for a wide range of applications. The ability to share DC BUS adds another layer of operational efficiency, allowing for optimized power distribution within the system.
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