Model Type:Receiver Interface Module
Model Number:IM461-1
Manufacturer:SIEMENS
Duty to Supply Information:According to article 33, REACH regulation: the product contains the following substance from the candidate list in concentrations exceeding 0.1% by weight: 1,2-Dimethoxyethane, Ethylene glycol dimethyl ether (EGDME) (CAS 110-71-4; EC NO 203-794-9)
Nominal Input VAC:208;240 Volts AC
Amps (CT):4.2 Amps
Max. Frequency:600 Hertz
Dimensions:5.00 x 8.30 x 1.70 inches
Weight:0.006 KG
The SIEMENS S7-400 Receiver Interface Module (IM461-1) is a robust component designed to enhance the functionality of industrial automation systems. This modular module seamlessly integrates with various Power Supply units, facilitating efficient data transmission without the need for K BUS, thus reducing complexity and enhancing system reliability.
Crafted with high-quality plastic materials, the IM461-1 ensures durability and longevity, making it suitable for harsh industrial environments. Its compact design allows for easy installation on backplanes, ensuring a clean and organized setup.
This interface module supports compatibility with SIEMENS S7-400 CPUs and can be used with ET 200 PRO frequency converters, making it versatile for different applications across industries. Its integration with the ET 200 PRO bus system ensures reliable communication and data transfer, crucial for maintaining smooth operations in automated processes.
Equipped with advanced features, the SIEMENS IM461-1 is designed to provide complete protection against common industrial challenges, including electromagnetic interference (EMI), ensuring stable performance under various environmental conditions. It is an ideal choice for professionals looking to upgrade or enhance their existing industrial control systems.
The SIEMENS S7-400 Receiver Interface Module (IM461-1) comes with a detailed user manual and technical support, ensuring easy implementation and maintenance. With its efficient design and comprehensive compatibility, this module is poised to contribute significantly to the optimization of industrial automation processes.
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