Processor Type:Advanced 32-bit Microcontroller
Operating Voltage:600Vac
Power Consumption:15W
Communication Protocol:Modbus RTU
Mounting Mode:Surface/Wall
Operating Temperature Range:-20°C to +60°C
Enclosure Color:RAL9002 – Steel Grey
Number of Digital Inputs:6
Number of Digital Outputs:3
Response Time (Input):4-6ms
Load Capacity (Output):24VDC, 50mA
The VIBRO METER VM600 CPU M, Modular Control Module, stands out for its robust design tailored specifically for heavy-duty industrial environments. Its modular structure allows for easy integration into existing systems, enhancing operational efficiency without compromising on performance.
Equipped with a high-power 25 HP processor, this control module ensures rapid and accurate responses to operational demands. Its compatibility with Modbus RTU communication protocol facilitates seamless integration with other industrial automation systems, enabling comprehensive data exchange.
Featuring a surface/wall mounting option, the VM600 CPU M offers flexible installation solutions to suit diverse industrial settings. The use of RAL9002 color for the enclosure not only provides a professional aesthetic but also enhances durability against environmental factors commonly encountered in industrial spaces.
With seven digital inputs, each equipped with PNP/NPN circuitry and a 4-6ms response time, the VM600 CPU M enables precise control over various operational functions. This includes start/stop, forward/reverse, constant speed, and ramp pair selection capabilities, providing users with unparalleled flexibility in managing their machinery.
The inclusion of three digital outputs further expands the module’s functionality, allowing for control over external devices or systems. This feature is crucial for automating processes and ensuring smooth operation across different components of a production line or manufacturing system.
Engineered with precision and reliability at its core, the VIBRO METER VM600 CPU M, Modular Control Module, is an indispensable component for industries seeking to optimize their control systems and enhance overall productivity.
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