EPRO MMS 6350

  • Microcontroller-based Design: Ensures reliable and accurate speed measurement and control.
  • Three-Channel System: Employs independent channels for speed monitoring, enhancing system reliability and reducing false trips. This multi-channel design provides redundancy and ensures accurate detection of overspeed events.
  • High Safety Level: Password protection and redundant power supplies contribute to system security and uninterrupted operation. Password protection prevents unauthorized access and configuration changes, while redundant power supplies guarantee system availability in case of primary power supply failure.
  • Multiple Limit Values: Allows setting up to six limit values per channel for triggering alarms or protective actions at different speed thresholds. This flexibility enables users to customize the protection scheme based on specific equipment requirements and risk profiles.
  • Self-Test Functions: Regularly checks the electronic circuits and sensors for proper operation, promoting system integrity and facilitating proactive maintenance.
  • Communication Interfaces (Possible): May include RS232 and RS485 interfaces for data communication with a host computer or SCADA system. These interfaces enable remote monitoring, data logging, and configuration changes.
  • Optional PROFIBUS-DP Interface: Provides integration with industrial control networks based on the PROFIBUS protocol, facilitating seamless communication within larger automation systems.
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Description

EPRO MMS 6350: Digital Overspeed Protection System

The EPRO MMS 6350 is a digital overspeed protection system designed to safeguard rotating machinery in industrial settings by preventing accidents and equipment damage caused by excessive speeds. Here’s a comprehensive overview of its key features and applications:

Key Features:

  • Microcontroller-based Design: Ensures reliable and accurate speed measurement and control.
  • Three-Channel System: Employs independent channels for speed monitoring, enhancing system reliability and reducing false trips. This multi-channel design provides redundancy and ensures accurate detection of overspeed events.
  • High Safety Level: Password protection and redundant power supplies contribute to system security and uninterrupted operation. Password protection prevents unauthorized access and configuration changes, while redundant power supplies guarantee system availability in case of primary power supply failure.
  • Multiple Limit Values: Allows setting up to six limit values per channel for triggering alarms or protective actions at different speed thresholds. This flexibility enables users to customize the protection scheme based on specific equipment requirements and risk profiles.
  • Self-Test Functions: Regularly checks the electronic circuits and sensors for proper operation, promoting system integrity and facilitating proactive maintenance.
  • Communication Interfaces (Possible): May include RS232 and RS485 interfaces for data communication with a host computer or SCADA system. These interfaces enable remote monitoring, data logging, and configuration changes.
  • Optional PROFIBUS-DP Interface: Provides integration with industrial control networks based on the PROFIBUS protocol, facilitating seamless communication within larger automation systems.

Applications:

  • Turbines (steam, gas, wind): Protecting turbines from overspeed conditions that can cause catastrophic failures.
  • Fans and blowers: Preventing excessive speeds that could damage equipment or lead to safety hazards.
  • Generators: Safeguarding generators from overspeeding and potential damage.
  • High-speed machinery: Monitoring and protecting various high-speed rotating equipment in industrial processes, such as centrifuges, compressors, and paper mills.