New Feature of the SMT+ System for Diesel Monitoring in CBPF Generators - SMD

The Computing and Artificial Intelligence Laboratory of CBPF (LITCOMP-IA) has completed a significant update to the SMT+ system: the integration of a new feature for real-time monitoring of diesel SMD levels in the center's generators. This functionality is designed to improve the operational efficiency and reliability of critical power systems.

Technical Specifications and Advantages of the System:

  • Calibration: The system offers calibration capability, allowing precise adjustments as necessary to ensure measurement accuracy.
  • Integrated Communication: Equipped to communicate with 10-inch SMT+ visualization modules, the system provides a clear and direct interface for monitoring diesel levels.
  • Communication Protocols: Uses SNMP (Simple Network Management Protocol) and JSON for data transmission, facilitating integration with different platforms and management systems.
  • Audible Alarm: Includes an audible alarm system that is automatically activated in case of critical diesel levels, effectively alerting the team.
  • Cloud Configuration: The system can be configured to send data to a cloud where it can be analyzed and graphed. In emergency situations, the system can send automatic alerts to the CBPF DataCenter RSDC infrastructure team.
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Photo: The image shows the diesel measurement system, identified as SMD, equipped with a panel displaying a detailed graph of the current diesel level in the generator. The graph is represented in a timeline format, indicating the amount of fuel over time. Next to the graph, there is a VU display with an analog needle moving between the clearly labeled markings from "Empty" to "Full," providing an instant reading of the current diesel tank status. The panel and displays are mounted on an interface with control and adjustment buttons, configured to facilitate real-time operation and monitoring.

Expected Impact:

The implementation of this new SMT+ system functionality aims to provide more effective control over diesel consumption and availability, essential for the continuity of operations and the security of the data processed by CBPF. The capability for real-time monitoring and automated alerts contributes to more efficient and proactive management of critical infrastructures.