Provides a comprehensive overview of global system portfolios, allowing for quick fault detection and efficient technical operation.
Connect to the logger’s web interface (default IP: 192.168.0.99 or via DHCP). Navigate to: Record:
As grids become more volatile, VCOM is evolving into an platform. With the upcoming "VCOM Grid" module, inverters can autonomously react to grid frequency drops by curtailing or increasing reactive power—without human intervention. This transforms the platform from a monitoring tool into a grid-forming asset. vcom meteocontrol
The effectiveness of any monitoring platform relies on accurate data. For this, meteocontrol has developed the blue’Log X-Series data loggers. These devices act as the "heart of on-site monitoring," recording all relevant system data from inverters, meters, and sensors. Available in the blue’Log XM (Monitoring) and XC (Control) variations, these loggers are technology-neutral, compatible with over 5,100 devices, and comply with international grid standards, including UL listing for North America.
By analyzing historical patterns and weather data, the system minimizes ghost alarms, allowing O&M teams to focus on actual issues. 3. Precise Yield Forecasting and Simulation With the upcoming "VCOM Grid" module, inverters can
Uses a "digital twin" approach to compare real-time data against theoretical physical models, automatically identifying losses from systematic errors like shadowing or soiling.
The extends this functionality to the field. Technicians on-site can view their assigned tickets, upload comments and pictures of equipment, and close out tasks via their iOS or Android smartphones. This seamless integration ensures that all maintenance history is logged and accessible, closing the loop between the field and the control room. For this, meteocontrol has developed the blue’Log X-Series
by meteocontrol GmbH is an industry-leading, web-based remote monitoring and operational management platform designed for global photovoltaic (PV) and battery storage portfolios. As renewable energy infrastructures scale from commercial systems to utility-scale plants, managing diverse hardware configurations, predicting energy yields, and organizing Operations and Maintenance (O&M) teams becomes increasingly complex.