Grid operators employ a wide range of signals that are required for feed-in management and that are used to send commands and the response signals. The Solar-Log® PM Package is a single system to implement the various requirements with minimum effort. The PM Package consists of I/O Boxes and PM profiles. The I/O Boxes are a flexible gateway between remote control technology and the Solar-Log 2000. The input and output signals from the I/O Boxes are defined by the PM profile according to the grid operator requirement.
By using SCBs, the DC output from the individual strings is switched in parallel and connected to the central inverter. Recording the power per string and the transmission of the SCB measurements allows for performance monitoring at the string level.
The Solar-Log® combined with the Solar-Log WEB Enerest™ monitors and compares every individual string, ensuring reliable and precise PV plant monitoring. The currents from the individual strings are compared with each other for error identification and localization. Disturbances that result in yield decreases are immediately detected and can be fixed.
Solar-Log® devices support SCBs from various manufacturers. Please refer to the accessories database on our website for details on the supported SCBs and manufacturers (Support / Supported Accessories).
In some countries, the grid network capacity for feed-in energy produced by a solar PV installation is becoming more of a concern, with some G59/3 applications even being rejected completely by the responsible DNO. In other areas, grid saturation constraints lead to stipulated maximum reverse power limits imposed by the DNO, which is often far less than the peak theoretical limit that the Solar PV array can produce.
The Solar-Log® PM Box combines the inherent power management capabilities of Solar-Log® control systems with a fail-safe backup unit, should the control system fail or ceases to be effective. This solution is a standardized, yet scalable framework to provide dynamic, closed-loop power management control over the inverter bank, suitable for up to 2 MWp size arrays and can be implemented globally.