Description: The Solar Inverter is certified for a maximum open-circuit voltage of 680V. Components are designed with a sufficient safety factor. If exceeded, it stops feeding into the grid.
Remedy:
Check the sizing of your PV generator. Too many modules may be connected in series.
Reduce the number of modules and re-commission the system.
Fault 102: Isolation (Isolation Fault)
Description: Before each start-up, the Solar Inverter checks for ground leaks or insulation errors. If detected, feeding into the grid is stopped.
Remedy:
Check the PV system for possible insulation faults (e.g., crushed DC cables).
Fault 103: AFI>30mA (Differential Current Jump)
Description: Equipped with an AFI device sensitive to all currents, a differential current jump of >30 mA has been detected.
Remedy:
Inspect the PV system for potential insulation errors.
Fault 104: AFI>0.3A (Absolute Differential Current Jump)
Description: A differential current jump greater than 300mA was detected during operation.
Remedy:
Check the PV installation for possible insulation issues.
Fault 201: Overvoltage Error
Description: Constantly monitors AC network quality. High voltage peaks during grid feed-in will cause the inverter to stop and attempt to restart.
Remedy:
The inverter will restart automatically after the fault is cleared. If the error occurs often, consult your electricity provider.
Fault 203: UCA1>15% (AC Voltage Too High)
Description: Monitors the voltage level of the feeding phase. If it exceeds the maximum allowable value, it stops feeding into the grid.
Remedy:
Verify the configuration of the grid connection (energy meter) and discuss with your electricity provider about network stability.
Fault 204: UCA1<min (AC Voltage Too Low)
Description: If the minimum allowable voltage is exceeded, the inverter stops feeding into the grid.
Remedy:
Consult with your electricity provider about network stability and configuration.
Fault 210: Frq1>max (Frequency Too High)
Description: Constantly monitors the grid frequency. If it exceeds the allowable value, the inverter stops feeding into the grid.
Remedy:
Consult with your electricity provider for details on network stability.
Fault 211: Frq1<min (Frequency Too Low)
Description: Similar to fault 210 but for low frequency.
Remedy:
Same as for Frq1>max, consult your electricity provider.
Fault 212: DC Quota (Increased DC Content)
Description: Monitors the quality of accumulated current. If increased DC content is detected, the inverter stops feeding into the grid.
Remedy:
Restart the Solar Inverter. If the error repeats, contact technical support.
Fault 301: AFI-Over (Fault Current Measurement Range Exceeded)
Description: The integrated fault current sensor was used outside its measurement range.
Remedy:
Restart the Solar Inverter. Contact technical support if the error persists.
Fault 302: Monitoring Error
Description: The redundant monitoring unit detects deviations or errors in the regulation's measured values.
Remedy:
Restart the Solar Inverter. Contact technical support if the error repeats.
Fault 303: Overtemperature (Warning)
Description: Designed for ambient temperatures up to +40°C. Feeding power is linearly reduced upon reaching a pre-set temperature threshold of the heat sink.
Remedy:
Find a more suitable installation location. Clean the Solar Inverter if dirt hampers cooling.
Faults 401-422: Various Communication and Configuration Errors
Description: Errors related to SD card detection, CAN communication failures, SMTP server connection issues, DNS failures, and HTTP protocol errors.
Remedy:
Restart the Solar Inverter for immediate issues. Verify network settings, ensure proper cable connections, and consult technical support for persistent problems.
9xx: Maintenance Error
Description: An error related to maintenance has occurred.
Remedy:
Disconnect and reconnect the Solar Inverter from the grid and solar generator. If the error repeats, contact technical support.