Millions of households and industries around the world have already chosen PV systems to power their loads. PV systems provide a green, economical, stable and convenient source of energy for people’s lives, and also try to provide a safe operation environment for users. Among the PV safety incidents that occur worldwide, electrical fires have the highest incidence and cause the most damage.
Most of these fire incidents in PV plants are caused by DC arcs, so the necessary protective measures need to be taken to improve the safety of PV systems, and one of these measures is the Arc-detection function (AFCI) “Arc fault circuit interrupter”.
An electric arc, also known as an arc discharge, occurs when one conductor separates from another in an energised high voltage circuit and an electric arc may appear at both ends.
DC arcs can be divided into three types, series arcs, parallel arcs and arcs to ground. Due to the electrical structure and the characteristics of PV power generation, among the fires caused by the three types of arcs, the fire caused by the series arc has the highest probability of occurrence, about 80%.
In order to prevent the arcing of the DC side of the inverter from causing fires and other hazards, engineers have developed the integrated AFCI function, which detects the arcing of the DC side and cuts the circuit in time to protect the user and the electrical system. This function can reduce the probability of fire in the electrical system and reduce the damage of arc to the electrical system. So as to protect the personal and property safety of users.
The AFCI function will detect all series arcs within the DC side circuit, When an arc is detected, the inverter stops running immediately and an error message is displayed within few seconds indicating that an arc fault has been detected.
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