Enphase Energy endorses Brazil’s NBR 17193 fire safety standard, highlighting its rapid shutdown requirements for solar systems. Their microinverters align with this standard, ensuring safety by converting low-voltage DC to AC at the panel and allowing for immediate de-energization in emergencies. This initiative bolsters safety for installations while adhering to global best practices.
Enphase Energy has expressed its approval of Brazil’s recently implemented fire safety regulations, specifically the NBR 17193 standard by the Brazilian Association of Technical Standards. This standard sets forth critical safety recommendations, emphasizing rapid shutdown capabilities for solar installations across all buildings. Its primary aim is to reduce fire risks associated with high-voltage direct current components, such as centralized string inverters.
The company’s microinverter technology converts low-voltage direct current from solar panels into safe alternating current directly at the panel, aligning perfectly with the safety standards. This technology eliminates the need for high-voltage direct current in both residential and commercial solar installations. Furthermore, all Enphase microinverters are equipped with rapid shutdown functionality, enabling immediate system de-energization in emergencies, thereby enhancing safety.
The newly established standard mandates that all solar systems in Brazil must include rapid shutdown capabilities prior to being connected to the electrical grid. This requirement not only safeguards property and individuals but also complies with international solar safety best practices. Enphase encourages installers and distributors in Brazil to visit their website for further insights regarding the standard.
In summary, Enphase Energy supports Brazil’s NBR 17193 fire safety standard, which mandates rapid shutdown functionality for solar installations. The company’s microinverter technology meets these safety requirements by utilizing low-voltage components and enhancing emergency responsiveness. This development underscores a commitment to reducing fire risks and aligning with international safety standards, offering greater protection for users and emergency responders alike.
Original Source: www.tipranks.com
