The Vikram Solar Paradea VSMDH.66.AAA.05 represents the pinnacle of high-efficiency bifacial photovoltaic technology, delivering a powerful output range of 655 to 680 Wp. This module utilizes advanced monocrystalline PERC half-cut (G12) cells combined with a robust multi-busbar (MBB) design, optimizing electrical performance and reducing resistive losses. With an impressive module efficiency exceeding 21.9%, it offers superior power generation that makes it ideal for utility-scale solar farms and large commercial installations.
Engineered with a durable glass-to-glass dual-glass construction, the Paradea VSMDH.66.AAA.05 module excels in capturing sunlight on both its front and rear surfaces, leveraging bifacial technology to achieve up to 25% additional energy yield in reflective environments such as snowy fields, deserts, or gravel-covered rooftops. The dual-glass design enhances the module’s mechanical strength, protects against environmental degradation, and minimizes risks like PID (potential-induced degradation), ensuring a long service life with stable performance.
Designed for high resilience, these modules can withstand extreme mechanical loads up to 5400 Pa, making them suitable for challenging weather conditions. They also operate efficiently at higher temperatures, with a temperature coefficient around -0.34%/°C, guaranteeing consistent energy production even in hot climates. The 1500 V system voltage compatibility further supports modern, high-efficiency solar power system designs, optimizing installation flexibility and reducing balance-of-system costs.
Backed by a comprehensive 12-year product warranty and a 30-year linear performance warranty, the Vikram Solar Paradea VSMDH.66.AAA.05 module ensures reliability and peace of mind over decades of operation. Combining cutting-edge technology, robust construction, and high power output, this bifacial glass-glass module is a forward-looking solution for maximizing solar energy yield and reducing the levelized cost of electricity (LCOE) in large-scale solar projects.
