The Vikram Solar Paradea VSMDH.72.AAA.05 is a high-performance bifacial glass-glass PV module, engineered to deliver robust power output in the range of 540 to 565 Wp. Built with advanced monocrystalline PERC half-cut cells and multi-busbar (MBB) technology, these modules provide enhanced efficiency, reduced resistive losses, and optimal performance under diverse environmental conditions. With an impressive module efficiency of over 21%, the Paradea modules are designed to deliver consistent energy production over a long lifespan, making them an ideal choice for both residential and commercial solar applications.
The dual-glass construction of the Paradea VSMDH.72.AAA.05 ensures durability and enhanced mechanical strength, offering superior protection against environmental stressors such as corrosion and PID (potential-induced degradation). Additionally, the bifacial design allows energy generation from both the front and rear surfaces of the module, enabling a rear-side gain of up to 25%. This means increased energy yield in reflective environments such as rooftops with light-colored surfaces or open fields with snow, gravel, or sand, making it an optimal solution for maximizing energy harvest.
Designed to handle demanding environmental conditions, the Paradea VSMDH.72.AAA.05 features a high mechanical load capacity of 5400 Pa, ensuring it can withstand heavy snow and wind loads. The 1500 V DC system voltage compatibility makes it suitable for large-scale solar power installations, offering flexibility and reducing system costs. Additionally, its excellent temperature coefficient of -0.34%/°C ensures stable performance even in high-temperature regions, further enhancing the module’s reliability and efficiency.
With a 12-year product warranty and a 30-year linear performance warranty, the Vikram Solar Paradea VSMDH.72.AAA.05 offers long-term peace of mind. Its high energy yield, advanced bifacial design, and long service life make it an excellent choice for businesses, residential installations, and utility-scale solar farms looking to maximize efficiency and minimize the levelized cost of electricity (LCOE).
