Description
The RSM110-8 series is a high-power bifacial photovoltaic module engineered for large-scale solar applications that demand maximum energy output, long-term reliability, and optimized system performance. Utilizing advanced Mono PERC cell technology and bifacial energy generation, the module captures additional reflected light from the rear side, increasing total energy yield by up to 30%.
Manufactured by a globally recognized Tier 1 bankable brand using state-of-the-art automated production lines, this module ensures superior quality, consistent performance, and reduced system losses. Its low thermal coefficient enables stable operation in high-temperature environments, while excellent PID resistance and dual-stage 100% EL inspection guarantee long-term durability and defect-free operation.
With high mechanical load capacity and high system voltage compatibility, the module is designed to perform reliably in demanding environmental conditions and large-scale installations.
Key Features & Benefits
β Tier 1 bankable manufacturer with certified automated production
β Bifacial technology with up to 30% rear-side energy gain
β Industry-leading low thermal coefficient for higher yield
β 12-year product warranty for long-term reliability
β Excellent low-irradiance performance
β High PID resistance for enhanced durability
β Positive power tolerance of 0 ~ +3%
β Dual-stage 100% EL inspection for defect-free modules
β Reduced mismatch losses through precise current binning
β High mechanical strength β 2400Pa wind load / 5400Pa snow load
Project Details
β 110 Cell Mono PERC bifacial module
β Power output range: 535Wp β 560Wp
β Maximum system voltage: 1500 VDC
β Maximum efficiency: 21.4%
Applications
β Utility-scale solar farms
β Commercial & industrial solar projects
β Ground-mounted PV systems
β High-reflectivity environments (sand, concrete, rooftops)
β Large-scale distributed energy projects
Performance Advantages
β Higher total energy generation with bifacial gain
β Lower LCOE and improved project ROI
β Reliable operation in high-temperature climates
β Enhanced performance in low-light conditions
β Reduced long-term degradation and system losses
