Description
The RSM144-9 series is a high-performance bifacial Mono PERC photovoltaic module engineered to maximize energy generation and long-term reliability in large-scale solar applications. By utilizing advanced bifacial cell technology, the module captures additional reflected light from the rear side, increasing total power output by up to 30% and reducing overall LCOE.
Manufactured by a globally recognized Tier 1 bankable brand using independently certified automated production lines, the module ensures consistent quality and superior performance. Its low thermal coefficient enables stable operation in high-temperature environments, while excellent low-irradiance performance enhances energy yield throughout the day.
Advanced PID resistance, dual-stage 100% EL inspection, and optimized current binning minimize degradation and mismatch losses, ensuring dependable operation in demanding environmental conditions. With high mechanical load capacity and compatibility with 1500VDC systems, the module provides flexible and cost-efficient system design.
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 energy 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 144 Cell Mono PERC bifacial module
β Power output range: 540Wp β 560Wp
β Maximum system voltage: 1500 VDC
β Maximum efficiency: 21.7%
Applications
β Utility-scale solar farms
β Ground-mounted PV systems
β Commercial & industrial solar projects
β High-reflectivity environments (sand, concrete, rooftops)
β Large-scale distributed solar developments
Performance Advantages
β Higher total energy generation with bifacial gain
β Lower LCOE and improved project ROI
β Reliable performance in high-temperature climates
β Enhanced output in low-light conditions
β Reduced long-term degradation and system losses
