The company stated: “Engineered with advanced TOPCon 3.0 cell technology and dual-glass construction, this 475 W high-power solution redefines distributed energy systems through superior performance, reliability, and aesthetics – maximizing returns for residential and commercial users.” The module incorporates a 20-busbar design, which reduces resistive losses through optimized current pathways and minimizes micro-crack risk by 30%, ensuring greater durability.
The Tiger Neo 48HL4M-DV panel delivers a power output of 450 to 475 W, with dimensions of 1,762 mm × 1,134 mm × 30 mm and a weight of 21.5 kg. Its power conversion efficiency ranges from 22.52% to 23.77%, with a temperature coefficient of -0.29%/C. The panel’s open-circuit voltage is between 35.91 V and 36.76 V, and its short-circuit current ranges from 15.73 A to 15.98 A.
Designed to operate in temperatures from -40°C to 70°C, the module supports a maximum system voltage of 1,500 V. It features an anodized aluminum frame, 1.6 mm tempered glass with an anti-reflection coating, and an IP68-rated junction box for enhanced durability. JinkoSolar provides a 25-year product warranty and a 30-year power output guarantee, with an annual degradation rate of 0.40%. The first-year degradation is 1%, and the output after 30 years is guaranteed to be at least 87.4% of the nominal power.
The manufacturer noted: “The robust 30 mm aluminum frame and dual-glass construction withstand extreme snow loads (5,400 Pa) and wind pressure (2,400 Pa), certified to IEC 61215 standards, making it ideal for harsh environments including coastal and high-humidity regions.” A 6.6 kW system requires only 14 modules, making it suitable for medium-to-large households. Compared to standard 440 W panels, the 475 W output reduces system costs by 15% through savings on racks, clamps, and installation labor.
This launch strengthens JinkoSolar’s commitment to delivering efficient and reliable renewable energy solutions, supporting the global transition to sustainable energy with advanced solar technology tailored for diverse environmental conditions.
