N-Type Series Modules

Key Parameter

Component model: JHN5/78GD625
STC NMOT  
Maximum output power (Pmax): (W) 625 464
Maximum operating voltage (Vmp): (V) 46.0 43.6
Maximum operating current (Imp): (A) 13.59 10.65
Open circuit voltage (Voc): (V) 55.6 52.2
Short circuit current (Isc): (A) 14.27 11.52
Component efficiency: 22.36%
Under standard test conditions (STC): Precision of 1000W/m ³. The battery temperature is 25 ℃, AM1.5  
Component nominal operating temperature (NMOT). Precision=800W/m ³. AM1.5, Environmental temperature 20 ℃, wind speed=1m/s

Describe

25.6% mass production efficiency sets a new benchmark, with double-sided microcrystalline+TOPCon technology achieving a double-sided rate of 85%, -0.28%/℃ ultra-low temperature coefficient, and a 30-year linear power output retention rate of>87.4%. The all black aesthetic design is suitable for the high-end distributed market in Europe, and the harsh desert/coastal environment has passed double IEC certification. The LCOE of the entire life cycle has been reduced by another 26%, and the global power plant IRR has been improved by 2.8 points.

The N-type series modules are the global benchmark for advanced photovoltaic technology, redefining the boundaries of energy efficiency. In the process of the photovoltaic industry moving towards a 24%+efficiency era, the N-type series modules provide the ultimate solution of "ultra-high efficiency+ultra-low attenuation" for large-scale ground power stations, industrial and commercial distributed and high-end household scenarios through cutting-edge technology matrices such as TOPCon and HJT. The mass production efficiency has exceeded 24.8%, the linear power output has exceeded 85% in 30 years, and the LCOE (cost per kilowatt hour) has been reduced by 25% compared to P-type components, becoming the core technology choice for global energy giants' zero carbon transformation. Vertical technology hegemony 1. Efficiency transition, cost killer per kilowatt hour. N-type silicon wafers have ultra-low impurity concentration, carrier lifetime is 5-10 times longer than P-type, and single watt power generation gain is 12% -15%; Double sided microcrystalline process+SBMB multi main gate technology, with a double-sided rate exceeding 85%, and a 30% increase in system gain for high reflection scenarios such as snow and water. 2. Zero attenuation gene, 30-year revenue guardian with zero LID (light attenuation)+anti PID (potential attenuation) technology, first year attenuation ≤ 0.4%, 30-year power retention rate ≥ 87.5%; 24/7 hardcore performance: no cracking at -50 ℃ extreme cold, no hot spots at 120 ℃ high temperature, certified by the Qinghai Tibet Plateau strong ultraviolet and Middle Eastern desert dual 85 (85 ℃/85% RH) strict certification. 3. The intelligent adaptation of the entire scene can be customized (54~132 pieces), suitable for various scenarios such as centralized power stations, BIPV curtain walls, photovoltaic carports, etc; Compatible with tracking brackets and energy storage systems, building an "N-type component+intelligent operation and maintenance" ecosystem, and increasing the IRR (internal rate of return) of the power station to over 14%. Global empirical and investment model: Saudi Arabia's NEOM 2GW super power plant: N-type components increase single watt power generation by 9.3% compared to P-type components, with an annual increase in electricity bills of over 50 million US dollars; German Zero Carbon Industrial Park: 30 year attenuation simulation test only 11.8%, obtained T Ü V Rheinland "Double Five Star" durability and efficiency certification. Through N-type special certifications such as IEC 63209 and UL 61730, we serve over 1.5GW projects worldwide, covering the ESG transformation needs of energy, automotive, and technology giants. Why choose N-type? Technological generational gap - efficiency and lifespan completely crush P-type, locking in technological dividends for the next 20 years; Ultra long profit cycle - IRR increases by 40% compared to P-type with a 30-year lifecycle, and the payback period for large power plants is reduced to 6 years; Zero carbon leadership - reducing carbon emissions by 1.5 million tons per GW of power plant annually, helping to achieve RE100 and carbon neutrality goals at an accelerated pace. Define the ultimate energy efficiency under the name of N-type