MG10 Topcon 144 Half Cells Solar PV Panel 560W 565W 570W 575W Full Black Glass Glass at 182mm type
Monocrystalline Topcon Bifacial Double Glass Photovoltaic Solar Panel Module Based on 182mm Solar Cell
Mogen Solar launched a new generation of ultra-high efficiency TOPCON solar modules, the MG10 Topcon monocrystalline N-type TOPCon bifacial double glass 560-575Watt photovoltaic solar panel. The new series integrates 182mm silicon wafers, with TOPCon, bifacial, multi-busbar cell technology and high-density encapsulation. The maximum power output on the front side of the three formats, 108 / 120 / 144 half cells, maximum output power reach 630Wp. Meanwhile, based on different installation environments, the rear side power generation gain is between 10-30%.
Electrical Specification
| Maximum Power (Pmax/W) | 560 | 565 | 570 | 575 | 580 |
| Maximum Power Voltage (Vmp/V) | 41.95 | 42.14 | 42.29 | 42,44 | 42.59 |
| Maximum Power Current (Imp/A) | 13.35 | 13.41 | 13.48 | 13.55 | 13.62 |
| Open Circuit Voltage (Voc/V) | 50.67 | 50.87 | 51.07 | 51.27 | 51.47 |
| Short Circuit Current (Isc/A) | 14.13 | 14.19 | 14.25 | 14.31 | 14.37 |
| Module Efficiency (%) | 21.68 | 21.87 | 22.07 | 22.26 | 22.5 |
| Power Output Tolerance (W) | 0~+5W |
| Temperature Coefficient of Isc | +0.045%/°C |
| Temperature Coefficient of Voc | -0.275%/°C |
| Temperature Coefficient of Pmax | -0.40%/°C |
Certifications
All of MogenSolar's products have been certified by professional third-party testing bodies around the world, and the testing conditions are complex and diverse, from ordinary installation conditions to various extreme weather conditions, natural environments. We pursue the ultimate in quality and provide the best guarantee for customers' assets and profits.
ISO 9001: 2015: ISO Quality Management System
ISO 14001: 2015: ISO Environment Management System
ISO 45001: 2018: Occupational Health and Safety
CE & EU declaration of conformity
IEC 61215 / IEC 61730 Anti-PID Test for Photovoltaic Module
IEC 61701 Salt Mist Corrosion Test for Photovoltaic Module
IEC 60068-2-68 Dust and Sand Test for Photovoltaic Module
UL1703 / UL 61730 – PV Module Safety Standards by UL / CSA / INTERTEK
Italian First-Class Report on Fire Prevention
INMETRO Ex Tariff for Brazil
MCS / JEPC & JET / CEC(Clean Energy Council) approved PV modules / FIDE / CB / DEWA / RETIE
What's the advantage of TOPCon bifacial dual glass solar panels?
TOPCon cell uses a micro-nano tunnelling oxide layer, a carrier-selective microcrystalline silicon film laminated functional structure on the back, and cutting-edge and high-efficiency passivation contact technology. This novel structure exhibits a two-way enhancement in passivation performance and electrical conductivity, resulting in significant cell conversion efficiency and power output gains (J. Solar 2021). The tunnel oxide layer’s structure further minimises subsurface recombination, considerably improving cell conversion efficiency, with an upper limit of 28.2% to 28.7%.
TOPCon solar cells have recently demonstrated remarkable cell performance. They are anticipated to be implemented in production lines and deployed in the field (Le et al., 2021). The temperature coefficient (TC) is a vital figure of merit for accurately evaluating solar cell performance at various operating temperatures and thus allowing comparisons between different cell technologies. JinkoSolar has implemented TOPCon cell technology on Tiger Neo’s solar module.
For example, the Tiger Neo’s by JinkoSolar implemented the TOPCon cell technology in their modules. Take a P-type module, for instance, typically with a temperature coefficient range of -0.34%/ °C to -0.36%/ °C, whereas the Tiger Neo’s N-type has a temperature coefficient of -0.30%/ °C. This means that the power generation performance is awe-inspiring at high temperatures. The power output of Tiger Neo will grow as the temperature coefficient improves (0.75% higher compared with PERC) (Solar 2021)
The original PERC module has a bifacial factor of 70%, while the TOPCon module has a modified bifacial factor of 85%. The corresponding power boost is around 2.03%. The power gain of a typical PERC module due to the rear side power gain is 9.45%, but the power gain of a TOPCon module is 2% more due to the 15% bifacial factor increase, according to the formula (under STC condition and average ground reflectivity) (Solar 2021).
Under the irradiation intensity below 600W/㎡, the power generation performance of the N-type monocrystalline is higher than the P-type monocrystalline by about 1-2%;Due to extremly low light induced degradation.
