Engineered with advanced N-type TOPCon technology, SMBB half-cell architecture, and dual-glass design, this utility-scale solar panel delivers a maximum power output of up to 640W and a peak conversion efficiency of 23.7%, setting a new benchmark for levelized cost of energy (LCOE) reduction in utility-scale solar deployments. Designed exclusively for professional energy project stakeholders, this module combines exceptional power density, long-term reliability, and superior environmental adaptability to maximize returns for solar farm developers, EPC contractors, and institutional energy investors.
The 210mm large-format N-type solar module leverages 132 half-cut cells to deliver industry-leading power output ranging from 620W to 640W. The ultra-high power rating drastically reduces the number of modules, mounting structures, cables, and labor required per megawatt of installed capacity, delivering significant savings on balance of system (BOS) costs for large-scale solar farms.
Engineered with exceptional low-light performance, this module maintains stable power generation in dawn, dusk, and overcast conditions, maximizing annual energy production (AEP). With an industry-leading temperature coefficient of Pmax at -0.28%/°C, it minimizes power loss in high-temperature environments, outperforming conventional P-type modules in hot climate regions. The 80±5% bifaciality also delivers additional energy gain from rear-side irradiance reflection, further boosting AEP for ground-mounted projects.
Featuring N-type solar cells with inherently ultra-low light-induced degradation (LID) and potential-induced degradation (PID) resistance, this module ensures minimal power loss over its service life. The robust 2.0+2.0mm AR-coated heat-strengthened dual-glass structure, anodized aluminum alloy frame, and IP68-rated junction box deliver exceptional durability, withstanding extreme weather from -40°C to +85°C.
The module is certified to withstand a front-side maximum static loading of 5400Pa and rear-side loading of 2400Pa, along with rigorous 25mm hailstone impact testing at 23m/s, making it suitable for high-wind, heavy-snow, and extreme weather zones worldwide.
Category | Parameter Details |
Model Number | LC210R-132MDB |
Power Output Range | 620W – 640W |
Peak Module Efficiency | Up to 23.7% |
Dimensions | 2382×1134×30mm |
Weight | 33.7kg |
Cell Configuration | 132 (6×22) Half-Cell |
Glass | 2.0+2.0mm AR Coated Heat-Strengthened Glass |
Junction Box | IP68 Rated, 3 Diodes |
Output Cable | 4mm², ±300mm (Customizable Length) |
Connector | MC4 Compatible |
Maximum System Voltage | 1500V DC |
Maximum Series Fuse Rating | 30A |
Operating Temperature Range | -40°C ~ +85°C |
Power Output Tolerance | 0 ~ +3% |
This high-power utility-scale solar module complies with global industry standards and holds full certifications including IEC61215:2021, IEC61730:2023, ISO9001:2015 Quality Management System, ISO14001:2015 Environmental Management System, ISO45001:2018 Occupational Health and Safety Management System, CE, and China Quality Certification (CQC). We offer a 1-year product warranty against material and manufacturing defects, backed by a 30-year linear power warranty to guarantee long-term performance stability for your utility-scale projects.
This module is purpose-built for large-scale energy projects, including utility-scale ground-mounted solar farms, large-scale grid-connected photovoltaic power stations, solar + energy storage hybrid systems, off-grid large-scale industrial energy projects, and utility-scale distributed solar installations.
This module supports a maximum system voltage of 1500V DC, the industry standard for utility-scale solar projects, reducing system losses and BOS costs.
The module features a bifaciality of 80±5%, delivering significant additional energy gain from rear-side irradiance reflection in ground-mounted installations.
We guarantee a strict 0 ~ +3% positive power tolerance, with no negative power deviation, to ensure your project meets or exceeds expected energy production targets.
With an operating temperature range of -40°C to +85°C, high mechanical loading resistance, and hail impact certification, it is suitable for deployment in nearly all global climate zones, including extreme weather regions.
