Featuring a bifacial design with 2.0×2.0mm AR coated heat-strengthened glass, the module captures direct sunlight from the front and reflected light from the rear, unlocking additional power generation for commercial installations. With a compact form factor of 1722×1134×30mm and a weight of 24.0kg, the module is optimized for seamless integration into standard commercial mounting systems, balancing high performance with easy handling and installation.
Item | Specification |
Product Model | LC210R-96MDB |
Power Range | 445W ~ 465W |
Cell Type | N-type Monocrystalline Silicon |
Wafer Size | 210mm |
Cell Architecture | 96 Half-Cells |
Core Technology | SMBB Half-Cell Technology, Bifacial Design |
Target Application | Ground Mount Solar Projects, Utility-Scale Industrial Solar Systems |
Standard Test Conditions (STC): Irradiance 1000W/m², AM 1.5 Spectrum, Cell Temperature 25°C ×
Nominal Module Operating Temperature (NMOT): Irradiance 800W/m², AM 1.5 Spectrum, Ambient Temperature 20°C, Wind Speed 1m/s
Module Power Grade | Parameter | STC | NMOT |
445W | Maximum Power (Pmax) | 445W | - |
Module Efficiency | 22.5% | - | |
450W | Maximum Power (Pmax) | 450W | - |
Module Efficiency | 22.8% | - | |
455W | Maximum Power (Pmax) | 455W | - |
Module Efficiency | 23.0% | - | |
460W | Maximum Power (Pmax) | 460W | - |
Module Efficiency | - | - | |
465W | Maximum Power (Pmax) | 465W | - |
Module Efficiency | - | - |
Module Power Grade | 445W | 450W | 455W | 460W | 465W |
Maximum Power (Pmax) | 490W | - | - | - | - |
Open Circuit Voltage (Voc) | 35.87V | 36.21V | - | - | - |
Short Circuit Current (Isc) | 16.10A | 16.73A | - | - | - |
Item | Specification |
Module Dimensions | 1762 × 1134 × 30mm |
Module Weight | 24.5kg |
Cell Orientation | 96 Cells |
Frame | Anodized Aluminum Alloy Frame |
Item | Specification |
Operational Temperature Range | -40°C ~ +85°C |
Maximum Power Output Tolerance | 0 ~ +3% |
Maximum System Voltage | 1500V DC |
Maximum Series Fuse Rating | 30A |
Nominal Operating Cell Temperature (NMOT) | 45 ± 2°C |
Bifaciality | 80 ± 5% |
Fire Rating | IEC Class A |
Hailstone Resistance | 25mm Diameter Hailstone at 23m/s Impact Speed |
Parameter | Temperature Coefficient |
Short Circuit Current (Isc) | +0.04%/°C |
Open Circuit Voltage (Voc) | -0.23%/°C |
Maximum Power (Pmax) | -0.28%/°C |
Item | Specification |
Product Certifications | IEC 61215:2021, IEC 61730:2023, CE (European Standard), China Quality Certification Centre Solar Product Certification |
Management System Certifications | ISO 9001:2015 Quality Management System, ISO 14001:2015 Environmental Management System, ISO 45001:2018 Occupational Health and Safety Management System |
Product Warranty | 15 Years Material & Workmanship Warranty |
Power Warranty | 30 Years Linear Power Output Warranty |
At the core of this high-efficiency 455W bifacial solar module lies industry-leading power density and conversion efficiency, reaching up to 23.0% at STC. It delivers exceptional low-light performance, maintaining stable power generation in dawn, dusk, and overcast conditions to maximize energy harvest throughout the day. With a bifaciality of 80±5%, it achieves significant rear-side power gain, boosting annual energy yield by up to 25% in high-reflectivity ground mount environments. The strict 0~+3% positive power tolerance ensures every module meets or exceeds its rated power, eliminating underperformance risks for large-scale project designs.
Engineered with premium N-type cell technology, this ground mount solar project module features extremely low light-induced degradation (LID), minimizing power loss over its service life. It boasts an excellent temperature coefficient of Pmax at -0.28%/°C, delivering superior power retention in high-temperature environments, a critical advantage for open-field industrial solar systems. The module withstands 5400Pa front-side and 2400Pa rear-side static loading, plus rigorous 25mm hailstone testing at 23m/s, ensuring durability against extreme weather. The IP68 rated junction box provides robust waterproof and dustproof protection, enhancing long-term outdoor reliability.
This industrial N-type solar module is built for large-scale installers, with an anodized aluminum alloy frame compatible with all mainstream industrial mounting solutions. Customizable 4mm² output cables (±1100mm) and MC4 compatible connectors enable fast, secure on-site wiring, cutting installation labor time and costs. The packaging (37pcs per pallet, 962pcs per 40'HC container) is optimized for cost-effective long-distance transportation and on-site storage, catering to bulk delivery needs of utility-scale projects.
This utility-scale industrial solar module complies with the strictest international standards, holding certifications including IEC 61215:2021, IEC 61730:2023, CE, and China Quality Certification Centre Solar Product Certification. Our manufacturing is certified under ISO 9001:2015, ISO 14001:2015, and ISO 45001:2018 management systems. We provide a 15-year material and workmanship warranty, paired with a 30-year linear power output warranty, delivering long-term investment security for industrial project owners.
This industrial-grade module is ideal for utility-scale ground mount solar projects, centralized industrial solar power systems, agricultural PV complementary projects, and large-scale industrial distributed generation. It is the preferred solution for utility-scale solar developers, EPC contractors, solar system integrators, and industrial energy management enterprises.
This module supports a maximum system voltage of 1500V DC, fully compatible with large-scale industrial solar system designs, effectively reducing balance of system (BOS) costs and improving project economic returns.
With 80±5% bifaciality, the module absorbs ground-reflected light to generate additional rear-side power, increasing annual energy yield by 10-25% in ground mount scenarios and significantly boosting the project’s internal rate of return (IRR).
The module features a -0.28%/°C power temperature coefficient, outperforming traditional P-type modules. It maintains stable power output in high-temperature environments, making it ideal for industrial solar projects in hot climate regions.
