630W Bifacial Dual Glass Solar Panel: Ultimate Performance for Large-Scale Solar Projects
Representing the peak of solar technology innovation, our 630W Bifacial Dual Glass Solar Panel delivers exceptional 23.3% conversion efficiency – the highest in its class – making it the ultimate choice for utility-scale projects and large commercial installations where maximizing energy density is critical. This top-tier photovoltaic module combines superior power output with industry-leading efficiency, featuring optimized electrical parameters that ensure maximum performance in large-scale array configurations. The panel's advanced engineering and robust construction provide unparalleled reliability for projects demanding the highest standards of performance and durability.
Peak Performance Characteristics:
• Industry-Leading Efficiency: 23.3% module efficiency represents the highest performance category available, delivering maximum energy output per square meter of installation space
• Optimized Large-Scale Performance: Enhanced Vmp (41.31V) and Imp (15.25A) parameters are specifically engineered for utility-scale string configurations, reducing balance-of-system costs
• Premium Bifacial Technology: 80±5% bifaciality factor captures maximum reflected light energy, delivering substantial additional yield in properly engineered large-scale arrays
• Utility-Grade Durability: Dual 2.0mm heat-strengthened glass construction provides exceptional resistance to environmental stress, mechanical loads, and long-term degradation
• Maximum Power Density: 630W output combined with compact dimensions delivers superior power density, optimizing land use in large-scale solar farms
• Advanced Thermal Management: Low temperature coefficient (-0.29%/°C) ensures stable performance in high-temperature environments common in utility-scale installations
Cutting-Edge Technology:
The 630W module incorporates the latest advancements in monocrystalline cell technology, featuring 132 premium cells in an optimized 6×22 configuration that maximizes power output while minimizing electrical losses. Advanced cell interconnection technology and superior busbar design reduce resistive losses, while the dual-glass construction with enhanced encapsulation materials ensures long-term reliability and minimal degradation. The module's electrical parameters are specifically optimized for large-scale string inverters, enabling maximum system efficiency and reduced installation costs.
Large-Scale Application Superiority:
This top-performance module demonstrates exceptional value in utility-scale deployments where its superior efficiency directly translates to reduced land requirements and improved project economics. The optimized voltage and current characteristics allow for longer string lengths and reduced balance-of-system costs, while the robust construction ensures reliable performance across diverse geographic and climatic conditions. The module's consistent high performance makes it ideal for projects requiring predictable energy output and long-term reliability.
Comprehensive Performance Data:
Optimal Application Scenarios:
• Utility-scale solar power plants
• Large commercial solar farms
• Government and municipal solar projects
• Community solar installations
• Solar projects with space constraints
• High-performance commercial rooftops
Economic Advantages for Large Projects:
The 630W panel delivers superior economics through its combination of peak efficiency and robust construction. Project developers benefit from reduced land usage requirements, lower balance-of-system costs, and increased energy yield per installed capacity. The dual-glass construction ensures minimal degradation over time, protecting long-term investment returns and ensuring consistent performance throughout the project lifecycle. The higher power rating directly translates to fewer modules required for target capacity, reducing installation time and labor costs.
Technical Excellence FAQ:
Q: What makes the 630W panel ideal for utility-scale projects?
A: The combination of industry-leading efficiency, optimized electrical parameters for long strings, and utility-grade durability makes it perfect for large-scale deployments where reliability and performance are critical.
Q: How does the 23.3% efficiency impact project economics?
A: Higher efficiency reduces land requirements, structural costs, and balance-of-system expenses, significantly improving ROI for large-scale projects while maximizing energy production from available space.
Q: What is the expected performance ratio in real-world conditions?
A: The panel typically achieves performance ratios of 85-90% in well-designed utility-scale systems, with bifacial gains potentially adding 8-20% additional energy yield depending on installation configuration.
Q: How does the panel perform in varying climatic conditions?
A: Excellent performance across diverse environments, with the low temperature coefficient maintaining high output in hot climates and the robust construction ensuring reliability in extreme weather conditions.
Professional Installation Guidelines:
For utility-scale installations, ensure proper engineering analysis for wind and snow loads specific to the project location. Optimize array spacing and mounting height to maximize bifacial gains while minimizing land usage. Use compatible utility-scale inverters and follow manufacturer recommendations for string sizing and electrical configuration. Implement professional monitoring systems to track performance and identify maintenance needs.
Quality Assurance & Longevity:
The module undergoes rigorous testing for utility-scale applications, including extended thermal cycling, mechanical load testing, and potential induced degradation resistance. The dual-glass construction and robust frame ensure reliable performance for over 30 years, with industry-leading linear power warranty coverage.
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