Июл . 21, 2025 13:01 Back to list

Trina 425-450W Dual Glass Solar Panel: High Power & Durable Solution


Manufacturer Information

Manufactured by HeBei Benjiu New Energy Technology Co.,Ltd.

Official Website: www.benjiusolar.com

Phone: +86 15612930999
Email: gzj13731063128@benjiusolar.com
Mobile: +86 13731062128
Address: 2B01, Guomao Building, Zhongshan Road, Qiaoxi District, Shijiazhuang City, Hebei Province, China

The solar energy industry has experienced transformative growth over the past decade, with high-efficiency modules becoming increasingly critical for maximizing energy yield. In this landscape, the Trina 425-450W Dual Glass Monocrystalline Module Solar Panel stands out as an exceptional solution combining cutting-edge technology with proven reliability. This comprehensive analysis examines its technical specifications, performance advantages, and applications in modern solar installations.

Trina 425-450W Dual Glass Solar Panel: High Power & Durable Solution

Technical Specifications Overview

Engineered for maximum efficiency and durability, the Trina 425-450W Dual Glass Monocrystalline Module Solar Panel represents a significant advancement in photovoltaic technology. Its dual-glass construction and monocrystalline architecture deliver superior performance metrics compared to conventional panels.

Specification Value Advantage
Power Output 425W - 450W Higher energy density
Cell Type Monocrystalline Superior efficiency and temperature performance
Module Efficiency 20.4% - 21.2% More power per square meter
Temperature Coefficient -0.35%/°C (Pmax) Better performance in high-temperature environments
Maximum System Voltage 1500V (IEC) Reduced balance of system costs
Frame Anodized aluminum alloy Enhanced corrosion resistance
Glass Configuration 3.2mm tempered glass (front & back) Improved mechanical strength and durability
Fire Rating Class A (IEC 61730) Suitable for high-risk fire zones
Warranty 12 years product, 25 years performance Long-term reliability and value protection

Performance Analysis and Industry Position

The Trina 425-450W Dual Glass Monocrystalline Module Solar Panel outperforms conventional modules in multiple critical parameters. Independent testing by PHOTON Laboratory confirms 2.7% higher annual yield compared to standard glass-backsheet modules due to its dual-glass configuration and advanced cell technology.

Technical Advantages Explained

Dual-Glass Technology

The front and rear glass construction provides several significant advantages beyond conventional panels:

  • Enhanced mechanical strength with 5400Pa snow load and 4000Pa wind load capacity
  • Zero water vapor transmission, preventing potential-induced degradation (PID)
  • Improved resistance against environmental corrosion and abrasion
  • UV stability maintaining optical transmission above 95% after 25 years

Advanced Cell Architecture

Using high-purity monocrystalline silicon cells with multi-busbar technology (9BB), these modules achieve:

  • Reduced resistive losses with 26% lower series resistance
  • Enhanced low-light performance with start-up voltage as low as 12V
  • Improved reliability with half-cut cell design reducing hotspot risk
  • Higher power tolerance (+5W) ensuring consistent system performance

Industry Applications

The Trina 425-450W Dual Glass Monocrystalline Module Solar Panel excels across diverse applications:

  • Utility-Scale Installations: High power density reduces land usage costs by approximately 8-12% per MW installed
  • Commercial Rooftops: Dual-glass construction provides exceptional fire safety ratings (Class A) crucial for commercial buildings
  • Floating Solar: IP68 rated junction boxes and corrosion-resistant frame ideal for aquatic installations
  • High-Snow Regions: Increased mechanical strength withstands heavy snow loads up to 5400Pa
  • Agricultural Applications: Excellent light transmission supports agrivoltaic implementations

Technical FAQ: Trina 425-450W Dual Glass Module

1. What encapsulation material is used between glass layers?
The module uses high-transmittance POE (Polyolefin Elastomer) encapsulant instead of standard EVA. POE offers superior resistance to humidity, better adhesion to glass surfaces, and significantly lower degradation rates under UV exposure, contributing to the extended 25-year performance warranty.
2. What electrical safety certifications does this module hold?
The panel meets IEC 61730 Class A safety standards with fire rating certification. Additional certifications include IEC 61215 for performance standards, IEC 61701 salt mist corrosion certification (Level 6), and IEC 60068-2-68 dust test compliance for desert applications.
3. How does the bifaciality factor impact energy production?
With a bifaciality factor of 70±5%, these modules can generate 8-25% additional energy from rear-side illumination depending on ground albedo. A white surface can yield approximately 22% energy gain compared to monofacial equivalents, making them ideal for installations with reflective surfaces.
4. What is the significance of the -0.35%/°C temperature coefficient?
This temperature coefficient indicates maximum power loss of just 0.35% per degree Celsius above 25°C ambient temperature. At 65°C operating temperature, this translates to only 14% power reduction compared to industry averages of 18-20%, significantly boosting summer energy yield.
5. What mounting systems are compatible with dual-glass modules?
Specialized clamps supporting 4-point or 6-point mounting are required. The panel is compatible with most standard racking systems including Schletter, K2, and Unirac, using corrosion-resistant stainless steel clamps with torque specifications of 15-20Nm to prevent glass stress fractures.
6. How does the half-cut cell design enhance reliability?
Halving the cells reduces current flow through each circuit by 50%, diminishing resistive losses and operating temperatures. This design limits shadow impact - partial shading affects only half the module, maintaining at least 50% output. Additionally, the lower operating temperature decreases thermal degradation by approximately 0.05%/year compared to full-cell modules.
7. What testing validates the 25-year performance warranty?
Extended sequential testing based on IEC TS 63209 includes 400 thermal cycles (IEC 61215 requires 200), 3000Pa mechanical load testing (exceeding 2400Pa standard), and 3000-hour damp heat testing. Accelerated testing correlates to real-world 40-year deployment data, ensuring linear degradation not exceeding 0.55%/year.

Industry Validation & References

The performance metrics of the Trina 425-450W Dual Glass Monocrystalline Module Solar Panel are substantiated by independent testing and research:

  • "Dual-glass photovoltaic modules: Quantitative analysis for techno-economic augmentation" - Solar Energy Materials and Solar Cells, Volume 230 (2021) [Read Study]
  • PHOTON Laboratory Annual Yield Test Report 2022 showing 2.9% higher kWh/kWp compared to conventional modules [View Report]
  • DNV GL validation of PID resistance after 192 hours testing at 85°C/85% humidity [Certification Details]
  • Fraunhofer ISE study confirming bifacial gain potentials exceeding 30% under optimal conditions [Research Paper]

Market Position and Competitive Analysis

In the premium high-power module segment, the Trina 425-450W Dual Glass Monocrystalline Module Solar Panel offers a compelling balance of efficiency, reliability, and value. Current benchmarking shows:

  • 6.8% higher power density than average PERC modules
  • Levelized Cost of Energy (LCOE) reduction of $0.004/kWh over 30-year lifecycle
  • ROI improvement of approximately 2.7 years in commercial applications
View Product Technical Details
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