Mono Crystalline Solar Panels Manufacturers

Solar Modules

GLASS TO GLASS
PIX MBHG 144

144 Cells

Maximum Power Output - 545 Wp

  •     Module Power Range: 525-545 Wp
  •     Efficiency upto 21.04 %
  •     Power Tolerance: +4.99Wp

Advancing Solar Excellence with Glass-to-Glass PV Modules - PIX MBHG 144 Mono Crystalline PERC Half-Cut Cell

Glass-to-Glass Photovoltaic (PV) modules, embodied by the PIX MBHG 144 Mono Crystalline PERC Half-Cut Cell model, represent a pinnacle in solar technology, seamlessly combining efficiency and enduring design. In this comprehensive guide, we explore the unique features, operational principles, advantages, and versatile applications of these advanced modules, highlighting their pivotal role in maximizing solar energy production.

Understanding Glass-to-Glass PV Modules - PIX MBHG 144 Mono Crystalline PERC Half-Cut Cell:

Glass-to-Glass modules intricately integrate mono crystalline PERC half-cut cells between tempered glass layers, presenting a design that not only prioritizes performance but also ensures long-lasting durability. The PIX MBHG 144 model stands as a testament to cutting-edge solar technology, delivering a perfect blend of efficiency and enduring elegance.

Working Principle:

The operational principle involves harnessing sunlight through the dual layers of tempered glass and initiating the photovoltaic process within the mono crystalline PERC half-cut cells. This design optimizes efficiency, minimizing energy losses and maximizing power output, ensuring a reliable and sustainable source of clean energy.

Advantages of Glass-to-Glass PV Modules - PIX MBHG 144 Mono Crystalline PERC Half-Cut Cell:

(a). Exceptional Energy Conversion Efficiency: The mono crystalline PERC half-cut cells, coupled with the glass-to-glass design, result in an impressive energy conversion efficiency of 21.04%, ensuring optimal power generation.

(b). Enhanced Durability: The dual layers of tempered glass provide exceptional protection to the mono crystalline PERC cells, ensuring longevity and reliability even in challenging environmental conditions.

(c). Aesthetic Excellence: The PIX MBHG 144 model not only excels in performance but also offers a sleek and modern design, making it suitable for installations where aesthetics matter.

Applications:

The PIX MBHG 144 Mono Crystalline PERC Half-Cut Cell model finds applications across different sectors:

(a). Architecturally Integrated Installations: Ideal for homeowners and architects seeking a high-performance and visually stunning solar solution that effortlessly integrates into the design of buildings and structures.

(b). Commercial and Industrial Projects: Suited for large-scale solar installations, the PIX MBHG 144 model contributes to the energy needs of businesses and industries, delivering both efficiency and a modern aesthetic.

(c). High-Profile and Landmark Projects: With its durable and sleek design, Glass-to-Glass Modules are suitable for projects that demand a fusion of efficiency and enduring visual impact.

Performance Specifications:

Power Output: 545 watts

Voltage Range: 525-545 volts

Efficiency: 21.04%

Current: 4.99 amperes

Maintenance and Care:

Regular maintenance, including cleaning the tempered glass layers, is essential to ensure sustained efficiency and longevity of Glass-to-Glass PV Modules - PIX MBHG 144 Mono Crystalline PERC Half-Cut Cell.

Conclusion:

Glass-to-Glass PV Modules, particularly the PIX MBHG 144 Mono Crystalline PERC Half-Cut Cell model, symbolize the epitome of solar efficiency and elegance. Their high energy conversion efficiency, durability, and contemporary design make them a preferred choice for individuals, businesses, and high-profile projects. As the world advances towards sustainable energy, these modules play a pivotal role in shaping the future of solar technology, contributing to a cleaner, more sustainable, and visually enchanting energy landscape.

Product Features

Cutting edge Cell Splitting Technology

Enhanced Absorption

Flexible Application

High Power Density

Low Light Performance

Sustainable Production Process