MONO 600W-630W-Bifacial-BualGlass
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MONO 600W-630W-Bifacial-BualGlass

Type of panels: N-type TOPCon Technology, Half-cut cells, 182 mm * Monofacial * Single-Glass
Type and no. of cells: N-type TOPCon Technology, 132
Maximum system voltage: 1500 (V)

Power range: 600W-630W
Efficiency range:
21.10%-23.30%
Dimensions:  2384mm x 1134mm x 35 mm
Weight: 32.5Kg(+/-0.5kg)
Performance Guarantee: 30 years
Product Warranty: 12 years
Packaging:31pcs/pallet,620pcs/40HQ Container
  • DE-132G12RHC 600W-630W

  • solardeland

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Product Description


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MONO 600W-630W-Bifacial-BualGlass TECHNICAL PARAMETERS


Module DE-132G12RHC
Power range 600W-630W

Efficiency range

21.10%-23.30%

Cell Orientation

6*22(132)solar half cell
Dimension 2384*1134*35mm
Weight 32.5Kg(+/-0.5kg)
Packaging

31pcs/pallet,620pcs/40HQ Containe

Product Warranty 30-Years




MONO 600W-630W-Bifacial-BualGlass Download Product Details


MONO 600W-630W Bifacial-DualGlass.pdf



MONO 600W-630W-Bifacial-BualGlass  Advantages

MONO 600W-630W Bifacial-BualGlass-Technology

MONO 600W-630W Bifacial-BualGlass-N-TopCon Technology:

1.N-TopCon technology utilizes topological analysis to study and manipulate the electronic properties of materials, particularly in semiconductors and electronic devices.

2.It focuses on understanding energy bands and bandgaps to optimize materials for specific electronic applications, such as high conductivity or efficient energy transfer.

3.This approach enables the design of materials with tailored electronic properties, contributing to the advancement of electronic devices and technology.

N-TopCon technology structure diagram

MONO 600W-630W Bifacial-BualGlass-Half Cells Technology:

Increased Efficiency:By splitting the cell into two half-cells, each with its own electrode, the efficiency of the cell can be increased compared to a single-cell setup. This is because each half-cell can be optimized independently, leading to better performance.

Flexibility: Half-cell technology allows for greater flexibility in cell design and operation. Different materials and configurations can be used for each half-cell, allowing for the development of customized solutions for specific applications.

Improved Performance: The independent optimization of each half-cell can lead to improved overall performance of the cell, including higher power output and better stability over time.

Cost-Effectiveness: While initial costs may be higher due to the more complex design, the improved efficiency and performance of half-cell technology can lead to long-term cost savings, especially in large-scale applications.


MONO 600W-630W Bifacial-BualGlass Structure


Solarpanel Construction-Bifacial


Common Areas of Mono 600W-630W Bifacial-BualGlass


Residential Mono 600W-630W Bifacial-BualGlass Solar Panels:


One of the most common applications of solar modules is in residential settings. Homeowners install solar panels on their rooftops to generate electricity for their homes. These panels can significantly reduce electricity bills and provide a clean, sustainable energy source.


1. Improved Efficiency and Performance


One of the most significant future trends in residential solar panels is the continuous improvement in efficiency and performance. Solar panel manufacturers are constantly working to develop more efficient photovoltaic cells and panel designs. These advancements will allow homeowners to generate more electricity with fewer solar panels, making solar installations more affordable and space-efficient.

Emerging technologies such as bifacial solar panels, heterojunction cells, and perovskite solar cells are poised to further enhance efficiency levels. Bifacial panels, for example, capture sunlight from both sides, increasing energy production. Heterojunction cells combine different types of silicon to reduce energy loss, while perovskite cells offer the potential for high efficiency and lower production costs.


2. Aesthetics and Integration


Homeowners are increasingly concerned with the aesthetic aspects of solar panel installations. To address this, the future of residential solar panels will likely see more emphasis on design and integration. Solar panels that blend seamlessly with roofing materials or facades of buildings will become more common.

Solar tiles, which replace traditional roofing materials and serve as solar panels, are gaining traction for their aesthetic appeal. Additionally, transparent solar windows and building-integrated photovoltaics (BIPV) will allow solar panels to be incorporated into building designs without compromising aesthetics.


3. Community Solar and Shared Energy


Community solar projects and shared energy solutions are emerging trends that will make solar energy accessible to a broader range of homeowners. In community solar programs, residents who may not have suitable rooftops for solar panels can subscribe to a shared solar installation located off-site. This approach democratizes access to clean energy and allows more people to benefit from solar power.

Shared energy systems, where neighbors can trade excess energy with one another, are also on the horizon. Blockchain technology and peer-to-peer energy trading platforms will enable homeowners to buy, sell, or share surplus energy directly with their neighbors, creating more resilient and interconnected energy communities.


Commercial and Industrial Installations:


Solar modules are frequently employed in commercial and industrial settings. Businesses and factories use large arrays of solar panels to offset their energy consumption and reduce operational costs. These installations can be ground-mounted or integrated into building structures.


Off-Grid Systems:


In remote areas where access to the electrical grid is limited or nonexistent, solar modules are used to create off-grid power systems. These systems are essential for providing electricity to homes, cabins, and equipment such as water pumps and communication towers.


Grid-Tied Systems:


Solar modules are often connected to the grid in grid-tied systems. Excess electricity generated by the panels is fed back into the grid, earning homeowners and businesses credits or compensation through net metering. This not only reduces energy bills but also contributes to the overall grid's stability.


Solar Farms:


Utility-scale solar farms are vast installations comprising numerous solar modules. These farms can generate large amounts of electricity and supply power to thousands of homes and businesses. Solar farms are a key component of the transition to clean energy sources.


Emergency Power:


Solar modules are a reliable source of emergency power. They can be integrated into backup power systems for homes and businesses, ensuring that critical appliances and equipment continue to function during power outages.

In conclusion, solar modules have a wide range of applications that extend from residential rooftops to large-scale utility projects. Their versatility and sustainability make them a vital component of the renewable energy landscape, helping to reduce carbon emissions and combat climate change while providing clean and affordable electricity to communities around the world.

shutterstock_1330285463


Factory introduction

Company Profile

Solardeland is a professional solar technology company founded by Kay Orzschig and Jack Moe  in Düsseldorf, Germany.

 As one of the important products of clean energy, solar panels play a crucial role in accelerating the global promotion of green energy and are indispensable for achieving carbon neutrality in Europe and around the world.

Since 2018, we are committed to providing global customers with high-quality, high-efficiency German technology solar panels with affordable prices.

Adhering to “Clean Energy For You", we will provide our customers with more new energy solutions.


Solardeland Company Profile-1  Solardeland Company Profile-2  Solardeland Company Profile-7  Solardeland Company Profile-4



Mono 600W-630W Bifacial-BualGlass Certificate

As part of its commitment to quality and reliability in its own products and the solar industry as a whole, Soladeland partners with third-party testing organizations (including TUV, IEC, IOS and CE) to ensure high-quality solar panel products


                                TUV          iec         iso          ce





Case


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FAQ

Solardeland MONO 600W-630W Bifacial-BualGlass Sales Service

How to ensure product quality and quantity production?

Quality Control Processes: Implementing stringent quality control measures at every stage of production, from sourcing raw materials to final product assembly, helps ensure that each component and the final product meets specified quality standards.

Advanced Manufacturing Technologies: Using state-of-the-art manufacturing technologies, such as automated assembly lines and robotics, can help streamline production processes, reduce errors, and improve overall efficiency and output.

Supplier Audits and Monitoring: Regular audits and monitoring of suppliers to ensure they meet quality and quantity requirements for raw materials and components are essential for maintaining consistent production standards.

Employee Training and Development: Providing comprehensive training programs for employees helps ensure they understand and adhere to quality standards and production processes, leading to higher-quality products.

Continuous Improvement Initiatives: Implementing continuous improvement programs, such as Six Sigma or Total Quality Management, can help identify and address production inefficiencies and quality issues, leading to better product quality and higher production yields.

Robust Testing and Inspection Protocols: Implementing rigorous testing and inspection protocols for both raw materials and finished products helps identify and rectify any defects or issues, ensuring only high-quality products are released to the market.

Environmental and Safety Standards Compliance: Adhering to environmental and safety standards not only ensures the factory operates responsibly but also contributes to product quality and quantity by reducing disruptions and risks.

How to deal with sudden price swings?

Efficient Production Planning: solardeland always implements a robust production planning process to help ensure that production plans are aligned with delivery schedules.

Excellent supply chain management: A good supply chain is essential for on-time delivery.

Efficient production processes: Optimize production processes to increase efficiency and throughput, helping to minimize delays and bottlenecks. This includes using automation, improving workflow layout and implementing lean manufacturing principles.

Communication and collaboration: Instant and effective communication and collaboration between different departments and stakeholders (including production, logistics and customer service) to ensure a smooth delivery process.

Continuous improvement: Regularly reviewing and improving delivery processes based on feedback and performance data helps identify areas for improvement and ensure delivery times are continually optimized.

How to ensure warranty time and after-sales service?

12-year Warranty for Materials and Processing.

25-year Warranty for Extra Linear Power Output.


Clear Warranty Policy: Develop a clear, comprehensive warranty policy that outlines the terms, conditions, and duration of your warranty. Make sure customers understand what is covered and how to make a claim.

High Quality Products: solardeland focuses on producing high quality products that are durable and reliable. This reduces the likelihood of warranty claims and ensures customer satisfaction.

Thorough Testing and Quality Control: Solardeland implements rigorous testing and quality control processes to identify and correct any issues before products are shipped. This helps reduce the number of warranty claims due to manufacturing defects.

Efficient Repair and Replacement Process: Solardeland has an efficient process for handling warranty claims, including prompt repair or replacement of defective products. This helps minimize customer downtime and improve satisfaction.

Feedback loop: Soladeland establishes a feedback loop to collect customer feedback on product performance and after-sales service, and continuously improves products and services.

Transparency and Honesty: Be transparent and honest with customers about warranty coverage and potential limitations. This builds trust and helps manage customer expectations.





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