680 parameters of photovoltaic panels
As people realize the importance of environmental protection and renewable energy, solar photovoltaic systems are becoming more and more widely used . As a high-efficiency solar panel, the 680 photovoltaic panel has many excellent parameters.
Size and appearance
The size of the 680 photovoltaic panel is generally 16601000mm, and the weight is 20kg. In appearance, 680 photovoltaic panels are generally blue or black, and can be customized according to different needs.
Power and efficiency
The rated power of 680 photovoltaic panels is generally between 270W and 285W, the normal operating voltage is about 30V, and the operating current rated can reach 9.0A. More importantly, the photoelectric conversion efficiency of 680 photovoltaic panels is extremelyhigh, generally reaching more than 17%, which means that the conversion efficiency of light energy into electrical energy is very high.
Reliability and performance
680 photovoltaic panels have very high reliability and stability and can adapt to various harsh environmental conditions. In rainy weather and low temperature environments, the performance of 680 photovoltaic panels can remain efficient and stable. In addition, the 680 photovoltaic panels have strong wind resistance and can maintain good operating conditions even in strong wind environments.
Scope and application
Due to its excellent performance and parameters, 680 photovoltaic panels have been widely used in various photovoltaic power generation systems, such as solar power generation systems. domestic photovoltaic energy and commercial photovoltaic energy. systems of energy production and large photovoltaic plants, etc. In addition, 680 photovoltaic panels can also be used in solar charging systems, solar street lights, solar ships and other fields.
Conclusion
As an efficient and reliable solar panel, the parameters and performance of 680 photovoltaic panel have been widely recognized. In the future, with the continuous development and improvement of solar energy technology, 680 photovoltaic panels are expected to be used in a wider range of fields and create a cleaner and more environmentally friendly living and working environment. the environment for people.
What are the characteristics of photovoltaic brackets
The characteristics of photovoltaic brackets mainly include the following aspects:
1. > Durability and stability: photovoltaic supports are generallynt made from high-strength materials, such as steel or aluminum alloys, to ensure their stability and durability in various environmental conditions.
2. Adjustable angle: Some photovoltaic racks have adjustable angle functions, which can adjust the angle of photovoltaic modules according to seasonal or weather changes to maximize power generation efficiency .
3. Easy installation: Photovoltaic racks generally adopt a modular design, and the installation process is simple and quick, which can improve construction efficiency.
4. Wind and earthquake resistance: Photovoltaic racks must have a certain wind and earthquake resistance to cope with harsh weather conditions.
5. Strong adaptability: the supportsPhotovoltaic ts can adapt to different installation environments, including roofs, ground, mountains, etc. The appropriate media type can be selected based on the specific situation.
6. Easy maintenance: Photovoltaic racks generally have good corrosion and weather resistance, reducing the maintenance and upkeep workload.
Generally, photovoltaic racks have the characteristics of durability, stability, adjustable angle, easy installation, wind and earthquake resistance, strong adaptability and easy maintenance. These features can help photovoltaic systems achieve higher power generation efficiency and longer lifespan.
Case of Kesheng roof photovoltaic support
As a person engaged in the photovoltaic industry for many yearss, people often ask me: “What are the characteristics of photovoltaic brackets?” Today I present it in detail.
The most important feature of the photovoltaic support is its support and fixing functions. The bracket can bear the weight of the photovoltaic module and firmly fix it in the predetermined position, ensuring that the module will not fall or slide. At the same time, the support design should also consider factors such as wind resistance and earthquake resistance to improve the stability of the entire photovoltaic system.
Another characteristic of the photovoltaic support is its diversity of materials. Common materials of photovoltaic racks include steel, aluminum alloy, stainless steel, etc. Each of these materials has its own characteristics. For example, steel is cheap and high strength, buts is susceptible to corrosion; aluminum alloy is light and has good corrosion resistance, but stainless steel has better corrosion resistance; strength, but the cost is also high. Therefore, when choosing the material of the photovoltaic support, you should weigh it according to the actual needs and budget.
In addition to the diversity of materials, the design of photovoltaic supports is also one of its characteristics. There are many factors to consider when designing the rack. For example, it is necessary to ensure that the support can withstand the influence of various external factors (such as wind, snow, earthquakes, etc.); necessary to allow photovoltaic modules to receive sunlight at the best angle; it is necessary to facilitate installation and maintenance with the environment, etc. Therefore, good photoflight support designtaique must comprehensively consider various factors, which must not only meet functional requirements, but also aesthetic and environmental protection requirements.
In addition, the manufacturing process of photovoltaic supports is also one of its characteristics. The stent manufacturing process directly affects the quality and stability of the product. A good photovoltaic rack must be precisely processed and inspected to ensure that the size and precision of each component meets requirements. At the same time, the surface treatment of the bracket is also very important, which can improve the corrosion resistance and aesthetics of the bracket. Common surface treatment methods include plastic spraying, galvanizing, etc.
The modularity and standardization of photovoltaic supports are also part of its characteristics. In order to facilitateliter installation and transportation, photovoltaic racks generally adopt modular and standardized designs. This design method can significantly reduce installation and transportation costs and improve the construction efficiency of the entire photovoltaic power plant. At the same time, the modular and standardized design also facilitates subsequent maintenance and upgrades.
The characteristics of photovoltaic brackets mainly include supporting and fixing functions, material diversity, design flexibility, manufacturing process precision, modular and standardized design, etc. These characteristics make photovoltaic racks play an important role in the construction of photovoltaic power plants and are one of the key factors to ensure the stable, safe and efficient operation of photovoltaic systems.
Of course, withWith the continuous advancement of technology and changing application requirements, photovoltaic media are also constantly developing and improving. In the future, photovoltaic stents may use more advanced materials and processes to further improve their performance and stability. At the same time, with the rise of emerging markets such as distributed photovoltaics and rooftop photovoltaics, the application scope of photovoltaic media will also expand.
I hope the above information can help you better understand the characteristics of photovoltaic media. If you have any other questions or need additional assistance, please let me know. As an expert, I will be happy to help and serve you.