High Efficiency & High Power PV Module with Lowest KWh Cost, Low Degradation & Long Warranty Period

LSHE-M550


*  A high-efficiency PV module designed for optimal performance

*  With the lowest KWh cost, low degradation

*  And an extended warranty period forlasting value

*  A perfect choice for sustainable energy solutions


SPECIFICATION

 

 

LSHE-M550 M5

Mono-crystalline Silicon PV Modules represent a noteworthy advancement in solar technology, boasting A Grade Cutting-Edge PERC (Passivated Emitter and Rear Cell) technology that sets them apart from traditional photovoltaic modules. Thanks to this innovative technology, these modules achieve an outstanding efficiency of
up to 21.33%, making them a high-performance and cost-effective solution for harnessing solar energy.
The exceptional efficiency and power output of these modules go hand in hand with their ability to deliver the lowest kilowatt-hour cost, offering a compelling value proposition for users seeking to maximize the economic benefits of solar energy. This makes them a particularly attractive choice for both residential and commercial applications, as they contribute to reducing energy costs and enhancing sustainability.
Moreover, a key feature of these cutting-edge modules is their low degradation and long warranty period, ensuring that they continue to perform optimally over an extended lifespan. This reliability and durability provide peace of mind to users, assuring them that their investment in solar energy will yield benefits for years to come.
In addition to their impressive performance metrics, these modules exhibit excellent PID (Potential-Induced Degradation) resistance, safeguarding their efficiency and performance under challenging operating conditions. Their robust design and construction are engineered to mitigate the risk of PID, thereby ensuring the long-term reliability and stability of the modules.
Furthermore, the harsh environmental adaptability of these modules makes them well-suited for a wide range of climatic conditions, including extreme temperatures, high humidity, and exposure to salt and other corrosive elements. This adaptability is a crucial factor for users in regions with challenging environmental conditions, offering a reliable and durable energy solution in diverse settings.
Another noteworthy attribute is the exceptional low-light performance of these modules, allowing them to continue generating electricity even in dim lighting conditions. This feature is particularly advantageous for regions with limited daylight hours or frequent cloud cover, as it enables consistent energy production regardless of environmental variables.
Additionally, the anti-crack certification for 5400Pa snow and 2400Pa load tests demonstrates the structural resilience of these modules, making them suitable for deployment in areas prone to heavy snowfall or experiencing significant external pressures. This certification underscores the modules' durability and reliability, reinforcing their suitability for a variety of installation scenarios.
Looking at potential application scenarios, these high-performance modules are well-suited for deployment in solar farms, serving as a dependable and efficient source of renewable energy for large-scale electricity generation. Their ability to operate at high efficiency levels and withstand diverse environmental challenges positions them as an excellent choice for utility-scale solar power stations, where reliability and longevity are paramount.
In addition to utility-scale installations, these modules are an ideal fit for the rooftops of large factories, leveraging the available space to generate on-site renewable energy and reduce the facility's dependence on grid power. Their high efficiency, durability, and low-light performance make them an attractive energy solution for industrial settings, contributing to cost savings and sustainability.
In summary, mono-crystalline Silicon PV Modules equipped with cutting-edge PERC technology offer a compelling combination of high efficiency, robustness, and adaptability, making them an ideal choice for a diverse range of applications. Whether deployed in solar farms, on the rooftops of large factories, or as part of utility-scale solar power stations, these modules provide a reliable, cost-effective, and sustainable energy solution, empowering users to harness the full potential of solar power.


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