Photovoltaic module JinkoSolar JKM565N-72HL4-BDV 565W Silver
- Manufacturer: JinkoSolar
- Maximum Power (Pmax): 565 W
- Frame colour: Silver
- Panel Efficiency: 21.87 %
Model comparison table
Technical data - Photovoltaic module JinkoSolar JKM565N-72HL4-BDV 565W Silver
Product description
Our Tiger Neo N-type 72HL4-BDV solar panel, with a maximum power output (Pmax) of 565.0 W, embodies the forefront of solar module technology, catering to the discerning requirements of professionals in the solar energy sector. The module's impressive panel efficiency of 21.87% ensures a high yield for commercial installations, while the silver anodized aluminum alloy frame offers both a durable and aesthetically versatile solution to integrate into a variety of building designs. With 144 N-Type bifacial cells, it captures sunlight efficiently from both the front and rear sides, significantly amplifying energy production. The ability to operate seamlessly within systems up to 1500VDC highlights its adaptability to modern solar installations, despite the challenges associated with the transition from 1000VDC to 1500VDC systems.
The intricacies of the Tiger Neo N-type 72HL4-BDV do not end with its high power output and flexibility in installation. Recognized for its resilience in high-temperature environments, the panel's N-Type cell technology ensures sustained performance and a lower rate of degradation over time, promising long-term returns on investment. Professionals will appreciate the module's Power Tolerance (Positive) of 3.0%, providing assurance of reliability and efficiency. This module’s dimensions, standing at a height of 2.278 meters and width of 1.134 meters, paired with a weight of 32.0 kg, make it a manageable yet robust choice for large scale deployments. The 12-year warranty further underscores the commitment to quality and confidence in the longevity of the solar panel, making it an optimal choice for system integrators, module installers, and resellers aiming to fulfill the sustainability goals of businesses and enhance the energy independence of commercial endeavors globally.