Recently, JinkoSolar signed a supply agreement in Spain for 97.63 MW of its high-efficiency Tiger Neo 3.0 series photovoltaic modules. The finalization of this order marks another significant milestone for JinkoSolar in deepening its presence in the European distributed solar market. It fully demonstrates the exceptional adaptability of the Tiger Neo 3.0 modules for distributed scenarios, further solidifying the brand’s position as the preferred module choice in the global distribution market.
Spain’s unique geographical and climatic conditions present notable challenges for distributed photovoltaic applications, including extreme summer heat, a critical need for power generation during low-light periods (morning and evening), and the pursuit of maximum power generation efficiency per unit area in distributed projects. These factors impose stringent requirements on the comprehensive performance of PV modules. Addressing these specific pain points, the Tiger Neo 3.0 modules precisely match market demands with four core advantages:
Front-side Efficiency Exceeds 24.8%, Maximizing Returns in Limited Spaces
Addressing the challenge of densely packed commercial roofs and limited residential rooftop areas in Spain, the Tiger Neo 3.0 series achieves a mass-production front-side conversion efficiency exceeding 24.8% and a maximum power output of up to 670W. With its industry-leading power density on the front side, it enables higher installed capacity on the same roof area, helping users maximize power generation revenue in valuable urban spaces. Its high power characteristics not only reduce system balance of system (BOS) costs but also align perfectly with Spanish market policies favoring high-efficiency PV products, assisting users in achieving higher returns on investment.
Excellent Low-Light Response, Generating More Power During Dawn, Dusk, and Cloudy Conditions
Although Spain is rich in solar resources, extreme summer heat in some regions causes peak grid loads to shift towards the evening, and commercial/industrial users have a strong demand for electricity during morning and evening hours. The Tiger Neo 3.0 modules maintain 95%-98% relative power output under low irradiance conditions, ensuring stable power generation even during early morning, dusk, and occasional cloudy or rainy weather. This characteristic effectively extends the daily power generation hours of distributed systems, helping users capture more “sunshine dividends” during peak morning and evening demand periods, thereby genuinely improving the self-consumption ratio and electricity cost savings.
Stable Adaptability in All Conditions, Ensuring Sustained High-Efficiency Output
Building on the core advantages of low-light adaptability and high front-side efficiency, the Tiger Neo 3.0 modules also boast durability across various climates. With an optimized temperature coefficient of -0.26%/°C, they mitigate power loss caused by extreme high temperatures in the south. Additionally, having passed rigorous salt mist tests and featuring an anti-corrosion design, they effectively withstand the challenges of high humidity and salt spray erosion in coastal areas. This comprehensive protection ensures the stable and continuous high-efficiency output of the modules in distributed scenarios across different regions.
Ultra-Low Degradation for Stability and Reliability, Ensuring Lifetime Revenue
Spanish distributed users are highly sensitive to the return on investment period. The Tiger Neo 3.0 modules feature first-year degradation of less than 1% and an annual linear degradation of only 0.35%, guaranteeing efficient and stable output throughout their 30-year lifecycle. Combined with excellent anti-PID (Potential Induced Degradation) and high-temperature resistance, they can effectively cope with Spain’s scorching summer climate, reduce long-term operation and maintenance risks, and provide users with stable, long-term green returns.
JinkoSolar continues to deepen its presence in the European distributed solar market, steadily enhancing its market penetration through its global supply chain, full-scenario adaptability, and localized service system. This collaboration will accelerate the large-scale application of Tiger Neo 3.0 modules in Spanish distributed scenarios, injecting momentum into the development of local clean energy through innovative technological products.
