China Huadian Awards 1 GW Order to JinkoSolar for N-type Tiger Neo

JinkoSolar, one of the world's biggest and most innovative makers of solar modules, recently revealed that its n-type high-efficiency Tiger Neo series modules got a 1GW order from China Huadian Corporation (CHD), which is 100% of CHD's confirmed N-type tender. With its high efficiency, high power output, optimized bifacial factor, low degradation, and low temperature coefficient, it is becoming the first pick for utility projects, industry and business projects, and residential rooftops.

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The Tiger Neo series of N-type TOPCon-based panels from JinkoSolar achieve the maximum efficiency rating at 22.95% under ideal conditions, whereas the most efficient N-type panels currently on the market all have efficiency percentages above 21%. When the temperature exceeds 77 degrees Fahrenheit, Tiger Neo beats out the competition with a temperature coefficient of 0.29%/°C.

Three N-type TOPCon solar panel model series are available from JinkoSolar under the brand name Tiger Neo. The most recent range from the firm, the Tiger Neo 66-cells, features greater watt ratings and a little improved efficiency. It offers up to 620 watts at a 22.95% efficiency, compared to the 54-cell Tiger Neo residential panel’s up to 450 watts at a 22.52% efficiency and a 0.29%/°C temperature coefficient.

In addition to having a better efficiency, N-type TOPCon has significantly less degradation than PERC, such as LID and LeTID, thanks to its doping and diffusion characteristics. The first 12-month deterioration of TOPCon arrays, on average, is between 0.5% and 0.6%, whereas that of PERC arrays is between 1.5 and 1.8%, according to tracking comparison data collected and recorded from existing n-type and p-type projects.

The temperature coefficient is yet another important element that hastens the adoption of TOPCon panels. The panel’s efficiency will decrease by the coefficient rating % for every degree Celsius when the temperature climbs over 25. JinkoSolar’s Tiger Neo, for instance, has a temperature coefficient value of 0.29%/°C. Its efficiency will decline by 2.9%/°C when the panel temperature rises by 10 degrees Celsius (50F), which is frequent in hot sunshine. In contrast, a P-type panel with a temperature coefficient of 0.35%/°C will see a loss in efficiency of 3.4%/°C, or 17% greater decreases. In essence, when it’s heated, it generates less electricity.