JinkoSolar Launches AIDC Modules to Power Next-Gen Data Centres

JinkoSolar, a PV and ESS supplier company, has globally launched its new AIDC modules for data centres. Built on the proven Tiger Neo 3.0 TOPCon platform technology, this product is specifically designed for conventional data centres, AI data centres, GPU clusters, supercomputing plants, edge computing network centers, chip plants, AI factories and AI-powered carbon-neutral IDZ etc. AIDC module addresses the specially high requirements of data centres, including high load capacity, high asset security, prolonged non-stop operation, extreme weather resistance, super stability and reliability, low O&M requirements and large-scale deployment, providing the best possible clean energy solution for ‘computing-power synergy’ in the AI world.

The module offers six key advantages designed to enhance performance, efficiency and safety. Firstly, it delivers high efficiency and power output, based on JinkoSolar’s advanced Tiger Neo 3.0 technology platform, achieving a front-side efficiency of 24.8 percent or higher and a power output of 670W or more. This enables greater electricity generation within the same space, optimising land and rooftop utilisation while reducing the levelised cost of electricity (LCOE) over the lifecycle.

Secondly, the module features high bifacial efficiency, reaching approximately 85 percent, significantly higher than conventional alternatives. This allows it to generate substantial additional power from the rear side, effectively providing free energy output. Under certain conditions, a 670W module can produce up to 844W, making it particularly beneficial in high-reflectivity environments such as snowy or desert regions.

Thirdly, it demonstrates strong performance under low-light conditions, ensuring stable power generation even during early mornings, evenings, or cloudy weather. With optimised low-irradiance response, the module can increase energy generation by up to 8.93 percent in such conditions, extending effective generation hours and aligning better with the continuous power demands of data centers.

Fourthly, the module is designed with a high fire resistance rating, meeting stringent international safety standards such as IEC 61730-2:2023 and UL 790 Class A. It incorporates flame-retardant materials and advanced insulation technologies that prevent fire spread and reduce ignition risks, ensuring enhanced safety for critical infrastructure like data centers.

Fifthly, it offers superior resistance to extreme weather conditions, including the ability to withstand hail impacts of up to 55 millimeters in diameter. Its durable construction with tempered glass and shock-absorbing design minimises the risk of damage and subsequent electrical failures.

Finally, the module provides ultra-high mechanical load capacity, capable of enduring heavy snow loads and strong winds. Tested to withstand up to 6,000 Pa on the front side and 4,000 Pa on the rear side, it ensures structural stability and safety even in harsh environmental conditions, making it a reliable solution for long-term deployment.

JinkoSolar's data centre modules leverage six core technologies—extreme efficiency, high bifaciality, high/low irradiance response, high fire resistance, hail resistance and high mechanical load capacity—to truly deliver ‘more efficient, more stable and safer’ green power for the computing era. As a global leader in cumulative PV shipments, JinkoSolar remains driven by technological innovation and deeply committed to specialised application scenarios. This launch not only marks JinkoSolar's successful exploration of the limits of product performance in complex scenarios, but also represents another significant milestone in the company's efforts to support the energy transition across all industries.