Product: TSM-NEG9RC.27 | N-type i-TOPCon Dual-Glass Module
Powering Efficiency with Next-Generation Solar Technology
The TSM-NEG9RC.27 represents the forefront of monocrystalline solar innovation. Designed with advanced N-type i-TOPCon cells and a bifacial dual-glass structure, this module delivers outstanding performance, durability, and aesthetic appeal for residential, commercial, and industrial applications. With a maximum power output of 450W and module efficiency up to 22.5%, it is engineered to maximize energy yield and ensure long-term reliability.
Core Advantages
🏡 High Customer Value
A sleek, all-black design integrates seamlessly into any architecture. Its optimal size and weight simplify handling and installation, while compatibility with mainstream inverters and mounting systems ensures a versatile fit for diverse projects. Built to withstand demanding conditions, it features robust mechanical load resistance (5400/4000 Pa) and is backed by a certified lifetime carbon footprint assessment.
🛡️ Unmatched Reliability with Dual-Glass Construction
The double-glass design provides superior protection against environmental stress, significantly reducing risks from micro-cracks, scratches, and harsh weather. It boasts excellent fire ratings and certified resistance to salt spray, ammonia, and PID (Potential Induced Degradation), ensuring sustained performance. Supported by a 30-year linear power warranty and a 25-year product warranty, it is an investment in long-term energy security.
⚡ High Power & Superior
EfficiencyBuilt on the innovative 210mm cell platform and enhanced by patented i-TOPCon technology, this module achieves top-tier conversion efficiency. Continuous improvements in contact resistance reduction, rear reflection, and edge quality ensure more power per square meter, optimizing roof space and project ROI.
🌞 High Energy Yield in Real Conditions
Engineered for real-world performance, it excels in low-light conditions and maintains higher efficiency at elevated temperatures (temperature coefficient of -0.29%/°C). Its high bifaciality (80±5%) can generate an additional 10-20% power from rear-side reflection, boosting total energy output depending on the installation environment.
