Production Capacity 2022
Increase by over 80% (compared to 2021)
Wafers — 20 GW
Cells — 16 GW
Modules — 6GW
Products & Strengths
Monocrystalline Silicon Wafer
Sunrev offers mainstream P-type/ N-type monocrystalline silicon wafers ranging from 182mm to 230mm.
Since its establishment, the Wafer Business Division has put "innovation is the first driving force" as the most concern. With the R&D team's ongoing explorations for cutting-edge technologies, SUNREV has delivered industry-leading manufacturing processes and quality products and become a firm advocate and pioneer for producing larger and thinner wafers.
Monocrystalline Silicon Cells
The installed capacity of P-type monocrystalline silicon cells is 16GW. The capacity of N-type cells will be increased by 10GW in 2023.
The production line can accommodate to 182mm and 210mm wafers, and 8 GW of P-type cell capacity can be upgraded to produce N-type cells. With lab test instruments and equipment worth more than USD 4.5 million, a high-quality innovative talent pool, and a photovoltaic cell R&D team of 52 persons, the company has built advanced facilities and platforms for photovoltaic product development and verification.
Thanks to the continuous efforts of our teams, the conversion efficiency of our mass-produced P-type cells reaches 23.3%, and that of trial-produced N-type TOPCon cells reaches 24.6%.
High conversion efficiency
With superior MBB cell technology and advanced manufacturing processes, modules achieve a conversion efficiency of 21.4%.
Excellent weak-light performance
Modules demonstrate excellent weak-light performance when there is insufficient light.
Positive power tolerance
A positive power tolerance of 0-5 W guarantees the reliability of modules.
Current rating is used to effectively reduce up to 2% of power loss.
Capability to withstand super high wind and snow pressure
The modules are built to withstand wind pressure of up to 2400Pa and snow pressure of up to 5400Pa.
Improved cell manufacturing processes and selected encapsulation materials ensure good anti-PID performance of modules.