Independent agency analysis: 210mm modules accumulated shipments reached 76GW, 600W+ modules experiencing explosive growth
2023.01.12

TrendForce, the independent new energy research agency, forecasts that capacity for 210mm products will reach 57% in 2023. The penetration of 600W+ high-power modules is clearly accelerating, setting a distinct direction for both the industry chain and market.

As technology iteration is an essential force in driving industry development, an increasing number of module makers are now producing 210mm modules, marching into the 600W+ era.

More than 80% of module makers deploy 210mm technology as 600W+ high-power modules become a global standard

The 600W+ is now dominating major PV exhibitions around the world. 75% of the 600W+ products showcased by mainstream module makers at RE+2022 were fitted with 210mm wafers, demonstrating the advantage of the 210mm technology, and 30 companies had more than 40 600W products on display at Intersolar South America at the end of August. A similar pattern was seen at Intersolar Europe and SNEC.

According to TrendForce, more than 52 module makers (>80%) worldwide can now produce 210mm products. As indicated by TrendForce, capacity of large-sized modules has continued to expand this year, and new capacity is compatible with sizes of up to 210mm. Because of the extensive compatibility of 210mm cell and module technology, cutting-edge technologies such as TOPCon and HJT could be adopted, and module power output is likely to reach 700W+ soon.

Figure: 600W+ high-power modules highlight the power trend

Trina Solar, as the first mover of 210mm modules, recently put 210mm n-type capacity into mass production, reinforcing the company’s competitiveness with next-generation n-type cell technology. The refinement in 210mm products and n-type technology will further improve efficiency and cut costs.

Accumulated shipment of 210mm modules reached 50GW in first nine months of 2022

The production of 210mm modules is growing rapidly as the downstream high-power module market flourishes. In the first nine months of the year 50GW of 210mm cell modules were shipped. More than 76GW of such modules has been shipped as of third quarter 2022, and shipments were expected to accelerate in the last three months of 2022.

210mm module capacity to reach 57% by 2023

As indicated by TrendForce, large-sized modules (182mm and 210mm) are estimated to account for 512GW of capacity during 2022 at a ratio of 83%, of which 210mm capacity accounts for 287GW at 46%, representing year-on-year growth of 16%. Large-sized modules (182mm and 210mm), with their successive completion in capacity deployment next year, will occupy 89% of ratio then, and 210mm modules are likely to dominate, with estimated capacity of 466GW at 57%.

TrendForce forecasts that capacity of 210mm modules will continue to surge in 2023 and reach 66.04% by 2025, when 182mm module capacity will fall to 30%. In terms of wafers and cells, shipments of large-sized variations will continue to climb and dominate the market. New highs in global shipments of 210mm can be expected in the near future.

Figure: Capacity ratio for various sized wafers between 2021 and 2026 (Unit: %)

600W+ modules supreme in all-scenario for both utility and non-utility plants

High-power modules are widely used because of their superior LCOE and BOS costs. According to TrendForce, 600W+ high-power modules are becoming the trend in power stations, with 210mm technology seen as the first choice in making their 600W+ modules, which can reduce LCOE by up to 4.1%.

600W+ modules are yielding compatible solutions by adapting to different installation environments and projects that include ground-mounted power stations and distributed settings.

600W+ high-power modules lead the way as they deliver low LCOE

Low LCOE has been an ultimate target for the industry chain, and 600W+ modules that are equipped with high power, high efficiency, high energy yield, and high reliability can effectively reduce LCOE. Comparing 600W+ modules and 500W+ modules, the former have increased power output by 125-130W and increased module efficiency by 0.3-0.5%. 600W+ modules are also superior in energy yield, evidenced in test by their increase of 1.51~2.1% in single watt power generation. In addition, in five rigorous tests, 600W+ modules were proven to retain their highly reliable performance even in extreme climates.

Trina Solar, a pioneer in 210mm cell technology, has demonstrated to the market its solid strength and capability in the 600W+ field. As of third quarter 2022, Trina Solar has shipped 40GW 210mm modules, ranking first in the industry, with a total of 120GW of global modules shipments since its foundation.