{ "schemaVersion": "ooitech-article.v1", "url": "https://www.ooitech.com/topcon-four-cut-cells-how-cutting-a-cell-into-four-increases-power-output.html", "language": "en", "title": "TOPCon Four-Cut Cells: How Cutting a Cell Into Four Increases Power Output - - Ooitech, the world's leading solar panel production line solutions provider, supply chain expert, solar panel making machine facotry", "description": "A technical deep-dive into TOPCon four-cut (quarter-cut) cell technology in 2026: the physics of current reduction, edge passivation, product matrix comparison, and the three-cut versus four-cut debate.", "keywords": "TOPCon four-cut, quarter-cut solar cell, edge passivation, 0BB, G12 G12R module, high-density packaging, solar module power", "ogType": "website", "image": ".../favicon.png", "headings": [ { "level": 2, "text": "TOPCon Four-Cut Cells: How Cutting a Cell Into Four Increases Power Output" }, { "level": 3, "text": "TOPCon Four-Cut Cells: How Cutting a Cell Into Four Increases Power Output" }, { "level": 5, "text": "Introduction" }, { "level": 5, "text": "The Physical Origin: One Cut, Three-Quarters Less Loss" }, { "level": 5, "text": "Cutting Is Easy, But Repairing the Cut Is the Real Skill" }, { "level": 5, "text": "The 2026 Four-Cut Product Matrix: Different Formats, Don't Compare Power Directly" }, { "level": 5, "text": "Four-Cut Is Not an Isolated Event: 0BB + High-Density Packaging + Thin Wafers" }, { "level": 5, "text": "Three-Cut vs. Four-Cut: Not Replacement, But Division of Labor" }, { "level": 5, "text": "Four Judgments (For Reference)" }, { "level": 5, "text": "Summary" }, { "level": 5, "text": "Interactive Topic" }, { "level": 5, "text": "Ooitech's View" }, { "level": 5, "text": "Tags :" }, { "level": 5, "text": "Category" }, { "level": 5, "text": "Recent Post" }, { "level": 6, "text": "TOPCon Solar Cell Manufacturing Process: A Complete Step-by-Step Guide" }, { "level": 6, "text": "PERC vs TOPCon vs HJT vs BC: Why Solar Cells Differ So Much in Price and Efficiency" }, { "level": 6, "text": "Main Materials of Solar Panel Modules: A Complete Breakdown" }, { "level": 6, "text": "TOPCon Four-Cut Cells: How Cutting a Cell Into Four Increases Power Output" }, { "level": 6, "text": "Four-Cut Cell Technology: The Next Efficiency Code in the PV Industry" }, { "level": 5, "text": "Popular Tags" }, { "level": 3, "text": "Request A Quote" }, { "level": 2, "text": "We deliver expertise you can trust our service" }, { "level": 3, "text": "Cost-Effective Advantages" }, { "level": 3, "text": "Our Experience Team" }, { "level": 3, "text": "15+ Years Industry Experience" }, { "level": 2, "text": "What Our Client Say's about us" }, { "level": 3, "text": "KTECH" }, { "level": 3, "text": "Jizzakh Polytechnic Institute" }, { "level": 3, "text": "Amjad" }, { "level": 3, "text": "Mark" }, { "level": 2, "text": "Our Latest Products" }, { "level": 3, "text": "SUNPOWER Back Contact Cell Welding Machine SL-1000 | IBC Back Contact Solar Cell Stringer" }, { "level": 3, "text": "Ooitech Solar Panel Laminator Complete Product Catalogue — All Models Technical Specifications & System Guide" }, { "level": 3, "text": "Automatic Layout & Bussing Integrated Machine ALU-HBL | Solar Panel Production Equipment | Ooitech" }, { "level": 3, "text": "SC-20P BC Cell Laser Cutting Machine with Automatic Protective Paper Cutting and Stacking" }, { "level": 3, "text": "Solar Panel Sealant & Tape – Frame & Junction Box Sealing" }, { "level": 3, "text": "XJCM-13A2615 XJCM-13A+ IV Tester – PERC/HJT/TOPCon Module Testing" } ], "wordCount": 2427, "markdown": "# TOPCon Four-Cut Cells: How Cutting a Cell Into Four Increases Power Output - - Ooitech, the world's leading solar panel production line solutions provider, supply chain expert, solar panel making machine facotry\n\n> A technical deep-dive into TOPCon four-cut (quarter-cut) cell technology in 2026: the physics of current reduction, edge passivation, product matrix comparison, and the three-cut versus four-cut debate.\n\n![TOPCon Four-Cut Cells: How Cutting a Cell Into Four Increases Power Output](https://cdn.ooitech.com/static/upload/image/20260625/2026062510952388.webp)\n\n- ** 2026-06-25\n- ** 192 Views\n- ** [Blog](/Blog.html)\n\n### TOPCon Four-Cut Cells: How Cutting a Cell Into Four Increases Power Output\n\n##### Introduction\n\n> In 2026, mainstream TOPCon manufacturers are cutting cells \"smaller and smaller,\" yet module power keeps climbing. Tongwei 770W, Trina 760W, Jinko 670W—each number bigger than the last. But if you only look at power without looking at the module format, it's like judging engine horsepower without considering the size of the car body. Tongwei's 770W uses a G12 large format (2384×1303mm), while Jinko's 670W uses a G12R medium format (2382×1134mm). The format areas differ by nearly 30%, so how could the power be the same? Today we break down the four-cut story: why cutting physically improves efficiency, how each company's products actually compare, and whether to choose three-cut or four-cut.\n\n##### The Physical Origin: One Cut, Three-Quarters Less Loss\n\nA single G12 cell (210×210mm) has an area of about 441cm² and a short-circuit current exceeding 18A. Joule's law states: **power loss = current² × resistance**. An 18A current flowing through the cell's internal resistance and ribbons generates enormous heat loss. Even more troublesome, the MPPT input limit of mainstream inverters is around 15A—an 18A+ current is simply more than the inverter can \"swallow.\"\n\nThe evolution of cutting technology all feeds on the same physical dividend: **halve the current, and the loss drops to a quarter.**\n\n**Half-Cut (1/2-Cut)**: The current is halved, and resistive loss drops to 25% of the full cell. The industry's shift from full cells to half cells around 2018 was driven by exactly this.\n\n**Three-Cut (1/3-Cut)**: What allowed Trina to bring the 210 cell to market was cutting three pieces—pushing the current down to about 12A, fitting into the working window of mainstream inverters, with loss dropping to about 11% of the full cell.\n\n**Four-Cut (1/4-Cut)**: The current drops to a quarter of the full cell, about 4-5A, with a theoretical resistive loss of about 6.25%. From half-cut to four-cut, internal loss drops another 75%.\n\nBut there's a catch after cutting: **edge damage.** Laser scribing is thermal destruction, leaving hundreds of millions of dangling bonds on the cut surface—broken Si-Si covalent bonds. Carriers recombine when they reach these points, causing Voc to drop and FF to deteriorate. The finer the cut, the more edges, and the more severe the recombination.\n\n##### Cutting Is Easy, But Repairing the Cut Is the Real Skill\n\n**Edge passivation technology** is the key that brings four-cut from theory to product. By depositing a nanoscale AlOx/SiNx dielectric thin film on the cut surface, it \"repairs\" the broken dangling bonds and suppresses the recombination probability.\n\nSC New Energy clearly stated in 2025: \"Multi-cutting greatly improves the power of TOPCon modules, but multi-cutting must be combined with edge passivation technology.\" When paired with edge passivation, four-cut module power can be increased by **7-10W** compared to half-cut.\n\nData from Leadmicro further confirms this: leading companies have already achieved mass production of the \"four-cut + edge passivation + 0BB\" combined solution, with module power reaching **670-745W**.\n\n**Cutting is the physical surgery of reducing current and loss; edge passivation is the materials science of cutting without damage. Neither knife can be missing.**\n\n##### The 2026 Four-Cut Product Matrix: Different Formats, Don't Compare Power Directly\n\nFrom late 2025 to early 2026, mainstream TOPCon manufacturers densely released four-cut products. But looking only at power numbers is meaningless—you must put the formats side by side:\n\n| Company | Product Series | Max Power | Module Efficiency | Wafer Size | Cell Count | Module Format | Release Date |\n| --- | --- | --- | --- | --- | --- | --- | --- |\n| Tongwei | TNC 3.0 | 770W | 24.8% | G12 (210×210mm) | 66 | G12-66 (2384×1303mm) | Jan 2026 |\n| Trina | Vertex S+ Gen 3 | 760W | — | G12 (210×210mm) | 66 | Large format | Mar 2026 |\n| Tongwei | TNC 3.0 | 670W | 24.8% | G12R (210×182mm) | 66 | G12R-66 | Jan 2026 |\n| Jinko | Tiger Neo 3.0 | 670W | 24.8% | G12R (210×182mm) | 264 (6×44) | 66-piece format (2382×1134mm) | Jul 2025 |\n| Chint New Energy | ASTRO N7 Pro | 670W+ | 24.8%+ | 210R | 264 (6×44) | — | Jan 2026 |\n| Sumec/Suntech | Ultra T 3.0 | — | — | 182/210 dual platform | — | — | Mar 2026 |\n\nOnce the formats are unified, several judgments become clear:\n\n**First, 770W and 670W are not the same class.** Tongwei's 770W uses the G12 large format, while Jinko's 670W uses the G12R medium format. The format areas differ by about 30%, so the power is naturally not in the same league. Tongwei's G12R version is also 670W, directly benchmarking against Jinko and Chint—**under the same format, the power levels of each company are actually quite close.**\n\n**Second, 264-piece four-cut is the industry's common choice.** Both Jinko and Chint use 264-piece four-cut with a 6×44 circuit layout. After four-cut pushes the current to an extremely low level, more cells can be connected in series per string—half-cut modules typically have 20-24 cells per string, while four-cut can reach 44 cells per string, with a shorter current path and a smaller affected area from shading.\n\n**Third, wafer sizes split into two camps.** Tongwei and Trina take the G12 route on the large format, while Jinko and Chint take the G12R route on the medium format. G12R has better compatibility with existing inverters and mounting systems; the G12 large format pursues ultimate power but has higher downstream adaptation costs. This is not about who replaces whom—it's a choice for different scenarios.\n\n##### Four-Cut Is Not an Isolated Event: 0BB + High-Density Packaging + Thin Wafers\n\nThe explosion of four-cut is backed by the coordination of a complete technology matrix:\n\n**0BB (busbar-free)** is four-cut's closest partner. 0BB eliminates the main busbar and uses ultra-fine ribbons to collect current directly, reducing silver paste usage and shading area. After four-cut reduces the current to an extremely low level, 0BB's ultra-fine ribbon solution becomes even more capable. Chint data: the \"multi-cut + SMBB/ZBB\" combined solution reduces single-string current by **12%** and optimizes LCOE by **4.2%**.\n\n**High-density packaging** (zero-gap/negative-gap). Traditional modules leave a 1.5-2mm gap between cells—that is invalid area. After multi-cutting reduces the single-cell size, combined with the negative-gap interconnection process, the panel coverage ratio can be increased to over 98%. JA Solar DeepBlue 5.0 data: multi-cut + traceless seamless panel + GFI zero-gap flexible interconnection improves module efficiency by about **0.56%**.\n\n**Thin wafers** solve cost anxiety. Four-cut adds cutting and passivation steps, and the incremental cost can be offset by thinning the wafer. Scribing of ≤120μm thin wafers has become mainstream, with scribing yield stable above 99.2%.\n\n**Four-cut is not the victory of a single technology—it is the victory of system optimization.**\n\n##### Three-Cut vs. Four-Cut: Not Replacement, But Division of Labor\n\nThere is a popular view that four-cut will replace three-cut as the new standard. From the perspective of industry patterns, this judgment is too linear.\n\n| Dimension | Three-Cut | Four-Cut |\n| --- | --- | --- |\n| Single-cell current | ~12A | ~4-5A |\n| Resistive loss (theoretical) | ~11% | ~6.25% |\n| Representative module power | 645-670W | 670-770W |\n| Inverter compatibility | Excellent (plug-and-play) | Requires adaptation (high voltage, low current) |\n| Manufacturing complexity | Medium | High |\n| Edge passivation dependency | Medium | Extremely high |\n\nThe core advantage of three-cut lies in electrical compatibility—the 12A working current perfectly matches the global stock inverter ecosystem. TCL Zhonghuan T5 Pro adopts three-cut + zero-gap high-density packaging, with power generation increased by **17%** in shaded scenarios.\n\nThe relationship between the two is closer to an **application-scenario-driven division of labor**: three-cut suits cost-sensitive large power stations and stock inverter adaptation; four-cut suits high-efficiency flagship products, complex environments requiring high reliability, and next-generation system designs.\n\nJA Solar's \"optimal-cut\" philosophy is worth noting—it doesn't take sides but pursues the optimal balance point of \"cutting loss—resistance—yield.\" DeepBlue 5.0 uses a three-cut design and also achieves 670W and 24.8% efficiency. **True competitiveness is not about \"how many cuts,\" but about that balance point.**\n\n##### Four Judgments (For Reference)\n\n**Judgment One: Four-cut is a technology platform, not an endpoint.** The prerequisites—mass production of edge passivation, scaling of 0BB, and maturity of high-density packaging—all fell into place simultaneously in 2025-2026. What's worth watching going forward is its integration with perovskite tandems and BC.\n\n**Judgment Two: Hotspot safety is an underestimated benefit of four-cut.** With a single-string current of only 4-5A in four-cut, the hotspot peak temperature can be about **45°C** lower than half-cut. On rooftop projects, this gap could be the difference between \"burning or not.\"\n\n**Judgment Three: Look at the product, look at the format, then compare power.** Tongwei's 770W is G12 large format, Jinko's 670W is G12R medium format—different formats, comparing power directly is meaningless. Under the same format, each company's power level is actually quite close; the real difference lies in yield, cost, and reliability.\n\n**Judgment Four: Four-cut is a bargaining chip for extending TOPCon's life cycle—the moat is not deep, but it's enough.** Without changing the cell's core structure, it achieves 10-20W of extra power gain through module design. The threshold is not low (yield, cost, and reliability as a trinity), but the ceiling is visible. Once BC or HJT breaks through in mass-production cost, four-cut may degrade from a \"differentiated premium\" to an \"industry standard.\" But at the current node, it is the most cost-effective efficiency-boosting path for the TOPCon camp.\n\n##### Summary\n\n> The essence of four-cut is using innovation in module structural design to extend the life cycle of TOPCon technology—continuing to extract value from the module end after cell efficiency approaches its physical limit. Next time you see a number like \"770W,\" ask first: what format? G12 or G12R? 66 cells or 72? Unify the format before comparing power.\n\n##### Interactive Topic\n\nWhat cut count is your production line currently using? What format?\n\n##### Ooitech's View\n\nOoitech believes: four-cut is not about how many times you cut the cell, but about finding the optimal balance among cutting loss, resistance, and yield through systematic module-design innovation.\n\n---\n\n##### Tags :\n\n\n![](/template/ooitech/assets/img/shape/06.png)\n\n![](https://cdn.ooitech.com/static/upload/image/20250909/1757399770541443.webp)\n\n### Request A Quote\n\nAll uploads are secure and confidential.\n\n## We deliver expertise you can trust our service\n\nDirect-from-Factory Equipment.\n\n![](/template/ooitech/assets/img/icon/money-2.svg)\n\n### Cost-Effective Advantages\n\nWe deliver exceptional value, maximizing results while optimizing budgets for clients.\n\n![](/template/ooitech/assets/img/icon/staff.svg)\n\n### Our Experience Team\n\nOur skilled professionals specialize in innovative solutions and tailored strategies.\n\n![](/template/ooitech/assets/img/icon/certified.svg)\n\n### 15+ Years Industry Experience\n\nDeep expertise ensures reliable, trend-aware, and proven outcomes for success.\n\n![](https://cdn.ooitech.com/static/upload/image/20250910/1757477357667605.webp )\n\n![](https://cdn.ooitech.com/static/upload/image/20250910/1757477724911512.webp)\n\n![](/template/ooitech/assets/img/shape/06.png)\n\n## What Our Client Say's about us\n\nClient testimonials praise our deep understanding of their challenges, which leads to innovative solutions and strong ROI. 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