SS-2500B full automatic tabber stringer machine for crystalline silicon solar cells with 2400PCS/H capacity, featuring infrared soldering, robotic handling, CCD inspection, and dual-station simultaneous welding for efficient solar panel production
Direct-from-Factory Equipment.
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Our skilled professionals specialize in innovative solutions and tailored strategies.
Deep expertise ensures reliable, trend-aware, and proven outcomes for success.
Client testimonials praise our deep understanding of their challenges, which leads to innovative solutions and strong ROI. Long-term collaborations—some over a decade—demonstrate their trust and satisfaction. Their success stories drive us to continually exceed expectations. Know More
A renewable energy company in Kanpur, Uttar Pradesh has launched solar panel production using a semi-automatic manufacturing line supplied by Ooitech, marking another step in India's growing domestic solar manufacturing push.
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An engineering-style blog explaining what multi-cut solar modules are, why half-cut, third-cut and quarter-cut designs are gaining attention, and how circuit design affects shading tolerance, power loss and real-world PV performance.
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A practical technical blog explaining frame jumping issues in PV module lamination, including transfer mismatch, chamber pressure imbalance, tooling contamination, environmental factors, and prevention methods.
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In 2021, Australian solar manufacturer Tindo Solar adopted Ooitech waterless non-destructive NDC cell cutting and fully automatic string bussing solutions to upgrade its solar panel production capabilities.
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In 2021, Canadian BIPV company Mitrex adopted Ooitech laser cutting machines and customized automatic framing equipment to support its building-integrated photovoltaic panel production.
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A close look at SESPNet, a semantic-enhancement and scale-perception network that hits 92.1% mAP at 62.4 FPS to catch even the smallest hotspots in low-quality infrared images of solar panels.
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A comprehensive guide explaining what TOPCon solar cells are, how tunnel oxide passivated contact technology works, its advantages over PERC, the manufacturing process, and future development trends.
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A practical English blog explaining BC back contact solar cells, including IBC structure, differences from TOPCon PERC and HJT cells, manufacturing process, busbar layout, and the basic principle of BC cell string soldering.
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