PV Junction Box Manufacturing: Precision from Installation to Encapsulation

PV Junction Box Manufacturing: Precision from Installation to Encapsulation

Within the intricate manufacturing chain of photovoltaic modules, the junction box serves as a core component for power transmission and safety protection. Its four critical manufacturing processes—installation, soldering, potting, and lid sealing—directly impact the module's power generation efficiency and service life. This article provides an in-depth analysis of the technical essentials and industry standards for each process, based on the latest industry standards and best practices.

2026-01-30

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Automatic Dispensing Machine for Photovoltaic Module Manufacturing

Automatic Dispensing Machine for Photovoltaic Module Manufacturing

In the process of photovoltaic module intelligent manufacturing, the automatic dispensing machine has become a key piece of process equipment, widely applied in critical procedures such as junction box potting and frame sealing. As the photovoltaic industry continues to evolve toward higher performance and higher reliability, automatic dispensing equipment is playing an increasingly important role in improving module quality and production efficiency, and has become an indispensable component of modern PV production lines.

2026-01-22

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New Benchmark in PV Manufacturing: Precision Edge Trimming & Grinding

New Benchmark in PV Manufacturing: Precision Edge Trimming & Grinding

As the photovoltaic industry accelerates toward higher efficiency and intelligent manufacturing, the degree of process precision in module production has become a decisive factor in product competitiveness. Post-lamination edge trimming and corner grinding—though often regarded as minor steps—have a direct and profound impact on module appearance, mechanical integrity, and long-term reliability. With the introduction of fully automated edge trimming machines and intelligent corner grinding systems, the industry is now entering an era of high-precision, high-efficiency solutions that are redefining manufacturing standards for photovoltaic modules.

2026-01-20

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Space-Based Solar Power: Growing Momentum Calls for Practical Progress

Space-Based Solar Power: Growing Momentum Calls for Practical Progress

Since the beginning of 2026, space-based solar power (SBSP) has gained increasing attention within the global renewable energy sector. As forward-looking studies continue to emerge, SBSP is being viewed as a long-term innovation with significant theoretical potential, prompting accelerated research and early-stage industrial exploration.Driven by advances in commercial space technology and rising demand for space-based infrastructure, SBSP offers a unique advantage by harnessing near-continuous solar irradiation in orbit. At the same time, the growing energy requirements of data-intensive and high-reliability applications have renewed interest in stable, off-Earth energy solutions.Despite the rising momentum, the industry generally recognizes that SBSP remains at an early development stage. Balancing technical feasibility, system reliability, and economic viability remains a key challenge as enthusiasm grows.

2026-01-17

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TPT Backsheet Cutting Machine: Process Value and Technical Features

TPT Backsheet Cutting Machine: Process Value and Technical Features

As photovoltaic module manufacturing continues to evolve toward larger formats, higher power output, and intelligent production, increasingly stringent requirements are being placed on the precision, stability, and efficiency of raw material pre-processing in the encapsulation stage. As a key front-end equipment in the lamination process, the TPT backsheet cutting machine is responsible for the automated, high-precision cutting of roll-form backsheet materials according to module specifications. Its operational stability and cutting quality have a direct impact on lamination yield rates and the long-term reliability of PV modules.

2026-01-15

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PV Cell String Layout Machine: High Precision and High Efficiency

PV Cell String Layout Machine: High Precision and High Efficiency

In photovoltaic module manufacturing, cell string layout is a critical process that directly determines module consistency and long-term reliability. Even minimal layout deviations may lead to power loss, hot spot risks, and other performance issues during lamination and field operation. With the accelerated adoption of high-efficiency cell technologies such as N-type TOPCon and HJT, solar cells are becoming larger in size, thinner in structure, and more sensitive to process variation. As a result, the industry is placing unprecedented demands on layout equipment in terms of precision, stability, and takt time. Photovoltaic cell string layout machines are therefore transitioning from traditional millimeter-level control to a new stage of micrometer-level precision manufacturing driven by machine vision and intelligent algorithms.

2026-01-13

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