About Artificial photovoltaic panel welding specifications
PV welding strip is tinned copper strip, with a width of 1-6mm, a thickness of 0.08-0.5mm and a thickness of 10-30 μ M thick flux coating. There are two forms of PV welding strip applied to photovoltaic modules: interconnection strip or bus bar and PV bus bar. In typical silicon solar cells, both are needed.
PV welding strip is tinned copper strip, with a width of 1-6mm, a thickness of 0.08-0.5mm and a thickness of 10-30 μ M thick flux coating. There are two forms of PV welding strip applied to photovoltaic modules: interconnection strip or bus bar and PV bus bar. In typical silicon solar cells, both are needed.
The so-called photovoltaic welding strip is to coat binary or ternary low-melting alloy on the surface of copper strip with given specification. The methods of continuously and evenly coating low-melting metals and alloys on the metal strip include electroplating, vacuum deposition, spraying and hot-dip coating.
At present, the mainstream high-density solar panel technologies in the market include overlap welding, round ribbon welding, triangular ribbon welding. Let’s analyze the characteristics of each technology.
This paper takes the welding strip for photovoltaic module materials as the research object, designs welding strips with different thicknesses of tinned layers, compares the resistivity of the welding strips with different structures and the output power of photovoltaic modules, and draws the following conclusions: The thinning of the thickness.
Solar cell series welding, which is also called series welding, refers to the welding of single-piece welded solar cells in series according to the quantity required by the process. As with the monolithic welding of solar cells, improper welding process will cause lower module power and increased reverse current.
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6 FAQs about [Artificial photovoltaic panel welding specifications]
How welding strip affect the power of photovoltaic module?
The quality of welding strip will directly affect the current collection efficiency of photovoltaic module, so it has a great impact on the power of photovoltaic module. The so-called photovoltaic welding strip is to coat binary or ternary low-melting alloy on the surface of copper strip with given specification.
Does heterogeneous welding strip affect PV Assembly power improvement?
The welding strip is an important part of photovoltaic module. The current of the cell is collected by welding on the main grid of the cell. Therefore, this paper mainly studies the influence of different surface structure of heterogeneous welding strip on PV assembly power improvement. The main findings are as follows:
How to reduce the shading area of a photovoltaic welding strip?
The shading area of the photovoltaic welding strip is reduced by reducing the width of the main grid line and the PV welding strip, and the total amount of light received by the solar cell is increased. However, the contact resistance of the whole PV assembly is too large, which increases the electrical loss of the photovoltaic module.
How solar simulator affect the size of photovoltaic welding strip?
According to IEC61215 standard, the light emitted by solar simulator is vertically incident on the surface of photovoltaic welding strip through glass and EVA. The change of surface structure of photovoltaic welding strip will change the reflection path of light on the surface of photovoltaic welding strip, affecting the size of α 1 in Fig. 1.
What is photovoltaic welding strip?
The so-called photovoltaic welding strip is to coat binary or ternary low-melting alloy on the surface of copper strip with given specification. The methods of continuously and evenly coating low-melting metals and alloys on the metal strip include electroplating, vacuum deposition, spraying and hot-dip coating.
Can solar cells be used in photovoltaic modules?
Connection of Cells in Photovoltaic Modules. As shown in Fig. 5, the solar cells in the modules with different surface structures of welding strips have no cracks, and there is no open welding, false welding and desoldering, which indicates that it can be used for the subsequent research.
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