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Ultrasonic welding method and photovoltaic module for welding through ultrasonic welding method

A technology of ultrasonic welding and photovoltaic modules, applied in photovoltaic power generation, electrical components, climate sustainability, etc., can solve problems affecting the appearance and reliability of photovoltaic modules, high long-term stability, and broken welding points, etc., to provide products Reliability, usage reduction, effects of avoiding the use of flux

Active Publication Date: 2015-06-17
常州市异质结管理咨询合伙企业(有限合伙)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

We have found through experiments that during the lamination process, EVA will push the thin copper wire upwards away from the surface of the battery along the arc surface of the lower part of the thin copper wire, which may break the soldering point, thus affecting the appearance and reliability of the photovoltaic module.
[0007] In the above solution, since the film and the adhesive remain in the solar cell module, this means that there are relatively high requirements on the long-term stability of the adhesive and the film, which also leads to relatively high costs

Method used

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  • Ultrasonic welding method and photovoltaic module for welding through ultrasonic welding method
  • Ultrasonic welding method and photovoltaic module for welding through ultrasonic welding method
  • Ultrasonic welding method and photovoltaic module for welding through ultrasonic welding method

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Effect test

Embodiment 1

[0043] like Figure 2a As shown, an ordinary crystalline silicon photovoltaic cell 9 printed with a pre-broken fine Ag grid line as a metal electrode 3 is connected in series through 18 interconnected metal lines 1 . The interconnection metal wire 1 is connected to the light-receiving surface of the photovoltaic cell 9 on the left side, and is connected to the back side of the photovoltaic cell 9 on the right side at the same time. The interconnection metal wire 1 is composed of Al wire or soft Cu wire coated with Al on the surface.

[0044] To illustrate the details of the problem, the Figure 2a The part inside the middle dotted frame is cut off, and viewed from bottom to top along the direction parallel to the paper, the photovoltaic cell structure can be seen as Figure 2b shown.

[0045] Firstly, the electrical connection between the interconnection metal wire 1 and the metal electrode 3 is realized by ultrasonic welding. The ultrasonic frequency is 61kHz, the interfa...

Embodiment 2

[0054] Embodiment two: if Figure 2a and 2b As shown, an ordinary crystalline silicon photovoltaic cell 9 printed with a pre-broken fine Ag grid line as a metal electrode 3 is connected in series through 18 interconnected metal lines 1 . The interconnection metal wire 1 is a Cu core wire with an Al alloy surface layer. Other descriptions are the same as in Embodiment 1.

Embodiment 3

[0055] Embodiment 3: In this embodiment, the enhanced multilayer SiNx film replaces the original single-layer SiNx film in Embodiment 1. The Si content of the SiNx film is different in the surface layer and the Si content of the main layer. In the PECVD deposition process of SiNx film, the last 1s process is close to the amorphous silicon deposition process. Others are the same as in Embodiment 1.

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Abstract

The invention relates to an ultrasonic welding method and a photovoltaic module for welding through the ultrasonic welding method. The ultrasonic welding method is used for welding and connecting interconnected metal wires to a ceramic function thin film on the surface of a photovoltaic battery, wherein the welding frequency of ultrasonic welding ranges from 15 kHz to 65 kHz, the interface pressure density ranges from 0.01 Mpa to 6 Mpa, the time ranges from 1 ms to 500 ms, the welding temperature ranges from 25 DEG C to 350 DEG C, and the ceramic function thin film is a metal-rich ceramic thin film in non-uniform chemical proportion. A photovoltaic battery in the photovoltaic module is electrically connected with other photovoltaic batteries through the interconnected metal wires, and the interconnected metal wires are welded and connected to the ceramic function thin film on the surface of the photovoltaic battery in an ultrasonic welding mode. The method and the photovoltaic module have the advantages that compared with the traditional interconnection technology of the thin interconnected metal wires and the photovoltaic battery, the wires are directly arranged on and welded to the surface of the photovoltaic battery through the innovative ultrasonic welding technology, transparent thin films and adhesives are omitted, cost is reduced, and reliability is improved.

Description

technical field [0001] The invention relates to the technical field of photovoltaic module structure and interconnection method thereof, in particular to an ultrasonic welding method and a photovoltaic module welded by the method. Background technique [0002] At present, most manufacturers of photovoltaic cells and components in the industry adopt a battery electrode design and interconnection method of 2 to 5 bus bars. First, in the manufacturing process of photovoltaic cells, about 55-90 thin grid lines with a width of 60-100 um are formed on the light-receiving surface of a battery cell by screen printing and high-temperature sintering. These thin grid lines are generally connected together by two 1.8mm main grid lines. Then, during the manufacturing process of the photovoltaic module, the busbar of the battery is electrically connected with the Cu interconnection strip coated with the Sn layer through a high temperature (~200° C.) welding process. The light-generated ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01L21/607H01L31/18H01L31/05
CPCY02E10/50Y02P70/50
Inventor 黄强陈华
Owner 常州市异质结管理咨询合伙企业(有限合伙)
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