基于EL检测仪检测光伏灌溉系统缺陷数据
收藏浙江省数据知识产权登记平台2024-10-25 更新2024-10-26 收录
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根据光伏灌溉系统光伏组件的类型和规格,设置EL检测仪的相关参数,如检测电压、电流、曝光时间等,再根据EL检测仪提供的发光图像分析光伏组件的缺陷类型和位置。可应用于以下俩方面:1. 缺陷处理:对于检测出的缺陷问题,需要及时记录并进行处理。根据缺陷类型和缺陷位置,可以采取不同的处理措施,如修复、更换等,缺陷造成的原因可归结为两类:来料原因和人为原因。虽然来料情况的好坏无法完全控制,但如果在每个相关制造工序加强管理,减少人为因素的影响,同时又确保组件在出货前100%通过EL检测,这样是完全有可能避免此类缺陷产生的;对于光伏灌溉系统方面,人为的粗安装过程也会造成缺陷二次产生;2. 报告编制:将检测结果整理成报告,详细记录光伏灌溉系统的性能状况和发现的问题。报告需要清晰、简洁、易懂,以便其他企业的生产制造方面和管理层能够全面了解光伏灌溉系统的性能状况和需要采取的改进措施。对光伏灌溉系统产品在出货前,各月的每日对产品通过EL检测仪进行检测,根据光伏灌溉系统光伏组件的类型和规格,设置EL检测仪的相关参数,如检测电压、电流、曝光时间、检测位置等,再根据EL检测仪提供的发光图像分析出光伏组件的缺陷类型和缺陷位置,每日汇总,从而统计出当月占比最高的缺陷类型和当月占比最高的缺陷位置,对于占比最高的缺陷类型和缺陷位置,及时记录并进行处理,从而采取不同的处理措施。
Set relevant parameters for the electroluminescence (EL) tester (such as detection voltage, current, exposure time, etc.) based on the type and specification of the photovoltaic modules in the photovoltaic irrigation system, then analyze the defect types and locations of the photovoltaic modules using the luminescent images provided by the EL tester.
This method can be applied in the following two aspects:
1. Defect Handling: For the detected defects, timely recording and processing are required. Corresponding treatment measures including repair and replacement can be adopted according to the specific defect type and location. The causes of such defects can be classified into two categories: those stemming from incoming materials and those caused by human factors. Although the quality of incoming materials cannot be fully controlled, it is entirely feasible to eliminate such defects by strengthening management in each relevant manufacturing process, mitigating the impact of human factors, and ensuring that 100% of modules pass the EL test before shipment. For photovoltaic irrigation systems, rough manual installation processes can also lead to the secondary occurrence of defects.
2. Report Compilation: Organize the test results into a clear, concise and easy-to-understand report that details the performance status and identified issues of the photovoltaic irrigation system. This enables production and management teams from other enterprises to fully understand the performance of the photovoltaic irrigation system and the required improvement measures.
Additionally, for photovoltaic irrigation system products, EL testing shall be conducted every day of each month prior to shipment. First, set relevant parameters for the EL tester (such as detection voltage, current, exposure time, detection location, etc.) based on the type and specification of the photovoltaic modules in the system. Then, analyze the defect types and locations of the photovoltaic modules using the luminescent images provided by the EL tester. Summarize the test data daily to count the defect type and location with the highest proportion in that month. Timely record and process the defect type and location with the highest proportion, and implement corresponding treatment measures accordingly.
提供机构:
杭州经世科技有限公司创建时间:
2024-09-20
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