Accelerated lithium-ion battery cycle lifetime testing by condition-based reference performance tests

Measurement: Energy Pub Date : 2024-09-28 DOI:10.1016/j.meaene.2024.100019

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Abstract

Lifetime testing of lithium-ion batteries is time-consuming and costly. To reduce the time-to-market, application-specific accelerated lifetime tests are conducted. The test conditions must be carefully designed and controlled, both the test environment and load profile. During the lifetime test, measurable properties of the cell, most commonly the capacity and internal resistance, are tracked by a reference performance test (RPT). The frequency of RPTs is a variable of the number of test cycles or time. Setting the wrong frequency for the RPT results in either too many RPTs or, in the worst case, too few. To mitigate this issue, a test object capacity-driven approach has been developed. This new method is described and demonstrated in this article conducting the RPTs based on the cycling capacity of the cell. The method ensured the desired numbers of RPTs during the test period at the selected intervals corresponding to steps of 1% capacity loss. When compared to the most used traditional test method, using a fixed number of 200 cycles between RPTs, the method generated 44% more cycles over the initial 100 days.

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通过基于条件的参考性能测试加速锂离子电池循环寿命测试

锂离子电池的寿命测试既耗时又昂贵。为了缩短产品上市时间，需要进行针对特定应用的加速寿命测试。测试条件必须经过精心设计和控制，包括测试环境和负载曲线。在寿命测试期间，电池的可测量特性（最常见的是容量和内阻）将通过参考性能测试（RPT）进行跟踪。参考性能测试的频率是测试周期或时间的变量。为参考性能测试设置错误的频率会导致参考性能测试次数过多，或者在最坏的情况下导致参考性能测试次数过少。为缓解这一问题，我们开发了一种测试对象容量驱动方法。本文介绍并演示了这种新方法，即根据电池的循环容量进行 RPT。该方法可确保在测试期间按照所选的间隔（对应于 1%容量损失的步长）进行所需的 RPT 次数。与最常用的传统测试方法（RPT 之间的循环次数固定为 200 次）相比，该方法在最初的 100 天内产生的循环次数增加了 44%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Measurement: Energy

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