Determination of Cycle to Cycle Battery Cell Degradation with High-Precision Measurements

Daniel Schürholz; Bernhard Schweighofer; Markus Neumayer; Hannes Wegleiter

doi:10.3390/app122311876

Determination of Cycle to Cycle Battery Cell Degradation with High-Precision Measurements

Daniel Schürholz^*, Bernhard Schweighofer, Markus Neumayer, Hannes Wegleiter

^*Corresponding author for this work

Institute of Electrical Measurement and Sensor Systems (4530)

Research output: Contribution to journal › Article › peer-review

Abstract

Due to the long life of lithium ion cells, it is difficult to measure their low capacity degradation from cycle to cycle. In order to accelerate the measurements, cells are often exposed to extreme stress conditions, which usually means elevated temperatures and high charging currents. This raises doubts as to whether the results obtained in this way are representative for real world applications. This work shows that, with the help of very precise capacity measurements, it is possible to determine cell aging in a few days even under normal operating conditions from cycle to cycle. To verify this, a self-built measurement system is used. After demonstrating the capabilities of the system, two different cycling schemes are used simultaneously to determine the various causes of aging—namely cycle aging, calendrical aging and self-discharge due to leakage currents.

Original language	English
Article number	11876
Journal	Applied Sciences
Volume	12
Issue number	23
DOIs	https://doi.org/10.3390/app122311876
Publication status	Published - Dec 2022

Keywords

18650
calendrical aging
capacity degradation
cycle aging
leakage current
Li-ion
precision measurement

ASJC Scopus subject areas

General Engineering
Instrumentation
General Materials Science
Fluid Flow and Transfer Processes
Process Chemistry and Technology
Computer Science Applications

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10.3390/app122311876Licence: CC BY 4.0

Cite this

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title = "Determination of Cycle to Cycle Battery Cell Degradation with High-Precision Measurements",

abstract = "Due to the long life of lithium ion cells, it is difficult to measure their low capacity degradation from cycle to cycle. In order to accelerate the measurements, cells are often exposed to extreme stress conditions, which usually means elevated temperatures and high charging currents. This raises doubts as to whether the results obtained in this way are representative for real world applications. This work shows that, with the help of very precise capacity measurements, it is possible to determine cell aging in a few days even under normal operating conditions from cycle to cycle. To verify this, a self-built measurement system is used. After demonstrating the capabilities of the system, two different cycling schemes are used simultaneously to determine the various causes of aging—namely cycle aging, calendrical aging and self-discharge due to leakage currents.",

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author = "Daniel Sch{\"u}rholz and Bernhard Schweighofer and Markus Neumayer and Hannes Wegleiter",

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month = dec,

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volume = "12",

journal = "Applied Sciences",

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T1 - Determination of Cycle to Cycle Battery Cell Degradation with High-Precision Measurements

AU - Schürholz, Daniel

AU - Schweighofer, Bernhard

AU - Neumayer, Markus

AU - Wegleiter, Hannes

PY - 2022/12

Y1 - 2022/12

N2 - Due to the long life of lithium ion cells, it is difficult to measure their low capacity degradation from cycle to cycle. In order to accelerate the measurements, cells are often exposed to extreme stress conditions, which usually means elevated temperatures and high charging currents. This raises doubts as to whether the results obtained in this way are representative for real world applications. This work shows that, with the help of very precise capacity measurements, it is possible to determine cell aging in a few days even under normal operating conditions from cycle to cycle. To verify this, a self-built measurement system is used. After demonstrating the capabilities of the system, two different cycling schemes are used simultaneously to determine the various causes of aging—namely cycle aging, calendrical aging and self-discharge due to leakage currents.

AB - Due to the long life of lithium ion cells, it is difficult to measure their low capacity degradation from cycle to cycle. In order to accelerate the measurements, cells are often exposed to extreme stress conditions, which usually means elevated temperatures and high charging currents. This raises doubts as to whether the results obtained in this way are representative for real world applications. This work shows that, with the help of very precise capacity measurements, it is possible to determine cell aging in a few days even under normal operating conditions from cycle to cycle. To verify this, a self-built measurement system is used. After demonstrating the capabilities of the system, two different cycling schemes are used simultaneously to determine the various causes of aging—namely cycle aging, calendrical aging and self-discharge due to leakage currents.

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KW - calendrical aging

KW - capacity degradation

KW - cycle aging

KW - leakage current

KW - Li-ion

KW - precision measurement

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DO - 10.3390/app122311876

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ER -

Determination of Cycle to Cycle Battery Cell Degradation with High-Precision Measurements

Abstract

Keywords

ASJC Scopus subject areas

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