New approach for the calculation of impedance spectra out of time domain data

D. Klotz; M. Schönleber; J. P. Schmidt; E. Ivers-Tiffée

doi:10.1016/j.electacta.2011.07.096

New approach for the calculation of impedance spectra out of time domain data

D. Klotz, M. Schönleber, J. P. Schmidt, E. Ivers-Tiffée

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

66 被引用数 (Scopus)

抄録

A technique for fast impedance measurement in the time domain is presented. It is based on the Fourier transformation and includes various improvements compared to previous work in the literature. Namely, it minimizes the influence of spectral leakage and aliasing and reduces noise. This is proved by the theoretical error estimate for different model systems. The technique is independent of the excitation signal and is demonstrated by a voltage step. Measurement results for a commercial Li-ion cell are presented and compared with results obtained by electrochemical impedance spectroscopy. Finally, a combination of the two techniques is proposed to cover a wide frequency range in minimum measurement time for the characterization of electrochemical systems.

本文言語	英語
ページ（範囲）	8763-8769
ページ数	7
ジャーナル	Electrochimica Acta
巻	56
号	24
DOI	https://doi.org/10.1016/j.electacta.2011.07.096
出版ステータス	出版済み - 10月 1 2011
外部発表	はい

!!!All Science Journal Classification (ASJC) codes

化学工学（全般）
電気化学

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10.1016/j.electacta.2011.07.096

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title = "New approach for the calculation of impedance spectra out of time domain data",

abstract = "A technique for fast impedance measurement in the time domain is presented. It is based on the Fourier transformation and includes various improvements compared to previous work in the literature. Namely, it minimizes the influence of spectral leakage and aliasing and reduces noise. This is proved by the theoretical error estimate for different model systems. The technique is independent of the excitation signal and is demonstrated by a voltage step. Measurement results for a commercial Li-ion cell are presented and compared with results obtained by electrochemical impedance spectroscopy. Finally, a combination of the two techniques is proposed to cover a wide frequency range in minimum measurement time for the characterization of electrochemical systems.",

author = "D. Klotz and M. Sch{\"o}nleber and Schmidt, {J. P.} and E. Ivers-Tiff{\'e}e",

note = "Funding Information: The authors would like to thank Dr. Kluwe from the Institut f{\"u}r Regelungs- und Steuerungssysteme (IRS) at the Karlsruhe Institute of Technology (KIT) for the assistance in the revision of the manuscript. This research and development project is funded by the Federal Ministry of Education and Research within the Framework Concept KoLiWIn (fund number 03SF0343H) and “Elektrochemie f{\"u}r Elektromobilit{\"a}t - Verbund S{\"u}d” (fund number 03KP801) and managed by the Project Management Agency Forschungszentrum J{\"u}lich (PTJ).",

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AU - Schönleber, M.

AU - Schmidt, J. P.

AU - Ivers-Tiffée, E.

N1 - Funding Information: The authors would like to thank Dr. Kluwe from the Institut für Regelungs- und Steuerungssysteme (IRS) at the Karlsruhe Institute of Technology (KIT) for the assistance in the revision of the manuscript. This research and development project is funded by the Federal Ministry of Education and Research within the Framework Concept KoLiWIn (fund number 03SF0343H) and “Elektrochemie für Elektromobilität - Verbund Süd” (fund number 03KP801) and managed by the Project Management Agency Forschungszentrum Jülich (PTJ).

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N2 - A technique for fast impedance measurement in the time domain is presented. It is based on the Fourier transformation and includes various improvements compared to previous work in the literature. Namely, it minimizes the influence of spectral leakage and aliasing and reduces noise. This is proved by the theoretical error estimate for different model systems. The technique is independent of the excitation signal and is demonstrated by a voltage step. Measurement results for a commercial Li-ion cell are presented and compared with results obtained by electrochemical impedance spectroscopy. Finally, a combination of the two techniques is proposed to cover a wide frequency range in minimum measurement time for the characterization of electrochemical systems.

AB - A technique for fast impedance measurement in the time domain is presented. It is based on the Fourier transformation and includes various improvements compared to previous work in the literature. Namely, it minimizes the influence of spectral leakage and aliasing and reduces noise. This is proved by the theoretical error estimate for different model systems. The technique is independent of the excitation signal and is demonstrated by a voltage step. Measurement results for a commercial Li-ion cell are presented and compared with results obtained by electrochemical impedance spectroscopy. Finally, a combination of the two techniques is proposed to cover a wide frequency range in minimum measurement time for the characterization of electrochemical systems.

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New approach for the calculation of impedance spectra out of time domain data

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!!!All Science Journal Classification (ASJC) codes

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