A measurement-based model of the electromagnetic emissions from a power inverter

Li Zhai; Natalia Bondarenko; Bingjie Xu; Guanghua Li; Tamar Makharashvili; David Loken; Phil Berger; Thomas P. Van Doren; Daryl G. Beetner

doi:10.1109/TPEL.2014.2384030

A measurement-based model of the electromagnetic emissions from a power inverter

Li Zhai^*, Natalia Bondarenko, Bingjie Xu, Guanghua Li, Tamar Makharashvili, David Loken, Phil Berger, Thomas P. Van Doren, Daryl G. Beetner

^*Corresponding author for this work

School of Mechanical Engineering

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

50 Citations (Scopus)

Abstract

Rapidly switching semiconductors in modern high power inverter/motor-drive systems generate fast changing voltages and currents which may result in unwanted emissions. While models of power inverters have been built in the past to predict emissions, they are typically "black box" models where the cause of and solution to emissions problems is difficult to analyze. To improve inverter system design strategies, a detailed measurement-based SPICE model of a power inverter system was built in which there is a straightforward correlation between system geometry and parasitic circuit elements. This model was validated through measurements. The model was able to predict transfer characteristics between ports of the inverter within 4 dB from 100 kHz to 100 MHz. Once built, this model was used to identify structures responsible for resonances and to determine possible improvements of the power inverter design to reduce emissions. Measurements of S21 and radiated emissions after adding these improvements demonstrated that they were able to reduce emissions by 10-20 dB, thus confirming the accuracy of the model and its ability to improve understanding of emission mechanisms and to guide development of emissions reduction strategies.

Original language	English
Pages (from-to)	5522-5531
Number of pages	10
Journal	IEEE Transactions on Power Electronics
Volume	30
Issue number	10
DOIs	https://doi.org/10.1109/TPEL.2014.2384030
Publication status	Published - 1 Oct 2015

Keywords

Electromagnetic interference (EMI)
electromagnetic modeling
electromagnetic radiation
parameter estimation
variable speed drives

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10.1109/TPEL.2014.2384030

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title = "A measurement-based model of the electromagnetic emissions from a power inverter",

abstract = "Rapidly switching semiconductors in modern high power inverter/motor-drive systems generate fast changing voltages and currents which may result in unwanted emissions. While models of power inverters have been built in the past to predict emissions, they are typically {"}black box{"} models where the cause of and solution to emissions problems is difficult to analyze. To improve inverter system design strategies, a detailed measurement-based SPICE model of a power inverter system was built in which there is a straightforward correlation between system geometry and parasitic circuit elements. This model was validated through measurements. The model was able to predict transfer characteristics between ports of the inverter within 4 dB from 100 kHz to 100 MHz. Once built, this model was used to identify structures responsible for resonances and to determine possible improvements of the power inverter design to reduce emissions. Measurements of S21 and radiated emissions after adding these improvements demonstrated that they were able to reduce emissions by 10-20 dB, thus confirming the accuracy of the model and its ability to improve understanding of emission mechanisms and to guide development of emissions reduction strategies.",

keywords = "Electromagnetic interference (EMI), electromagnetic modeling, electromagnetic radiation, parameter estimation, variable speed drives",

author = "Li Zhai and Natalia Bondarenko and Bingjie Xu and Guanghua Li and Tamar Makharashvili and David Loken and Phil Berger and \{Van Doren\}, \{Thomas P.\} and Beetner, \{Daryl G.\}",

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AU - Bondarenko, Natalia

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AU - Loken, David

AU - Berger, Phil

AU - Van Doren, Thomas P.

AU - Beetner, Daryl G.

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N2 - Rapidly switching semiconductors in modern high power inverter/motor-drive systems generate fast changing voltages and currents which may result in unwanted emissions. While models of power inverters have been built in the past to predict emissions, they are typically "black box" models where the cause of and solution to emissions problems is difficult to analyze. To improve inverter system design strategies, a detailed measurement-based SPICE model of a power inverter system was built in which there is a straightforward correlation between system geometry and parasitic circuit elements. This model was validated through measurements. The model was able to predict transfer characteristics between ports of the inverter within 4 dB from 100 kHz to 100 MHz. Once built, this model was used to identify structures responsible for resonances and to determine possible improvements of the power inverter design to reduce emissions. Measurements of S21 and radiated emissions after adding these improvements demonstrated that they were able to reduce emissions by 10-20 dB, thus confirming the accuracy of the model and its ability to improve understanding of emission mechanisms and to guide development of emissions reduction strategies.

AB - Rapidly switching semiconductors in modern high power inverter/motor-drive systems generate fast changing voltages and currents which may result in unwanted emissions. While models of power inverters have been built in the past to predict emissions, they are typically "black box" models where the cause of and solution to emissions problems is difficult to analyze. To improve inverter system design strategies, a detailed measurement-based SPICE model of a power inverter system was built in which there is a straightforward correlation between system geometry and parasitic circuit elements. This model was validated through measurements. The model was able to predict transfer characteristics between ports of the inverter within 4 dB from 100 kHz to 100 MHz. Once built, this model was used to identify structures responsible for resonances and to determine possible improvements of the power inverter design to reduce emissions. Measurements of S21 and radiated emissions after adding these improvements demonstrated that they were able to reduce emissions by 10-20 dB, thus confirming the accuracy of the model and its ability to improve understanding of emission mechanisms and to guide development of emissions reduction strategies.

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A measurement-based model of the electromagnetic emissions from a power inverter

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Keywords

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