Analytical Determination of the Slot and the End-Winding Portion of the Winding-to-Rotor Capacitance for the Prediction of Shaft Voltage in Electrical Machines

Analytical Determination of the Slot and the End-Winding Portion of the Winding-to-Rotor Capacitance for the Prediction of Shaft Voltage in Electrical Machines

Common-mode voltage, caused by a 2-level inverter, is a source of discharge currents in motor bearings. Due to the capacitive coupling, between the stator winding and the rotor, an image of the common-mode voltage is produced on the shaft—which can exceed the dielectric strength of the lubrication f...

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Bibliographic Details
Main Authors: Jan Ole Stockbrügger, Bernd Ponick
Format: Article
Language:English
Published: MDPI AG 2021-12-01
Series:Energies
Subjects:
winding-to-rotor capacitance
shaft voltage
EDM currents
traction motor
Online Access:https://www.mdpi.com/1996-1073/14/1/174
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spelling doaj-34e313f9e6b54481ac5b5cccc013bae82021-01-01T00:03:33ZengMDPI AGEnergies1996-10732021-12-011417417410.3390/en14010174Analytical Determination of the Slot and the End-Winding Portion of the Winding-to-Rotor Capacitance for the Prediction of Shaft Voltage in Electrical MachinesJan Ole Stockbrügger0Bernd Ponick1Institute for Drive Systems and Power Electronics, Leibniz University Hannover, 30167 Hannover, GermanyInstitute for Drive Systems and Power Electronics, Leibniz University Hannover, 30167 Hannover, GermanyCommon-mode voltage, caused by a 2-level inverter, is a source of discharge currents in motor bearings. Due to the capacitive coupling, between the stator winding and the rotor, an image of the common-mode voltage is produced on the shaft—which can exceed the dielectric strength of the lubrication film of motor bearings. Accurate determination of the winding-to-rotor capacitance is necessary to predict the shaft voltage. This article proposes a novel analytical determination of the slot and the end-winding portion of the winding-to-rotor capacitance. The calculation rules, which are based on the method of image charges and the charge simulation method, take into account the continuity and the boundary conditions of the field areas. Results are validated by means of finite element method simulations. Notably, deviations are in the single-digit percentage range. Furthermore, the presented methods are simple to implement.https://www.mdpi.com/1996-1073/14/1/174winding-to-rotor capacitanceshaft voltageEDM currentstraction motor
collection DOAJ
language English
format Article
sources DOAJ
author Jan Ole Stockbrügger
Bernd Ponick
spellingShingle Jan Ole Stockbrügger
Bernd Ponick
Analytical Determination of the Slot and the End-Winding Portion of the Winding-to-Rotor Capacitance for the Prediction of Shaft Voltage in Electrical Machines
Energies
winding-to-rotor capacitance
shaft voltage
EDM currents
traction motor
author_facet Jan Ole Stockbrügger
Bernd Ponick
author_sort Jan Ole Stockbrügger
title Analytical Determination of the Slot and the End-Winding Portion of the Winding-to-Rotor Capacitance for the Prediction of Shaft Voltage in Electrical Machines
title_short Analytical Determination of the Slot and the End-Winding Portion of the Winding-to-Rotor Capacitance for the Prediction of Shaft Voltage in Electrical Machines
title_full Analytical Determination of the Slot and the End-Winding Portion of the Winding-to-Rotor Capacitance for the Prediction of Shaft Voltage in Electrical Machines
title_fullStr Analytical Determination of the Slot and the End-Winding Portion of the Winding-to-Rotor Capacitance for the Prediction of Shaft Voltage in Electrical Machines
title_full_unstemmed Analytical Determination of the Slot and the End-Winding Portion of the Winding-to-Rotor Capacitance for the Prediction of Shaft Voltage in Electrical Machines
title_sort analytical determination of the slot and the end-winding portion of the winding-to-rotor capacitance for the prediction of shaft voltage in electrical machines
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2021-12-01
description Common-mode voltage, caused by a 2-level inverter, is a source of discharge currents in motor bearings. Due to the capacitive coupling, between the stator winding and the rotor, an image of the common-mode voltage is produced on the shaft—which can exceed the dielectric strength of the lubrication film of motor bearings. Accurate determination of the winding-to-rotor capacitance is necessary to predict the shaft voltage. This article proposes a novel analytical determination of the slot and the end-winding portion of the winding-to-rotor capacitance. The calculation rules, which are based on the method of image charges and the charge simulation method, take into account the continuity and the boundary conditions of the field areas. Results are validated by means of finite element method simulations. Notably, deviations are in the single-digit percentage range. Furthermore, the presented methods are simple to implement.
topic winding-to-rotor capacitance
shaft voltage
EDM currents
traction motor
url https://www.mdpi.com/1996-1073/14/1/174
work_keys_str_mv AT janolestockbrugger analyticaldeterminationoftheslotandtheendwindingportionofthewindingtorotorcapacitanceforthepredictionofshaftvoltageinelectricalmachines
AT berndponick analyticaldeterminationoftheslotandtheendwindingportionofthewindingtorotorcapacitanceforthepredictionofshaftvoltageinelectricalmachines
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