Harmonic performance of multiple sets of solutions of SHE-PWM for a 2-level VSC topology with fluctuating DC-link voltage

Voltage-source converter (VSC) based utility apparatus such as static compensator (STATCOM) and high-voltage direct-current (HVDC) transmission technologies has made the use of pulse-width modulated (PWM) control and insulated gate bipolar transistors (IGBTs) possible at development level and in a n...

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Hauptverfasser:	Flourentzou, N., Agelidis, V.G.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Amplitude modulation Automatic voltage control Converters DC-AC power conversion Electric power HVDC converters HVDC transmission IGBT Insulated gate bipolar transistors Power conversion Power electronics Pulse width modulation Pulse width modulation converters STATCOM Switching loss Topology Voltage fluctuations
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creator	Flourentzou, N. Agelidis, V.G.
description	Voltage-source converter (VSC) based utility apparatus such as static compensator (STATCOM) and high-voltage direct-current (HVDC) transmission technologies has made the use of pulse-width modulated (PWM) control and insulated gate bipolar transistors (IGBTs) possible at development level and in a number of applications at commercial level. However, the presence of semiconductor switching losses associated with the high frequency PWM operation remains a serious obstacle for the reduction of the converter cost and the acceptance of the said system by the utilities. One PWM method to reduce the switching losses to the lowest possible level is the optimal PWM schemes also known as selective harmonic elimination (SHE) techniques. However, when SHE-PWM techniques are considered with the conventional topology, i.e. two-level topology, the multiple sets of solutions, which always existed, can now be derived through optimisation for the first time. The paper discusses SHE-PWM strategies for a classical two-level three-phase converter. The performance characteristics of the said topology are analysed and reported when a low frequency DC-link voltage ripple exists and a suitable method to obtaining immunity to such ripple between the DC and AC sides. Results are presented to indicate that certain considerations must be taken into account when selecting the set of SHE-PWM solutions that can result in a more optimum operation against other criteria to the harmonic performance.
doi_str_mv	10.1109/AUPEC.2007.4548078
format	Conference Proceeding
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However, the presence of semiconductor switching losses associated with the high frequency PWM operation remains a serious obstacle for the reduction of the converter cost and the acceptance of the said system by the utilities. One PWM method to reduce the switching losses to the lowest possible level is the optimal PWM schemes also known as selective harmonic elimination (SHE) techniques. However, when SHE-PWM techniques are considered with the conventional topology, i.e. two-level topology, the multiple sets of solutions, which always existed, can now be derived through optimisation for the first time. The paper discusses SHE-PWM strategies for a classical two-level three-phase converter. The performance characteristics of the said topology are analysed and reported when a low frequency DC-link voltage ripple exists and a suitable method to obtaining immunity to such ripple between the DC and AC sides. 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However, the presence of semiconductor switching losses associated with the high frequency PWM operation remains a serious obstacle for the reduction of the converter cost and the acceptance of the said system by the utilities. One PWM method to reduce the switching losses to the lowest possible level is the optimal PWM schemes also known as selective harmonic elimination (SHE) techniques. However, when SHE-PWM techniques are considered with the conventional topology, i.e. two-level topology, the multiple sets of solutions, which always existed, can now be derived through optimisation for the first time. The paper discusses SHE-PWM strategies for a classical two-level three-phase converter. The performance characteristics of the said topology are analysed and reported when a low frequency DC-link voltage ripple exists and a suitable method to obtaining immunity to such ripple between the DC and AC sides. 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However, the presence of semiconductor switching losses associated with the high frequency PWM operation remains a serious obstacle for the reduction of the converter cost and the acceptance of the said system by the utilities. One PWM method to reduce the switching losses to the lowest possible level is the optimal PWM schemes also known as selective harmonic elimination (SHE) techniques. However, when SHE-PWM techniques are considered with the conventional topology, i.e. two-level topology, the multiple sets of solutions, which always existed, can now be derived through optimisation for the first time. The paper discusses SHE-PWM strategies for a classical two-level three-phase converter. The performance characteristics of the said topology are analysed and reported when a low frequency DC-link voltage ripple exists and a suitable method to obtaining immunity to such ripple between the DC and AC sides. 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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Amplitude modulation Automatic voltage control Converters DC-AC power conversion Electric power HVDC converters HVDC transmission IGBT Insulated gate bipolar transistors Power conversion Power electronics Pulse width modulation Pulse width modulation converters STATCOM Switching loss Topology Voltage fluctuations
title	Harmonic performance of multiple sets of solutions of SHE-PWM for a 2-level VSC topology with fluctuating DC-link voltage
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