Predictive current control of a shunt active power filter

A. Massoud; S.J. Finney; B.W. Williams

doi:10.1109/PESC.2004.1355106

Predictive current control of a shunt active power filter

A. Massoud, S.J. Finney, B.W. Williams

Electronic And Electrical Engineering

Research output: Contribution to conference › Paper

18 Citations (Scopus)

Abstract

In this paper, a predictive current control method for the shunt active power filter is proposed. The active filter output voltage is predicted using the supply current, not the active filter current. Harmonic current extraction is achieved using the capacitor voltage control technique. Space vector modulation (SVM) is used as a pulse width modulation technique. The method improves the current control tracking performance, minimizes the number of sensors, uses SVM to reduce the capacitor voltage consequently the switching loss, and reduces computational burden. The proposed method is validated by simulation and experimentally.

Original language	English
Pages	3567-3572
Number of pages	6
DOIs	https://doi.org/10.1109/PESC.2004.1355106
Publication status	Published - Jun 2004
Event	35th Annual IEEE Power Electronics Specialists Conference (PESC 04) - Aachen, Germany Duration: 20 Jun 2004 → 25 Jun 2004

Conference

Conference	35th Annual IEEE Power Electronics Specialists Conference (PESC 04)
Country	Germany
City	Aachen
Period	20/06/04 → 25/06/04

Keywords

predictive
current control
shunt
active power filter
active filters
voltage control
support vector machines
space vector pulse width modulation
power harmonic filters
performance loss
current supplies
capacitors
capacitive sensors

Access to Document

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title = "Predictive current control of a shunt active power filter",

abstract = "In this paper, a predictive current control method for the shunt active power filter is proposed. The active filter output voltage is predicted using the supply current, not the active filter current. Harmonic current extraction is achieved using the capacitor voltage control technique. Space vector modulation (SVM) is used as a pulse width modulation technique. The method improves the current control tracking performance, minimizes the number of sensors, uses SVM to reduce the capacitor voltage consequently the switching loss, and reduces computational burden. The proposed method is validated by simulation and experimentally. ",

keywords = "predictive, current control, shunt, active power filter, active filters , voltage control , support vector machines, space vector pulse width modulation, power harmonic filters, performance loss, current supplies , capacitors, capacitive sensors",

author = "A. Massoud and S.J. Finney and B.W. Williams",

year = "2004",

month = jun,

doi = "10.1109/PESC.2004.1355106",

language = "English",

pages = "3567--3572",

note = "35th Annual IEEE Power Electronics Specialists Conference (PESC 04) ; Conference date: 20-06-2004 Through 25-06-2004",

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TY - CONF

T1 - Predictive current control of a shunt active power filter

AU - Massoud, A.

AU - Finney, S.J.

AU - Williams, B.W.

PY - 2004/6

Y1 - 2004/6

N2 - In this paper, a predictive current control method for the shunt active power filter is proposed. The active filter output voltage is predicted using the supply current, not the active filter current. Harmonic current extraction is achieved using the capacitor voltage control technique. Space vector modulation (SVM) is used as a pulse width modulation technique. The method improves the current control tracking performance, minimizes the number of sensors, uses SVM to reduce the capacitor voltage consequently the switching loss, and reduces computational burden. The proposed method is validated by simulation and experimentally.

AB - In this paper, a predictive current control method for the shunt active power filter is proposed. The active filter output voltage is predicted using the supply current, not the active filter current. Harmonic current extraction is achieved using the capacitor voltage control technique. Space vector modulation (SVM) is used as a pulse width modulation technique. The method improves the current control tracking performance, minimizes the number of sensors, uses SVM to reduce the capacitor voltage consequently the switching loss, and reduces computational burden. The proposed method is validated by simulation and experimentally.

KW - predictive

KW - current control

KW - shunt

KW - active power filter

KW - active filters

KW - voltage control

KW - support vector machines

KW - space vector pulse width modulation

KW - power harmonic filters

KW - performance loss

KW - current supplies

KW - capacitors

KW - capacitive sensors

U2 - 10.1109/PESC.2004.1355106

DO - 10.1109/PESC.2004.1355106

M3 - Paper

SP - 3567

EP - 3572

T2 - 35th Annual IEEE Power Electronics Specialists Conference (PESC 04)

Y2 - 20 June 2004 through 25 June 2004

ER -