Design Considerations When Applying Various LV ASD Topologies to Meet Harmonic Compliance

Author

Hoevenaars, A.H. ; Fahrney, Michael ; James, Michael ; McGraw, Michael

Author_Institution

Mirus Int. Inc., Brampton, ON, Canada

Volume

47

Issue

4

fYear

2011

Firstpage

1578

Lastpage

1585

Abstract

To limit the harmonic distortion produced by adjustable speed drives (ASDs), manufacturers have introduced several methods of both passive and active harmonic mitigation. Users of ASDs however, who are faced with the various options often find it difficult to select the most appropriate one for their particular application. Using computer simulation and laboratory measurements, this paper analyzes the most common passive solutions for low voltage (LV) applications which include ac line reactors or dc link chokes, phase shifting to produce multi-pulse ASDs and inline passive harmonic filters. Various design considerations, particularly related to power system parameters, are addressed.

Keywords

harmonic distortion; inductors; power harmonic filters; variable speed drives; LV ASD topologies; ac line reactors; active harmonic mitigation; adjustable speed drives; computer simulation; dc link chokes; harmonic compliance; harmonic distortion; inline passive harmonic filters; laboratory measurements; low voltage applications; multipulse ASD; passive harmonic mitigation; phase shifting; Generators; Harmonic analysis; Inductors; Power harmonic filters; Variable speed drives; Adjustable speed drives (ASDs); compatibility; distortion; harmonics; impedance; multipulse; passive filter; topologies; voltage imbalance;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/TIA.2011.2156754

Filename

5771097