Chapter 1 – introduction, Functional description, Theory of operation – Rockwell Automation 1519 MV DRIVE HARMONIC FILTER PF CORRECTION UNIT User Manual

Chapter

1

1519-5.0 – May 1998

Introduction

Functional Description

A harmonic filter consists of one or more tuned inductor/capacitor circuits. A

three-phase, iron core reactor is wired in series with three single-phase

individually fused capacitors. These harmonic filters are designed for use with

Bulletin 1557 Medium Voltage Drives.

There are two basic types of standard harmonic filters. Filter Type 1 consists

of an inductor/capacitor combination tuned to the 5

th

harmonic (5 times the

fundamental power system frequency) which is designed to reduce harmonics

and provide power factor correction when used in conjunction with a drive

with a 6-pulse rectifier. These Type 1 filters may also be used in conjunction

with drives that have 12-pulse rectifiers. When a 5

th

harmonic filter is applied

with a 12-pulse drive it will primarily provide power factor correction and may

provide some degree of harmonic reduction.

Type 2 harmonic filters consist of series inductor/capacitor combinations tuned

for approximately the 5

th

, 7

th

, and 11

th

harmonics and are designed specifically

for use with 12-pulse drives. Drives with 12-pulse rectifiers do not produce

significant amounts of 5

th

or 7

th

harmonic current, however, the 5

th

and 7

th

filters are designed to prevent a potentially detrimental resonance condition

from occurring. Type 2 filters provide harmonic reduction as well as power

factor correction.

Harmonic filters of Type 1 or Type 2 are designed to correct the power factor

to between 0.95 lagging and 0.95 leading over the 50-60% to 100% speed

range for a typical variable torque load.

A particular harmonic filter may or may not allow compliance with the

harmonic current limits specified in IEEE Std 519-1992 (IEEE Recommended

Practices and Requirements for Harmonic Control in Electrical Power

Systems). Calculations need to be carried out which take into account specific

power system data in order to assess compliance with IEEE 519 harmonic

limits for a particular drive application.

Theory of Operation

Operating the rectifier of any drive will create harmonic currents that flow

back towards the power source and to other plant loads. These harmonics

result from the non-linearity of the rectifier, which draws a non-sinusoidal

current from a sinusoidal voltage source. The magnitude of the harmonic

currents generated by the rectifier is primarily related to the pulse number of

the rectifier.

1519-IN050B-EN-P June 2013