Ieee std 1159-1995, ieee recommended Practice for Monitoring Electric Power Quality
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IEEE 1159-1995 Recommended Practice for Monitorning Electric Power Quality
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- Figure 9ÑImbalance trend for a residential feeder
- 4.4.5.2 Harmonics
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4.4.5 Waveform distortion
Waveform distortion is a steady-state deviation from an ideal sine wave of power frequency principally char- acterized by the spectral content of the deviation. There are Þve primary types of waveform distortion as follows: a) DC offset b) Harmonics c) Interharmonics d) Notching e) Noise Figure 9ÑImbalance trend for a residential feeder IEEE MONITORING ELECTRIC POWER QUALITY Std 1159-1995 21 Each of these will be discussed separately. 4.4.5.1 DC offset The presence of a dc voltage or current in an ac power system is termed dc offset. This phenomenon can occur as the result of a geomagnetic disturbance or due to the effect of half-wave rectiÞcation. Incandescent light bulb life extenders, for example, may consist of diodes that reduce the rms voltage supplied to the light bulb by half-wave rectiÞcation. Direct current in alternating current networks can be detrimental due to an increase in transformer saturation, additional stressing of insulation, and other adverse effects. 4.4.5.2 Harmonics Harmonics are sinusoidal voltages or currents having frequencies that are integer multiples of the frequency at which the supply system is designed to operate (termed the fundamental frequency; usually 50 Hz or 60 Hz) [see IEC 1000-2-1 (1990)]. Harmonics combine with the fundamental voltage or current, and pro- duce waveform distortion. Harmonic distortion exists due to the nonlinear characteristics of devices and loads on the power system. These devices can usually be modeled as current sources that inject harmonic currents into the power sys- tem. Voltage distortion results as these currents cause nonlinear voltage drops across the system impedance. Harmonic distortion is a growing concern for many customers and for the overall power system due to increasing application of power electronics equipment. Harmonic distortion levels can be characterized by the complete harmonic spectrum with magnitudes and phase angles of each individual harmonic component. It is also common to use a single quantity, the total harmonic distortion, as a measure of the magnitude of harmonic distortion. Harmonic currents result from the normal operation of nonlinear devices on the power system. Figure 10 illustrates the waveform and harmonic spectrum for a typical adjustable speed drive input current. Current distortion levels can be characterized by a total harmonic distortion, as described above, but this can often be misleading. For instance, many adjustable speed drives will exhibit high total harmonic distortion values for the input current when they are operating at very light loads. This is not a signiÞcant concern because the magnitude of harmonic current is low, even though its relative distortion is high. To handle this concern for characterizing harmonic currents in a consistent fashion, IEEE Std 519-1992 [B13] deÞnes another term, the total demand distortion. This term is the same as the total harmonic distor- tion except that the distortion is expressed as a percent of some rated load current rather than as a percent of the fundamental current magnitude. Guidelines for harmonic current and voltage distortion levels on distri- bution and transmission circuits are provided in [B13]. Download 0.69 Mb. Do'stlaringiz bilan baham: 
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