Abstract:
Nonlinear electrical loads are shown to be the major source of wave distortion. These are generally highly efficient types of loads; thus their usage can be expected to g...Show MoreMetadata
Abstract:
Nonlinear electrical loads are shown to be the major source of wave distortion. These are generally highly efficient types of loads; thus their usage can be expected to grow, and wave distortions can be expected to increase. Hidden costs from such loads are identified. Conditions which can result in excessive distortions are described. A new method of monitoring wave distortions is presented. It is shown how this method can be used to annunciate excess distortion and that it is practical to initiate corrective action.
Published in: IEEE Transactions on Industry Applications ( Volume: IA-15, Issue: 5, September 1979)
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Power System ,
- Short-circuit ,
- Power Factor ,
- Voltage Unbalance ,
- Power System Analysis ,
- Resonance Frequency ,
- Fundamental Frequency ,
- Constant Current ,
- Alternating Current ,
- Proximity Effect ,
- Harmonic Frequencies ,
- Fast Switching ,
- Skin Depth ,
- Current Harmonics ,
- Motor Loss ,
- Harmonic Voltage ,
- Distortion Types ,
- Induction Of Components ,
- Dc Output ,
- Capacitor Bank ,
- Nonlinear Load ,
- Series Resonance ,
- Ac Resistance ,
- System Impedance ,
- Wave Voltage ,
- Core Loss ,
- Induction Motor ,
- Source Of Distortion ,
- Increase In Loss ,
- Harmonic Distortion
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Power System ,
- Short-circuit ,
- Power Factor ,
- Voltage Unbalance ,
- Power System Analysis ,
- Resonance Frequency ,
- Fundamental Frequency ,
- Constant Current ,
- Alternating Current ,
- Proximity Effect ,
- Harmonic Frequencies ,
- Fast Switching ,
- Skin Depth ,
- Current Harmonics ,
- Motor Loss ,
- Harmonic Voltage ,
- Distortion Types ,
- Induction Of Components ,
- Dc Output ,
- Capacitor Bank ,
- Nonlinear Load ,
- Series Resonance ,
- Ac Resistance ,
- System Impedance ,
- Wave Voltage ,
- Core Loss ,
- Induction Motor ,
- Source Of Distortion ,
- Increase In Loss ,
- Harmonic Distortion
