Abstract:
Audible noise (AN) was measured on a variety of conductor bundles at the Shiobara HVDC test line. A new method of AN prediction is proposed based on the test results. The...Show MoreMetadata
Abstract:
Audible noise (AN) was measured on a variety of conductor bundles at the Shiobara HVDC test line. A new method of AN prediction is proposed based on the test results. The method is applicable not only to bipolar but also monopolar lines. The calculated results obtained by this method can explain the effects of pole spacing and number of subconductors on AN levels. The result of a subjective evaluation test on AN from DC lines is also reported.
Published in: IEEE Transactions on Power Delivery ( Volume: 2, Issue: 4, October 1987)
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Subjective Evaluation ,
- Test Line ,
- Prediction Methods ,
- DC Line ,
- Solid Line ,
- Background Noise ,
- Seasonal Changes ,
- Microphone ,
- Abscissa ,
- Harmonic Mean ,
- Sound Pressure Level ,
- Sound Level ,
- Influence Of Noise ,
- Ambient Levels ,
- Power Station ,
- Long-term Test ,
- Broken Line ,
- Ambient Noise Levels ,
- Institute Of Electrical Engineers ,
- Fair Weather
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Subjective Evaluation ,
- Test Line ,
- Prediction Methods ,
- DC Line ,
- Solid Line ,
- Background Noise ,
- Seasonal Changes ,
- Microphone ,
- Abscissa ,
- Harmonic Mean ,
- Sound Pressure Level ,
- Sound Level ,
- Influence Of Noise ,
- Ambient Levels ,
- Power Station ,
- Long-term Test ,
- Broken Line ,
- Ambient Noise Levels ,
- Institute Of Electrical Engineers ,
- Fair Weather
