Also, idealized in the analysis is the harmonic purity of the voltage source as presented at the load. In power distribution you will most often find that the AC load will have a source which will have a certain amount of harmonic distortion (a distorted sinewave). If the load was purely resistive the current should have the same amount of harmonic distortion as the voltage. In other words, the Total Harmonic Distortion (THD) or the voltage and current should track. For complex power to return to the source, where does this power go? To another load in your house? To your neighbor? To the power transmission network? Back to the power source, the power station generator? Is power factor (pf) enough to judge the efficiency of power delivery, or is it better to measure THD of both voltage and current? We have to deal with non-linear components, like bridge rectifiers, as well as reactive effects in arriving at the proper pf.
@sunnypatel7409
Жыл бұрын
Very informative. Can you please make some deep mathematical videos on R-L-C circuits, effects on transmission line design. Fault current analysis. I appreciate your teaching skills and want to know more from you specially on power systems. 👍🏻👌
@VisualElectric_
Жыл бұрын
Thanks - yes, lots of this in the pipeline - unfortunately it's a slow pipeline though!
@ertugrulgazi4733
3 жыл бұрын
Sir,,we want more videos like that and something else related to DC machines
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