Harmonic distortion indicators - Crest factor: Difference between revisions
m (1 revision imported: Migrated pages - removed CN links) |
m (Text replacement - "\[\[ru:[^]]*\]\][ \r\n]*" to "") |
||
Line 29: | Line 29: | ||
{{FigImage|DB422617|svg|M8|Typical voltage waveform in case of high impedance line supplying non-linear loads}} | {{FigImage|DB422617|svg|M8|Typical voltage waveform in case of high impedance line supplying non-linear loads}} | ||
Latest revision as of 09:48, 22 June 2022
The crest factor is the ratio between the value of the peak current or voltage(IM or UM) and its r.m.s. value.
- For a sinusoidal signal, the crest factor is therefore equal to [math]\displaystyle{ \sqrt 2 }[/math].
- For a non-sinusoidal signal, the crest factor can be either greater than or less than [math]\displaystyle{ \sqrt 2 }[/math].
The crest factor for the current drawn by non-linear loads is commonly much higher than [math]\displaystyle{ \sqrt 2 }[/math]. It is generally between 1.5 and 2 and can even reach 5 in critical cases.
A high crest factor signals high current peaks which, when detected by protection devices, can cause nuisance tripping.
Examples:
Figure M7 represents the current absorbed by a compact fluorescent lamp.
Ir.m.s. = 0.16A
IM = 0.6A
THDi = 145%
Crest factor = 3.75
Figure M8 represents the voltage supplying non-linear loads through a high impedance line, with a typical "flat top" distorted waveform.
Vr.m.s. = 500V
VM = 670V
THDu = 6.2%
Crest factor = 1.34