Harmonic distortion indicators - Crest factor: Difference between revisions

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The crest factor is the ratio between the value of the peak current or voltage(I<sub>M</sub> or U<sub>M</sub>) and its r.m.s. value.
== Definition  ==
* For a sinusoidal signal, the crest factor is therefore equal to <math style="vertical-align:-15%;"> \sqrt 2</math>.
* For a non-sinusoidal signal, the crest factor can be either greater than or less than <math style="vertical-align:-15%;"> \sqrt 2</math>.


The crest factor is the ratio between the value of the peak current or voltage (Im or Um) and its rms value.  
The crest factor for the current drawn by non-linear loads is commonly much higher than <math style="vertical-align:-15%;"> \sqrt 2</math>. It is generally between 1.5 and 2 and can even reach 5 in critical cases.


*For a sinusoidal signal, the crest factor is therefore equal to <math>\sqrt 2</math>.
A high crest factor signals high current peaks which, when detected by protection devices, can cause nuisance tripping.
*For a non-sinusoidal signal, the crest factor can be either greater than or less than <math>\sqrt2 </math>.


In the latter case, the crest factor signals divergent peak values with respect to the RMS value.<br>
'''Examples:'''


== Interpretation of the crest factor  ==
{{FigureRef|M7}} represents the current absorbed by a compact fluorescent lamp.


The typical crest factor for the current drawn by non-linear loads is much higher than <math>\sqrt2</math> It is generally between 1.5 and 2 and can even reach 5 in critical cases. A high crest factor signals high transient overcurrents which, when detected by protection devices, can cause nuisance tripping.
{{def
|I<sub>r.m.s.</sub>| 0.16A
|I<sub>M</sub> | 0.6A
|THD<sub>i </sub>| 145%
|Crest factor| 3.75}}


[[ru:Показатели гармоник - крест-фактор]]
{{FigImage|DB422616|svg|M7|Typical current waveform of a compact fluorescent lamp}}
[[zh:谐波畸变指标 - 峰值系数]]
 
{{FigureRef|M8}} represents the voltage supplying non-linear loads through a high impedance line, with a typical "flat top" distorted waveform.
 
{{def
|V<sub>r.m.s.</sub> | 500V
|V<sub>M</sub> | 670V
|THD<sub>u</sub> | 6.2%
|Crest factor| 1.34}}
 
{{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

Fig. M7 – Typical current waveform of a compact fluorescent lamp

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

Fig. M8 – Typical voltage waveform in case of high impedance line supplying non-linear loads
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