Definition of harmonics: Difference between revisions
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'''Definition of THD<br>'''For a signal y, the THD is defined as: | '''Definition of THD<br>'''For a signal y, the THD is defined as: | ||
<math>THD=\ | <math>THD=\frac{\sqrt{\sum_{h=2}^\infty Y_h^2}}{Y_1}</math> | ||
This complies with the definition given in standard IEC 61000-2-2.Note that the value can exceed 1.<br>According to the standard, the variable h can be limited to 50. The THD is the means to express as a single number the distortion affecting a current or voltage flowing at a given point in the installation. The THD is generally expressed as a percentage. | This complies with the definition given in standard IEC 61000-2-2.Note that the value can exceed 1.<br>According to the standard, the variable h can be limited to 50. The THD is the means to express as a single number the distortion affecting a current or voltage flowing at a given point in the installation. The THD is generally expressed as a percentage. | ||
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'''Current or voltage THD<br>'''For current harmonics, the equation is: | '''Current or voltage THD<br>'''For current harmonics, the equation is: | ||
<math>THD_i=\ | <math>THD_i=\frac{\sqrt{\sum_{h=2}^\infty I_h^2}}{I | ||
_1 | _1}</math> | ||
The equation below is equivalent to the above, but easier and more direct when the total rms value is available:<br><math>THD_i= \sqrt{\left (\frac{Irms}{I_1}\right)^2 - 1}</math> | The equation below is equivalent to the above, but easier and more direct when the total rms value is available:<br><math>THD_i= \sqrt{\left (\frac{Irms}{I_1}\right)^2 - 1}</math> | ||
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<math>PF=\frac{P}{S}=\frac{U_1.i_1.cos \phi_1}{U_1.I_{rms}}</math> <br>as: | <math>PF=\frac{P}{S}=\frac{U_1.i_1.cos \phi_1}{U_1.I_{rms}}</math> <br>as: | ||
<math>\frac{ | <math>\frac{I_1}{I_{rms}}=\frac{1}{\sqrt {1 + THDi^2}}</math> | ||
<br>hence:<br><math>PF=\frac{cos \phi_1}{\sqrt {1 + THDi^2}}</math><br>Figure M13 shows a graph of <math>\frac{PF}{cos\phi}</math> as a function of THDi. | <br>hence:<br><math>PF=\frac{cos \phi_1}{\sqrt {1 + THDi^2}}</math><br>Figure M13 shows a graph of <math>\frac{PF}{cos\phi}</math> as a function of THDi. | ||
Revision as of 01:36, 28 February 2013
The term THD means Total Harmonic Distortion and is a widely used notion in defining the level of harmonic content in alternating signals.
Definition of THD
For a signal y, the THD is defined as:
[math]\displaystyle{ THD=\frac{\sqrt{\sum_{h=2}^\infty Y_h^2}}{Y_1} }[/math]
This complies with the definition given in standard IEC 61000-2-2.Note that the value can exceed 1.
According to the standard, the variable h can be limited to 50. The THD is the means to express as a single number the distortion affecting a current or voltage flowing at a given point in the installation. The THD is generally expressed as a percentage.
Current or voltage THD
For current harmonics, the equation is:
[math]\displaystyle{ THD_i=\frac{\sqrt{\sum_{h=2}^\infty I_h^2}}{I _1} }[/math]
The equation below is equivalent to the above, but easier and more direct when the total rms value is available:
[math]\displaystyle{ THD_i= \sqrt{\left (\frac{Irms}{I_1}\right)^2 - 1} }[/math]
For voltage harmonics, the equation is:
[math]\displaystyle{ THD_u=\frac{\sqrt {\sum_{h=2}^\infty U_h^2}}{U_1} }[/math]
Relation between power factor and THD
(see Fig. M13)
When the voltage is sinusoidal or virtually sinusoidal, it may be said that:
P = P1 = U1.I1.c'o'sφ1
Consequently:
[math]\displaystyle{ PF=\frac{P}{S}=\frac{U_1.i_1.cos \phi_1}{U_1.I_{rms}} }[/math]
as:
[math]\displaystyle{ \frac{I_1}{I_{rms}}=\frac{1}{\sqrt {1 + THDi^2}} }[/math]
hence:
[math]\displaystyle{ PF=\frac{cos \phi_1}{\sqrt {1 + THDi^2}} }[/math]
Figure M13 shows a graph of [math]\displaystyle{ \frac{PF}{cos\phi} }[/math] as a function of THDi.
Fig. M13: Variation in [math]\displaystyle{ \frac{PF}{cos\phi} }[/math] as a function of the THDi, where THDu = 0
ru:Суммарный коэффициент гармонических искажений (THD) zh:总谐波畸变率 (THD )
