Appendix: voltage and current harmonics, Theory, T sin( v v v(t) – Amprobe ACD-55HPQ Clamp-Meter User Manual

ACD-55HPQ

8. APPENDIX: VOLTAGE AND CURRENT HARMONICS

8.1. THEORY
Any periodical non-sine wave can be represented as a sum of sinusoidal waves having
each a frequency that corresponds to an entire multiple of the fundamental, according to
the relation:

)

t

sin(

V

V

v(t)

k

k

1

k

k

0

ϕ

ω

+

+

=

∑

∞

=

(1)

where:

V

0

= Average value of v(t)

V

1

= Amplitude of the fundamental of v(t)

V

k

= Amplitude of the k

th

harmonic of v(t)

LEGENDA:
1. Fundamental

2. Third Harmonic
3. Distorted waveform sum of two

previous components.

Effect of the sum of 2 multiple frequencies.

In the mains voltage, the fundamental has a frequency of 60 Hz, the second harmonic has
a frequency of 120 Hz, the third harmonic has a frequency of 180 Hz and so on. Harmonic
distortion is a constant problem and should not be confused with short events such as
sags, surges or fluctuations.
It can be noted that in (1) the index of the sigma is from 1 to the infinite. What happens in
reality is that a signal does not have an unlimited number of harmonics: a number always
exists after which the harmonics value is negligible. The EN 50160 standard recommends
to stop the index in the expression (1) in correspondence of the 40

th

harmonic.

A fundamental element to detect the presence of harmonics is THD defined as:

1

40

2

2

V

V

THDv

h

h

∑

=

=

This index takes all the harmonics into account. The higher it is, the more distorted the
waveform gets.

EN - 26