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IRMS

Irms, short for root-mean-square current, is a measure of the effective current in an electrical circuit. It reflects the heating effect the current would produce if it were a steady direct current of the same value, and it is the quantity used to calculate power in resistive components.

Definition and calculation

For a time-varying current i(t) over a time interval T, Irms is defined as the square root

Common waveforms

- Sine wave: i(t) = I_peak sin(ωt) gives Irms = I_peak / √2.

- Square wave with amplitude I0: Irms = I0.

- Triangular wave with peak I0: Irms = I0 / √3.

- DC: Irms = |I|

Applications and measurement

Irms is used to determine power in resistive loads via P = Irms^2 R. In AC circuits with

Measurement devices may be true RMS meters, which compute Irms from the actual waveform, or average-responding

Irms is a fundamental concept in electrical engineering, essential for heating calculations, conductor and fuse sizing,

of
the
average
of
i(t)
squared:
Irms
=
sqrt(
(1/T)
∫0^T
i(t)^2
dt
).
For
a
DC
current,
Irms
equals
the
absolute
value
of
the
current.
For
periodic
waveforms,
the
interval
T
is
one
period.
In
practical
terms,
Irms
is
the
value
that
transforms
a
varying
current
into
an
equivalent
steady
current
in
terms
of
heating.
linear
loads,
Irms
relates
to
voltage
by
Irms
=
Vrms
/
|Z|
for
a
given
impedance
Z,
and
real
power
is
P
=
Vrms
Irms
cos
φ,
where
φ
is
the
phase
angle
between
voltage
and
current.
meters
that
assume
a
sine
waveform
and
can
misrepresent
Irms
for
non-sinusoidal
currents,
common
in
switching
power
supplies.
and
safety
analyses
involving
alternating
currents.