True rms ac measurements – Agilent Technologies 34401A User Manual

True RMS AC Measurements

True

RMS

responding multimeters, like the Agilent 34401A, measure

the “heating” potential of an applied voltage. Unlike an “average
responding” measurement, a true

RMS

measurement is used to

determine the power dissipated in a resistor. The power is proportional
to the square of the measured true

RMS

voltage, independent of

waveshape. An average responding ac multimeter is calibrated to read
the same as a true

RMS

meter for sinewave inputs only. For other

waveform shapes, an average responding meter will exhibit substantial
errors as shown below.

The multimeter’s ac voltage and ac current functions measure the
ac-coupled true

RMS

value. This is in contrast to the ac+dc true

RMS

value shown above. Only the “heating value” of the ac components of the
input waveform are measured (dc is rejected). For sinewaves, triangle
waves, and square waves, the ac and ac+dc values are equal since these
waveforms do not contain a dc offset. Non-symmetrical waveforms, such
as pulse trains, contain dc voltages which are rejected by ac-coupled
true

RMS

measurements.

Chapter 7 Measurement Tutorial
True RMS AC Measurements

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