voltage is produced by an AC generator

When a voltage is produced by an AC generator, the resulting current varies in step with the
voltage. As the generator coil rotates 360°, the output voltage goes through one complete cycle.
In one cycle, the voltage increases from zero to Emax in one direction, decreases to zero, increases
to Emax in the opposite direction (negative Emax), and then decreases to zero again. The value of
Emax occurs at 90° and is referred to as peak voltage. The time it takes for the generator to
complete one cycle is called the period, and the number of cycles per second is called the
frequency (measured in hertz).

One way to refer to AC voltage or current is by peak voltage (Ep) or peak current (Ip). This is
the maximum voltage or current for an AC sine wave.
Another value, the peak-to-peak value (Ep-p or Ip-p), is the magnitude of voltage, or current range,
spanned by the sine wave. However, the value most commonly used for AC is effective value.
Effective value of AC is the amount of AC that produces the same heating effect as an equal
amount of DC. In simpler terms, one ampere effective value of AC will produce the same
amount of heat in a conductor, in a given time, as one ampere of DC. The heating effect of a
given AC current is proportional to the square of the current. Effective value of AC can be
calculated by squaring all the amplitudes of the sine wave over one period, taking the average
of these values, and then taking the square root. The effective value, being the root of the mean
(average) square of the currents, is known as the root-mean-square, or RMS value. In order to
understand the meaning of effective current applied to a sine wave, refer to Figure 4.
The values of I are plotted on the upper curve, and the corresponding values of I2 are plotted on
the lower curve. The I2 curve has twice the frequency of I and varies above and below a new
axis. The new axis is the average of the I2 values, and the square root of that value is the RMS,
or effective value, of current. The average value is ½ Imax
2. The RMS value is then
, which is equal to 0.707 Imax.
2I2
max
2
OR 2
2
Imax
There are six basic equations that are used to convert a value of AC voltage or current to another
value, as listed below.
Average value = peak value x 0.637 (7-1)
Effective value (RMS) = peak value x 0.707 (7-2)
Peak value = average value x 1.57 (7-3)
Effective value (RMS) = average value x 1.11 (7-4)
Peak value = effective value (RMS) x 1.414 (7-5)
Average value = effective (RMS) x 0.9 (7-6)
The values of current (I) and voltage (E) that are normally encountered are assumed to be RMS
values; therefore, no subscript is used.