Figure 15presents a comparison of the heat flux for the four models when a source voltage of 20.0 volts is applied.

Figure 18shows the maximum temperatures achieved using the four models as a function of source voltage.

Typically the source voltage is either 120, 208, 240, 277, or 480 V.

Figure 4shows a plot of the maximum electric field strength plotted as a function of source voltage.

Therefore, it is dependent upon the drain to source voltage.

As the channel sits in a N-region, this transistor is turned on by a negative gate to source voltage.

V means gate to source voltage in field effect transistors (electronics)

Through the sequence the source voltage is being increased with all else held constant; the x- and y-scales change between pictures, not necessarily in proportion.

To compensate, a shunt capacitor is connected which draws current leading the source voltage.

The maximum output amplitude in this mode of operation is half of the source voltage.