in the form of pulses of the shape of half sinusoids. Though it is unidirectional it does not have a steady value. To get steady dc output from the pulsating voltage normally a capacitor is connected across the output terminals (parallel to the load R L ). One can also use an inductor in series with R L for the same purpose.
Since these additional circuits appear to filter out the ac ripple and give a pure dc voltage, so they are called filters. Now we shall discuss the role of capacitor in filtering. When the voltage across the capacitor is rising, it gets charged. If there is no external load, it remains charged to the peak voltage of the rectified output.
When there is a load, it gets discharged through the load and the voltage across it begins to fall. In the next half-cycle of rectified output it again gets charged to the peak value (Fig. . ).
The rate of fall of the voltage across the capacitor depends upon the inverse product of capacitor C and the effective resistance R L used in the circuit and is called the time constant . To make the time constant large value of C should be large. So capacitor input filters use large capacitors. The output voltage obtained by using capacitor input filter is nearer to the peak voltage of the rectified voltage.
This type of filter is most widely used in power supplies. FIGURE . (a) A Full-wave rectifier circuit; (b) Input wave forms given to the diode D at A and to the diode D at B; (c) Output waveform across the load R L connected in the full-wave rectifier circuit.