The peak voltage in the output of a half wave diode rectifier fed with a sinusoidal signal without filter is 10V. The d. c. component of the output voltage is :-

The peak voltage in the output of a half-wave diode rectifier fed with a sinusiodal signal without filter is 10 V . The dc component of the output voltage is

The peak voltage in the output of a half-wave diode rectifier fed with a sinusiodal signal without filter is 10 V . The dc component of the output voltage is

Take the breakdown voltage of the zener diode used in the given circuit as 6V. For the input voltage shown in figure below , the time variation of the output voltage is : (Graphs drawn are schematic and not to scale )

The amplifiers X, Y and Z are connected in series. If the voltage gains of X, Y and Z are 10, 20 and 30 , respectively and the input signal is 1mV peak value, then what is the output signal voltage (peak value) (i) if dc supply voltage is 10V ? (ii) if dc supply voltage is 5V?

The amplifiers X, Y and Z are connected in series. If the voltage gains of X, Y and Z are 10, 20 and 30 , respectively and the input signal is 1mV peak value, then what is the output signal voltage (peak value) (i) if dc supply voltage is 10V ? (ii) if dc supply voltage is 5V?

In a common base ampifier , the phase difference between the input signal and output voltage is

A sinusoidal voltage of peak value 200 volts is connected to a diode and resistor R in the circuit shown so that half wave rectification occurs. If the forward resistance of the diode is negligible compared to R the rms voltage (in volt) across R is approximately

Draw a labelled circuit diagram of a half wave rectifier and give its output waveform.

If in p-n junction diode a sinusoidal input signal is applied as shown Then the output signal across R_(L) will bw

A full wave rectifier circuit along with the input and output are shown in Fig. the concentrations from the diode I is (are)