A fullwave P.N diode rectifier used load resistor of `1500 Omega`. No filter is used. Assume each diode to have idealized characteristic with `R_(f) = 10 Omega` and `R_(r) = ac`. Since wave voltage applied to each diode has amplitude of 30 volts and frequency 50 Hz. Calculate.
(i) Peak, d.c rms load current
(ii) d.c power output
(iii) A.C power input
(iv) Rectifier efficiency.

A sinusoidal voltage of amplitude 25 volts and frequency 50 Hz is applied to a half wave rectifier using PN diode. No filter is used and the load resistor is 1000 Omega . The forward resistance R_(f) ideal diode is 10 Omega . Calculate. (i) Peak, average and rms values of load current (ii) d.c power output (ii) a.c power input (iv) % Rectifier efficiency (v) Ripple factor.

The halfwave rectifier supplies power to be 1 k Omega . The input supply voltage is 220 V neglecting forward resistance of the diode, calculate (i) V_(dc) (ii) I_(ac) and (iii) Ripple voltage (rms value)

An R-L-C circuit containing a 52Omega resistor , a 230 mH inductor, and a 8.8 mu F capacitor is driven by an AC voltage source that has an amplitude of 150 V and frequency f = 80 Hz . How much average power is dissipated by this circuit?

In a full wave junction diode rectifier, the input a.c. has r.m.s. value of 20 V. The transformer used is a step up transformer having primary and secondary turns ratio 1: 2. Calculate the d.c. voltade in the recitified output.

An ideal diode is connected in a circuit with resistance R=5Omega and V=10 volt as shown in figure maximum and minimum value of output voltage. When no load applied is (assume diode to be ideal)

An ideal diode is connected in a circuit with resistance R=50Omega and V=10V . If an AC input signal shown in the figure is given to the circuit, then the maximum and minimum value of output voltage (without load) is

An 8 H inductor, a 2 mu F capacitor and a 100 Omega resistor are connected in series to an A.C. supply of 220 V and 50 Hz. Calculate : (i) Impedance of the circuit. (ii) Current flowing through the circuit. (iii)Phase difference between the current and the supply voltage. (iv) Average power consumed by the circuit.

In an RC series circuit the rms voltage of source is 200V and its frequency is 50 Hz, if R=100 Omega and C=(100)/(pi) (mu)F , find (a) impedance of the circuit. (b) power factor angle, (c ) power factor, (d) current, (e) maximum current

An N-P-N transistor is being used in CE mode for which the current transfer ratio is alpha=(25)/(26) . The input resistance is 1000Omega and amplitude of A.C. input voltage is 10 mV. The amplitude of the amplified output collector current is

Figure (A) and (B) show two resistors with resistances R_(1) and R_(2) connected in parallel and in series. The battery has a terminal voltage of e. Suppose R_(1) and R_(2) are connected in parallel . (a) Find the power delivered to each resistor. (b) Show that the power used by each resistor is equal to the power supplied by the battery . Suppose R_(1) and R_(2) are now connected in series (c ) Find teh power delivered to each resistor. (d) Show that the sum of the power by each resistor is equal to the power supplied by the battery. (e ) Which configuration , parallelor series, uses more power ?