In a full wave rectifier output is taken across a load resistor of `800 ohm`. If the resistance of diode in forward biased condition is `200 ohm`, the efficiency of rectification of `ac` power into `dc` power is.

In a half wave rectifier output is taken across a 90 ohm load resistor. If the resistance of diode in forward biased condition is 10 ohm , the efficiency of rectification of ac power into dc power is.

A full wave p-n diode rectifier uses a load resistor of 1500Omega .No filter is used.The forward bias resistance of the diode is 10Omega ,the efficiency of the rectifier is

A full wave rectifier uses two diodes with a load resistance of 100 Omega . Each diode is having negligible forward resistance. Find the efficiency of this wave rectifier.

A p-n diode is used in a half wave rectifier with a load resistance of 1000 Omega . If the forward resistance (r_(f)) of diode is 10 Omega , calculate the efficiency of this half wave rectifier.

In half wave rectifier a p-n diode with internal resistance 20Omega is used. If the load resistance of 2kOmega is used in the circuit, then find the efficiency of this half wave rectifier.

A half wave rectifier is used to supply 50V d.c. to a resistance load of 800Omega . Diode has a resistance of 200Omega. Calculate maximum a.c. voltage required.

In input in a full - wave rectifier is e=50 sin(314t)" volt" , diode resistance is 100Omega and load resistance is 1kOmega then, pulse frequency of output voltage is

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.

In the given electric circuit find (a) current (b) power output (c) relation between r and R so that the electric power output (that means power to R) is maximum. (d) value of maximum power output (e) plot graph between power and resistance of load (f) from graph we see that for a given power output there exixts two values of external resistance, prove that the product of these resistances equal to r^2 . (g) what is the efficiency of the cell when it is used to supply maximum power.