Draw the circuit diagram of a half wave rectifier. Explain its working.
Answers
Explanation:
A rectifier is an electrical device that converts alternating current (AC), which periodically reverses direction, to direct current (DC), which flows in only one direction. The process is known as rectification.
Construction and working of half-wave rectifier:
If an alternating voltage is applied across a dipole in series with a load, a pulsating voltage will appear across the load only during the half cycles of the AC input during which the diode is forward biased. Such a rectifier circuit as shown below figure (A) is called a half-wave rectifier.
The secondary of a transformer supplies the desired AC voltage across terminals A and B. When the voltage at A is positive, the diode is forward baised and it conducts. When A is negative, the diode is reverse biased and it does not conduct. The reverse saturation current of a diode is negligible and can be considered equal to zero for practical purposes. (The reverse breakdown voltage of the diode must be sufficiently higher than the peak AC voltage at the secondary of the transformer to protect the diode from reverse breakdown). Therefore, in the positive half-cycle of AC, there is a current through the load resistor RL and we get an output voltage, as shown in below figure (B). whereas there is no current in the negative half-cycle. In the next positive half-cycle, again we get the output voltage. Thus, the output voltage, through still varying, is restricted to only one direction and is said to be rectified.