full wave rectifier working model

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A full wave rectifier is an electronic circuit that converts an alternating current (AC) signal into a pulsating direct current (DC) signal. It is called a "full wave" rectifier because it rectifies both halves of the AC input waveform.

Here's a basic working model of a full wave rectifier using a bridge rectifier circuit:

Components needed:

Transformer: It steps down the AC voltage from the power source to a suitable level.
Diodes: Four diodes are connected in a bridge configuration. Diodes allow the current to flow in one direction and block it in the reverse direction.
Load resistor: It represents the device or circuit that uses the rectified DC output.
Working:

The AC voltage from the power source is connected to the primary winding of the transformer.
The transformer steps down the voltage to a desired level and provides it to the secondary winding.
The secondary winding of the transformer is connected to the bridge rectifier circuit.
The bridge rectifier consists of four diodes arranged in a bridge configuration.
Two diodes are connected in series with their cathodes (negative terminal) facing each other, and the other two diodes are connected in series with their anodes (positive terminal) facing each other.
The AC voltage is connected to the two junctions between the diodes.
During the positive half-cycle of the AC voltage, the diodes D1 and D3 are forward-biased, allowing the current to flow through them.
At the same time, diodes D2 and D4 are reverse-biased and block the current flow.
The current flows through diodes D1 and D3, and the pulsating DC voltage is obtained at the output.
During the negative half-cycle of the AC voltage, the diodes D2 and D4 become forward-biased, allowing the current to flow through them.
Diodes D1 and D3 become reverse-biased and block the current flow.
Again, the current flows through diodes D2 and D4, and the pulsating DC voltage is obtained at the output.
Finally, the pulsating DC output is connected to a load resistor, which smooths the output by filtering out the ripple and provides the rectified DC voltage to the load.
The bridge rectifier configuration ensures that the output voltage is always positive, regardless of the polarity of the input AC voltage. By rectifying both halves of the AC waveform, a full wave rectifier provides a higher average output voltage compared to a half-wave rectifier.

It's important to note that the output of a full wave rectifier still contains ripple (small AC components) due to the pulsating nature of the rectified voltage. Additional filtering circuits, such as capacitors, can be added to further smoothen the DC output.
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