A full-wave rectifier
changes over the entire Full-wave waveform to one of steady extremity (positive
or negative) at its yield. Mathematically, this corresponds to absolute value function.
Full-wave amendment changes over the two polarities of the reference waveform
to throbbing DC (direct current), and yields a higher normal yield voltage. Two
diodes and a middle tapped transformer, or four diodes in an extension design
and any AC source (counting a transformer without center tap), are needed.
Single semiconductor diodes, double diodes with a common cathode or common
anode, and four-or six-diode spans are produced as single segments.
For single-phase AC, on
the off chance that the transformer is center tapped, at that point two diodes
consecutive (cathode-to-cathode or anode-to-anode, contingent on yield
extremity required) can frame a full-wave rectifier. Twice the same numbers of
turns are required on the transformer optional to acquire a similar yield
voltage than for a bridge rectifier, yet the power rating is unaltered.
Scope and Model of Full-Wave Rectifier
