Bridge rectifier regulated lab
power supply circuit schematics
A good regulated AC to DC power
supply circuit is essential for any electronic hobbyists and electronic
students to do thier electronics hobby projects. Also a bridge rectifier power
supply is one of the introductory circuits for beginners. Firstly we need to
know what is a bridge rectifier? A rectifier circuit employs the conversion of
AC voltage to DC voltage. Full wave bridge rectifiers have the benefit that
they transfer both half cycle of AC input into DC output and also efficiency is
two times greater than that of half wave rectifier. Bridge rectifier circuits
are put into practice using diodes such as 1N4001, 1N4007 etc.
Transformer less AC to DC power
supply
Dual power supply using single
battery source
Below is the circuit schematic of
rectifier regulated power supply using 78XX voltage regulator IC. 78XX is a
positive voltage regulator and available at different output voltages as 7805
for 5V, 7809 for 9V, 7815 for 15V etc. Hence you can implement power supplies
for required voltages, that is 5V, 9V or 15V as you like. Solder this regulated
power supply circuit on PCB and enclose it in a suitable case, definitely it
will help you for future circuit
projects.
Firgure
Circuit Diagram
Rectifier Power Supply
Components required
Step down transformer (1A, 230V
or 110V primary secondary should be your choice like 6V, 9V etc).
Diodes x 4 (1N4001 for low power
1N4007 for moderate power)
Capacitor (470µF, 16V)
Voltage regulator IC 78XX (Here
we have used 7805)
Working
Circuit consists of 4 parts: Step
down transformer, bridge rectifier, capacitor filter and voltage regulator IC.
The transformer step downs the
high voltage AC to a low voltage AC.
During the positive half cycle of
secondary voltage, diodes D2 and D3 are forward biased and diodes D1 and D4 are
reverse biased, now the current flows through D2–>Load–>D3
During the negative half cycle of
the secondary voltage, diodes D1 and D4 are forward biased and diodes D2 and D3
are reverse biased Now the current flows through D4–>Load–>D1
In both the cycles load current
flows in same direction, hence we get a pulsating DC voltage across the points
B-B’.
Bridge rectifier output waveform
The pulsating content are called
ripples and a filter capacitor is used to remove the ripples from pulsating DC.
When the instantaneous values of
pulsating DC voltage increases, the capacitor gets charged up to peak value of
the input.
When the instantaneous values of
pulsating DC voltage decreases, the stored voltage in the capacitor reverse
biases the diodes D2 and D4. Hence it will not conduct, now capacitor
discharges through the load. Then voltage across the capacitor decreases.
During the next cycle, when the
peak voltage exceeds the capacitor voltage, diode D2 or D4 forward biases
accordingly, as a result capacitor again charges to the peak value. This
process continues. Hence we get almost smooth DC voltage as shown.
Brown color indicates pulsating
DC and Red color is the filtered DC voltage.
Then the filtered voltage is
applied to the input of 7805 voltage regulator IC, it in turn regulates the
voltage for line and load fluctuations.
Brown color indicates capacitor
output DC and Red color is the regulated
5V DC from 7805.
Related Circuits:
Dual power supply for Op Amp
circuits
Variable power supply
Pin outs of Diode, Capacitor and
7805 IC
Diode pin out
Capacitor pin out
7805 voltage regulator pin out
Note:
Use 6V secondary transformer and
7805 for 5V supply, 9V secondary transformer and 7809 for 9V supply.
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