Free circuit diagrams

Bookmark and Share
privacy policy

Variable DC Power Supply

Voltage range: 0.7 - 24V
Current limiting range: 50mA - 2A

Circuit diagram

P1 500R Linear Potentiometer
P2 10K Log. Potentiometer
R1,R2 2K2 1/2W Resistors
R3 330R 1/4W Resistor
R4 150R 1/4W Resistor
R5 1R 5W Resistor
C1 3300F 35V Electrolytic Capacitor (see Notes)
C2 1F 63V Polyester Capacitor
D1,D2 1N5402 200V 3A Diodes
D3 5mm. Red LED
Q1 BC182 50V 100mA NPN Transistor
Q2 BD139 80V 1.5A NPN Transistor
Q3 BC212 50V 100mA PNP Transistor
Q4 2N3055 60V 15A NPN Transistor
T1 220V Primary, 36V Center-tapped Secondary 50VA Mains transformer (see Notes)
PL1 Male Mains plug
SW1 SPST Mains switch

Device purpose:
A Variable DC Power Supply is one of the most useful tools on the electronics hobbyist's workbench. This circuit is not an absolute novelty, but it's simple, reliable, "rugged" and short-proof, featuring variable voltage up to 24V and variable current limiting up to 2A. It's well suited to supply the circuits shown in this website. You can adapt it to your own requirements as explained in the notes below.

P1 sets the maximum output current you want to be delivered by the power supply at a given output voltage.
P2 sets the output voltage and must be a logarithmic taper type, in order to obtain a more linear scale voltage indication.
You can choose the Transformer on the grounds of maximum voltage and current output needed.
Best choices are: 36, 40 or 48V center-tapped and 50, 75, 80 or 100VA.
Capacitor C1 can be 2200 to 6800F, 35 to 50V.
Q4 must be mounted on a good heatsink in order to withstand sustained output short-circuit.
In some cases the rear panel of the metal box in which you will enclose the circuit can do the job.
The 2N3055 transistor (Q4) can be replaced with the slightly less powerful TIP3055 type.
Excellent quality-price ratio: enjoy!

author:RED Free Circuit Designs,

Link to this page for forums and blogs:
All content on this site is provided as is and without any guarantee on any kind, implied or otherwise. We cannot be held responsible for any errors, omissions, or damages arising out of use of information available on this web site. The content in this site may contain COPYRIGHTED information and should not be reproduced in any way without prior permission from the authors. Be aware! Electricity can kill! © 2008.
page generated in :0.0564