Many times we needed a stabilized, together regulated power supply and high relatively output voltage. These specifICations him it cover our circuit. It 's a circuit that CAN give in his exit + 40V until + 60V 3A, with simultaneous stabilization. The materials that use is very simple and will not exist difficulties in the manufacture, is enough you are careful certain points. 1 ] For output voltages smaller of + 50V until + 40V, the Q1 is hot enough, so that it needs one big heatsink. 2]For output voltages bigger of + 50V up to + 70V, the stabilization is not satisfactory. Conclusion: ideal output voltage is + 45V until + 60V. In the circuit pontesometer RV1, is used in order to we change the output voltage between + 40V until + 70V, we can however and perhaps it should, him we replace with two constant resistors, when finishe the regulation, in the desirable price. The reason is, that with time is presented change of output voltage, up to 3V, with connected pontesometer.
ATTENTION!!! The positive exit correspond in point [ A ] and the exit of 0V in point [ B ], which should not be connected in the ground.
R1=10Kohm |
R8=1.8Kohm 0.5W |
Q3=BC303 or BC461 |
R2=1 ohm 5W |
R9=3.3Kohm 0.5W |
D1....4=Bridge 15A |
R3=3.9 ohms 1W |
RV1=470 ohms pot. |
D5=LED RED 5mm |
R4=6.8Kohm 1W |
C1-2-4=4700uF 100V |
D6-7=10V 1W Zener |
R5=390 ohms 1W |
C3-5=100nF 250V MKT |
D8-9-10=1N4007 |
R6=100Kohm 0.5W |
Q1=2N3055 on heatsink |
T1=230Vac / 55V 3A |
R7=1.2Kohm 1W |
Q2=BD162 or BD243 or BD543 | |