SU1156217A1 - Two-step rectifier with voltage doubling - Google Patents

Abstract

A DOUBLE DOUBLE VOLTAGE RECTIFIER, containing four diode-capacitor circuits with average leads, connected in parallel to two input terminals, a disconnecting diode connected to the corresponding middle leads, and a main capacitor connected to the first and second output leads, with first one terminals, and the main capacitor connected to the first and second output leads, with the first middle terminals connected to the corresponding middle terminals, The capacitive circuit is connected by an anode to the first input circuit, and then by an anode to the second input terminal, and the first and second isolating diodes corresponding to these circuits are connected by cathodes to the first About the output terminal, characterized in that, in order to expand the functionality, an additional diode circuit, two capacitors, two output terminals are introduced, the diode circuit being connected in parallel to the diode-capacitor circuit and made of two oppositely connected diodes,, common point the connections of which are connected to the second output terminal, each of the additional capacitors is connected by the second output terminal and the corresponding additional output (Personal output terminal, third and fourth diode The capacitive circuits are connected by anodes to the first and second input pins, respectively, and the third and fourth converting diodes are connected by cathodes to the corresponding additional output pins. pr 05 ND

Description

The invention relates to electrical engineering and can be used to supply, by an increased voltage, a group of loads of various levels of power consumption. The purpose of the invention is to expand the functionality. The drawing shows the printable spinning scheme. The rectifier contains the first diode-capacitive circuit with diode 1 and capacitor 2, the second diode-capacitive circuit with diode 3 and capacitor 4, the third diode-capacitive circuit with diode 5 and capacitor 6, the fourth diode-capacitor circuit with diode 7 and capacitor 8. All of the indicated diode-capacitive circuits have middle pins 9, 10, 11, and 12 and are connected in parallel to input pins 13 and 14. The connecting diodes 15 and 1 are connected by anodes to the middle pins 9 and to, and the cathodes to the first output p 17. The power supply diode 18 is connected by the anode to the middle terminal 11, and to An anode to an additional output terminal 19. A power supply diode 20 is connected by an anode to an average terminal 12, and a cathode to an additional output terminal 21 A diode circuit on diodes 22 and 23 has an anode connection point connected to a second output 72 terminal 24. Cathodes of diodes 22 and 23 connected to the input terminals 13 and 14. The main capacitor 25 is connected to the output terminals 17 and 24. Additional capacitor 26 is connected to the output terminals 21 and 24, and an additional capacitor 27 to the output terminals 19 and 24. The device is operated as follows time. In the first half of the period of the supply voltage applied to the input terminals 13 and 14, the capacitors 25 and 27 are charged, for which the diodes 15, 18 and 22 are turned on in the forward direction. In the second half of the period, capacitors 25 and 26 are charged, for which diodes 16, 20 and 23 are connected in the forward direction. In this case, the capacitor 25 is charged to double the voltage twice in one period, and the capacitors 26 and 27 to double the voltage in different half periods, To the output terminals 17 and 24, you can connect the load with increased current consumption, and to the output terminals 19, 24 and 21, 24 it is possible to connect a load with reduced current consumption. The capacitors 26 and 27 are charged in different half periods, which evenly loads the network.

Claims (1)

A DOUBLE RECTIFIER WITH DOUBLE VOLTAGE, containing four diode-capacitive circuits with middle terminals connected in parallel to two input terminals, four decoupling diodes connected to the corresponding middle terminals, and a main capacitor connected to the first and second output terminals, while the first diode the capacitive circuit is connected by the anode to the first input terminal, the second by the anode to the second input terminal, and the first and second decoupling diodes corresponding to these circuits are connected by cathodes to the first output conclusion, characterized in that, in order to expand the functionality, additional diode circuit, two capacitors, two output terminals are introduced, and the diode circuit is connected in parallel to the diode-capacitive circuits and is made of two opposite-connected diodes, _{% of which the} common connection point is connected to the second output terminal, each of the additional capacitors is connected between the second output terminal and the corresponding additional output terminal, the third and fourth diode-capacitive circuits Keys anodes of the first and second input terminals, respectively, and third and fourth conductive razvyazyvayu- diodes connected to the respective cathodes of additional output terminals. >