SU847463A1 - Ac-to-dc voltage converter - Google Patents

Description

(54) AC VOLTAGE CONVERTER TO PERMANENT

Claims (2)

The invention relates to a converter technique and can be used to power two consumers of different power. AC to DC converters are known. However, such converters do not provide power to two loads with a midpoint. Also known is an alternating voltage-to-dc converter, which contains a rectifying bridge, the diagonal of the alternating current of which is connected to the input terminals, the positive pole is connected to the first output terminal, and the negative pole is connected to the common point of the device; the diode connected in the opposite direction is connected to the second output terminal, the connection point of the capacitor and the diode is connected through the second diode connected in the forward direction to the common point of the C2 device This converter has a high output voltage ripple. The purpose of the invention is to reduce the output voltage ripple. The goal is achieved by connecting the second input terminal through a capacitor and a diode connected in the opposite direction to the second output terminal, and the common point of the indicated capacitor and diode is connected in the forward direction to the common point of the device. The drawing shows a schematic diagram of the converter. The converter contains a switching bridge on diodes 1-4, which is connected to input pins 5 and 6, a second diode bridge on diodes 7-10, connected to input pins 5 and 6, respectively, via coupling capacitors 11 and 12. To output pins On terminals 13–15, where pin 14 is common, filter capacitors 16 and 17, respectively, and loads 18 and 19 are connected respectively. The converter operates as follows. When an alternating voltage arrives at the input terminals 5 and 6, a rectified voltage appears at the load 18 with a corresponding voltage relative to pin 14. At the same time, with a positive half-wave of an alternating voltage at the input. pin 5 and negative at pin 6, the capacitor 1G charges through the following circuit: pin 5 - capacitor 1 1 - diode 8 - diode 4 .- pin 6. With a negative half-wave of alternating voltage, pin 5 and a positive one at pin 6 D of capacitor P to load 1 according to the following circuit: capacitor II diode 7 - load 19 - diode 1. The discharge of capacitor 1 occurs along the indicated circuit, because in this half-period diode 1 is shifted in direct direction due to the operation of the rectifier on diodes 1 -4, and the charges of the capacitor 12, which is charged and discharged In a manner similar to the capacitor 11, through the respective circuits at the time when the capacitor 1, corresponding to BeTciaeitHo, is discharged and charged. Thus, the capacitors 11 and 12 alternately transfer their charge to the load 19 in each half-period by performing a full-wave rectification with the help of diodes 7-10. The introduction of a second diode bridge makes it possible to effectively use a full-wave rectifier to power various devices, for example, multi-voltage voltage regulators, operational amplifiers, etc., which require two equally-polarized rectifying voltages. In this case, the power supply from the primary AC network can occur both via a transformer and directly 34 (with an appropriate level of alternating voltage of the supply mains). Since the polarity of the voltage on the isolating capacitors is unchanged, they can be electrolytic to significant capacitance with relatively small dimensions, which makes it possible to use this two-wave rectifier in high-current circuits. Claims of the Inverter AC Voltage Converter, containing a rectifying bridge, diagonal AC current. Which is connected to the input terminals, the positive pole is connected to the first output terminal, and the negative pole is connected to the common point of the device. and the diode connected in the opposite direction is connected to the second output terminal, the connection point of the capacitor and the diode is connected through the second diode connected in the forward direction to the common point of the device, In order to reduce the output voltage ripple, the second input terminal is connected via a capacitor and the diode connected in the opposite direction to the second output terminal, and the common point of the indicated capacitor and diode is connected in the forward direction common point of the device. Sources of information taken into account in the examination 1. Razmadze Sh.M. Conversion schemes and systems. M., Higher School, 1967, p. 23. 2. USSR author's certificate for application number 2704867/07, cl. H 02 M 7/06, 04.02.79. one 04-jflc i + r. s /, bfX iwzh 12 JL h " / 7 ± /five