SU964905A1 - Voltage converter - Google Patents

Description

(54) VOLTAGE CONVERTER

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FIELD OF THE INVENTION The present invention relates to converters and can be used in power supplies.

The limestones voltage converters, the power transformers of which have primary windings with additional taps, to which additional transistors are connected, which allows for a certain sequence of switching transistors to sense a stable Li-output output with a small ripple flj.

. Closest to the invention, the voltage converter, which contains the inverter, is connected to the secondary winding L of the transformer (f 5 Tcq) a of which the output pin is connected; The capacitor, and to the extreme leads and additional primary tapes, transistors connected to the f2j control unit are subsumed.

A common disadvantage of the considered converters is a large one — sashg bullets of the output voltage Shcht. Deep dips of the input voltage.

The purpose of the invention is to reduce the pulsations of the suitable voltage of the converter at deep terminals of the input voltage.

This goal is achieved in that a voltage converter containing an inverter is connected to the secondary winding of the transformer whose output rectifier is connected, and an end diode connected to the control unit is connected to the end of the transformer connected to the primary winding, to the common point of connection of which with the input of the shzhertor through an additional developed diode a storage capacitor is connected, connected to the additional winding of the transformer through additional Shredding diodes,

The base windings of the transistors can be used as additional taps.

The drawing shows a voltage converter operating from a wide alternating sinewave voltage network (option). The converter consists of an input terminal 1, simultaneously performing the functions of an emitting diode and an inverter made on transformer 2, to the terminals and auxiliary circuits of the primary winding 3 of which are connected directly and through collector diodes 4 and 5 of a pair of transistors 6 and 7 Transistors B and 7 of the base windings 8 and 9 and limiting resistors 1A and 11 are biased. The output is connected to the secondary winding 13 of the transformer 2. The inputs of the control unit 14 under the key to the input of the rectifier 1 and winding 9 and the outputsbases pairs of transistors 6 and 7. Yield vshr soegDINSN DC converter 1 from the middle point and the winding 3 through an additional isolator 15 zyvayunshy diode - with naksmshtepnym kondensatorsil 16 through which additional rectifier diodes 17 and 18 coupled to tangling with 8 and 9 respectively. The scheme works as follows. An unclipped power supply is fed to the input of the inverter through the input rectifier 1. Depending on the instantaneous value of the input voltage, the control unit 14 imposes permission to send a signal to alternately switch one of the pairs of transistors 6 or 7, and variable voltages are generated on the windings 8, 9 and 13 of transformer 2. The control unit 14 operates in such a way that at small instantaneous values of the input voltage of the inverter, a pair of transistors 7 is working, and a large number of transistors 6 operate. As a result, the transformer's transformer ratio changes during operation. 2, and the output voltage ripple at the output of the receiver 12, caused by the pulsating voltage at the input of the inverter, smoothes. The diode 15 is turned on, and the capacitor 16 transfers its energy to the inverter power supply circuit, which eliminates a decrease in the output voltage at these times. Energy storage accumulator capacitor 16 receives from windings 8 and 9 through additional rectifying diodes 17 and 18. Collector diodes 4 and 5 exclude 1 photocurrent inverse currents through a pair of transistors 6 at time intervals when a pair of transistors 7 are working. The number of additional taps and accordingly, the transistor pairs are determined by the specified requirements for the output voltage ripple value. It should be noted that the converter can also be performed by single-ended and bridge circuits, and, depending on the place of connection and construction: the control circuit of the converter can also operate in the stabilization mode and control of the output voltage. Thus, the combined use of an inverter with a partitioned primary winding and a cumulative capacitor allows smoothing the ripple caused by deep voltage drops, without introducing a additional filter on the power supply circuit of the voltage converter. Ph o rm a l and 3 o n e 1. The voltage converter containing an inverter, to the secondary winding of whose transformer an output rectifier is connected, and transistors connected to the extreme leads and additional taps of the primary winding with the control unit, which means that, in order to reduce the ripple of the output voltage of the converter with deep dips of the input voltage, a separate diode has been introduced into the power supply circuit to the common point of its connection with the input inverter through extra The first diode is connected to a storage capacitor connected to the additional windings of the transformer via additional rectifying diodes. /. , . 2. The transducer according to claim 1, C and l and w and C is the fact that, in order to simplify its design, the basic windings of the transistors are used in the cannon to popular windings. Sources of information that have been considered in the examination 1. US patent hfe 3925715, cl. H 02 M 3/335, 1975. 2. Author's certificate of the USSR 6 672711, cl, H 02 M 3/335, 1977,

Claims (2)

Claim · 1. A voltage converter containing an inverter, the output rectifier is connected to the secondary winding of the transformer, and transistors connected to the control unit are connected to the extreme terminals and additional taps of the primary winding, characterized in that, in order to reduce the ripple of the converter output voltage during deep input dips voltage, a decoupling diode is introduced into it along the power circuit, to the common point of connection of which with the inverter input through an additional time. knotted diode connected storage capacitor connected to additional transformer windings through additional rectifier diodes. 2. The converter according to π. 1, with the fact that, in order to simplify. Its designs, as additional windings use the base windings of transistors.