SU574831A1 - Dc-to-dc converter - Google Patents

Description

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The invention relates to electrical engineering and can be used in power supplies.

One of the known power sources contains a DC power source, a switching regulator, to the output of which connect a DC / DC converter with a transformer, and a rectifier with a capacitance filter 1J. One, in this source of power, when another transformer with a rectifier and a capacitive filter is connected to the previously turned on transformer, the output voltage of the previously turned on transformer changes significantly.

The closest to the image of the technical solution is a DC / DC converter, containing an inverter connected to the leads for connection to the power supply through a DC voltage regulator, to the winding of the output transformer through the first rectifier the filter is connected to the leads for connecting the first load, and the second rectifier with a filter connected to the leads for connecting the second load 2J.

The aim of the invention is to increase the stability of the output voltage. The goal is achieved by the fact that the second rectifier with a filter is connected to the secondary winding of an additionally inserted transformer, the primary winding of which is made of two sections, the opposite polarities of which are connected to the corresponding

the output windings of the output transformer, and the other leads through the diodes are connected to the collector of the additionally inserted transistor and through the closure contacts of the additionally introduced time relay to its emitter, while the inputting switching element is connected between the input terminal of the inverter and the emitter of the specified transistor, the base of which is the capacitor is connected to

emitter and through a resistor to another input terminal.

The drawing shows a schematic diagram of a voltage-to-constant voltage converter.

The converter contains connected to the terminals 1, 2 for connecting to the power supply through the stabilizer 3 an inverter 4, an output transformer 5 with a rectifier and a filter, additionally inserted transformer 6 with a rectifier and filter 7. The primary winding of the transformer 6 is made of two sections, different polarity the findings of which are connected to the corresponding conclusions of the primary winding of the transformer 5,

and other leads through diodes 8, 9 are connected to a collector of an additional input transistor 10, the base of which is connected through the capacitor 11 to the emitter, the additionally inserted switching element 12 is connected between the input inverter 4 and the emitter of the transistor 10. In addition, the converter includes entered by time relay 13 with normally open copactam, RC circuit 14, which provides a delay for switching on relay 13, and a resistor 15 connecting the base of transistor 10 with a power source.

The principle of operation of the converter is as follows.

When the stabilized DC source is turned on, the inverter 4 and the transformer 5 are turned on simultaneously, after the end of the transient process, the output voltage of the inverter 4 and transformer 5 is set. When switched on, the switching element 12 induces the charge of the capacitor 11 through the resistor 15, i.e. the resistance of the transistor 10 decreases gradually as the capacitor 11 charges. Therefore, in contrast to the prototype, the charge of the capacitor of the filter 7 of the rectifier occurs through the value of which is gradually reduced, which ensures the charge of the filter capacitor 7 in the phase of switching on the transformer 6, the large resistance of the transistor 10, and in the end through the small resistance of the transistor 10. This is significant but reduces the charge current of the filter capacitor 7, and consequently, the change in the output voltage of the inverter 4 and the transformer rectifier 5. Similarly, there is a decrease in the magnitude of the transient current switch on when the transformer 6 is remagnetized in a private circuit. After the end of the transient, the relay 13 is turned on, the contacts of which close the transistor 10 and the diodes b, 9, i.e. the middle point of the transformer 6 is connected directly to the positive terminal of the stabilized current source, which eliminates the power loss on the transistor 10 and. diodes 8, 9, i.e. increases efficiency. The delay of the operation time of the relay 13 can be implemented in any way, for example, RC-chain 14. To reduce the size of the switching element, it can be included in the common price of the transistor 10 and the windings of the relay 13, but in this case for a clear control of the transistor 10 it is necessary to apply a negative bias to the base of this transistor, and the diodes 8, 9 and the transistor 10 during the time that the transformer 6 is turned on are under voltage.

Such switching on of the transformer limits the transient current when the transformer with the rectifier and the capacitive filter is connected to the earlier Bcn. Inverter, which reduces the change in the output voltage of the previously switched on inverter and the rectifier of the transformer from 25 to 3%.

The converter allows and uses one common stabilized current source and a common inverter to supply several transformers connected at different times with output voltage stability not worse than 5%.

Formula and 3 obrete n p

A voltage-to-voltage transducer, containing a terminal connected to the terminals, and an inverter for connection to the threading source via a stabilizer of the laboratory, the secondary winding of the output transformer through the first rectifier with a filter connected to the output connectors a second load, and a second filter with a filter connected to the terminals for connecting a second one, characterized in that, in order to increase the output voltage stability, the second filter with a filter is connected to the primary winding of an additionally inserted transformer, the primary winding of which is made of two sections, the opposite polarities of which are connected to the corresponding terminals of the primary winding of the output transformer, and the other terminals

the diodes are connected to the collector of the additionally inserted transistor and through the closing contacts of the additional input of the time relay to its emitter, while the additionally introduced switching element is connected between the input terminal of the inverter and the emitter of the specified transistor, the base of which is connected to the emitter and through a resistor to another input terminal.

Post-exposure information taken into account during the examination

1. Japanese Patent 10407, cl. 56AO, 1964.

2. Authors certificate of the USSR L 329634, cl. P 02M 3/24, 1969.