SU1603503A1 - Power supply source - Google Patents

Abstract

The invention relates to converter equipment and can be used in secondary power sources of radioelectronic equipment, measuring and computer facilities. The purpose of the invention is to increase the efficiency and quality of the output voltage. The effect is due to the specific construction of the circuit in which the diodes of the rectifier 3 are low-current and do not affect the mass and size indicators of the source. The magnitude of the charge current of the capacitor 4 can be limited to any acceptable value by the choice of resistor 2 and the number of diodes of the K-phase rectifier 3. 3 Il.

Description

5 5

O5

co have eaten

about

CA5

FIG. g

The invention relates to converter equipment and can be used in secondary sources of electronic equipment, measuring equipment, and computer equipment.

The purpose of the invention is to increase the efficiency and quality of the output voltage.

: FIG. 1, 2 and 3 different versions of the power supply source 4 are presented.

 The power source contains a T4 phase distributor 1, n the valves of the fluorine one are made controlled (on .1 p 2, in Fig. 2 p 1, on. 3 p 3). The charging current limiting resistor 2 in FIG. 3 done- .. nfn in two parts. The K-phase rectifier 3 is made on diodes and B is connected in parallel and according to n control valves 1 and 1. You have an on-board capacitor 4 connected in front of the converter 5, which can be used, for example, half bridge inverter.

11, the control of electrodes of the ThiRstorov rectifier 1 and converter 5 includes a control unit 6, which can be executed, for example, in the form of a transformer winding, a transformer and converters,

The output of the converter 5 includes a load 7, in which quality a resistor can be used, a 4ieBOPi stabilizer with an input high-frequency transformer and its own load.

Between the common point managed

gates and common point of the diodes enter., "

Above the top 3 is enabled

resistor 2. The following can be used as a t-phase rectifier: dual half-wave rectifier (t 1); single phase bridge (mt 2), as in FIG. one; a single-phase bridge rectifier (with a mid-point lagger Included anti-parallel to the thyrator, as in Fig. 2; a three-phase rectifier zero (m 3); a three-phase bridge super miple (m 6) with various combinations of thyristors, for example, as in Fig. 3.

At the time of connection to the mains, the capacitor 4 is not charged and there are no output voltages at the outputs of the converter 5. After switching on the source, capacitor 4 is charged through resistor 2 and input rectifier 3. After charging capacitor 4 and starting operation of converter 5, alternating high-frequency voltages appear at its outputs. . When they appear at the input of control unit 6, voltage (constant or pulsed) appears at the output of the latter, which turn on the thyristors of the rectifier 1 at those times when the voltage on their anodes in the corresponding phases, alternating voltage the instantaneous value of the voltage across the capacitor 4 is exceeded. At the first moment of switching on the converter 5, the phase of switching on and the first turning on of the thyristor will be random. In this case, a parallel circuit is connected to the thyristor that has entered operation, | from. the resistor 2 and the corresponding diode of the K-phase rectifier will be shunted, and the current flows through the thyristor that has entered operation. The magnitude of the charging current can be limited to any fixed-magnitude of a given value by choosing the magnitude of the current-limiting resistor 2 and the number of diodes of the K-phase rectifier 3. Accordingly, the diodes of the rectifier 3 are chosen from the condition that the maximum charge current of the capacitor 4 did not exceed the permissible shock current of the diode. Considering

As the introduced K-phase

the rectifier, respectively, can be 55 exponential nature of the charge: the dual monopole detector 4 and the transverse passage of the aperture (K 1); rectifying half cycles of starting current through

A medium point (K 2) driver, as various diodes of the rectifier 3, is introduced

j 0 5

.. 0

50

five

in fig. 1 and 2; three-phase zero (K 3) or two-phase (K - 2) rectifier; three-phase pavement (K 6), as in FIG. 3, three-phase zero (K 3), single-phase pavement (K 2), half-wave (K 1), or a combination of the last three, when K can be 4 or 5.

In FIG. 2, the inserted midpoint rectifier is connected in parallel with the thyristor. With equal success, it can be connected between the plus and minus of the height of the bar 1. The char resistor 2 is connected between the common point of the different electrodes.

The power supply of FIG. 1 works as follows.

At the time of connection to the mains, the capacitor 4 is not charged and there are no output voltages at the outputs of the converter 5. After switching on the source, capacitor 4 is charged through resistor 2 and input rectifier 3. After charging capacitor 4 and starting operation of converter 5, alternating high-frequency voltages appear at its outputs. . When they appear at the input of control unit 6, voltage (constant or pulsed) appears at the output of the latter, which turn on the thyristors of the rectifier 1 at those times when the voltage on their anodes in the corresponding phases, alternating voltage the instantaneous value of the voltage across the capacitor 4 is exceeded. At the first moment of switching on the converter 5, the phase of switching on and the first turning on of the thyristor will be random. In this case, a parallel circuit is connected to the thyristor that has entered operation, | from. the resistor 2 and the corresponding diode of the K-phase rectifier will be shunted, and the current flows through the thyristor that has entered operation. The magnitude of the charging current can be limited to any fixed-magnitude of a given value by choosing the magnitude of the current-limiting resistor 2 and the number of diodes of the K-phase rectifier 3. Accordingly, the diodes of the rectifier 3 are chosen from the condition that the maximum charge current of the capacitor 4 did not exceed the permissible shock current of the diode. Considering

diodes, the latter can be selected for the load current at least 10-15 times smaller than the main diodes of the rectifier 1, i.e. The inserted rectifier 3 will be low current.

The operation of the source of FIG. 2 differs in that the charging current of the capacitor 4 in the start-up period flows through the expander with the midpoint of the rectifier 1 and the hot air pump 3 introduced.

The operation of the source of FIG. 3 differs in that the charging current will be 6-phase and flows through bridge bridge 3 and current limiting resistor 2 divided into two parts. In the established mode, in each half-period, the series circuits consisting of rectifier diodes 3 and part of the resistor 2, will be shunted by successive circuits from the thyristor of each phase participating in the formation of the current, and the corresponding two diodes of the above phases 1 connected in series with this phase, directly connected to it. The parts of the resistor 2 can equally well be connected not between the same electrode (cathodes and anodes) of the introduced rectifier 3 and above 10, as shown in FIG. 3, i.e. in direct current circuits, and between opposite electrodes of these rectifiers, i.e.

ig. /.

At the middle of the center, the middle points of the meters with the middle point of the top 3 and the middle points of the meters with the middle point of the middle of 1, bypassing the thyristors, i.e. between the points of attachment of the phases of these devices. In this case, alternating current will flow through the three parts of resistor 2. Thus, the use of the proposed power source allows, in comparison with the existing ones, to reduce power consumption and heat consumption, i.e. increase efficiency, improve the quality of the intermittent voltage by reducing the ripple and internal resistance of the source, reduce weight and size. from Brittany -, A power supply source containing a t-phase switch, the li of the valves of which, where the voltage is ea Ie, the capacitor and converter connected in parallel with it, the discharge of which forms the output terminals, the control unit and the charging resistor This is due to the fact that, in order to increase the efficiency and quality of the output voltage, a K-phase driver is inserted, where the diodes of which have a common point of their electrodes and are connected in parallel and according to K controlled valves and the charging resistor is connected between similar common points about & tr.

R

FIG. 3

Claims (1)

SUMMARY OF THE INVENTION 20. An electric power source containing an m-phase rectifier, whose ri valves, where 25 forms output terminals, a control unit and a charging resistor, characterized in that, in order to increase the efficiency and quality of the output voltage, a K-phase rectifier is introduced, where K ^ w, the diodes of which have a common point of their electrodes and are connected in parallel and according to K controlled valves, and a charging resistor is connected between the same common points of their rectifiers. FIG. 1. FIG. 3