SU1003046A1 - Stabilized power supply source - Google Patents

Description

(54) STABILIZED POWER SUPPLY

Claims (2)

The invention relates to electrical engineering, namely to power supplies with a transformerless input, and can be used in power supply systems for automation devices, computing equipment and radio equipment. A stabilized power supply is known, which contains a series transistor switch (pulse regulator), which integrates an LCD filter and a constant-voltage-to-variable voltage converter 1. The closest in technical solution to the present invention is a device containing a transistor switch connected between the input terminal and the first output of the choke of the LCD filter, the capacitive node of which is designed as a voltage divider of series-connected capacitors, the midpoint of which is connected to the first output of the primary winding transformer, the second output of this winding is connected to the junction point of the opposite terminals of the fanzors of the DC voltage-to-voltage converter, secondary to otka transformer connected to the output terminals and the second terminal of the choke LCD-filter coupled to the input of the converter DC voltage into a variable, and a control unit 12. The disadvantage of known devices is the low reliability. The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that in a stabilized power source containing a transistor switch connected between the input terminal and the first lead of the LCD filter, the capacitive node of which is designed as a voltage divider of series-connected capacitors, the midpoint of which is connected to the first output of the primary winding transformer, the second output of this winding is connected to the junction point of the opposite terminals of the transistors of the DC / DC voltage converter, secondary The transformer is connected to the output terminals, and the second output of the LCU filter throttles is connected to the input of a DC / AC converter, and the control unit, the control unit is made in the form of a master oscillator with an output transformer, the corresponding output windings of which through the entered limiting the resistors are connected to the control terminals of the transistor switch and the transistors of the converter. In addition, in order to increase the stability of the output voltage, a voltage regulator on a magnetic amplifier, the feedback circuit of which is connected to an additional transformer secondary winding, is inserted between the second output of the choke of the LCD filter and the input of the direct voltage generator. The drawing shows an electrical circuit of a stabilized alternating voltage source. The stabilized alternating voltage source contains a series transistor switch 1, an integrating filter containing diode 2, a choke 3, operating windings 4 of the magnetic amplifier 5 and series-connected capacitors 6 and 7, forming a voltage divider, power transistors 8 and 9 of the converter constant voltage in the variable, input 10, load 11, separate 12 and. additional 13 and 14 windings of the output transformer 15, master oscillator 16, transformer 17 master oscillator, working windings 18 and 19 and output windings. 20-22 of the master oscillator, the winding 23 of the control of the magnetic amplifier, the voltage stabilization control unit 24, the threshold transistors 25 and 26, the current-limiting resistors 27-31, the diodes 32-34, and the discharge resistors 35-38. The stabilized variable voltage source operates as follows. When the mains voltage is applied through a rectifier to the input of the source, the starting generator 16 is started. A generator wiring 20 controls the base-emitter junction of the transistor 1. Resistor 27 limits the base current, and diode 32 prevents the transition from moving in the opposite direction. The windings 21 and 22 of the master oscillator drive the base-zmitter transitions of the power transistors 8 and 9. The voltage on these windings is in opposite phase. Therefore, if the transistor 8 is open, the transistor 9 is closed, and vice versa. The magnitude of the current in the bases of these transistors is limited, respectively, by resistors 28 and 29. Resistors 35 and 36 are designed to absorb minority carriers in transistors 8 and 9. To eliminate the through current through transistors 8 and 9, protection is provided, respectively, for these transistors, of threshold transistors 25 and 26, discharge resistors 37 and 38, diodes 33 and 34, current limiting resistors 30 and 31, and additional windings 13 and 14 of transformer 15. The polarity of the connection of windings 13 and 14 is such that when transistor 8 is open, Ogove transistor 26 is open. The threshold transistor 25 .. is closed, and when the transistor 9 is open, the threshold transistor 25 is open, and the threshold transistor 26 is closed. In the course of operation of the master oscillator, the voltage value on the capacitive voltage divider 6, 7 and, respectively, on the input and output windings of the output transformer increases. The magnitude of this voltage depends on the open time of the transistor switch 1, the magnitude of the inductance of the throttle 3, the magnitude of the inductance of the magnetic amplifier 5 and the control current in the control winding 23 of the magnetic amplifier. Accordingly, the magnitude of this voltage can be fixed by the open state time of the transistor switch 1, the inductance of the choke and the inductance of the magnetic amplifier. The voltage is stabilized by the control current of the magnetic amplifier, which is supplied from a separate 12 secondary windings of the output transformer via the stabilization control unit 24. When the voltage at the source input is increased, the voltage increases on the output winding 12 of the transformer. This also increases the constant component of the magnetic flux of the amplifier 5, which consists of two terms, one of which is due to the constant component of the current in the working windings of the magnetic amplifier, and the other the value of the control current of the magnetic amplifier. In this case, the stabilization control circuit reduces the control current of the magnetic amplifier and, accordingly, decreases the constant component of the magnetic flux to such values when the voltage drop across the working windings of the magnetic amplifier compensates for the increased voltage at the converter input to the nominal value. By reducing the voltage at the source input, the stabilization control circuit provides an increase in the control current of the magnetic amplifier, which leads to an increase in the voltage to the nominal value. The invention allows to increase the reliability of the device and the stability of the output voltage. Claim 1. Stabilized power supply containing transistor switch connected between input terminal and first throttle output and CO-filter whose capacitive node is designed as a voltage divider of series-connected capacitors, the midpoint of which is connected to the first transformer primary winding , the second terminal of this winding is connected to the junction point of the opposite terminals of the transistors of the DC / DC converter, the secondary winding is transformer ra is connected to the output terminals and the second terminal of the choke LCD-filyra coupled to the input of the converter DC voltage to AC, and the control unit, wherein. that, in order to control its reliability, the control unit is designed as a master oscillator with a transformer at the output, the corresponding output windings of which are connected to the control terminals of the transistor switch and converter transistors through the introduced limiting resistors. 2. The power supply according to claim 1, which means that, in order to improve the stability of the output voltage, a voltage regulator is inserted between the second output of the throttle and the ISO-capacitor and the input of the DC / DC converter. magnetic amplifier, the feedback circuit of which is connected to an additional secondary winding of the transformer. Sources of information taken into account in the examination of 1. Electronic technology in automation. Ed. Yu. I. Konev, M., Soviet Radio, 1977, N 9, p. 46-54. 2. USSR author's certificate number 708333, cl. G 05 F 1/58, 1977. PiS f-kN  . UL Hg I I M / g ts J  VA-A- l7 rnl 1I- 1 10 / yU - l4-CIIbT r f y j py Agl .O