SU985774A1 - Stabilized rectifier - Google Patents

Description

(5TH STABILIZED RECTIFIER

one

The invention relates to electrical engineering and can be used in various power supply devices for radio equipment and communications equipment.

Stabilized rectifiers are known which contain a medium-voltage power transformer with a secondary winding, a rectifier, a control transformer and an output filter C1 3.

The disadvantage of such circuits is the low efficiency, caused by the sequential switching on of the rectifier diodes and the control transistor.

Closest to the present invention is a stabilized source of constant voltage, containing a power transformer with an output rbmotka with a midpoint, to the ends of which are connected the emitters of the first and second control transistors, an output filter connected by its input between the connection point of the collectors of control transistors and the common bus, connected to the midpoint of the output winding, and the output connected to the output terminals, and the control unit; 1 with control transistors 23.

However, the known device does not have a sufficiently high efficiency due to dynamic losses in the switching transistors due to their passive locking, as well as due to the through currents that occur when the regulating transistor was open at the time of changing the polarity of the input voltage. In addition, the presence of through currents reduces the reliability of the device, x

The purpose of the invention is to increase efficiency

20 and the reliability of the stabilized rectifier.

Claims (2)

The goal is achieved by stabilizing the rectifier. containing a power transformer with an output winding with a midpoint, to the ends of which are connected the emitters of the first and second control transistors, the output filter connected by its input between the connection point of the collectors of control transistors and the common bus connected to the midpoint of the output winding, and the output connected to output terminals and a control unit for regulating transistors, two additional transformer windings are introduced, the first of which is connected to the emitter of the first regulating one transistor, and the second with the emitter of the second regulating transistor, the first and second optocouplers, whose radiators are connected to the output of the regulating transistor control unit, two resistors, each of which is connected between the common bus and the base of the corresponding regulating transistor, and the second tap of the first additional winding through the photodetector of the first optocoupler. connected to the base of the first regulating transistor and through the first diode to the base of the regulating transistor, and the second tap of the second additional winding through the photodetector of the second optocoupler connected to the base of the second regulating transistor and through the second diode to the base of the first regulating transistor. The drawing shows a schematic diagram of the proposed rectifier. The rectifier contains a transformer 1, the second winding of which has a midpoint, first 2 and second 3 additional windings, first k and second 5 control transistors, resistors 6 and 7 connected between the base of the corresponding transistor and the common bus, output filter 8, control unit transistors 9., made, for example, on the Zener diode 10 and the limiting resistor 11, the first optocoupler 12, for example thyristor, consisting of a light emitter (LED) 13 and a photo-receiver (photothyristor) 1, a second optocoupler 15, for example thyristor minutes, consisting of the light emitter (CBE .todioda) 1b and photodetector (fototiristory) 17, diodes 19, 18I, 20. 9 LOAD ku rectifier 44 operates as follows. In the first half period of the input voltage, the base current flows through the emitter-base junction of the transistor C, which opens it. A collector current flows through the transistor A, the output voltage being increased. When the output voltage reaches a predetermined value defined by the zener diode 10, the latter breaks through. Through the LEDs 13 and 16 optocouplers 12 and 15, the resistor 11, the Zener diode 10 current flows. The LEDs 13 and 16 begin to emit, and the photo thyristor, to which the direct polarity voltage is applied, turns on. A current begins to flow through the photoresistor 1 and the resistor 6. In this case, the potential of the locking polarity is applied to the base of the transistor through the included photoresistor 1. Transistor k is locked until the end of the half period. The voltage on the load 20 is maintained due to the energy stored in the filter 8. In the first half period considered, the transistor 5 is inhibited, since the emitter-base transition is applied to the locking polarity of the diode 18. In the second half-period, the polarity changes. . At the same time, the reverse polarity voltage is applied to the photo thyristor 14 of the optocoupler 12 and the photo thyristor 1 restores locking properties. Through the emitter-base transition of the transistor 5 and the resistor 7 begins to flow. The transistor 5 opens and a current flows through it to the load 20, causing an increase in the voltage at the output of the rectifier. When the output voltage reaches a predetermined value, the LEDs 13–16 of the optocouplers 12 and 15, the resistor 11, the Zener diode 10 begins to flow, leading to the emission of the LEDs 13 and 16. The photoresistor 17, to which the direct voltage is applied, it is switched on and through it to the resistor 7 current flows. At the base of the transistor 5, the potential of the locking polarity is applied through the photo-transistor 17. Transistor 5 is locked. five . 98 The current in Load 20 is maintained due to the energy stored in filter 8. During this half-period, the transistor k is inhibited, since the emitter-base passage through diode 19 is applied to the locking polarity. Thus, in the proposed rectifier, active control of the regulating transistors takes place, which improves the dynamic properties of the device and increases its efficiency. In addition, at the end of the half-periods of the input voltage, the control transistors are switched on in 1. This eliminates the possibility of through currents, increases efficiency and reliability. The use of the proposed device allows reducing power losses and increasing its reliability. Improving reliability and efficiency will increase productivity in the process of its operation. Claim 1. Stabilized rectifier containing a power transformer with an output winding with a midpoint, to the ends of which are connected the emitters of the first and second control transistors, an output filter connected by its input between the connection point of the collectors of control transistors and the common bus connected to the midpoint the output winding, and the output connected to the output terminals, and the control transistor control unit, characterized in that, in order to increase efficiency and reliability, Two additional windings of the transformer are given, the first of which is connected to the emitter of the first regulating transistor by the first tap and the second to the emitter of the second regulating transistor, the first and second optocouplers, whose light emitters are connected to the output of the regulating transistor control unit, two resistors, each connected between the common bus and the base of the corresponding regulating transistor, with the second tap of the first additional winding connected via the photo detector of the first optocoupler to the base of the first p regulates transistor and via a first diode to the base of the second regulating transistor, and a second branch of the second additional winding of the second photodetector through a photocoupler connected to the base and a second control transistor via a second diode - to the base of the first regulating transistor. 2. The transmitter according to claim t, characterized in that thyristor optocouplers are used as the optocoupler. 3. The driver according to claim 2, which is based on the fact that a zener diode connected by one electrode to the common bus and the other electrode to the first output of the limiting resistor is used as the control transducer node, and the output terminal of the control node MV The second output of the terminating resistor and the potential output terminal of the stabilized rectifier. i}. Straightener according to paragraphs. 1 and 2, i, characterized in that a pulse-width modulator is used as a control transducer control unit. Sources of information taken into account in the examination 1. Moin B.C., Leptev I.N., Stabilized transistor converters. M., Energie, 1972, Q. 253, fig. 8-3 b. 2. USSR author's certificate for application number 28A1277, cl. G 05 F 1/58, 1980.