SU1179301A1 - Stabilizing source of electric power - Google Patents

Abstract

STABILIZED POWER SUPPLY, containing rectifying - switching bridge, connected to the first-diagonal geodes between one of the input and one of the output terminals, and the first output of the second diagonal - to the combined power leads of parallel-connected regulating transistors connected by other power leads through matching level transistors that connect the matching diameters of the transistors connected by means of matching level transistors. the second diagonal of the rectifying - switching bridge, and the control input - to the first power output of the matching transistor connected to the second m power output through a resistor to the first output of a two-pole service power source connected by inputs to the input terminals, a control unit connected by power inputs to the second output of the service power source and to the second power output of a matching transistor, output to the control input of the matching transistor, and the input through the voltage sensor and the rectifying bridge to the secondary winding of the transformer, the primary winding of which is connected to the output terminals, the voltage divider connected first the extreme output to the control input of the regulating transistors, the second extreme output — to the common output of the service source and the second output of the second diagonal of the rectifying - switching bridge, the protection transistor connected by the base to the middle output of the voltage divider, the capacitor connected to the first output terminal the common conclusion of the service power source, two re-, (o resistor, characterized in that, in order to increase the reliability of protection and reduce the size, two transistors, a diode, a capacitor and four p the emitter of the protection transistor is connected to the common output source kl, to the emitter of the first inserted transistor and to the anode of the diode, the cathode of which is connected to the base of the protection transistor through a resistor and to the collector of the second inserted transistor connected to the first by the emitter the output of the service power supply, and the base through a resistor - to the collector of the protection transistor, the first transistor is connected to the collector of the second transistor, and the collector is Res resistor to the output control circuit and to the second terminal of the capacitor.

Description

The invention relates to the field of electrical engineering and is intended to supply power to automation devices, such as computing equipment and communication means, of increased reliability. The purpose of the invention is to increase the reliability of protection and reduce the size of a stabilizing power source. The drawing shows an electrical circuit of a stabilizing power source for electric power. The scheme contains a regulatory body consisting of a rectifying - switching bridge 1 on diodes. One of its diagonal is connected in series to a power transmission circuit of electricity between one of the terminals 2 for the lod. The supply voltage switch and one of the output terminals 3 of the stabilizing source5 and the other are parallel to the wiring of the partially connected transistors 4 of the power part of the regulator. The emitter circuits of these transistors include current-equalizing resistors 5, and the control leads of these transistors are connected via the transistor 6 of the matching part of the regulator and the limiting resistor 7 with the positive lead of the service power source. The latter consists of an input transformer 8, the primary winding of which is connected to terminals 2, 9 for connecting a stabilizing source to the network, the secondary winding is made with a midpoint, through a bridge rectifier 10 diodes and RC filters on resistors 11, 12 and capacitors 13 and 14 to the power supply terminals of the control circuit 15, and the middle terminal of the transformer 8 is connected to a point that connects the current and equalizing resistors 5. The output of the stabilizer control circuit 15 is connected to the control input of the transistor 6. The input through the voltage sensor 16 and the rectifying bridge 17 to the secondary winding of the output transformer 18, the primary winding of which is connected to the output terminals 3, 19 of the stabilizing source. There is also a protection cascade containing a standby multivibrator on transistors 20, 21, connected between the positive output of the service power source and the middle output 11 12 of the secondary winding of the input transformer 8, an execution stage on the transistor 22, a measuring voltage divider across resistors 23 and 24 and a soft start circuit on a capacitor 25 connected between the control input of the transistor 6 of the matching part of the regulating organ and the middle terminal of the input transformer 8; the collector of the input transistor 20 of the multivibrator is connected via a voltage divider on resistors 26 and 27 to the base-emitter junction of the transistor 21, whose collector is connected to the base of the multivibrator input transistor 20 and the divider through a serial circuit consisting of the driving capacitor 28 and resistor 29 the voltage across the resistors 23 and 24, and through the voltage divider across the resistors 30 and 31, to the base-emitter junction of the transistor 22 of the executive stage. The collector of this transistor through the limiting resistor 32 is connected to the control input of the transistor 6 of the matching part of the regulator stable. lysing source. The common point of the time of the master circuit on the capacitor 28 and the resistor 29 through a diode 33 connected in the opposite direction is connected to the middle point of the secondary winding of the input transformer 8. The stabilizing power source works as follows. When the stabilizing source is connected to the power source, a base power circuit is formed the transistor 6 of the matching part of the regulator from the secondary winding of the transformer 8 through the rectifier 10, RC - filters on resistors 11, 12 and capacitors 13 and 14 and the control circuit 15. In the cut tate transistor 6 of the matching portion of the regulatory body is opened and forms bases tranzistogrov power circuit 4, the latter are opened, supplied via a rectifier - a switching bridge 1 and the open part of the power transistors -4 Regulator supplied to the output terminals 3, 19 of the stabilizing source. Since a capacitor 25 is connected to the control input of transistors 6 and 4 of the regulating body, and current-equalizing resistors 5 are in the emitter circuits of the transistor 4, the current through the regulator transistors and, consequently, the magnitudes a marriage supplied to the output of a stabilizing source; the rate of current and voltage rise depends on the choice of capacitance values of capacitor 25, resistors 5 and the magnitude of the charging current of capacitor 25. Thus, the circuit performs a soft start of the stabilizing source, which eliminates current surges through the regulator transistors at the moment of switching on. When the voltage at the output of the stabilizing power source caused by the change in voltage of the power supply system changes, the voltage on the secondary winding of the transformer 18 and, consequently, on the voltage sensor 16. The signal taken from the sensor 16 is fed to the input of the circuit control 15 connected to the control input of the transistor 6 of the matching part of the regulator, the output of which produces a signal leading to the compensation due to the change in the internal resistance of the regulator transistors ii varying output voltage organ. When an overload or short circuit occurs, the current through the transistors 4 of the power unit of the regulator increases, and consequently, through the current and current resistors 5, which leads to an increase in potential at the bases of the transistors 4 relative to the average output of the service source, in parallel the measuring voltage divider resistors 23 and 24. As soon as the current reaches the threshold value, the input transistor 20 of the multivibrator opens and through the divider resistors 27, 26 forms a circuit supply the base of the transistor 21-, which, opening through the capacitor 28 and the resistor 29, forms an additional supply circuit of the input transistor 20, which leads to its even greater opening. and, consequently, the greater opening of the second transistor 21 of the multivibrator. An avalanche-like process of converting the transistors 20 and 21 from the cut-off mode to the saturation mode is formed. Simultaneously, the transistor 21 through the divider resistors 30, 31 supplies power to the base of the executive cascade on the transistor 22. The latter, opening, shunts the base current of the transistor 6, the regulator transistors are closed, disconnecting the power from the consumer, and simultaneously discharges the capacitor 25, preparing it to the new cycle of the inclusion of a stabilizing source with a smooth start. Since the transistors 20, 21 of the waiting multivibrator are open, the capacitor 28 is charged, which determines the time of the cut-off state of the transistors of the regulator in the event of an overload or short circuit in the consumer. As the capacitor 28 charges, the charge current flowing into the base of the transistor 20 decreases. As a result, the transistor 21 closes and closes. The capacitor 28 begins to discharge through resistors 30, 31 and the decoupling diode 33, and the transistor 22 remains open for some time, and then begins to close smoothly, thereby achieving a smooth charge of the capacitor 25, i.e. a smooth change in voltage at the base of the regulator transistor 6 of the regulator, which ensures a smooth start of the circuit. If the overload or short circuit disappears, then the circuit is automatic; returns to its original state; if a stationary short circuit or overload occurs, then as soon as the current through the transistors 4 reaches the threshold value, the cascade is triggered and the avalanche-like transfer of the transistors of the regulator from the active mode to the cut-off mode occurs, which ensures reliable overcurrent protection and short circuits in the consumer. Thus, in the circuit implemented, the process of a smooth start of the stabilizing source, excluding current surges through the transistors of the regulator at the moment of switching on, and so on. hsNafe overload protection

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and short-circuiting, instantly reversing the load of the threshold value with the subsequent transistors regulating to the organizing automatic re- multiple is a multiple of the cut-off mode when exceeded by the transient test switch-on.

Claims (1)

A STABILIZING POWER SUPPLY SOURCE, comprising a rectifier-switching bridge connected by the terminals of the first diagonal between one of the input and one of the output terminals, and the first terminal of the second diagonal to the combined power terminals of the parallel-connected control transistors connected by other power terminals through the equalizing resistors to the second the diagonal of the rectifier - switching bridge, and the control input - to the first power output of the matching transistor connected to the second power output through a resistor to the first output of a bipolar service power supply connected by inputs to the input terminals, a control node connected by power inputs to the second output of the service power supply and to the second power output of the matching transistor, output to the control input of the matching transistor, and input through a sensor voltage and rectifier bridge - to the secondary winding of the transformer, the primary winding of which is connected to the output terminals, a voltage divider connected to the first extreme terminal to the control input of the regulating transistors, the second extreme terminal - to the common terminal of the auxiliary power supply and to the second terminal of the second diagonal of the rectifier - switching bridge, the protection transistor connected by the base to the middle terminal of the voltage divider, the capacitor connected by the first terminal to the common terminal of the auxiliary power source , two re-, resistors, characterized in that, in order to increase the reliability of protection and reduce the dimensions, two transistors, a diode, a capacitor and four resistors are introduced into it, and the emitter trans the protection resistor is connected to the common output of the service power supply, to the emitter of the first transistor introduced and to the anode of the diode, the cathode of which is connected through the resistor to the base of the protection transistor and through the input encoder to the collector of the second input transistor connected by the emitter to the first output of the service power supply, and base via a resistor - to the collector of protection transistor, the first transistor base connected via a resistor - to the collector of the second transistor ¹ and the collector through a resistor to the output control circuit and a second terminal of the capacitor.