SU900275A1 - Dc voltage stabilizer - Google Patents

Description

(5) CONSTANT VOLTAGE STABILIZER

Claims (2)

The invention relates to electrical engineering and can be used in various electrical installations where a stabilized DC voltage is required. A DC voltage regulator is known, which is conveniently applied to low-voltage output voltages, since all of the amplifying elements are under full supply voltage 1.1. However, the use of such a stabilizer on voltages higher than 25-30 V leads to significant complications of the circuit, as a result of which the reliability of the device is significantly reduced and the overall dimensions reduce efficiency. The closest to the technical essence of the present invention is a DC voltage regulator containing a thyristor-diode rectifying bridge connected to the input terminals, parallel to the output of which is turned on the suppressive diode, output LC filter, reference zener diode whose cathode is connected through a resistor to the positive output terminal, and the anode through a resistor to the negative output terminal of the feedback amplifier at the transistor, the emitter of which is connected to the cathode of the reference zener diode, and the base is connected to the moving contact of the variable resistor of the output voltage divider; in parallel with which a capacitor is connected, the input transformer, to the secondary winding of which a bridge rectifier is connected, the negative output of which is connected to the positive output terminal and the anode of the Zener diode, whose cathode through a resistor is connected to the positive output of the bridge rectifiers Mitel, two-phase transistor, the first base of which through a resistor is connected to the cathode of the Zener diode, and the second base, through the corresponding resistors - to the anode of the Zener diode and to the control electrodes of the thyristors of the thyristor-diode rectifying bridge, a charge capacitor connected between the anode of the Zener diode and the emitter of the double-optics transistor, which is connected via a resistor to the Zener diode cathode and through a different resistor to the collector of the transistor of the feedback amplifier 12. However, in this case The device for stabilizing the output voltage is implemented by adjusting the turn-on angle of the thyristors of the thyristor-diode rectifier bridge. Turning on the thyristors is produced by a controlled relaxation generator on a two-base transistor. The regulation of the charge time of the capacitor of the generator is carried out by a feedback amplifier. A high-capacity capacitor, whose magnitude is 2000 microfarads, is turned on to eliminate autoslebrations parallel to the selection circuit, which leads to a tightening of the voltage build-up both on the voltage source and on the feedback circuit at the moment of switching on. This leads to an overvoltage at the output of the stabilizer at the moment of switching on. The purpose of the invention is to increase the stability of the stabilizer. The goal is achieved by the fact that a constant voltage regulator has introduced an additional secondary winding of an input transformer to which an additional bridge rectifier is connected, the negative output of which is connected to the positive output terminal, a relay connected in parallel with the additional bridge rectifier, the first transistor whose emitter is connected to the minus output of an additional bridge rectifier, and the collector through a variable resistor to the emitter of a two-phase transistor, the second transistor A stopper whose emitter is connected to the minus output of an additional rectifier, and a collector through a resistor to the positive output of an additional rectifier, a third transistor whose emitter through a resistor is connected to the negative output of an additional rectifier, and a collector to the positive output of an additional rectifier, the first statitron, an anode connected to the base of the first transistor, and the cathode through a resistor - to the collector of the second 54 transistor, the second Zener diode, the anode connected to the base of the second transistor, and the cathode ohm through a resistor to the emitter of the third transistor, a capacitor connected between the base of the third transistor and the minus output of the additional rectifier, the break contact of the relay through the resistor is connected to the negative output of the additional rectifier, the closing contact through the resistor is connected to the positive output of the additional rectifier, and the movable contact the relay is connected to the base of the third transistor. The drawing is a schematic diagram of a constant voltage regulator. The stabilizer contains a thyristor diode rectifying bridge on the rectifying diodes 1 and 2 and thyristors 3 and i connected to the input terminals, parallel to the output of the thyristor diode rectifying bridge included a quenching diode 5, an anode connected to the anode of diode 1, and the cathode of the thyristor k , output LC filter on choke b and capacitor 7, resistor 8, one output connected to the negative output terminal, and the other to the anode of the reference zener diode 9 whose cathode through a resistor 10 connected to the positive output terminal of the cond An inverter 11, in parallel with which an output voltage divider is connected to resistors 12-14, the resistor 13 being variable, the input transformer 15, to the secondary winding of which a bridge rectifier 16 is connected, and an additional bridge rectifier 17 to the secondary winding, and minus outputs The rectifiers 16 and 17. are connected to the thyristor cathodes jH, the zener diode 18, whose cathode through a resistor 1) 9 is connected to the positive output of the rectifier 16, and the anode to the sinus output of the rectifier 16, two-phase transistor 20, the first ba which through the resistor 21 is connected to the positive output of the rectifier 16, and the second base through the resistor 22 is connected to the anode Zener diode 18 and through the resistors 23 and 2 connected to the control electrodes of the thyristors 3 and 4, the emitter of the transistor 20 through the capacitor 25 is connected to the minus output - ° rectifier 16, and through a resistor 26 with a cathode “stabilizer5 litron l8, a pp, transistor 27 of the feedback amplifier, the emitter of which is connected to the cathode of the reference zener diode 9, the base of the transistor 27 is connected to the moving contact of resistor 13, and the collector this tra The resistor 28 through the resistor 28 is connected to the emitter of the transistor 20, pnp resistor 29, the emitter of which is connected to the negative input of the rectifier 17, and the collector through the alternating resistor 30 is connected to the emitter of the transistor 20, pnpn transistor 31, emitter which is connected to the minus output of the rectifier 17, and the collector through the resistor 32 - to the positive output of the rectifier 17, the stabilizer 33, which is connected to the base of the transistor 29. and the cathode through the resistor 3 to the collector of the transistor 31, p-p- n the transistor 35, the collector of which is connected to the negative output rectifier 17, and the emitter through the BZ resistor is connected to the minus output of the rectifier 17, the zener diode 37 of which is connected to the Case of the transistor 31, and the cathode through the resistor 38 to the emitter of the transistor 35, the capacitor 39 is connected between the base of the transistor 35 and the minus output rectifier 17, relay 0, connected in parallel to rectifier 17, switching contacts 1 of relay 0 are connected by a moving contact to the base of transistor 35, disconnecting contact through resistor 2 to the minus output of rectifier 17 and closing contact through resistor 3 to positive output straightener 17. The stabilizer works as follows. If there is mains AC voltage on the rectifiers 1b and 17, as well as on the rectifier consisting of diodes 1 and 2 and thyristors and 1, in tc DC voltage will turn on the relay 0 and connect the resistor 3 with its contacts 41 to capacitor 39. The charge of this capacitor will begin. Together with the charge of this capacitor, the voltage across the resistor 36 will increase. Due to the fact that the zener diode 37 is turned on between the emitter of the transistor 35 and the base of the transistor 31, and the voltage on the resistor 36 is zero at the moment the stabilizer is turned on per.directly, the transistor 29 will be open to full saturation and a current will flow through 5 resistors 26 and 30. Thereby, the effect of the feedback amplifier (transistor 27, zener diode 9, capacitor 11, resistors, .12, 13, 14, 28) on the charge circuit of the capacitor 25 of the controlled generator (rectifier 16, two-phase transistor 20 , zener diode 18, capacitor 25, resistors 19, 21, 22, 2b). The emitter-base transition time of transistor 20 depends only on the ratio of resistors 2b and 30, Since the resistor 30 is variable, the turn-on time of transistor 20 can be adjusted within large limits from the beginning of the input voltage pulse (full-wave or bridge rectifier 16). At the output of the stabilizer, it is possible with the help of the resistor 30 to set the voltage unstabilized, equal in magnitude to the nominal voltage of the stabilizer. The capacitor 11 is charged. When the voltage on the capacitor 11 is equal to the nominal operating value, the transistor 27 goes into operation. As the voltage across the capacitor 39 on the resistor 36 rises, a voltage equal to the voltage across the Zener diode 37 appears. Transistor 31 opens to its full saturation and, by switching over, the emitter-collector short-circuits the input of transistor 2S (resistor 3, Zener diode 33) ; The transistor 29 is completely locked. The current through the resistor 30 stops going. the operation of transistor 20 before the beginning of the supply of a voltage pulse now depends only on the ratio of resistors 26 and 28 and the internal resistance of the transistor 27. The transition from unstabilized state to stabilization occurs with minor changes in the output voltage, which fit into the acceptable values of the deviations on the output voltage living The stabilizer is in this state until a capacitor 11 charge reaches the operating value. These overvoltages can reach deteriorating consumers. When the mains voltage is disconnected from the stabilizer, the kO relay is turned off and, by its disconnecting contacts 1, through the resistor 42 discharges the capacitor 39, preparing the stabilizer for reclosing. The application of the proposed voltage stabilizer makes it possible to avoid overvoltages at the output of the stabilizer when switched on. Claims of an Inverter Direct Current Stabilizer, containing a thyristor-diode rectifying bridge connected to the input terminals, parallel to the output of which a damping diode is connected, an output LC filter, a reference zener diode, the cathode of which is connected through a resistor to the positive output terminal and the anode through the resistor is to a negative output terminal, the feedback amplifier on the transistor, the emitter of which is connected to the cathode of the reference zener diode, and the base to the moving contact of the variable resistor, the output divider voltage, parallel to which a capacitor is connected, the input transformer, to the secondary winding of which a bridge rectifier is connected, the negative output of which is connected to the positive output terminal and the anode of the zener diode, the cathode of which through a resistor is connected to the positive output of the bridge rectifier two-phase transistor, the first the base of which through a resistor is connected to the cathode of the Zener diode, and the second base, through the corresponding resistors to the anode of the Zener diode and to the control electrodes of the thyristor thyristor diode A power capacitor, a charge capacitor connected between the Zener diode anode and the emitter of a two base transistor, which through a resistor is connected to the cathode of the Zener diode and through another resistor to the collector of the transistor of the feedback amplifier, in order to increase the stability of operation An additional secondary winding of the input transformer, to which an additional bridge rectifier is connected, the negative output of which is connected to the positive output terminal, a relay connected to, is introduced. allele additional bridge rectifier, the first transistor, the emitter of which is connected to the minus output of the additional bridge rectifier, and the collector through a variable resistor to the emitter of the two-phase transistor, the second transistor, emit-i ter of which is connected to the minus output of the additional rectifier, and the collector through the resistor is connected to the positive output of the additional rectifier, the third transistor, the emitter of which is connected via a resistor to the negative output of the additional rectifier, and the collector is connected to the positive The first output of the rectifier, the first Zener diode connected by an anode to the base of the first transistor and the cathode through a resistor to the collector of the second transistor, the second Zener diode connected by an anode to the base of the second transistor, and the cathode through a resistor to the emitter of the third transistor, a capacitor connected between the third of the third transistor and minus -; The output of the additional rectifier, the disconnecting contact of the relay through a resistor is connected to the minus output of the additional rectifier, the closing contact through the resistor is connected to the positive output of the additional rectifier, and the moving contact of the relay is connected to the base of the third transistor. Sources of information taken into account during examination 1i Ye. S. Graver. Key Stabilizers of DC Voltage. M., Holy Knight 1970, p. Uk-U6, rice, 6.14, 2. In the same place, with, 122, fig. 6.12.