SU957188A1 - High-voltage dc voltage stabilizer - Google Patents

Description

(S) high voltage DC VOLTAGE STABILIZER

one

The invention relates to electrical engineering and can be used to power various electrical installations.

A high voltage DC voltage regulator is known, comprising a rectifier, a filter, a regulating element — a series-connected chain of several transistors with emitter followers and a resistor divider for a voltage distributor between the transistors of the regulating element, a feedback amplifier, a voltage source, a resistor divider - selection chain, protective device 1.

Such a regulating element in a high-voltage voltage regulator requires a large number of series-connected transistors, as well as a large number of auxiliary rectifiers, to power the emitter repeaters, the regulator.

the driving element. The transistor chain of the regulating element must be designed for 2-2.5 times the value of the rectified voltage, taking into account the overvoltage occurring during the transition process at the moment when the voltage regulator is turned on and off.

The closest technical

Q of the essence of the known semiconductor voltage stabilizers is a voltage regulator containing a three-phase transformer, the primary winding of which is connected to the input of the first three-phase rectifier, which is connected in parallel with the output of this rectifier, and the transistor collector is connected to the input of the first three-phase rectifier

Claims (2)

20 resistors, two series-connected heteropolar emitter repeaters, and in the bases and collectors of each of them limiting resistors are included, two main ones. 395 three-phase bridge rectifiers connected in parallel, with one of the rectifiers connected to the secondary winding of the transformer connected to the star and the other rectifier: connected to the other secondary winding of the Transformer connected by a triangle, choke connected to the rectifier minus the capacitor connected in parallel with the output of the stabilizer, a feedback amplifier, for example, a transistor balanced amplifier. Connected parallel to the stabilizer output, a reference zener diode with a limiting resistor connected at the input of the balanced amplifier amplifier cascade, an auxiliary zener diode with a limiting resistor, a high-frequency voltage generator, a disconnecting transformer connected at the output of the high-frequency generator, the secondary winding of this transformer through the bridge A rectifier, at the output of which a capacitor is connected, is connected to the input of an emitter repeater (emitter base), auxiliary Yelnia -Gransformator, whose secondary winding Th Res bridge circuit rectifiers serve to supply emmitornyh repeaters and high voltage reHepatopa 2. Such a stabilizer has good stability and high to: suppression coefficient variable component when operating at constant HarpyaiKy. When working on a pulse load, especially if this load is low-frequency, due to the presence of a large number of ballasts; resistances in the collector and base circuits of the control transistor and emitter repeaters, as well as the presence of capacitors in the output and input circuits. The feedback amplifier and high-frequency voltage generator increase in the charging time of the output stabilizer-stabilizer. This leads to the appearance of low-frequency modulation at the output of the stabilizer (instability of the output voltage). The impulse load current induces high-voltage self-induction EMF pulses in the transformer windings, which leads to the failure of the regulating element transistors, or necessitates an increase in the number of sequentially included regulating transistors to increase the reliability of the stabilizer. But this leads to the complication of the scheme of the stabilizer itself. The purpose of the invention is to reduce the dynamic resistance of the stabilizer, increase efficiency, increase reliability, simplify the circuit. This goal is achieved by introducing a three-phase step-down transformer into the DC voltage regulator, the primary winding of which is connected to the output terminals, one secondary winding to the primary winding of the first, three-phase transformer, and the other two secondary windings are connected to the inputs of the third and fourth three-phase rectifiers, a second zener diode connected between the cathode of the first zener diode and the positive power input of the feedback amplifier, the third zener diode connected in parallel by uyuschemu transistor, and its cathode connected to the collector and anode - to the emitter of the transistor. The drawing shows the principles; The electrical circuit of the high voltage DC voltage regulator. The stabilizer contains a three-phase step-down transformer 1, a three-phase transformer 2 with the primary winding of the transformer 2 connected to the secondary winding of the transformer 1, the main three-phase bridge rectifier 3 connected to the secondary winding of the transformer 2, capacitor k, connected Parallel to the output of the rectifier 3, three-phase bridge rectifier 5. Zero of the primary winding of the transformer 2, included in the break. The zener diode 6 is connected in parallel to the output of the rectifier 5 and the cathode of the zener diode 6 is connected to the rectifier 5 regulating transistor 7 is connected in parallel to the rectifier 5. The collector of transistor 7 is connected to the positive of rectifier 5, and the emitter to the minus of rectifier 5 of the auxiliary bridge rectifier 8 is connected to the second secondary winding of transformer 1, the transistor 9 (emitter follower) is connected to the collector bridge rectifier 8, and the emitter to the base of the transistor 7, minus rectifier Tlitel 8 is connected to the minus rectifier 5f second auxiliary 5 bridge rectifier 10 is connected to the third secondary winding of the transformer 1, stably connected zener diodes 11 and 12, the anode of the zener diode 11 is connected to the minus of the rectifier 10 and minus of the RY prittel 3, the cathode of the stabilizer through the resistor 13 is connected to the p / das of the rectifier 10, the feedback amplifier 1, for example, the integral an operational amplifier, supplying electrodes connected to the zener diodes 11 and 12, an inverting electrode connected to the midpoint of the connection of the zener diodes 11 and 12 and the output electrode connected to the bases of transistor 9, potentiometer 15 connected to the output of the stabilizer, and a movable contact which is connected to the inverting input of the force of the feedback body 1. The stabilizer works as follows. When the mains voltage changes or when the magnitude of the load current at the output of the stabilizer changes according to the mismatch signal, the output voltage is unstable. Accordingly, at the input of the feedback amplifier (base-emitter) the mismatch signal appears, the value K output error signal eg 5keni. UQ is the voltage value of the reference .1 source (Zener diode 11). The voltage amplified signal is applied to the input of the emitter follower (transistor 9) of the power amplifier (transistor 7). Depending on which sign has a change in the mains voltage or a change in the load, either the locking or opening of the transistor 7 occurs, for example, when the mains voltage increases or when the load decreases, the locking of the transistor 7 occurs. This output maintains the output voltage constant stabilizer. In order to prevent the transistor 7 from being discharged from high-voltage high-frequency voltage pulses induced in the primary winding circuit of the transformer 2 with abrupt changes in load currents (on and off) of the mains voltage, a zener diode 6 is installed in parallel to the emitter collector of transistor 7 self-induction voltage is greater than the value of the breakdown voltage of the zener diode. The use of the proposed stabilizer makes it possible to significantly reduce the size of the device, despite the introduction of a three-phase step-down transformer. A significant decrease in the number of capacitors at the stabilizer output is caused by a significant decrease in the dynamic resistance of the stabilizer, since the limiting resistor is removed from the circuit of the regulating element and the circuit is significantly simplified. Claim 1. High-voltage DC voltage regulator containing the first three-phase speed transformer, the primary winding of which is connected to the input of the First three-phase bridge rectifier connected by the output of the first three-phase bridge rectifier, emitter follower on the transistor, by one contact, the emitter follower on the transistor, connected to the base of the regulating transistor, the second three-phase rectifier connected to the secondary winding of the first three-phase transformer, a capacitor connected in parallel with the output of the second rectifier and output terminals, a variable resistor connected in parallel with the output of the second three-phase rectifier, the first zener diode, the cathode connected to the negative output of the first three-phase rectifier, the anode to the negative output of the second three-phase rectifier, the third three-phase rectifier , the minus output of which is connected to the anode of the first zener diode, the fourth three-phase rectifier, the minus output of which is connected to the minus output of the first three-phase you p DC converter, and the positive output - to the collector of transistor emitternbgo follower amplifier feedback coupled via a resistor parallel to the third three-phase rectifying Mi-. the non-inverting input of the feedback amplifier is connected to the cathode of the first Zener diode, and the inverting The input to the movable contact of the variable resistor, the output of the feedback amplifier is connected to the base of the emitter follower transistor, which is characterized by the fact that in order to reduce the impedance resistance, increase efficiency, simplify the circuit and increase the reliability of the stabilized signal. When operating on a pulsed load, a three-phase step-down transformer is introduced into it, the primary winding of which is connected to the input terminals, one secondary winding to the primary winding of the first three-phase transformer, and the other two secondary windings are connected to the inputs of the third and fourth three-phase rectifiers, the second a zener diode connected between the cathode of the first zener diode and the positive power input of the feedback amplifier. 2. A stabilizer according to claim 1, characterized in that, in order to increase reliability, a third Zener diode is connected to it, connected to a parallel-regulating transistor, with its cathode connected to the collector and the anode to the emitter of the transistor. Sources of information taken into account in the examination 1. The source of power supply on semiconductor devices. Ed. S.D. Dodin and E.I. Halperin. M., Sov, Radio, 1966, p. . 2. Kraus L.A. and others. Designing stabilized power sources of radio electronic equipment. M., Energie, 1980., p. 158-159, rice y-lt.