SU615463A1 - Dc high-voltage stabilizer - Google Patents

Description

The pritetel and the anode to one end of the first resistor connected by the other end to the control grid of the high voltage tetrode and the indicated double triode anode, the second resistor connected between the zener anode and the minus output terminal of the second rectifier, a magnetic amplifier whose working windings are connected between one of the input outputs of the first rectifier and the end of the second secondary winding of the power transformer, a transistor emitter connected fc by the first end of the control winding of the magnetic amplifier, The second end of which is connected to the minus output pins of the additionally introduced third wiring, the positive output of which connects to the collector of the specified transistor, the relay whose winding is connected to the output pins of the third rectifier, the third resistor shunting the collector to the basic transition of the transistor, the capacitor connected between the base of the transistor and the negative output terminal of the third rectifier, the fourth resistor, which shunt the capacitor through the break contact of the relay, using a closing end which act sylovogo transformer primary winding is connected to terminals for connection to a power line connected to the switch via an additional transformer primary winding, the secondary winding is connected to input terminals of said third rectifier. The drawing shows the scheme of the proposed high-voltage DC voltage stabilizer. A high voltage direct current voltage regulator contains a high voltage power transformer I, a high voltage rectifier 2 regulating the high voltage tetrode 3, the screen grid of which is connected to the first rectifier through the high voltage diode 4, the screen power supply body 5, the cathode is connected to the plus output stabilizer wire, the control grid is connected to the anode of the double triode 6 of the differential DC amplifier, to which the first resistor 7 is also connected, which is connected to the anode by the second end of the stabilizer 8, the cathode of which is connected to the positive output terminal of the first rectifier 5, the control grid of the double triode 6 is connected to the reference voltage source of zenith 9 and the resistor 10 connected between the cathode of the regulating high-voltage tetrode 3 and the negative output terminal of the second rectifier 11, which is also connected to the second resistor 12, the free end of which is connected to the anode of the Zener diode 8, as well as a resistor 13, the free end of which is connected to the combined cathodes of double triode 6, the second anode of double triode 6 is connected to the cathode of the regulating high-voltage tetrode 3, and the second one controls the grid to the engine of the potentiometer 14 of the output voltage divider, the resistor 15 of which is connected to the cathode of the high-voltage tetrode 3, the second fixed contact of the potentiometer 14 is connected to the anode of the high-voltage diode 16, the cathode of which is connected through parallel connected resistor 17 and capacitor 18 with a minus output terminal of a high-voltage rectifier 2; filter capacitor 19 connected between the positive and negative output of the stabilizer; magnetic amplifier 20, the working windings connected between the rectifier 5 and the secondary winding of the transformer I supplying it; the control winding of the magnetic amplifier 20 with one electrode is connected to the emitter of the transistor 21, and the other electrode to the negative output terminal of the auxiliary third rectifier 22; the collector of transistor 21 is connected to the positive output terminal of the rectifier 22, and the base of the transistor 21 is connected to the third resistor 23 and the capacitor 24, the second electrode of which is connected to the negative terminal of the rectifier 22, the second electrode of the resistor 23 is connected to the positive output terminal of the rectifier 22; the relay 25 is connected to the rectifier 22, and the disconnecting contacts 26 of the relay 25 connect a resistor 27 in parallel with the capacitor 24; make contacts 28 of the relay 25 connect the primary winding of the power transformer 1 to an alternating current network, an additional transformer 29 serves to power the rectifier 22; the primary winding of the transformer 29 through the switch 30 is connected to the AC network. The high voltage constant voltage regulator operates as follows. When the switch 30 is closed, all the rectifiers 2, I and 22 appear to be voltage, due to the actuation of the relay 25. Due to the fact that the voltage at the end, the capacitor 24 cannot immediately reach the maximum value, and will change gradually to a certain law, the current in the control winding of the magnetic amplifier 20 will vary according to the same law, and consequently, the voltage on the screen grid of the lamp 3 will change according to the same law. The voltage on the screen grid of the lamp 3 at the time of switching on will be zero and the voltage on the Zener diode 8 will be equal to the working voltage to stabilize; The rectifier And and the resistor 12 provide the necessary stabilization current of the stabilizer 8. Due to the above, there will be a large negative voltage across the control grid of Lesme 3. This voltage depends on the type of the zener diode 8. With a zero voltage on the screen grid of lamp 3 and a certain negative voltage on the control grid, lamp 3 is completely locked. As the screen voltage increases, the negative voltage on the control grid of the lamp 3, respectively, decreases. The lamp 3 begins to open and the voltage begins to increase at the output of the stabilizer. It happens until then. until a voltage is generated on the on-screen control grids that can be stabilized by the output voltage. A further increase in screen voltage does not affect the output voltage of the stabilizer at all, since all changes in the supply voltage are processed by the DC amplifier assembled on double triode 6. The use of low-voltage semiconductor elements in combination with, for example, low-power magnetic amplifiers included in the voltage control circuit of the screen grid of the high voltage voltage regulator as control units for smoothly raising the output voltage of the stabilizer, but distinguishes the proposed high-voltage regulator of known since simplified scheme not requiring additional powerful control devices such as chokes saturation. The use of such a stabilizer significantly increases its efficiency, reduces its size, increases the reliability of the equipment, and reduces its cost.

Claims (2)

1. USSR author's certificate number 498610, cl. G 05 F 1/32, 1974. 2. Goldreer I. G. Voltage stabilizers, M., Gosenergoizdat, 1952, p. 175, fig. 110. JL Lg. ABOUT