SU741247A1 - High-voltage dc voltage stabilizer - Google Patents

Description

(54) HIGH-VOLTAGE DC VOLTAGE STABILIZER

one

The invention relates to electrical engineering and can be used in various electrical installations where high voltage stabilized power sources are required.

High voltage DC voltage regulators are known (1S2.

The closest of the known technical solutions is a high-voltage DC voltage regulator containing a regulating tetrode, the anode of which is connected to the positive input terminal, and the cathode + through the first resistor - to the positive output terminal, a feedback amplifier made on a double triode, the cathode of which is connected via a second resistor to the negative terminal of the power source of the feedback amplifier, the first with a feedback divider, the second grid to the reference voltage source, and the output from the control circuit mended regulating tetrode, OSD source voltage of the minus terminal of which is connected to the common point of the cathode regulating tetrode positive terminal and a power amplifier, a feedback source, and the positive terminal - with

the point of connection of the screen grid and the cathode, the first zener diode, the anode of which is connected to the common point, the positive supply input of the feedback power amplifier and the first output of the third resistor, the second output of the latter connected to the negative terminal of the power source of the feedback amplifier, filter capacitor connected between the cathode of the regulating tetrode and the common tire 2.

Protection on high-voltage electronic devices is cumbersome and requires additional high-voltage elements, which leads to a decrease in the reliability of the stack and the jamming and an increase in its dimensions.

The purpose of the present invention is to simplify the circuit, reduce the size, increase the efficiency and speed of protection of the regulating element and the feedback amplifier in case of current overloads and short circuits in the load circuit. The goal is achieved by the fact that in a known stabilizer 2 a thyristor, a second Zener diode and two additional resistors are inserted, the first of which is connected between the positive terminal

The power supply of the screen grid of the temporal and its screen grid, the second additional resistor is connected between the control electrode and the cathode of the thyristor tetrode, and the cathode - to the positive output terminal.

The drawing shows a high-voltage voltage regulator circuit.

A high voltage voltage regulator contains: a high voltage rectifier 1, a tetrode 2, the cathode of which is connected through resistor 3 (current sensor) to the output of the stabilizer; source 4 of screen voltage, the minus of which is connected to the cathode of tetrode 2, .a plus through the ballast resistor 5 is connected to the screen grid of tetrode 2; a thyristor b is connected to the screen grid of tetrode 2 with an anode, whose cathode is connected to the output of the stabilizer; the control electrode and the cathode of the thyristor 6 are turned on by a resistor 7; between the control electrode of the thyristor b and the cathode of tetrode 2 a threshold zener diode 8 is connected, the anode of which is connected to the cathode of tetrode 2; to the anode of the thyristor 6 cathode connected limiting zener diode 9, -. the anode of which is connected to the anode load resistors Yu, 11 feedback amplifier 12 (double triode); Zener diode 9 through a resistor 13 is connected to the minus of the power supply source 14 a DC amplifier, plus of which is connected to the cathode of the tetrode 2; reference zener diode 15 is connected to the plus of the source 14 by the anode and 14 by the anode through the resistor 16; the input of feedback amplifier 12, which inverts the output of feedback amplifier 12 (resistor 11) is connected to the control grid of tetrode 2; the cathodes of the feedback amplifier 12 through a resistor 17 are connected to the negative terminal of the power supply 14; parallel to the stabilizer output are connected: a filter capacitor 18 and a variable resistor 19, the movable electrode of which is connected to the non-inverting input of the feedback amplifier between the movable contact of the resistor 19 and the minus of the rectifier 1 is turned on the capacitor 20.

The protective device of the stabilizer operates as follows. . When a load occurs in the load circuit, the admissible norm on the resistor 3 appears a voltage equal to the voltage of the Zener diode 8. The control electrode of the thyristor 6 leaks a current equal to the turn-on current of the thyristor 6. The turn-on of the thyristor 6 occurs. Voltage on the screen grid tetrode 2 becomes equal to the direct voltage drop across the thyristor b, such a voltage drop can be considered equal to zero, while the voltage across the zener diode 9 remains unchanged. In the normal mode, the current through the Zener diode 9 is chosen such that when the supply voltage of the Zener diode changes by the magnitude of the screen voltage, a current equal to the minimum stabilization current of the Zener diode will flow through the Zener diode. The voltage of the zener diode 9 is chosen to be equal to the value of the locking voltage of the control grid of the tetrode 2 when the screen voltage is zero. This voltage for high-power tetrodes lies in the range of 100-150 volts. By virtue of what was said, when a thyristor b is triggered, a locking voltage of 100-150 volts occurs on the control grid of tetrode 2. Tetrode 2 is locked, the load circuit is de-energized.

The use of the proposed high-voltage stabilizer allows to significantly reduce the dimensions of the protective device, since no special high-voltage devices are required to lock the high-voltage regulating tetrode, to increase the response speed of the protective device. devices, increasing the reliability of the equipment, increasing the efficiency of the stabilizer, reducing the cost.

Claims (1)

1.Aksenov V.N, Rectifiers and transformer substations. Sv izdat, .1961, M., s, 408. 2, USSR Author's Certificate No. 336656, cl. G 05 F 1/16, 1970.