RU166558U1 - HIGH VOLTAGE VOLTAGE STABILIZER FOR POWER SUPPLY OF GRID MODULATOR - Google Patents

Abstract

1. A high voltage voltage regulator for powering the grid modulator, including a high voltage divider connected between the negative output connected to the negative input and the positive output of the stabilizer, the tap from which is connected to a current limiting resistor, the second end of the current limiting resistor is connected to a current limiting resistor connected to the positive output of the reference voltage source, the negative output of which is connected to the positive output of the stabilizer, through an additional current-limiting resistor is connected to the gate of the lead transistor, the source of which is connected to the positive output of the stabilizer, and a divider, the second end of which is connected to the positive input of the stabilizer, characterized in that the drain of the lead transistor is connected to the source of the slave transistor, the gate of which is connected to the divider, the drain of the latter the slave transistor is connected to the positive input of the stabilizer. 2. The high-voltage voltage regulator for powering the grid modulator according to claim 1, characterized in that between the gate and the source of each transistor, restrictive zener diodes are turned on, opening at a voltage lower than the maximum allowable for the gate-source circuit of the selected transistors, the cathodes of which are connected to the gates, and the anodes to sources of transistors. 3. A high voltage voltage regulator for supplying a grid modulator according to claim 1, characterized in that between the drain and the gate of all transistors, one or more restrictive zener diodes are installed in series, the total unlocking voltage of which does not exceed

Description

The utility model relates to the field of electrical engineering and can be used in high-voltage power supplies of grid modulators of electric vacuum devices.

A known circuit of a linear voltage regulator, including a voltage divider connected in parallel with the load, the voltage from which is supplied to a feedback amplifier, the output of which is connected to the base of the regulating transistor (US 4,633,162, publ. 1986.12.30). The disadvantages of this scheme is the relatively small control range, which is also determined by the feedback amplifier with a proportional-regulator characteristic, as well as insufficiently good energy parameters due to the presence of a large number of passive and active elements.

The goal is to increase the control range while ensuring high reliability and improve the energy parameters of the stabilizer.

This goal is achieved by applying a series connection of several regulating semiconductor devices operating in linear mode, while the regulation and stabilization range is limited only by the number and type of transistors used as regulating elements and can be increased to an arbitrarily high value, and the feedback amplifier no communication is required, since field effect transistors provide a sufficient gain. To increase the reliability of the stabilizer to the transistors of the regulating element, capacitors and resistors can be installed, balancing the voltage on them and limiting zener diodes.

1. High-voltage divider 1, connected between the negative output 2, connected to the negative input 3, and the positive output 4 of the stabilizer, the tap from which is connected to a current-limiting resistor 5, the second end of the current-limiting resistor is connected to a current-limiting resistor 6 connected to the positive output of the reference voltage source 7, the negative output of which is connected to the positive output 4 of the stabilizer, and through an additional current-limiting resistor 8 is connected to the gate of the leading trans a stator 9A, the source of which is connected to the positive output of the stabilizer 4, and a divider 10, the second end of which is connected to the positive input of the stabilizer 11, the drain of the leading transistor 9A is connected to the source of the slave transistor 9B, the gate of which is connected to the divider 10, the drain of the slave transistor 9B is connected to the positive input of the stabilizer 11 or the source of the next slave transistor, the drain of the last slave transistor 9N is connected to the positive input of the stabilizer 11.

2. The device according to p. 1 with the restrictive zener diodes 12 connected between the source and the gate of each transistor.

3. The device according to claim 1 with restrictive zener diodes 13 connected between the drain and the gate of each transistor.

4. The device according to claim 1 with capacitors 14 connected between the drain and the source of each transistor.

The proposed device operates as follows.

1. A constant voltage is applied to the inputs of the stabilizer 3 and 11, by means of a divider 10, and also through a current-limiting resistor 5 from the divider 1, connected to the outputs of the stabilizer 2 and 4, a current-limiting resistor 6 connected to a reference voltage source 7, and a current-limiting resistor 8 between With the gate and source of the leading transistor 9A, a potential difference is formed, the transistors 9A ... 9N, begin to open, while the voltage drop at each of them is equal and repeats the voltage at the transistor 9A. With increasing voltage of the stabilizer on the gate of the leading transistor 9A, the negative component of the voltage begins to prevail, the transistor closes, the remaining transistors repeat its state.

2. The device according to claim 1, in which restrictive zener diodes 12 are installed to each transistor to prevent the failure of transistors 9 from overvoltage along the gate-source circuit.

3. The device according to p. 1, in which to prevent the failure of transistors 9 from overvoltage along the drain-source circuit, restrictive zener diodes 13 are installed between the drain and the gate of each transistor, unlocking the transistors in case of overvoltage.

4. The device according to claim 1, in which capacitors 14 are installed between the drain and the source of each transistor to provide impulse protection of the regulatory element.

Claims (4)

1. A high voltage voltage regulator for powering the grid modulator, including a high voltage divider connected between the negative output connected to the negative input and the positive output of the stabilizer, the tap from which is connected to a current limiting resistor, the second end of the current limiting resistor is connected to a current limiting resistor connected to the positive output of the reference voltage source, the negative output of which is connected to the positive output of the stabilizer, through an additional current-limiting resistor is connected to the gate of the lead transistor, the source of which is connected to the positive output of the stabilizer, and a divider, the second end of which is connected to the positive input of the stabilizer, characterized in that the drain of the lead transistor is connected to the source of the slave transistor, the gate of which is connected to the divider, the drain of the latter the slave transistor is connected to the positive input of the stabilizer. 2. The high voltage voltage regulator for powering the grid modulator according to claim 1, characterized in that between the gate and the source of each transistor there are included zener diodes that open at a voltage lower than the maximum allowable for the gate-source circuit of the selected transistors, the cathodes of which are connected to the gates, and anodes to the sources of transistors. 3. A high voltage voltage regulator for supplying a grid modulator according to claim 1, characterized in that between the drain and the gate of all transistors, one or more restrictive zener diodes are installed in series, the total unlocking voltage of which does not exceed the maximum allowable drain-source circuit for the selected transistor, the cathodes of which connected to the drains, and the anodes to the gates of the transistors. 4. A high voltage voltage regulator for powering the grid modulator according to claim 1, characterized in that capacitors are provided between the drain and the source of each transistor to provide pulse protection.

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