SU150913A1 - Semiconductor device for grid control of multiphase ion converter valves - Google Patents

Description

The proposed grid control device for multiphase ion converter valves is of the known type of systems of the same purpose, in which the phase control of each impulse is carried out using a sawtooth generator on a semiconductor triode included in the control channel.

A disadvantage of the known devices of this type is that it does not allow individual adjustment of the pulses in phase and requires the presence of a common phase-rotation device, which is an inertial element and does not allow phase control of the grid pulses.

In order to eliminate this drawback and to allow compensation for the asymmetry of the grid pulses of individual channels, it is proposed to include an adjustable ohmic resistance in the collector circuit of each generator triode, which is used to individually adjust the phase shift of the pulses by varying the sawtooth amplitude.

The drawing shows a schematic diagram of the proposed device for the grid control of the valves of a multiphase ion converter.

The circuit includes: a sawtooth voltage generator on triode 7 ,, amplifying cascade on triode Ta, differentiating cascade on a Tp transformer with a ferrite core, waiting for a single-stable multivibrator on triodes Tz and T, dividing cascade on a triode T and output amplifier triode T, the collector circuit of which includes the primary winding of the insulating pulse transformer IT. The secondary winding of this transformer is connected to the grid circuit of the ion valve.

No. 150913-2 To the terminals 1-2 of the control system, a sinusoidal voltage is supplied from the matching and synchronizing transformers, which coincides in phase with the corresponding anode voltage .t of the controlled ion valve. A sawtooth voltage appears at the output of the first stage. Adjustable resistance R is included in the collector circuit of the generator Tp. T, serves to individually adjust the phase shift of the pulses in the channels and allows for the use of resistance and capacitance with large tolerances. The sawtooth voltage is added to the control voltage f / ynp, which is fed to the input terminals 3–4 of the control system through a manual control potentiometer or from the input of automatic regulators (not shown in the diagram).

At that moment, when the sawtooth voltage exceeds the value of the control voltage, the triode T will fully open and remain open until the capacitance of the capacitor Cj is released through the triode Tj. Thus, on the collector of the triode T a pulse is formed - rectangular-shaped voltage, the leading front of which can be moved within the range of O-170 el. degrees, changing the magnitude of the control voltage.

The rectangular pulse is differentiated. And through the separation capacitor C. and the diode / positive peak pulse arrives at the base of the triode 7h. The waiting multivibrator, assembled on the G3 and T triodes, generates rectangular pulses, the width of which can be changed with the help of adjustable resistance R-. The separation stage on the triode Ha serves to separate the multivibrator from the output amplifier assembled on the triode Te. A rectangular pulse is amplified by a triode Tg whose collector load is a pulsed boost transformer IT.

The DCh diode serves to protect the triode T & overvoltage. They have a pulsed IT transformer with an insulation of 10 kV.

The output stage, consisting of the Te triode, the Rzuz chain, the pulse transformer IT, and the source bias source of the controlled ion valve, is structurally designed as a single unit and is mounted near the ion valve. Two such six-channel circuits are used to control the twelve-phase cascade-bridge ion valve circuit. In order to match the initial phase of the grid pulses with the anode voltages of the thyratrons, synchronizing and matching transformers are used, which allow you to collect any group of winding connections.

Subject invention

 A semiconductor device for grid control of a multiphase ion converter valve, containing in each control channel a sawtooth generator and a semiconductor triode with a capacitive-ohmic circuit, characterized in that, in order to compensate for the asymmetry of the grid pulses of the individual channels, into a collector circuit, each generator triode includes adjustable ohmic resistance, which is used to individually adjust the phase shift of the pulses by varying the amplitude of the sawtooth voltage eni

Oh and Ex. 3 "