SU1295509A1 - Thyristor voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used, in particular, to protect a thyristor converter in a television scan. The aim of the invention is to increase the reliability of the converter. In case of overloads in the load circuit 6, impulse noise: or omissions of switching on the thyristor 1, the energy in the switching circuit of the converter is insufficient for reliable switching of the thyristor 1. Since the voltage at the junction point of the switching droplets 4 and the capacitor 5 protection to the specified point provides the removal of control pulses in case of emergency. 4 il. with 5S (L with to ate about с 1

Description

The invention relates to electrical engineering and can be used, in particular, to protect a thyristor converter in a television scan,

The purpose of the invention is to increase the reliability of the converter.

FIG. 1 shows a diagram of the thyristor of converter I in FIGS. 2–4 — time diagrams; on his work.

The converter (Fig. 1) consists of a thyristor 1, which is connected via an input choke 2 to a constant current source 3. To the thyristor 1 of the subconnects, a switching circuit consisting of drossel 4 and capacitor 5 connected in series Load 6, depending on the nature (active and reactive), is connected either to the right side of the capacitor 5, or to the junction point of the capacitor 5 and throttle 4. In in the second case, the right plate of the capacitor 5 is connected to the common wire (in FIG. 1, the STR1-1HOVHOW line is shown). A control pulse generator 7 via an electronic switch 8 is connected to the control electrode of the thyristor 1. To the control input

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The electronic key 8 is connected to the output of the threshold element 9, the input of which is connected to the connection point of the throttles 4 and the capacitor 5,

The Converter operates as follows.

During normal operation of the thyristor converter, a pulse voltage is applied to the input of threshold element 9 (shown from above in FIGS. 2-4 at time points from t to t. Threshold element 9 the hotel has a certain level of 10 incoming voltage pulses and exceeding the electronic key 8 permits the passage of subsequent pulses from the generator 7 to the thyristor 16 In the case of pulsed overcurrent in the load circuit, the energy in the switching circuit is reduced, and the pulsed voltage is also reduced At the input of the threshold element 9 (moments of time, FIG. 2) below the monitored level 10, the key 8 blocks the passage of the next pulse (time t, figure 2 below) and thereby prevents tilting, i.e. non-locking thyristor switching circuit

with lack of energy. In the case of a false opening of the thyristor due to a pulsed disturbance induced on the control electrode of the thyristor, for example, during high-voltage discharge (the time between sig, fig.3), the electronic switch 8 transmits the subsequent impulse (time t, fig.Z), since the pulse voltage at the input of the threshold element 9 is below the monitored level 10, By the time tj (Fig. 3), the converter again begins to function; 1 it is normal to ionize. If the thyristor 1 is turned on, due to a depleted start pulse, for example, when the connection contacts are banging (time t, Fig. 4), if the energy in the switching circuit decreases below the allowable switching, then the next pulse and transducer protection against

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The use of the invention provides an increase in the reliability of the converter, since it is allowed to operate in the conditions of impulse noise of high-voltage bits; there is no need to use emergency devices that protect and restore the operation of thyristor converters when they overturn due to impulse current overloads in the load, and one or several thyristor starting pulses are lost.

Claims (1)

Invention Formula A thyristor voltage converter containing a first choke, connected between a positive input terminal of a thyristor voltage converter and a thyristor anode, the cathode of which is connected to the negative input pin, the second choke connected between the thyristor anode and the capacitor output, one of whose outputs is an output terminal, and a master oscillator, characterized in that, in order to increase reliability, thresholds 1 and kspochevye elements are introduced into it, the latter being connected between the master oscillator output a neural generator and a control electrode of the thyristor and a control input are connected to the output of the threshold element, the input of which is connected to the combined terminals of the second throttle and capacitor. FIG. 2 and Fy