SU790097A1 - Thyristor control method - Google Patents

Description

The invention relates to electrical engineering and can be used to control thyristors of proximity switches of alternating current.

Known control method tiris- tori proximity switch ⁵ 'AC which provides switching thyristors when working with the load current for discontinuous · account ποdachi a thyristor control circuit for the signal from the generator of rectangular pulses, a modulated feedback signal current, followed by demodulation. A known way to conclude _? It is necessary to supply one or several switching control signals to the thyristor control circuit at a time during which the current in the thyristor power circuit is less than the holding current so that by means of this pre-applied signal the thyristor is turned on when the switching voltage G1b appears on it

The disadvantage of this method is the periodic on and off of the thyristor, which leads to the appearance of radio interference and necessitates devices for their suppression.

Closest to the technical nature of the proposed method is the control of the thyristor, which consists in the fact that to turn on the thyristor a control electrode is supplied to it with a control electrode and, in addition to the power current, an additional direct current f2jj is passed through its power circuit.

The disadvantage of this method is the increased power loss, since an additional constant current is passed throughout the entire open state of the thyristor.

The purpose of the invention is improving efficiency.

To achieve this goal in the method of controlling the thyristor, with · з 790097 4 standing in the fact that for its inclusion serves on its control electrode. the control signal and, in addition to the power current, an additional direct current polarity is passed through its power circuit, the rectified current is shifted in phase relative to the power current as an additional current, and the additional current is turned off to turn off the thyristor.

In FIG. ί and 2 presents two variants of the circuit of the device that implements the proposed method; Fig. 3 and 4 are graphs explaining the method yn ~ 15. Equations and operation of the device.

A thyristor control device — a thyristor pusher — contains a rectifier bridge on diodes

1-4 and 5, the thyristor included in diagonalization ₂₀ Nal rectified current of the bridge.

The thyristor 5. control circuit includes a resistor-6 and a switching element - Start button 7. In the diagonal

- alternating current of the bridge is provided for ₂ 5 clamps 8 and 9 for connecting the load 10 (this can be an electric motor, heater, etc.).

An additional rectifier bridge is connected to the terminals of the thyristor power circuit with a diagonal of rectified 30 current on diodes 11-14 (Fig. 1) or on diodes 11 and 12 (Fig. 2), and in the latter case as two missing diodes of an additional rectifier bridge 35 two diodes of the main rectifier bridge are used.

The diagonal of the alternating current of the additional space includes a disconnecting element - button 15 Stop and phase-shifting current-limiting · element 16 in the form of a resistor or capacitor.

A thyristor starter for implementing the proposed thyristor control method operates as follows.

When connecting the starter to the network to the power terminals of the thyristor 5 _; two voltages come 'in direct for ty ~. ristor direction. The first voltage is supplied through the power rectifier bridge on diodes 1-4, and the second ⁴ '- through an additional rectifier bridge on diodes'11-14 (figure 1) or on diodes 1 and 2, 11 and 12 (figure 2 ) Thyristor 5 is locked because the voltage is less than the turn-on voltage of thyristor 5 in the absence of a signal in its control circuit.

When a signal is supplied to the control circuit of the thyristor 5, for example, by pressing the Start button 7, the thyristor 5 turns on and remains on until the resulting current flowing through it (Fig. 4) becomes less than the holding current of the thyristor 1ud. This occurs after pressing the Stop button 15, at which the thyristor 5 turns off and de-energizes the load 10.

The above is illustrated by graphs (see Fig. 3 and 4). C. At time _r corresponding to pressing the Start button 7, the thyristor 5 is turned on. A current Xj starts flowing through it, which is the sum of the currents / (rectified load current 10) and (rectified current of the phase-shifting current-limiting element 16 /, 'phase-shifted relative to each other. The minimum current value exceeds the value of the holding current Pruritus of thyristor 5 (Fig. 4).

Subject to this condition, the thyristor 5 after the first inclusion remains in the on state and through the load 10 an alternating current flows. The starter is on.

At time> corresponding to pressing the Stop button 15, the current is interrupted (Figs. 3 and 4), and the current) ₃ is equal to the current i. At the first further passage of the current through zero value at the time point (Fig. 4), the thyristor 5 turns off and interrupts the current in the load 10 - the starter is off.

Claims (2)

The invention relates to electrical engineering and can be used in the control of thyristors of contactless switches of overvoltage. A known method for controlling thyristors of an contactless AC switch, which enables the thyristors to turn on when operating on a load with an intermittent current, by supplying a signal from a square pulse generator modulated by a current feedback signal to the thyristor control circuit, followed by demodulation. The known method consists in supplying the thyristors with one or several switching signals to the control circuit at a time during which the current in the power circuit of the thyristors is less than the holding current with that with the help of this pre-fed signal to turn on the thyristor at the moment it appears P1. The disadvantage of this method is that the thyristor is turned on and off periodically, which causes radio interference and necessitates devices for their suppression. The closest in technical essence to the present invention is a method for controlling a thyristor, which consists in supplying a thyristor with a control electrode to the equalizing signal and, in addition to the power current, passing additional direct polarity f2 through its power circuit. The disadvantage of this method is the increased power loss, since the additional direct current is passed during the entire open state of the thyristor. The purpose of the invention is to increase efficiency. In order to achieve this goal, in the method of controlling the thyristor, with the fact that in order to turn it on, it is supplied to its control electrode. In addition to the power current, the control signal passes an additional current of direct polarity through its power circuit, the rectified current is shifted in phase relative to the power current as an additional current, and the additional current is turned off to turn off the thyristor. FIG. and 2 presents two variants of the scheme of the device that implements the proposed method; Figures 3 and 4 are graphs explaining the method of control and operation of the device. A device for controlling a thyristor - a thyristor starter - contains a rectifying bridge with diodes 1-4 and thyristor 5, included in the diagonal of the rectified current of this bridge. The thyristor control circuit 5. includes a resistor and a switching element - the 7 Start button. In the diagonal bridge AC, clamps 8 and 9 are provided for connecting the load 10 (this could be an electric motor, a heater, etc.). An additional rectifier is connected to the terminals of the thyristor power circuit with a diagonal of rectified current. a bridge on diodes 11-14 (Fig. 1) or on diodes 11 and 12 (Fig. 2), and in the latter case, the two missing diodes of the additional extra bridge are used in the diode circuit of the main back-up bridge. An additional bridge is included in the AC diagonal of the additional bridge - the 5 Stop button and the phase-shifting current-limiting. element 16 in the form of a resistor or capacitor. The thyristor starter for the implementation of the proposed method of controlling the thyristor works as follows. When the starter is connected to the mains, the power terminals of the thyristor 5: two voltages are supplied in the direction straight for the thyristor. The first voltage is passed through a power rectifier bridge on diodes 1-4, and the second through an additional rectifier bridge on diodes 11-14 (figure 1) or on diodes 1 and 2, 11 and 12 (figure 2) The thyristor 5 is locked, since the voltage level is less than the turn-on voltage of the thyristor 5 in the absence of a signal in its control circuit. When a signal is applied to the thyristor control circuit 5, for example by pressing the Start button 7, the thyristor 5 is turned on and remains in the on state until the resulting current L flowing through it (Fig. 4) becomes less than the thyristor holding current 1up. This occurs after pressing the button 15 Stop, at which the thyristor 5 is turned off and de-energizes the load 10. The foregoing is illustrated by graphs (see Figs. 3 and 4). At time t, corresponding to pressing the Start button 7, the thyristor 5 is turned on. A current i begins to flow through it, which is the sum of the currents -i (rectified load current 10 and - d) (rectified current of the phase-shifting current-limiting element 16) shifted relative to each other in phase. The minimum value of current i exceeds the holding current thyristor 5 (fig. 4). If this condition is met, the thyristor 5 after the first switch-on remains in the switched on state and alternating current flows through the load 10. The starter is turned on. At the time t, 2, the corresponding button is pressed. current 1 is interrupted (phi 3 and 4), and the current jj is equal to the current i. At the very first further passage of current 1 through a zero value at time t (Fig. 4), the thyristor 5 is turned off and interrupts the current in load 10 — the starter is turned off. a thyristor, consisting in that to turn it on, a control signal is supplied to its control electrode, and in addition to the current blow, an additional direct polar current is passed through its power circuit, in order to increase the efficiency additional current using straightening th current, phase-shifted relative to the power current and for turning off the thyristor .otklyuchayut additional current. Sources of information taken into account during the examination 1. USSR author's certificate No. 297107, cl. H 02 R 13/16, 1969. 2. USSR author's certificate number 179370, cl. 2 C 59/34, 1964.