SU1166295A1 - A.c.switch - Google Patents

Abstract

AC KEY containing the first and second optocouplers, whose photothyristors are connected counter-parallel to the load connection circuit to the power supply buses, the first capacitor, the first face of which is connected to the connection point of the first and second resistors, a zener diode, the first and second diodes, a starting switch with closing contacts, the LED and the photothyristor of each optocoupler are connected to the same supply bus with opposite electrodes, characterized in that, in order to extend the functionality by means of ELENI one period of the mains voltage, the third photocoupler introduced. the second capacitor, the dynistor, the third and the fourth resistors, and the starting switch are additionally equipped with opening contacts, the first optocoupler LED is connected to the power supply via a series-connected zener diode, the first and second resistors, the closing switch of the start key, a diode and a dynistor, which are connected according to the LED the first optocoupler, the opening contacts of the starting key through the second resistor are connected in parallel to the first capacitor, the second lining of which is connected to the supply bus and The connection of the same electrodes of the LED of the first optocoupler and photothyristor of the third optocoupler, another photothyristor electrode of the third optocoupler with B is connected to the common point of the Zener diode and the first resistor, the LEDs of the second (L and the third optocouplers, the third and fourth resistors and the second diode are connected to a series unidirectional circuit, connected in parallel to the load, and the second capacitor is connected in parallel to the series-connected third resistor and the LEDs of the second and third optocouplers. O5 O5 th with SP

Description

The invention relates to a pulse technique and can be used in automation devices for the short-term excitation of a load by an alternating current.

The aim of the invention is to extend the functionality by separating one period from the supply voltage.

The drawing shows a circuit diagram of the device.

The AC switch contains the first and second optocouplers, the photothyristors 1 and 2 of which are connected in parallel to the load connection circuit 3 to the supply buses 4 and 5. The LED 6 of the first optocoupler is connected to women 4 and 5 through the series-connected Zener diode 7, first 8 and second 9 resistors, the closing contacts 10 of the starting key 11, the diode 12 and the dynistor 13, which are connected according to LED 6. The opening contacts 14 of the key 11 through a resistor 9 are connected in parallel to the first capacitor 15 connected between the common point of resistors 8 and 9 and W another 5, which are connected to the same electrodes of the LED 6 and the photothyristor 16 of the third optocoupler. The other electrode of the photothyristor 16 is connected to a common point of Zener diode 7 and a resistor 8. The LEDs 17 and 18 of the second and third optocouplers, respectively, the third 19 and fourth 20 resistors and the second diode 21 are connected in series to a unidirectional circuit connected in parallel to the load 3, and in parallel-series-connected the resistor 19 and the LEDs 17 and 18 on the second capacitor 22.

The device works as follows.

Tires 4 and 5 are supplied with a periodic variable, for example, a sinusoidal voltage.

Before pressing key 11, load 3 is not excited, since photo thyristors 1 and 2 cannot open.

To excite the load, 3 is pressed on the key 11. When the supply voltage on the bus 4 is negative, the distor 13 is turned on through the contacts 10 and the resistor 9 (the resistance of which is selected from the condition of the maximum permissible current through the distor 13) is charged, the capacitor 15. When charged the capacitor 15 to the voltage stabilization of the Zener diode 7 through the LED 6 current passes. However, during the negative half-period, the load 3 is not excited, since a negative voltage is applied to the anode of the photothyristor 1. When the supply voltage passes through zero, the photothyristor 1 is turned on and in the load 3, the impulse of the positive half-wave of the supply voltage is generated. At the same time, a current passes through the LED 18, thereby turning on

The photo thyristor 16 also prevents the current from passing through the LED 6 (the capacitor 15 is discharged only through the photo thyristor 16). Herewith, due to the fact that the capacitor 22 is charged from the positive voltage half-wave, when the supply voltage passes through zero, the photo thyristor 1 turns off and the photo thyristor 2 turns on as well. in load 3 a negative half-wave pulse is formed.

At the next negative half-wave of the supply voltage, the capacitor 15 is recharged, but in the next positive half-period of the supply voltage, the photo thyristor 1 cannot be turned on, because the LED 6 is not energized, because it is shunted by the open photo thyristor 16. load 3 can form only one bipolar pulse, repeating the shape of the supply voltage.

When the key 11 is released, the capacitor 15 through the resistor 9 is almost instantly discharged.

To re-energize the load 3, it is necessary to press the key 11 again. At the same time, the device operates in the same way as described.

To form pulses in the load, starting from the negative half-wave, it is necessary to change the polarity of switching on all semiconductor devices.

Claims (1)

AC key, containing the first and second optocouplers, the photo-thyristors of which are connected counter-parallel in the load connection to the supply buses, the first capacitor, the first lining of which is connected to the connection point of the first and second resistors, a zener diode, first and second diodes, a start key with make contacts, moreover. the LED and photo thyristor of each optocoupler are connected to the same supply bus by opposite electrodes, characterized in that, in order to expand the functionality by isolating one period from the supply voltage, a third optocoupler, a second capacitor, a dynistor, a third and a fourth resistor are introduced, and the starter key is additionally equipped with disconnect contacts, the LED of the first optocoupler connected to the supply bus through a series-connected zener diode, the first and second resistors closing the contact starting key, diode and dinistor, which are connected according to the LED of the first optocoupler, the opening contacts of the starting key through the second resistor are connected in parallel with the first capacitor, the second lining of which is connected to the supply bus and the connection point of the same electrodes of the LED of the first optocoupler and the photothyristor of the third optocoupler, another electrode the photothyristor of the third optocoupler is connected to a common point of the zener diode and § the first resistor, the LEDs of the second and third optocouplers, the third and fourth resistors and the second The first diode is connected in a series unidirectional circuit connected in parallel to the load, and the second capacitor is connected in parallel to the third resistor and the LEDs of the second and third optocouplers.