SU911729A1 - Switching device - Google Patents

Description

(54) SWITCHING DEVICE

The invention relates to a pulse technique and is intended for switching active and reactive loads of alternating current. It is known to switch devices containing a load connected via a rectifying bridge with a thyristor to an AC network, and a contact switch connecting the anode of the thyristor to its control electrode 1. However, this device is not self-holding. The closest to the proposed technical entity is a self-holding switching device containing a triac connected in series with the load between the poles of the alternating voltage source, two diodes, two capacitors, resistors and control buttons {2 The disadvantage of the known device is its limited functionality due to that it cannot work on any (active and reactive) loads. The purpose of the invention is to expand the functionality of the switching device. The goal is achieved by the fact that in the switching device containing a triac connected in series with the load between the poles of the alternating voltage source, the first and second capacitors, the first and second resistors, control buttons, the first capacitor connected between the cathode of the triac and the connection point of the first output the first resistor with the anode of the first diode, the cathode of which is connected via a series circuit from the second resistor and the second capacitor to the load connection point with the source pole ne TERM voltage, the second terminal of the first resistor is connected to the control electrode of the triac, the second diode cathode connected to the cathode of the triac and the anode of the second diode connected to the cathode of the first diode. The drawing shows a circuit diagram of the device. The device contains a triac 1, connected in series with the load 2 between the poles 3 and 4 of the alternating voltage source, the first 5 and second 6 diodes, the first 7 and the second 8

capacitors, resistors 9-11 and buttons 12 and 13.

The capacitor 7 is connected between the cathode of the triac and the connection point of the first pin of the resistor 9 with the anode of diode 5, the cathode of which is connected to the anode diode 6 and connected to the connection point of the source 2 via a series circuit of button 13, resistor 10 and capacitor 8 naprina The second terminal of the resistor 9 and the cathode of the diode b are connected respectively to the control electrode and the cathode of the triac 1.

The device works as follows.

When power is applied, triac 1 is locked. The voltage on load 2 is zero. When the control button 12 is closed at the moment of a positive potential at pole 3 through load 2, the transition to the cathode electrode of triac 1, resistor 11 and the contacts of button 12, a current flows causing unlocking of triac 1. A voltage is applied to load 2. Under the action of this voltage, a capacitor 8 is charged through diode b. When the supply voltage passes through zero,

the capacitor 8 is discharged through the load

2, goes over the cathode - the control electrode of the triac I, the resistor .9 and the diode 5, causes unlocking of the triac 1. at a positive potential at its anode. Triac 1 opens the current through the load 2, and the voltage on the load causes the capacitor 7 to charge through the diode 5, the resistor 10 and the capacitor 8.

Now even with the open button 12 and the positive potential at the anode of the triac 1, a current, limited by the resistor 9, flows through the cathode-control electrode under the voltage of the capacitor 7. Triac 1 opens, maintaining the load 2 in the on state. At the same time, this half cycle capacitor 7 is charged through diode 5, resistor 10 and capacitor 5 until the voltage drops across resistor 9. In the other half period, i.e. at a negative potential at the anode of the triac 1, the capacitor 8 is discharged through diode 5 to the load 2,. and the triac 1 is kept in an open state by the discharge current of the capacitor 7 through the gap of the cathode and the resistor 9, i.e. . load 2 is self-contained in the on state.

The load 2 is disconnected, for example, by opening the circuit of the capacitor 8 with button 13.

The technical and economic efficiency of the device being offered is due to the ability to switch any (active and reactive) loads without selecting triacs for sensitivity.

Claims (2)

1. Kublanovsky Ya.S. Thyristor devices. Energie, 1978, p.39. 2. Thyristors. Technical reference. Energy, 1971, fig. 8-5.