SU1437988A1 - Switching circuit - Google Patents

Abstract

The invention is intended for switching AC load and its zero protection. The device contains a triac 1, connected in series with the cathode load 2 between the poles 3,4 of the alternating current source. The threshold element 12 and the circuit from the capacitor 11 and the resistor 13 generate control current pulses with a high duty cycle, self-holding the triac 1 in the open state. At reduced power costs, the zener diode 7, the capacitor 8 and the diode 9 serve to power the threshold element 12 as part of the voltage on the load 2 "the Start is performed by the button 15, and the disconnection by the button 16 or 17. 1 sludge.

Description

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The invention relates to the pulse technology and is intended for switching the active or reactive load of an alternating current and its zero protection.

The purpose of the invention is to reduce the power consumed by the control by self-holding the switching device in the open state by applying pulses of control current with a high duty cycle.

The drawing shows a circuit diagram of the device being described.

The device contains a triac 1, connected in series with a cathode load 2 between 3.4 AC sources, a ballast resistance in the form of a capacitor 5 and a resistor 6 connected in series with a valve element (for example, a Zener diode) 7 between the load terminals 2, the first end - a capacitor 8 connected to the valve element 7 through a counter-connected diode 9, the first resistor 10 connected to the melting point of the cathode of the triac 1 with the first terminal of the capacitor 8 and the connecting point of the control elec- a kind of triac 1 with the second capacitor 11, the other terminal of which is connected to the input terminal of the threshold element (for example, a single junction transistor) 12 and the first terminal of the second resistor 13, the second terminal of which is connected to the second terminal of the capacitor 8, and the output terminal of the threshold element 12 is connected with the triac cathode 1.

The load 2 is connected via the contacts 14 of the switch. The device is started by pressing button 15, and its switching off by pressing button 16 or 17.

The device works as follows.

When the button 15 is closed, a zener diode 7, a capacitor 5 and a resistor 6 under the action of a voltage at the poles 3.4 are applied to the control electrode - to the cathode of the triac 1, an alternating current flows. This current causes a voltage drop across the Zener diode 7, which is applied through the diode 9 to the capacitor 8. Under the action of the voltage on the capacitor 8, the resistors 13 and 10 charge the capacitor 11 until the threshold is released.

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element 12. After charging the capacitor 11, it is discharged to the resistor ft) through the input of the element 12. Therefore, if the contacts of the button 15 are open, under the action of voltage pulses applied to the resistor 10, the triac 1 will be kept in the open state, the Triac is kept open along the anode circuit when the AC voltage passes through zero, and at when at the pole 3 there is a positive potential, due to maintaining the capacitor 8 for several half periods in a charged state and continuously generating 12 triac control pulses during this time using a single junction transistor 1, The frequency of the generated pulses is set sufficiently high (above 1 kHz), so triac 1 is unlocked at the beginning of each half period, and almost maximum power is released in load 2. Since the triac 1 is open, when the contacts 14 are closed, the load 2 is turned on. The position of the contacts 14 and the state of the load 2 do not affect the holding of the triac 1 in the on position.

Claims (1)

Invention Formula A switching device containing a triac connected in series with a cathode load between the poles of an alternating current source, a ballast resistance connected in series with a valve element between the load terminals, the first capacitor connected 1Y to the valve element through the counter-connected diode, the first resistor connected first the output with the cathode of the triac and the first output of the first capacitor, the second capacitor, the first output of which is connected to the first output of the second resistor and input the output of the threshold element, characterized in that, in order to reduce the power consumption of the control, the second output of the second capacitor is connected to the control electrode of the triac and the second output of the first resistor, the second output of the second resistor is connected to the second output of the first capacitor The output terminal of the threshold element is connected to the control electrode of the triac.