CS235775B1 - Alternating current contactless optoelectronic switch - Google Patents

Abstract

The purpose of the switch according to the invention is separating the control circuit from the power circuit and simplifying the control circuit. Uve · of the switch is reached wiring according to the invention, where the switching the element in series with the load is connected in parallel to an AC voltage source. The control electrode switching current is controlled using a photoconductor that is plugged in between the front of the capacitor antiparallel connected Zener diode limiters.

Description

The present invention relates to a non-contact optoelectronic AC switch.

Contact switches such as relays or contactors are used to switch the AC-powered load. The disadvantages of contact switches are low reliability, sparking of contacts causing interference and increasing noise of the environment. In addition, contactless semiconductor switches are used but require complex control circuits and are difficult to isolate from the power circuit.

The above-mentioned disadvantages are overcome by the contactless optoelectronic switch according to the invention, in that the load is connected in series with the first terminal of the AC power supply and the first electrode of the switching element. Its second electrode is connected to the second terminal of the AC power supply. The first electrode of the switching element is connected via a capacitor to the anode of the first Zener diode, the cathode of which is connected to the cathode of the second Zener diode. The anode of the second Zener diode is coupled to the second terminal of the AC power source. The control electrode of the switching element is connected by a photo resistor between the capacitor and the anode of the first Zener diode.

By using a non-contact optoelectronic switch according to the invention, the interference caused by the contacts is eliminated, the reliability is increased and the power circuit is galvanically separated from the control circuit, with ease of connection.

In the accompanying drawing, two examples of embodiments of the optoelectronic switch according to the invention are shown, in which in FIG. 1 a triac is used as the actual switching element. In Fig. 2, the triac is replaced by two antiparallel thyristors.

An example of a particular embodiment 235 775

In FIG. 1, the load 3 is connected in series with the first terminal 1 of the AC power source and the first electrode of the switching element. A triac is used as the switching element 4. The second electrode of the switching element 4 is connected to the second terminal 2 of the AC power supply.

The first electrode of the switching element 6 is simultaneously connected via the capacitor 6 to the anode of the first Zener diode 6. The cathode of the first Zener diode ³ and 2 connected to a cathode of a second Zener diode 8 whose anode is connected to the second terminal 2 of the alternating voltage. The control electrode of the switching element 6 is connected via a photoresistor 2 between the capacitor 6 and the anode of the first Zener diode 2.

In Fig. 2, the load 3 is connected in series with the first terminal 1 of the AC power source, the anode of the first switching element by the cathode of the second switching element, and the anode of the first Zener diode 2.

The cathode of the first switching element 4, the anode of the second switching element 8 and the anode of the second Zener diode 8, are connected to the second terminal 2 of the AC power source. The control electrode of the first switching element 4 is connected via a first photoresistor 2 between the capacitor 6 and the cathode of the second Zener diode 8. The control electrode of the second switching element 23 is a second photoresistor 10 connected between the capacitor 6 and the cathode of the first Zener diode 2.

In the switch of FIG. 1, if the photoresistor 2 is not illuminated, it is. the ohmic resistance is high and does not allow the current flow to the control electrode of the switching element 8 to tend to switch. If, for example, the photoresistor 2 is illuminated by a bulb, its ohmic resistance is reduced to a value that allows a sufficiently large current to pass through to the control electrode of the switching element to enable it to be switched. Zener diodes 2 ^and θ limit the voltage at photo resistor 2 ⁱⁿ the switch-off state of the switch to a low value, allowing the photoresistor 2 ⁸ to be used at a low voltage rating. The capacitor 6 serves to create the required magnitude of the control signal of the switching element

In the switch according to FIG. 2, thyristors are used as switching elements 4 and 2 while maintaining the function of the switch according to the invention.

The non-contact optoelectronic switch according to the invention can be used in all cases where it is necessary to galvanically separate the power circuit from the control circuit, for example in the regulation of electric heating and the like.

Claims (1)

Object of the invention 235 775 Contactless optoelectronic AC switch, consisting of active and passive elements, characterized in that the load (3) is connected in series with the first terminal (1) of the AC power supply and the first electrode of the switching element (4), the second electrode of which is connected to a second AC voltage terminal (2), wherein the first electrode of the switching element (4) is connected via a capacitor (6) to the anode of the first Zener diode (7) whose cathode is connected to the cathode of the second Zener diode (8) whose anode is connected with a second terminal (2) of an AC power source, the control electrode of the switching element (4) being connected via a photoresistor (5) between the condenser of the plug (6) and the anode of the first Zener diode (7)