SU1193795A1 - Optronic selector switch - Google Patents

Abstract

Optoelectronic switch comprising first and second transistor optocouplers, LEDs of optocouplers included in the input circuit, the emitters fototranzistor1ov photocouplers connected to the negative pole of the constant voltage, and the collector - to the output bus through a resistor to the positive pole of the constant voltage, wherein that, in order to extend the functionality, the third and fourth transistor optocouplers are introduced into it, the LEDs of the first and fourth optocouplers are connected in series and according to the terminals of the first input, the LEDs of the second and third optocouplers - between the terminals of the second input, the emitters of the phototransistors of the third and fourth optocouplers are connected to the negative pole of the constant voltage source, the collector of the phototransistor of the third optron is connected to the phototransistor base (L ra the first optocoupler, Phototransistor collector of the fourth optocoupler - with a base of the phototherm of the second optr ron. & 0 CO ate

Description

The invention relates to a pulse technique and can be used in automation and computing devices as a contactless switch and logic element with the function Equivalency (EXCLUSIVE OR). The aim of the invention is to expand the functionality. The drawing shows a circuit diagram of the device. Optoelectronic switch contains the first transistor optocoupler 1 with LED 2 and phototransistor 3, the second transistor optocoupler 4 with LED 5 and phototransistor 6, the third transistor optocoupler 7 with the LED 8 and phototransistor 9 and the fourth transistor optocoupler 10 with LED 11 and the phototransistor 12. 3 and 6 are connected to resistor 13. LEDs 2 and 11 are connected in series and according to between terminals 14 and 15 of the first input LEDs 5 and 8 between terminals 16 and 17 of the second input Positive pole of the source A constant voltage is connected to node 1. A negative pole is connected to node 19 .. A output signal is generated at node 20. The device operates as follows. If the potential difference between terminals 14 and 15, 16 and 17 is small (both inputs are logically coded O), then the LEDs are not energized, the phototransistors are closed, high potential is fixed at the output of the switch node 20 (logic 1). If the potential difference between the terminals 14 and 15, 16 and .17 is relatively large (logical 1 is connected to both inputs), then the LEDs are excited, the phototransistors 9 and 12 are open, and they create collector currents that lock the base transistor 3 and the optocoupler 4. In this state, high potential is also fixed at output 20 (logical 1 signal). If the potential difference between terminals 14 and 15 is relatively large (a logical 1 signal is given), and a small voltage is maintained between terminals 16 and 17 (a logical O signal is given), then diodes 2d 11 are excited and LEDs 5 and 8 are off. The illuminated phototransistor 12 blocks the phototransistor 6. However, the unlit phototransistor 9. It does not prevent the phototransistor 3 from being opened via the optical channel. In this state, the output potential of the device is small (the logical O signal is maintained at the output). If the potential difference between the terminals. 14 and 15 is small (a logical signal is applied), and relatively high voltages are maintained between terminals 16 and 17, LEDs 5 and 8 are energized, and LEDs 2 and 11 are turned off. In this state, the output potential at a low level is illuminated by the illuminated photoamplifier 6, since the phototransistor f2 is not illuminated and does not prevent the phototransistor 6 from being unlocked via the optical channel. As a result, the device generates a logical 1 signal at the output if both inputs or logical O signals or logical 1 signals. In two other logical combinations, a logical O signal is detected at the device output. Thus, the Optoelectronic switch performs a logical Equivalence F5 (EXCLUSIVE OR ).

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Claims (1)

An optoelectronic switch containing first and second transistor optocouplers, optocoupler LEDs are included in the input circuit, the optocoupler emitters of the optocouplers are connected to the negative pole of the constant voltage source, and the collectors are connected to the output bus through a resistor with a positive pole of the constant voltage source, characterized in that, for the purpose of expanding functionality, it introduced the third and fourth transistor optocouplers, the LEDs of the first and fourth optocouplers are connected in series and agree but between the terminals of the first input, the LEDs of the second and third optocouplers - between the terminals of the second input, the emitters of phototransistors of the third and fourth optocouplers are connected to the negative pole of the DC voltage source, the collector of the phototransistor of the third optocoupler is connected to the base of the phototransistor of the first optocoupler, the collector of the phototransistor of the fourth optocoupler is with the base ^ nzistor of the second optocoupler. SU,. „1193795> 1193795 2