SU372694A1 - ALL-UNION - Google Patents

Description

The invention relates to automation and (computing).

Logical elements are known that contain photodetectors and light sources. In such elements, the photodetectors are connected to the light source by internal photonic links that serve to control the circuit.

To transfer the circuit from one mode of operation to another, it is necessary to change the internal photonic links or the four-way electrical connections.

The purpose of the invention is to expand the functionality of the device. It is achieved so that in the proposed element a light source is connected between two photodetectors, and a third photodetector is inserted between one of the photodetectors and a light source.

Diagram of the device shown in the drawing.

The described logic element consists of a sequentially included photodetector 1, a controlled light source 2, a photodetector 3, an additional photodetector 4. Light signals x are sent to the photo receiver 2, and signals y are from the photo detectors 3 4. The output information is taken from Light source 2.

The information is encoded as follows: the presence of a light signal "1, the absence signal" O.

pins 5-9 are energized in various combinations.

As photodetectors, any elements that reduce the electrical resistance during illumination and have a large ratio of dark resistance to resistance in the illuminated state, such as modulation photoresistors, can be used.

The light source can be, for example, an electroluminescent capacitor or a LED. Consider the operation of a logical element in

different modes. When operating as an element "And the voltage is supplied" to pins 5 and 6. With the combination x-1; the resistance of the photodiodes / and decreases sharply, and a sufficient current flows through the circuit

to excite the light source 2, the output signal is "1. With y-q combinations; no current due to high dark resistance photodetectors 1, 3 or both together, the source

the light does not emit an output signal “O. Thus, the function that coincides with the conjunction of variables X -k y is worked out.

When working as an element of "OR

The stress is applied between contact 9 and interconnected contacts 5 and 7.

When combined, due to the photodetector's illumination / its resistance decreases, through the light source 2 it goes to, it lights up - the signal "1. With a combination of y-, the resistance of the photodetector 4 decreases, which also leads to the inclusion of a light source — a setting of " 1. When both photodetectors 1 and - have low resistance, the light source turns on, on: output - signal "1. At x 0; (Phytireems 1n 4 retain dark resistance, source 2 does not light, output signal "O". Thus, the function that coincides with the disjunction of the variables l: and g / is processed.

When operating as an inverter with variable X, the voltage is applied to pins 8, 9 and 5 in such a way that pins P and 5 have the same potential. In the absence of an input signal l; 0 the light source is under voltage - signal "1. At x 1, the resistance of the photodetector 1 drops sharply due to illumination, and the light source shunted by a much lower resistance of the photodetector 1 goes out - the signal “O.

When operating in the inverter mode, the variable y voltage is led to pins 8, 9, 7 such that pins 9 and

7 have the same potential. The operation of the element is similar to the work in the “inverter by drive” mode — the “1” signal, with y — the “O” signal.

P | ri work as an element. "And, operating a Pierce operation (" Pierce's arrow), the voltage is applied to the contacts

8 and 9, and pins 5 and 7 are connected, and a potential is applied from contact 9. When and the light source is not included due to the resistance of the illuminated photodetector bypass / - the signal "O. When and the source is shunted by the illuminated photodetector 4, the signal "O. With l: 1 and y-1, the source is shunted by photodetectors 1 and 4-signal "O. When and r / 0 the source is illuminated — the signal is “1, so the photodetectors /, 4 are not illuminated, retain a high dark resistance, and the voltage is applied to the light source. In this way, the function coincides with the Pierce one ration.

To operate the element in the Channel x mode, in which the variable X function is modeled, the voltage is supplied to pins 5 and 5. In this case, the source 2 lights up only when the photodetector 1 is illuminated, which ensures that the variable X function is tested.

To test the function Variable Y and (Channel Y), the voltage is supplied to pins 9 and 7, source 2 is turned on only when the photodetector 4 is illuminated.

For operation in the "Constant 1" mode, the voltage is supplied only to the contacts 8 and the illumination of any photodetector in this case does not affect the current passing through the source 2.

The element can be used to practice the function “Ban on x,“ Zadad on y.

In order to test the function “Inhibit, voltage is applied to contacts 5 and 9, and contact 7 is connected to contact 9. At and y 1, source 2 does not light up, since the circuit is interrupted by a photodetector / - signal“ O. When and the photodetector 4 retains its dark resistance, and the photodetector 1 lowers the resistance, current flows through source 2, and the signal "1. When both the photodetectors 1 and 4 lower the resistance, the photodetector 4 shunts the source 2 —signal “O. At and at 0 1 SOURCE does not shine - a signal "O.

To test the function, the Inhibit according to voltage is applied to the contacts 5 and the I which are connected. When and the source of light - signal "1, as the photodetector 4 is illuminated. When x and the source does not shine, the signal "O. When and the source is shunted by an illuminated photoreceiver / - the signal "O.

With a proper choice of the electrical parameters of the photodetector and the light source in the described logic element, an amplifying mode is possible (the intensity of the output light signal is greater than the input intensity).

Subject invention

Logic element containing photodetectors and a light source, characterized in that, in order to extend the functionality, the first photodetector is connected to the second one and a circuit of a series-connected light source and the third photodetector is connected to their common point.