SU978359A1 - Optronic module - Google Patents

Description

(5) OPTOELECTRONIC MODULE

one

The invention relates to computing and can be used in automation devices and digital computers.

The optoele | lron module is known, which is a chain of consecutively connected bistable elements, each of which is made on a light source and a light-sensitive flax element. The disadvantage of the known module is its limited functionality.

The closest to the proposed is by its technical essence is an optoelectronic module, each of which consists of a chain of bistable elements — regenerative optocouplers, including light sources, photo-reception — 20 NICs and amplifiers. Regenerative optics RONA are sequentially excited when the corresponding signals t 2 are received.

The disadvantage of this device is also limited functionality / capabilities.

The purpose of the invention is to expand the functionality of the organization of subtraction.

This goal is achieved by the fact that in an optoelectronic module containing a regenerative optocoupler from a light source, a photodetector and an amplifier connected to the power bus, each discharge additionally contains two series-connected photodetectors, the combined outputs of which are connected to the input of the regenerative optocoupler and the others the conclusions are to the corresponding input buses, one of which is optically connected to the light source of the previous discharge, the other to the light source of the subsequent discharge.

The drawing shows the block diagram of the opto-electronic module.

The device contains in each discharge a source of light .1, a photodetector 2 an amplifier 3 additional photodetectors 4 and 5- Each source 1 is optically connected to a photodetector 2 of the same discharge, a subsequent photoreceiver and a previous photoreceiver 5, the first conclusions of the photoreceiver if are connected The bus is connected to the bus 6, the photodetector 4 is connected to the input bus 7 of the photoreceiver 5 - to the input bus 8, and the second terminals of the photoreceivers are connected to the input of amplifiers 3 of this bit.

The device works as follows.

The information (digit) in the proposed module is represented by one excited bit, the sequence number of which corresponds to the weight of the recorded digit, i.e. the device operates in unitary code 1 of N.

In the initial state in the module a digit is written in one of the bits.

In the summation mode, pulses of positive polarity are supplied to bus 7, and the potential of negative polarity is transmitted to bus 8. At the same time, as the pulses arrive, the next bit is excited and the current is zeroed.

In the subtraction mode, the pulses of the polar polarity are fed to the bus 8, and the potential of the negative polarity is fed to the bus 7. Similarly to the summation mode, the previous bit is sequentially excited and zeroed.

Thus, the proposed device allows to perform as

addition and subtraction mode of incoming information.

In addition to these modes, the proposed module can also be used as a reverse shift register and a time interval meter. In this case, the information is specified by the duration of the light signal, which is clocked by pulses of the required polarity along the corresponding buses.

Claims (2)

1. Short A.M. and others. Electronic pulse counters. M., Energie, 197b with. 353. 2. Computing nodes, ment ,, Penza, 1976, No. 6, p. 8389 (prototype).