SU381082A1 - OPTOELECTRONIC SUMMER - Google Patents

Description

The invention relates to the field of automation and computing.

On-electron adders, content emitters and photosensitive circuits with a photodetector connected in series with a constant voltage source and a load resistor are known.

The proposed device differs from the known ones in that it is made in the form of two photosensitive circuits, the photodynamics of which, for example photodiodes, have luxner characteristics with sign inversion. Moreover, the photodiodes are optically coupled to three input emitters, which are equally removed from the sensitive surface of the photodiodes.

This allowed us to simplify the device and increase its reliability.

Pa figs. 1 is a block diagram of the device; in fig. 2 - lux-amp characteristics of photo detectors.

The device contains emitters / and photosensitive circuits with a photodetector 2, sequentially connected with a constant voltage source 3 and a load resistor 4.

The device works in the following way.

The light input signals from the emitters J are fed simultaneously to both photodetectors 2, and the output signals U, V in the form of electrical pulses are removed from the resistors 4.

At the same time, it corresponds to the highest bit, V to the younger.

If the nerve photoprism has a Lux-ampere characteristic corresponding to curve I, and the second photodetector corresponds to curve P, then the highest bit has an output in the circuit of the second photodetector.

Since the amplitudes of the light pulses are the same, it is necessary that the inversion point of the I QI curve, the intensity of light in the topopii corresponds to the amplitude of a single light pulse, separated from the O and Qz- points. In photodiodes, this is easily achieved by selecting the external voltage. As a result, when a single pulse of light is applied from any radiator / in the circuit of the second photodetector 2, there is no photocurrent, and in the circuit of the first photo-receiver 2 there appears an addition of the photocurrent (point a). Accordingly, the signal on the second load resistor 4 is absent, on the first - is.

When two light signals are simultaneously put on the photodetectors 2, the total illumination corresponds to the point Qa (the photocurrent at point b). As a result, there are 4 sigal on the second load resistor, but not on the first one.

When three light signals arrive simultaneously at the device input, which corresponds to the Qs point on the lux-ampere characteristic, signals appear at both load resistors 4 (points C and d). The duration of the front of the light pulse must be small compared with the duration of the pulse itself so that only the amplitude of the pulse itself is recorded, and the ejections at the leading and trailing edges of the pulse caused by the running point of the operating point along the lux-current characteristic do not affect the result.

Subject invention

An optoelectronic adder, contents emitters and photosensitive circuits with a photon receiver, connected in series with a constant voltage source and a load resistor, characterized in that, in order to simplify the device and increase its reliability, it is made in the form of two photosensitive circuits, the photodetectors of which, for example photodiodes , have lux-amp characteristics with sign inversion; moreover, the photodiodes are optically coupled

with three input emitters that are equally removed from the sensitive surface of the photodiodes.

Fig 7