SU391580A1 - HARD SCREEN PHOTOELECTRIC - Google Patents

Description

one

The invention relates to the field of image transmission and conversion.

Scanning photovoltaic devices are known that are made on the basis of a solid and dry out, scanning the image by sequential reading of photovoltaic cells, which are connected to a peyristor circuit.

However, the scanning speed of the converter working area depends on the illumination. This creates significant difficulties in synchronizing the transmitting and receiving devices.

The proposed converter is characterized in that the outputs of the cells through a photosensitive element and a capacitor are connected to a load resistor.

The drawing shows a diagram of the proposed Converter.

It contains active elements / with S-shaped volt-ampere characteristic, photosensitive elements (for example, photodiodes) 2, storage capacitances 3, resistor 4 and capacitance 5, which ensure the operation of the neuristor cell, and load resistor 6.

The Converter operates as follows. At the initial moment, when all S-shaped elements are closed, the storage capacitors 3 are charged to a potential depending on the luminance of the photodiode 2 of each cell. When a trigger pulse is applied to the input, the S-shaped element of the first cell is opened and the capacitance 3 is discharged through the direct resistance of the photodiode and the internal resistance of the S-shaped element to the Breaking resistor. The discharge time of the storage capacitance is determined by the parameters of capacitance 5 and resistor 4, since the open state of the element depends on them.

After the arrival of the first S-shaped element in the initial (closed) state, a pulse arises at its output, which in its turn opens the second S-shaped element. The second cumulative capacitance is discharged, and so on. Spreading along the neural circuit, the impulse causes a signal to appear on the load resistor, which is made up of the impulses of the accumulator capacitance. At the same time, the speed of propagation of this pulse (scanning speed) is determined by the parameters of elements whose magnitude does not vary and, therefore, does not depend on the illumination of one or another point of the transducer. The amplitude of video pulses on the load resistor will depend on the light intensity.

The converter provides synchronous operation of the receiving and transmitting devices and thereby greatly increases the reliability

image transfer.

The proposed device can be used to transmit the image over distances in any areas where the equipment is subject to strict requirements in terms of size and weight. In addition, it can be used in computing to convert graphic information and image analysis.

Subject invention

A solid-state scanning photoelectric converter containing successively connected cells of a neuristor line consisting of an instrument with an S-shaped characteristic, a resistor and capacitance in the load circuit, and a load resistor in the power supply circuit, characterized in that in order to stabilize the scanning speed, increase the accuracy and conversion reliability; cell outputs through a photosensitive element and a capacitor are connected to a pull-up resistor.

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