SU913067A1 - Photosensitive device - Google Patents

Description

The invention relates to optoelectronics and can be used to obtain two-dimensional information about the size of the luminous object in measurement systems, guidance, automation And computing.

Known photosensitive device containing a dielectric base, a photoconductive layer located on it and a number of parallel low-resistance electrodes lying on the photoconductive layer, the first and last of which are output contacts [1].

The disadvantage of this device is the inability to obtain information about the size of objects.

Closest to the invention is a photosensitive device containing a dielectric base with a series of parallel conductive electrodes placed on its surface in series with a photoconductive layer and another series of parallel conductive electrodes located on the photoconductive layer perpendicular to the first row electrodes [2].

2

The disadvantage of the device is that it does not allow to obtain information about the size of the luminous object.

The aim of the invention is to measure the size of luminous objects.

5 The goal is achieved by the fact that the device is equipped with two resistive elements located on a dielectric base perpendicular to one another, each of which is connected to

'corresponding to a series of parallel conducting electrodes, and two identical circuits consisting of a power supply and a recorder connected in series, connected to the corresponding resistive elements.

15 The drawing shows a diagram of a photosensitive device.

The device consists of a dielectric base 1, resistive elements 2 and 3, contact pads 4 and 5, a number of parallel ₂₀ conductive elements 6, a photoconductive layer 7, another series of parallel conductive electrodes 8 lying on the photoconductive layer 7, two sources 9 and 10 power and two recorders 11 and 12.

913067

Photosensitive device operates as follows.

In the absence of a luminous object, the photoconductive layer 7 is not illuminated and has a high resistance. Resistive elements 2 and 3 are fully included in the corresponding circuits, and the currents flowing through the recorders 11 and 12 are minimal.

After contact with the light spot 13 from the luminous object on the photoconductive layer 7, the current from the power source 9 passes through the pad 5, part ₁ rezne- tive element 3, which lies across the border of the light spot on the electrode 13 8, exposed portion of the photoconductive layer 7, the conductive electrode 6 the lower layer, exposed portion of the photoconductive layer 7, lying on the opposite edge ¹ of the light spot 13 and the conductive electrode 8 passes through the resistive element 3 and the pad 5, which lies at the other end of the resistive element cient 3 to the recorder 11. ₂

Thus, the size of the light spot is measured by the X coordinate.

When the length of the light spot 13 varies along the X axis, the switched shunt length of the resistive element 3 is measured, which leads to a proportional change in the detected current.

At the same time, the current from the power source 10 passes through the contact pad 4, part of the resistive element 2, through electrode 13 lying on the border of the light spot _3, genus 6, the illuminated portion of the photoconductive layer 7, the conductive electrode 8, another illuminated portion of the photoconductive layer 7 located the border of the light spot 13, the electrode 6 and enters through another part of the resistive

element 2, the pad 4 on the recorder 12.

Thus, the size of the light spot is determined by the coordinate Υ.

When the width of the light spot changes, the switched (shunting) length of the resistive element 2 changes, which leads to a proportional change in the recorded current.

Claims (1)

Claim A photosensitive device containing a dielectric base with a series of parallel conductive electrodes placed successively on its surface, a photoconductive, layer and another series of parallel conductive electrodes located on the photoconductive layer perpendicular to the first row electrodes, characterized in that it is equipped with two resistive elements located on a dielectric base perpendicular to one another, each of which x is connected to a respective row of parallel conductive electrodes, and two identical circuits consisting of the power source connected in series and recorder connected to respective resistive elements.