SU1490482A1 - Two-coordinate photopotentiometric transducer - Google Patents

Abstract

This invention relates to coordinate-sensitive photodetectors. The purpose of the invention is to expand the field of application of the sensor by making it possible to determine the position of the monochromatic radiation source. To achieve the goal, filters 8, 10, 11, and 12, as well as frequency generators F _{Jan. 7} and the frequency F ₂ of contact 9. When the input light beam onto the photoconductive layer 6 between the electrode layer 2 and an electrical contact, a voltage divider formed by: a resistive layer portion of the connecting point of the generator 7 to the illuminated portion of the photoconductive layer - input conjugated tance device included in the sensor output. A similar divider is formed for generator 9: a portion of the resistive layer from the portion of the illuminated surface to the second electrode 4 is the input resistance of the downstream device. Information on the position of the input beam in one coordinate carries the amplitude of the signal at frequency F ₁ , and in the other coordinate - at frequency F ₂ . Filters 11, 12 are introduced to separate these signals. 2 Il.

Description

3

The invention relates to coordinate-sensitive photo-detectors and can be used to determine the coordinates of a light spot.

The purpose of the invention is to expand the field of application of the sensor by making it possible to determine the position of the light spot from a monochromatic radiation source.

FIG. 1 shows the functional diagram of the sensor; in fig. 2 is a dielectric substrate with applied layers, side view.

four

first surface area of the sensor. Thus, information about the coordinates of the spot along the axis, perpendicular to the location of the electrode 3, carries the amplitude of the signal with a frequency f on terminal 13.

Similarly, from the generator 9 of the frequency f, through the filter 10, which passes the frequency f, an electric signal is fed to the optically transparent electrode 6, which through the illuminated portion of the photoconductive layer is a portion of the resistive layer from

The device contains a dielectric 15 light spot to the second electric substrate 1, successively nano 4, second electrode 4 and filter 12, resistive layer 2 with its first 3 and second 4 electrodes, photoconductive layer 5 optically transmissive f signal

but

is supplied to terminal 14. Thus, the axis coordinate information of axis 20, perpendicular to the location of electrode 4, carries the Signal amplitude with frequency f on terminal 14. Since electrodes 3 and 4 are located at the adjacent edges of the resistive layer, t. e. Since these electrodes are not parallel, then information about the two coordinates of the light spot will be unambiguous, and taking into account the principle of superposition, information about the two coordinates can be obtained simultaneously.

Racunpch electrode 6, a generator 7 of f frequency, and the first filter 8 of frequency f, connected in series generator 9 of frequency fj and the first filter 10 of frequency f, second filter 11 of frequency f, second filter 12 of frequency f, output of first filter 8 of frequency f connected to the first electrode 3, the output of the first filter 10 of frequency f is connected to the optically transparent electrode 6 and to the input of the second filter 11 of frequency f ,, the second electrode 4 is connected to the input of the second filter 12 of frequency fj, the outputs of filters 11 and 12 are connected respectively to terminals 13 and 14 which e is yutch; sensor outputs.

The device works as follows.

An electric signal is applied to the first electrode 3 through the filter 8 from the generator 7 with a frequency f (. When some part of the sensor surface is illuminated in the photoconductive layer 5, nonequilibrium carriers are generated and an electrical contact between the resistive layer 2 and the transparent electrode is formed in the light spot. 6. An electrical signal with a frequency f. From the first electrode 3 through a portion of the resistive layer, an illuminated portion of the photoconductive layer, a transparent electrode and a filter 11, the pass signal at the frequency

the position of the monochromatic radiation source, it is equipped with series-connected frequency generator f, - and the first frequency filter, series-connected frequency generator fj and the first frequency filter f, the second frequency filter f, and the second frequency filter fj, the first and second electrodes of the resistive layer are located on him

fi, goes to terminal 13. When the adjacent circuit connects to the subsequent circuit sensor, the output of the first filter forms a voltage divider between the f-part, connected to the first electrical input resistance of the resistive layer, to the second circuit and the resistive layer of the resistive layer connected from the first electrode 3 to the illuminated-chen input of the second filter of frequency f,

the light spot to the second electrode 4, the second electrode 4 and the filter 12

pass signal with frequency f

but

light spot to the second electrode 4, the second electrode 4 and the filter 12,

is supplied to terminal 14. Thus, information about the spot coordinate along the axis, perpendicular to the location of electrode 4, carries the Signal amplitude with frequency f on terminal 14. Since electrodes 3 and 4 are located on adjacent edges of the resistive layer, i.e. . Since these electrodes are not parallel, then information about the two coordinates of the light spot will be unambiguous, and taking into account the principle of superposition, information about the two coordinates can be obtained simultaneously.

Claims (1)

Invention Formula A two-coordinate photopotentiometric sensor containing an electric substrate, a resistive layer with a first electrode successively deposited on it, a photoconductive a layer and an optically transparent electrode and a second electrode, characterized in that, in order to broaden the field of application by making it possible to determine position of a monochromatic radiation source, it is equipped with series-connected frequency generator f, - and the first frequency filter, series-connected frequency generator fj and the first frequency filter f, the second frequency filter f, and the second frequency filter fj, the first and second electrodes of the resistive layer are located on its adjacent edges, the output of the first filter of frequency f, is connected to the first electrode of the resistive layer, the input of the second filter of frequency f is connected to the second electrode of the resistive layer, 51490482 the output of the first filter frequency f, pa frequency f ,, the outputs of the second filter connected to the optically transparent frequency frequency f, and the second filter hour to the electrode and to the input of the second filtrate fj are the sensor outputs. Fib. 2