SU1539756A1 - Optronic device for calculating the area of planar figure - Google Patents

Abstract

The invention relates to computing and can be used in medicine in the study of X-ray images, in the creation of television automatic image analysis systems, as well as in the metallurgical, food and other industries. The purpose of the invention is to simplify, reduce power consumption and expand functionality by providing storage and display of a recorded image of a flat figure. Light from the source of light 1 through the transparent carrier 3 of the image enters the photosensitive matrix 2, exciting a certain number of photosensitive elements that consume a certain current flowing through the indicator 8. The latter gives a number corresponding to the image area. 1 il.

Description

1 (21) 4360315 / 24-24

(22) 07.01.88 (46) 01.30.90. Bul № 4

(71) Vinnitsa Polytechnic Institute

(72) V.P.Kozhem ko, V.A.Podorozhnyuk, S.N.Belan, O.A.Golovan

and V.V. Denisenko

(53) 681.3 (088.8)

(56) Petrenko A.I. Automatic input graphs in the computer. M .: Energie, 196.8, p. 146-147, rns.2-37.

USSR Author's Certificate No. 771689, cl. G About G 9/00 1978.

(54) ONTOELECTRONIC DEVICE FOR CALCULATION OF FLAT AREAS

(57) The invention relates to computing and can be used in medicine, in the study of

X-ray photographs, while creating television automatic systems for image analysis, as well as in the metallurgical, chemical, food and other industries of the industry. The purpose of the invention is to simplify, reduce power consumption and expand functionality by providing storage and display of the recorded image by drawing a figure. The light from the source of light t through the transparent carrier 3 of the image enters the photosensitive matrix 2, excited a certain number of photosensitive elements that consume a certain current flowing through the indicator 8. The latter gives out a number corresponding to the image area. 1 il.

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The invention relates to computing and can be used in medicine, in the study of X-ray images, in the creation of television automatic image analysis systems, as well as in the metallurgical, chemical, food and other industries.

The purpose of the invention is to simplify, reduce power consumption and expand functionality due to the ability to store and display a recorded image of a flat figure.

The drawing shows the functional diagram of the device.

An optoelectronic device for calculating the areas of a flat figure contains a source of light 1, optically coupled to the input of the photosensitive matrix 2 through the image carrier 3, the nodes of which have photosensitive elements 4 containing photothyristors 5, resistors 6 and indication LEDs 7 installed in series, and the indicator input 8 results are connected to the port 9 of the power source 10.

The device works as follows.

At the initial time, the nodes of the matrix 2 are in the unexcited state, i.e. Photo thyristors 5 do not conduct current.

To record the image, a transparent carrier of the image is mounted 3 and the source of light 1 is illuminated, the light from which enters through the carrier 3 to the photo thyristors 5 of the corresponding photosensitive elements 4 and converts them to the conducting state, i.e. the current flows in the corresponding nodes. Indicator LEDs 7 elements 4 of these nodes are mt, i.e. the whole figure area is burning.

The photothyristors 5, which are in a con- ducting state, will remain in it, since they are memory elements and for them a short-term optical signal is sufficient to store it for a long time. Phototiristor 5 can be locked only by equalizing the potentials on its electrodes.

 Indicator LEDs 7, resistors 6 and photo thyristors 5 of all nodes are chosen so that through them, in the excited state, flowed equal

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currents, as well as created equal voltage drops.

If a single current I flows in one node, determined mainly by the current of the indicator LED 7, then in five nodes a current 51 flows from the input 9 of the power source 10 through the result indicator 8 and, through the corresponding nodes, to the bus zero potential.

The result indicator 8 converts the value of this current into a code corresponding to the area of the figure. For this example, the area corresponds to five square units of matrix 2, (the coefficient facing the current value), i.e. Each discrete (node) of matrix 2 has its own geometric dimensions, due to the size of the photosensitive elements 4, in which the calculated area is expressed and converted into SI units.

Thus, the area of the image of a figure recorded on matrix 2 corresponds to the number of excited discretes of matrix 2. The higher the resolution of matrix 2, the higher the calculation accuracy.

The advantage of the proposed device in comparison with the known one is its simplicity, due to the fact that there are no current dividers in each row and fewer electrical connections, the power consumption is low, because when you turn on the light source in a known device all the nodes of the matrix flow through the current in the proposed one only through the illuminated nodes.

In addition, the device has enhanced functionality by storing the recorded image and displaying it for an arbitrarily long time.

Claims (1)

Invention Formula An optoelectronic device for calculating the areas of a flat figure containing a light source optically coupled through an image carrier to an input of a photosensitive matrix, the nodes of which have photosensitive elements connected by first terminals to a zero potential bus, the indicator pe51539756 As a result, the first flat image connected to the output of the power source, each in each photosensitive photosensitive element with a co-element, the diode is light-emit- tingly keeps the transducer connected in series and its free output through the limiting resistor and the included photo thyristor The diode connected in the forward direction, from the forward direction, is connected with the fact that, with the aim of outputting the photosensitive element, to simplify the device, reduce the second d of which power consumption and expansion. It is not equipped with a free output of limiting functionality due to a resistor and is connected to the second to ensure the storage and display of the result indicator.