SU976454A1 - Optronic comparison device - Google Patents

Description

The invention relates to a computing technique 14 and can be used as a comparison element in information processing devices, in digital computers, in automatic control, measurement and control systems. A comparator is known which contains two n-bit registers, an optical coincidence unit, a unit for evaluating the comparison results, and an optical point of view 11. However, the limited number of bits of the compared numbers, due to the absorption of light, prevents the widespread use of this device. It is also known a comparator device containing two n-bit registers, an optical coincidence unit containing a multi-point interrogator reflector performing mechanical scanning, an evaluation unit of results and a light source f 2. The disadvantage of the device is low speed and complexity, which reduces its reliability . The closest in technical essence to the present invention is a device for comparing binary numbers, comprising a scanning semiconductor element, two n-bit optical registers, a coincidence unit, a first pulse extraction circuit connected by an input with an output of the coincidence unit. The disadvantage of the device is a relatively large time of the comparison operation, which is due to the presence of a semiconductor scanner. The comparison time of two corresponding bits of numbers is determined by the value of K) Co. For example, a comparison of two 100-bit numbers cannot be made in less time. The purpose of the invention is to increase the efficiency of this objective by achieving the fact that a device containing a pulsed light source is optically connected with transparencies, on which are compared and a reference picture, and the recording unit contains an electrical comparison bridge, every two adjacent arms of which are included. respectively, a photodetector and a source of direct current, and a recording unit is included in the diagonal of the electric comparison bridge, and two identical optical channels, each of which consists of focusing lenses and a light guide with fibers of different lengths, the input of one focusing lens of each optical channel is optically connected to the corresponding transponder, and the output is optically connected to the input end of the optical fiber of this channel, the output end of which is optically connected lens, the output of which is optically connected with the input of the corresponding photodetector. The drawing shows a schematic diagram of the proposed device. V The device contains transparencies 1 and 2, on which the reference and comparable are applied (identifiable pattern, pulsed source 3, two, focusing, lens A, two light guides 5 with fibers 6 of various definitively calculated lengths, with input faceplate 7 and output faceplate 8, two focusing lenses 9, two photodetectors in, two 11 direct current sources and a recording unit (pulse counter) 12 o Identical optical channels are formed by focusing volumes and 9. and light guides 5, and electric The bridge is connected with 1P photocircuits and direct current sources 11 with the optical fibers 5 identical to each other and made up of fibers 6 of a very long length. Each (i-fl) -e fiber is longer than i-ro by WfAn / HC, where C is the speed of light in vacuum, C. - pulse duration of the source Nick 3 light; 1b - refractive index of the fiber material. The ends of the fibers are packed into faceplates - input 7 and output 8, Laying fibers is regular at the input face 7. Layout can be arbitrary on output faceplate 8 The device works as follows. Comparison of images is performed element by element with the help of a cf / avnit bridge, photodetectors 10 of which are optically connected to the outputs of optical channels. The use of avalanche photodiodes is recommended as 1P photodetectors. The imaging of images is performed with the help of a light guide 5 When the transparence 1 and 2 are illuminated by a pulsed light source, the whole image enters through the lens k to the input faceplate 7 of the light guide 5 o Due to the fact that the fibers 6 have different lengths, the sequence is removed from the output faceplate 8 light pulses, i.e. optical video signal corresponding to this image. The video signal is fed through a focusing lens 9 to a photo receiver 10, optically connected to the corresponding optical channel. In the case of a significant difference in the illumination of the Lotto receivers 10, the balance of the circuit is disturbed and the counter 12 registers the passage of a pulse through the diagonal of the electric bridge. If the comparison picture on the banner 2 is completely identical to the reference picture on the banner 1, the same images are fed to the input faceplates 7. Consequently, from the outputs of the optical channels to the photodetectors 10 do the same series of pulses coinciding in time, which does not lead to an imbalance of the electric bridge, Et corresponds to the equality of the images. Due to the presence of distortion and interference, the comparison picture is not completely identical to the reference one. This leads to the fact that the optical signal. I partially do not match. The number of mismatches, i.e. the number of errors is recorded by a pulse counter. Given a certain number of errors, you can with the appropriate

Claims (1)

The claims of m An optoelectronic comparison device containing a pulsed light source, optically coupled to banners, on which the compared and reference pictures are applied, ²⁵ and a recording unit, which, in order to improve performance, it contains an electric comparison bridge. in each two adjacent arms of which 'a photodetector and a direct current source are included respectively, and a recording unit is included in the diagonal of the electric comparing bridge, and two identical optical channels, each of which consists of focusing lenses and a fiber with fibers of different lengths, the input of one focusing the lens of each optical channel is optically connected to the corresponding transparency, and the output is optically connected to the input end of the fiber of this optical channel, the output end of which is optically It is connected with the input of another focusing lens, the output of which is optically connected with the input of the corresponding photodetector.