SU1087774A1 - Photoelectric displacement converter - Google Patents

Abstract

A PHOTO-ELECTRIC DISPLACEMENT CONVERTER containing an optically coupled light source, a measuring and two indicator rasters, two photoreceivers, two amplifiers, indicator rasters are shifted one relative to the other by half a raster period, characterized in that, in order to improve the conversion accuracy, it is equipped with an additional photodetector, optically coupled to a light source, amplifiers are made differential, photodetectors are in the form of photodiodes, the anodes of the first and second photodetectors are connected respectively, with the non-inverting and inverting inputs of the first and second amplifiers, the cathodes of the first and second photodetectors are respectively connected with the inverting and non-inverting inputs of the first and second amplifiers, the anode and cathode of the additional photodetector are connected with non-inverting (Secondary inputs of the second and first amplifiers. 00 4

Description

one . The invention relates to a measuring technique and can be used in measuring devices linear and angular displacements, for example, in numerical control machines. A photoelectric displacement transducer is known, containing an optically coupled light source, a measuring and two indicator rasters, two photodetectors, two body forces, indicator rasters shifted one by one over the half of the Tl 7 raster period. The transducer’s disadvantage is that the conversion results depend on the source brightness. Sveta. The aim of the invention is to improve the accuracy of the conversion. This goal is achieved by the fact that a photoelectric displacement transducer containing an optically coupled light source, a measuring and two indicator rasters, two photodetectors, two amplifiers, indicator rasters are shifted relative to each other by half the raster period, provided with an additional photodetector optically connected to the source light amplifiers are differential, photodetectors are made in the form of photodiodes, the anodes of the first and second photodetectors are connected respectively to a non-inverting and the inverting inputs of the first and second amplifiers, the cathodes of the first and second photoreceivers NIKOV are connected respectively to the inverting and non-inverting inputs of the first and second amplifiers, the anode and cathode of the additional photodetector are connected respectively to the non-inverting inputs of the first and second amplifiers. FIG. 1 is a functional diagram of the photovoltaic part of the converter; in fig. 2 - photodetector connection diagram. The converter contains an optically coupled light source, a condenser 2, an indicator raster 3, dashed gratings of the raster are shifted relative to the other by half the raster period, the measuring raster 4 photodetectors 5 and 6, made in the form of photodiodes, an additional photo receiver 7, made in the form of photo74 diodes, amplifiers 8 and 9 are made differential, the anodes of the first 5 and second 6 photodetectors are connected respectively to the non-inverting and inverting inputs of the first 8 and second 9 differential amplifiers, the cathodes are first 5 and 6, the second photodetector are respectively connected to the inverting and non-inverting inputs of the first 8 and second differential amplifiers 9, an anode and cathode additional photodetector 7 are respectively connected to the noninverting second ohodami 9 and 8 of the first differential amplifier. The Converter operates as follows. A parallel luminous flux formed by the light source 1 and the condenser 2 passes through the dashed grids of the indicator 3 and measuring 4 rasters and hits the photodetectors 5 and 6. When moving the measuring raster 4 relative to the indicator raster 3, electrical signals are generated at the output of the photodetectors 5 and 6 one relative to the other by 90, which are amplified by differential amplifiers 8 and 9. The luminous flux formed by the source I of the light and the condenser 2 has passed through the transparent portions of the indicator 3 and will measure ceiling elements 4 rasters misses an additional photodetector 7, the output of which is supplied to inputs neiivertiruyuschie amplifiers 8 and 9, displacing the output signals generated at the output of differential amplifiers 8 and 9, the amount D.C., determined by the value of the luminous flux. When the magnitude of the luminous flux formed by the light source 1 changes, the constant component at the output of photodetectors 5 and 6 changes, which is compensated by a signal taken from the output of the additional photodetector 7. Thus, by supplying the device with an additional photoreceiver and differential amplifiers With their corresponding inclusion, the conversion accuracy is ensured with a change in the brightness of the light source.

Claims (1)

A PHOTOELECTRIC MOVEMENT CONVERTER containing optically coupled light source, a measuring and two indicator rasters, two photodetectors, two amplifiers, indicator rasters are shifted one relative to the other by half the raster period, characterized in that, in order to increase the conversion accuracy, it is equipped with an additional photodetector optically coupled to the light source, the amplifiers are made differential, the photodetectors are made in the form of photodiodes, the anodes of the first and second photodetectors are connected to accordingly, with the non-inverting and inverting inputs of the first and second amplifiers, the cathodes of the first and second photodetectors are connected respectively to the inverting and non-inverting inputs of the first and second amplifiers, the anode and cathode of the additional photodetector are connected with <g yen, respectively, with the non-inverting-L · inputs of the second and first amplifiers -IV calf. | < (Ii) 1 1087774 1