SU432672A1 - PHOTOELECTRIC TIME IMPULSE MEASURING DEVICE - Google Patents

Description

The known photoelectric time pulsed devices containing two light sources with illuminators and diaphragms, two mirrors, scanning devices, a photoelectric-1 converter, a differential driver, a selector and an indicator, are structurally and cumbersome.

In order to simplify the construction and reduce the size of the proposed device, a timediscriminator is connected between the photoelectric transducer and the time selector, as well as successively connected differentiating element and selector-former, the outputs of which are connected to the inputs of the timed autodiscriminator, and the input of the differentiating element is connected to the output of the photoelectric converter.

The drawing shows the described device, where 1, 2 - light sources; 3, 4 - first of all, metric elements; 5, 6 - diaphragm; 7, 8 - mirrors; 9 - scanning device; 10 - photoelectric converter; // - temporary autodiscriminator; 12 - differentiating element; 13 - disc: iminator; 14 - selector; 15 - amplitudes. Selector shaper; 16 is a measurement unit.

Optically asymmetric elements 3, 4, distorting the shape of the luminous flux, can

be placed between the light sources 1, 2 and the apertures 5, 6, or combined with the marks of the apertures. Let the diaphragm marks have the same area, but they are oithically asymmetrical about one of the axes of symmetry. Accordingly, the magnitudes of the light currents passing through the diaphragm on both sides of the indicated axis are not the same. This is achieved either by choosing an asymmetric profile of the envelope g, and aphragms (for example, triangular), or by choosing an asymmetry of 1-time distribution of the optical density of the diaphragms in the direction perpendicular to the indicated axis (view A, B). In addition, the diaphragms are turned 180 ° relative to each other relative to the indicated axes at their position, along the lines of the line connecting the centers of the diaphragms. Mirrors 7, 8 are designed to reflect light into an OITIC system consisting of a scanning device 9 and a photoelectric converter W, which converts these signals into electrical pulses. The scanning device B1 is filled in the form of an opaque shutter with a slit, which makes an illo-parallel motion in the focal plane of the photovoltaic hub using a transparent (“reading”) rectangular slit, and re-converts the continuous light fluxes of the light sources 1, 2 into discrete ones, i.e. produces temporary

discretization The slit width of the scanning device 9 is less than or equal to the width of the image of the diaphragms in the scanning plane. The photovoltaic converter 10 also converts light pulses into electrical ones.

The output of the photoelectric converter 10 is connected to the time input of the autodiscriminator 11, which is designed to generate an electrical pulse voltage, the irational difference of the parts of the electric pulses that are between the beginning and the maximum value and between the maximum value and the end of the pulses fed to the input from the photoelectric converter 10. The time autodiscriminator / / consists of a discriminator 13, a differentiating circuit 12, the input of which is connected to the input of the autodiscriminator 11, and The output is to the amplitude of the selector-shaper 15, the outputs of the selector-shaper 15, in turn, are connected to the selection inputs of the temporary discriminator. Differentiating circuit 12 is designed to differentiate the electrical signals from the photoelectric transducer 10. Amplitude selector-shaper 15 divides the signals arriving at its input polarity into two channels and normalizes them in amplitude, angle and length of fronts. The output normalized emulsions of the amplitude selector 15 are selective pulses for discriminator 13. The discriminator 13 is designed to generate electrical pulses proportional to the difference between the plumes, pulses of pulse parts that coincide in time with the selective pulses from the amplifier selector-shaper 15. The output of the discriminator is 18 amps. shaper 15 comes to the measuring unit 16, intended for measuring the time interval between pulses at the output of the amplitude selector Former 15 n definitions of the sign of the coordinate.

The device works in the following way.

The PT light sources, 2, illuminate optically asymmetrical diaphragms 5, 6, the images of which are designed with the help of mirrors 7, 8 in the plane of the scanning device 9 and the photoelectric converter. At the same time, the images of the rabbi and the square and the magnitude of the light fluxes of these images.

The scanning device 9 converts continuous light fluxes into imimsed light signals. Since the width of the slit is equal to the maximum size of each image, the time intervals are equal to each other, but the emuli are asymmetric due to the optical asymmetry of the diaphragms.

The signals from the output of the photoelectric transformer are differentiated by element 12, are divided by the amplitude selector 14 into two channels depending on polarity, and are normalized in amplitude and duration. The autodiscriminator // discriminates the input pulses with respect to time relative to the maximum. At the output of the time discriminator at the moment of time corresponding to the trailing edge of the selectable pulse, an electric pulse appears, the polarity of which is determined by the sign of the difference in the area of the pulses from the photoelectric converter. Output bipolar pulses from the autodiscriminator // are fed to the amplitude selector-shaper 15, where the polarities are divided into two control channels, and then the measuring device, measuring the time interval and determining the sign of the coordinates depending on the sequence of these and pulses.

Subject invention

A photoelectric time is a pulsed measuring device containing two light sources with illuminators and diaphragms, two mirrors, a scanning device, a photoelectric transducer, a discriminator, a selector and an indicator, characterized in that, due to the design, size reduction and size, autodiscriminator, discriminator, and a discriminator are used to reduce the size and size of the device, while automaterial discriminator is used. a photoelectric converter and a time selector, as well as sequentially connected differential differentiation element and a shaper selector, whose outputs are connected with the inputs of a temporary autodiscriminator, and the input of the differentiating element is connected to the top of the photoelectric converter.

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