SU1229573A1 - Device for comparison of photodetector signals - Google Patents

Abstract

The invention relates to a measuring technique and can be used in raster sensors, stir, and. In order to increase the noise immunity of the photodetectors with resistors included in the branches of two adjacent parallel bridge circuits, optocouplers are included in the diagonal of the bridge circuits. The outputs of the optocouplers through amplifiers and drivers are connected to the inputs of the decoder. During operation of the device, an optocoupler pair is connected, associated with a photodetector, to which the luminous flux of maximum intensity falls. 2 Il. yu IND with SP oo

Description

The invention relates to a measurement technique and can be used for postoperative fixation of a photodetector, which does not receive a light note of maximum intensity, in raster reading systems.

The aim of the invention is to increase the noise immunity.

1, a functional diagram of the device is presented; Fig. 2 illustrates an example of the operation of a device with a raster displacement sensor.

The device contains circuits consisting of series-connected photodetectors 1 and resistors 2, connected in parallel to each other and forming branches of bridge circuits, each of the branches are branches of two adjacent bridges 1 x circuits, optocouple pairs 3 included in the diagonals of the bridge circuits, amplifiers 4, whose inputs are 1 connected to the outputs of optocoupler 3, drivers 5 whose inputs are connected to the outputs of amplifiers 4, a converter 6 whose inputs are connected to the outputs of drivers 5, a reversible counter 7 whose inputs are connected to the output at the decoder 6.

The raster variable change sensor (Fig. 2) contains ontic-connected light sources 8, a movable ruler 9 with an applied H1 grid, a fixed ruler 10 with a printed H1 triac penJet. the deposition period of which does not coincide and is not a multiple of the period of applying the cgrik lattice to the movable ruler 9 (vernier conjugation), the photodetectors 1 are optically coupled with the grating lines deposited on the fixed ruler 9, the signal processing unit is connected to the photoreceivers 1.

The device works as follows.

The light fluxes illuminated by the photodetectors 1, included in the parallel-connected branches of the bridge circuits formed by the photoreceivers 1 and resistors 2, change the inverse resistance of the photodetectors 1.

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The reverse resistance of the photodetector 1, isa, which drops the maximum luminous flux, is the smallest, as a result of which a current passing through the corresponding optocoupler pair 3 begins to flow through the corresponding diagonal of the bridge, forming a signal (amplified by the corresponding amplifier 4) that is formed by the driver . m 5 and enters the decoder 6.

The decoder 6, comparing the signals received from the formers 5, generates a pulse signal at the output, which arrives at the reversible counter 7 when one of the photoreceivers 1 is illuminated by a luminous flux, exceeding in intensity the light fluxes illuminating its neighboring photoreceivers.

When the device is part of a raster displacement sensor (figure 2), the sources of light 8 form a beam of rays, illuminating the movable ruler 9.

When combining one of the H1 trixes deposited on the movable ruler 9 with the H1 trids deposited on the fixed ruler 10, the corresponding light detector 1 receives the maximum luminous flux, which is fixed by the signal processing unit.

The use of the proposed device makes it possible to increase its noise immunity due to the use of galvanically developed high-power pairs included in the diagonal of adjacent bridge circuits.

Claims (1)

Invention Formula A device for comparing signals from photo receivers, contains photo detectors, amplifiers, drivers connected to the outputs of amplifiers, a descriptor whose inputs are connected to the outputs of form factors, with the aim of increasing the noise immunity of the suppressor, it is equipped with optocouplers in pairs, the outputs of which are connected to the inputs of the amplifiers, each of the photodetectors is connected through a resistor to the branch of two parallel adjacent bridge circuits, ontron pairs are included in the diagonal bridge circuits. eight FIG. 2 / fO