SU578647A1 - Arrangement for shaping and reading moving microobject images - Google Patents

Description

another one is non-directly connected to the inputs of the NAND element, the output of which is connected to the input of the image sizing unit, and the input of the white level subtraction unit is connected to the output of the video amplifier unit.

FIG. 1 shows a block diagram of the proposed device; in fig. 2 is a signal diagram.

The device contains a source of 1 pulsed illumination, a light beam forming unit 2, giving a practically parallel white light beam, at the output of which a light filter 3 is installed with a bandwidth of 1/6 I, where I is the average wavelength emitted by the source, the working optical system 4 volume and image of micro-objects, transmitting television tube 5 with blocks of 6 video amplifiers, block 7 of subtraction of white light levels, comparator 8, selector 9 polarity of negative pulses 9a and positive 96 parts video impulse, trigger 10, element AND NOT 11, block 12 for determining the size of the image of particles, block 13 for determining the concentration of the image of a micro-object, block 14 for registering.

A light beam with a degree of coherence of 0.5-0.7, formed by block 2 and light filter 3, illuminates the working volume of the optical system 4 with particles in the volume. The optical system projects the image of particles in the working volume onto the photocathode of the transmitting television tube 5. Light diffraction rings appear around the image of particles displaced relative to the plane of the pickup, and the images in the plane of pickup do not appear have

The video signal obtained by scanning an image of an object comes from the output of blocks of 6 amplifiers to block 7 of the subtraction of white light level, the output of which is bipolar (the fi rst signal from particles displaced relative to the pickup plane of the optical system and unipolar). The video pulses formed by the comparator 8 arrive at the input of the selector 9 of the negative and positive parts of the video impulse, from the outputs of which (positive impulses are direct / o; vertical, and negative - through trigger 10) I apply the element AND-NOT P. Element I, together with trigger 10, pass only those pulses that have no positive outliers, i.e., only those pulses that correspond to particles in the pickup plane of the optical system are analyzed in the future. , particles that are displaced relative to the pickup plane and transmitted with a distorted scale are screened out.

In the proposed device, due to the almost complete use of the frequency-contrast characteristic of the sensor (consisting of a TV transmitting tube and the optical system) and exclusion from the analysis of particles outside the pickup plane, the resolution is increased by several times

and measurement accuracy of particle size and concentration.

Claims (2)

1. US Patent No. 3390229, cl. 176-6, 1968. 2. V.A. Malakhov and V. V. Smirnov. “Television Counter of Cloud Particles. - Proceedings of IEM, vol. IV (38), 1973.