SU1038839A1 - Atmosphere optical characteristic determination device - Google Patents

Abstract

A DEVICE FOR DETERMINING THE OPTICAL CHARACTERISTICS OF THE ATMOSPHERE, containing a control unit connected to a pulsed radiation source and a square-amplified photoreceiver, an amplitude analyzer and a series-connected drive, dividing unit and registering device, different in that, in order to increase the accuracy 1 - - .. .II "" of the measurement line, an additional dividing division block, a logarithm (Amplifier block, an amplifier with a gain factor proportional to time, and a signal shaping unit quadratic time dependence, the output of which is connected to another input of the Sclock block, and the input to the output of the control unit and to the control input of the amplifier with a gain that is proportional to the time, the input of which through the logarithm block is connected to the output of the additional division block, one input which is connected to the photoreceiver output with a quadratic force, and another input to the output of the amplitude analyzer, the other output of which is connected to the input of the control unit, and the input to another output of the photodetector a quadratic amplification receiver, with the akopitel input connected to the amplifier output with a gain changing in proportion to time. CO 00 00 00 g

Description

. The invention relates to technical physics, namely to photometry of the atmosphere, and can be used to measure the optical parameters of the atmosphere, and also be used to control the level of aerosol contamination of both natural and anthropogenic origin. A device for determining the optical characteristics of the atmosphere is known, which contains a control unit, an impulse radiation source, a photodetector with a quadratic gain, a accumulator, and an El3 recording unit. The disadvantage of this device is that when probing optically dense meteorological formations, multiple scattering leads to an increase in the accumulated signal and to a decrease in the recorded transparency of the measurements, i.e. to an increase in measurement error. The closest to the present invention is a device for determining the optical characteristics of the atmosphere, comprising a control unit connected to a pulsed radiation source and a square-gain photoreceiver, an amplitude analyzer and a serially connected drive, dividing unit and recording devices. The known device implements the following algorithm for determining prog raciness T at a distance of 0-f bf; (S (r) is the value of the echo signal c. Distance g, corrected by square, distance; f, is the distance at which the signal 5 (g) reaches a threshold value; g is the maximum sensing distance 2 J A disadvantage of the known device is the limited accuracy of measurements, due to the fact that when probing a heterogeneous atmosphere with large gradients of scattering coefficients, an increase in the echo signals in places of occurrence of inhomogeneities, for example, fog breaks or the appearance of cloud formations, is very characteristic. If an increase in the echo signal is observed after reaching the threshold level signals j, this leads to -toMy, the value of the integral f 5 (g) c1 in the reflection (.1) will increase. As a result, the transparency of the atmosphere recorded by the device is fictitiously increased. , which automatically leads to a fictitious reduction of the measured in-, my average dispersion coefficient. The purpose of the invention is to improve the measurement accuracy. To achieve this goal, the device for determining the optical characteristics of the atmosphere, containing the control unit and, connected to a pulsed radiation source and a quadratic gain photo detector, an amplitude analyzer and a serially connected drive, a dividing unit and a registering device, a device, an additional dividing unit, a logarithm unit, a ycrtliter with a gain factor proportional to time, and a shaping unit the quadratic time dependence signal, the output of which is connected to another input of the dividing unit, the input is connected to the output of the control unit and to the control input of the amplifier with a coefficient y and the power factor varies in proportion to the time, the input of which is connected to the output of a dopillary dividing unit through a loop. The single input of which is connected to the output of the photodetector with a quadratic gain, and the other input to the output of the amplitude analyzer, the other output of which is connected to the input of the control unit, and the input is (with a different output of the photodetector with a quadratic gain, with the drive input connected to the output of the amplifier with a gain varying in proportion to the time. The drawing shows a block diagram; the proposed device. The device contains a control unit 1, a pulsed radiation source 2, a photo-receiver 3 with quadratic amplification, an amplitude analyzer 4, an additional dividing unit 5, a log-, a rhyming unit 6, an amplifier 7 with a gain factor proportional to time, a drive 8, a signal shaping unit 9 quadratic time dependence, dividing unit 10 and registering an instrument The output control unit 1 is connected to a pulsed radiation source 2, a photo-receiver 3 with quadratic amplification, to an amplifier 7 with a gain factor and yuschiys changed linearly with time and to block 9 Rovani waveform kvadrzhtinnoy time dependence, and input - to the amplitude-analyzer 4. Exit fotopriemniya 3 with a quadratic gain associated with one input of the additional dividing unit 5 directly, and the other - chrrez amplitude anali

Claims (1)

(DEVICE FOR DETERMINING THE OPTICAL CHARACTERISTICS OF THE ATMOSPHERE, comprising a control unit connected to a pulsed radiation source and to a quadratic amplified photodetector, an amplitude analyzer and a serially connected storage device, a division unit and a recording device, characterized in that, in order to increase accuracy of measurements, an additional division block, a logarithm (washing unit, an amplifier with a gain that varies proportionally to time, and a quadratic time signal generating unit are introduced into it dependence, the output of which is connected to another input of the division unit, and the input to the output of the control unit and to the control input of the amplifier with a gain that varies proportionally to the time, the input of which through the logarithmic unit is connected to the output of the additional division unit, one input of which is connected to the output ^! fotopriemnyka C quadratic force, and the other input with the output -® amplitude analyzer, I * the other output is connected to 1¾ input control unit, and an input - a If other output of the photodetector with the square p pa ary gain, wherein the input _{of the} storage ring HA connected to the output amplifiers la e with a gain proportional but changing time. >