RU674535C - Device for determining optical characteristics of atmosphere - Google Patents

Abstract

DEVICE FOR DETERMINING THE OPTICAL CHARACTERISTICS OF THE ATMOSPHERE by ed. ev; fsfe 606442, rtlich with the fact that, i; In order to increase accuracy, it is equipped with an amplifier with a gain factor, discretely. may ^ from 1.6 to 1.99i. switched on between a drive that does not have a delay line and the DIFFERENCE unit 11.;, /; •: t

Description

The device belongs to the field of measuring optical parameters of the atmosphere along horizontal and inclined paths, for example, for spatial control of the degree of pollution or turbidity of the atmosphere .; .i ;. .

A device for ed. Ns 6 (36442, containing a pulsed radiation source with a control unit, a photodetector connected to a delays block through an amplifier, and dropping the foot-plugs into it, in the circuit of one of which is connected the LNI arms, as well as the registering block the efficiency associated with the inputs to the outputs of the drives, and the output - with one of the inputs of the division unit, the other input of which is connected via a delay line to (line.- / ::: -,:,: / l:; what’s in a meteos; itachi and with potential locator with a finite amplitude of the signal at the end of the path, the algorithm implemented in this device is implemented and obtained using this device; ;. j :: ./.: The aim of the invention is to improve the accuracy of restoring the spatial distribution of the coefficient

 diffuse ny;;:;:. .;:.;. ;; / V; -.:. ;;;;:,. .: This is achieved by the fact that in the proposed device the shoulder of the drive, which does not have a charging line, has an amplifier with a constant gain factor discrete from 1.0 to 1.99. the input of which is connected to this drive, which accumulates the signal in time tmax, and the output - to the difference unit. In this case, the gain value of the amplifier is calculated from the following relationship:

-. . ; - -1.71 G -. -. : - -: -: -.1+:., ..: -: vV; .- -.:.: Where is the gain:

g-optical thickness.

Thus, the gain varies depending on the meteorological situation.: -.

The introduction of an amplifier with a constant 1M gain factor that varies discretely, depending on the weather situation, allows the following algorithm to be implemented:

F (t) tT (t)

. F.

(t) t2d, - / F (t) t2dt

where r (t) is the scattering coefficient, F (t) is the power of the signal received at time t, counted from the moment the radiation pulse was sent to the atmosphere.

5 . The drawing shows a block diagram of a device containing a control unit 1, a pulsed radiation source 2, a signal amplifier 3 with a range adjustment, a photoelectric receiver 4,

0 delay line 5, signal accumulators 6 and 7, difference unit 8, division unit 9, recording device 10 and amplifier 11 with a transmission coefficient of 1.0-1.99. : The control unit 1 is connected to the radiation source 2. Photodetector 4 through

Amplifier 3 is connected to delay line 5 and

: drives 6 and 7. Drive output 7

connected to amplifier 11. At the input of block 8

: Connect drive 6

20 and amplifier 11. Block.to the 9th division is associated with. block 8 of the difference and through the delay line

:. : 5 with amplifier 3 .. Recorder

; 10 is connected to the division unit 9.

. . ; Ustrstvstb r; operates as follows 25-zRM .-- v .-,: -. V: ..; .; l:. .U -.

;.;: The control unit 1 starts the pulse, the second radiation source 2; and amplifier 3.

Radiation scattered in the opposite direction: radiation arrives at the photoelectric detector 4, the signal from which is amplified

V is proportional to tz AMPLIFIER 3 and fasting. drops directly to drive 7, .. and through delay line 5 to drive. 6 and division block 9. Delay line 5 delays the signal For such a time until the signal on the drive 7 reaches its maximum value, the accumulated signal for the time tmax from the drive 7 receives the amplifier 11 with a constant coefficient

 gain, the magnitude of which can drive. retransmit (vary between 1.0-1.99 depending on the weather situation, and the value of the gain in each realized case is determined from the relation

 : ;; .-i, 7iT /;

: - ;; .... , - ;, U.-.-. . . :;. ./ The amplified signal from amplifier 11 goes to one of the inputs of the difference unit 8, to the other input of which the signal from drive 6 arrives. The difference signal From block 8 g goes to the division block, to the other input of which a signal goes through the delay line 5 from the nonlinear amplifier 3. ResS5, a division result equal to the scattering coefficient is recorded on the recording device 10.

(56) Copyright certificate No. 606442, cl. G 01 W 1/00, 1976.

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