SU1343309A1 - Photometric analyzer - Google Patents

Description

one

The invention relates to physical and physical measurements and can be used for analyzing substances in various industries of the chemical, petrochemical and other industries.

The aim of the invention is to increase the sensitivity and accuracy of measurement.

FIG. 1 shows a diagram of a photometric reflection analyzer (for a solid analyzer); in fig. 2 - arrangement of filters on the light flux modulator; in fig. 3 is a diagram of a photometric analyzer for measuring liquid and gaseous substances.

The photometric analyzer contains emitter 1, reflector 2, luminous flux modulator 3, material to be analyzed or cell with analyte 4, radiation receiver 5, amplifier 6, analog-to-digital converter (LCP) 7, computing device (WU) 8 with recording device 9 , sensor 1 synchronizing pulses (DSI). The modulator of the light flux contains two working filters 11 and 12 and two comparative filters 13 and 14, and one of them can also be compensatory, synchronizing holes 15.

Photometric analyzer works as follows.

The radiation flux is alternately interrupted by an electromechanical modulator 3 of the luminous flux with four light filters and enters the analyzing material 4 (or passes through the cell with the analyzed substance, Fig. 3). After the material being analyzed, the light flux enters the radiation receiver 5, where it is converted into four electrical impulses by the voltage Up, Upj, Ug ,, U,., Where the first index denotes filters (operating p or comparative c) and the second index is the sequence number light filter. Next, the electrical pulses are amplified by the amplifier 6 and are fed to the first input of the ADC, to the second input of which a control clock voltage is applied to the DSI. The synchronization voltage is formed by means of the synchronizing holes 15 of the modulator and the optocoupler of the cell. N LPG memorization occurs

the amplitude values of the pulses, their separation by channel and digitization. From the output of A1.P1, the signals arrive at the input of the control unit, where

logical transformations and calculations of the output mi1 are carried out

Nala

The output signal W of the photometric analyzer is calculated by the following formula:

and p1 and p1 T P1 T P2

IS s, t, l „

(one)

where tp, t pj,

T, T „are the transmittance (reflection) coefficients of the analyte in workers (p) and comparative (s)

light filters, respectively.

Taking into account that the comparative wavelengths are chosen so that the absorption is minimal, and the working optical filters are chosen almost the same (wavelength), then

T ,,; t T

C1.

g 1, T p, -. T Pi: Tr (2)

and expression (1) takes the form

and 1 UP:

and „and

T

(3)

sg

Typically, the change in transmittance in industrial analyzers ranges from 1 to 0.8. When the ratio of signals Up, the change in output signals will be

 W (1 Tr) 0.36.

A photometric analyzer is tested by measuring the concentration of moisture in glacial acetic acid. As the working light filters, the light filters are selected: Dr 1 1.92 µm J

 1.93 microns, as a comparative ACI 37 microns. Test data are given in the table.

Claims (1)

Invention Formula A photometric analyzer containing a radiation source and receiver, an electromechanical modulator with light filters installed on it, one of which is working, and an electronic measurement circuit consisting of an amplifier connected to the radiation receiver, an analog-digital converter, a clock pulse sensor, and a calculator device with a recording device, characterized in that, in order to increase the sensitivity and accuracy of measurement, an additional second working filter is introduced into it, the output will amplify Con ./ l I / Och 3433094 It is connected to the first input of the analog-digital converter, to the second input of which the output of the clock sensor is connected, and the output of the analog-digital converter is connected to a computing device. v.yGP ten (Rez. 2. FIG 3 Compiled by G. Makolkin Editor A, Shandor Tehred L. Serdyukova Proofreader M, Pojo Order 4816/44 Edition 776 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. D. 4/5 Production and printing company, Uzhgorod, st. Project, 4