SU857734A1 - Device for measuring selective transmission coefficient - Google Patents

Description

(54) FACILITY FOR MEASURING THE SELECTIVE POPULATION COEFFICIENT

Claims (2)

The invention relates to the field of atomic absorption spectrophotometry and serves to measure the selective transmittance. To measure the selective transmittance, a device can be used, which consists in accumulating non-selective absorption signals and a mixture of selective and non-selective absorption signals, discharging one of the integrators of these signals by a reference voltage, extracting the time interval associated with the separator signals , and digital processing of the time interval (1J. Such a device is difficult to implement, as it requires additional signal processing. It is known for measuring the coefficient of selective transmission, consisting of two channels, each of which contains serially connected integrator and comparing device. The second input of the second comparing device is connected to the zero potential bus, and the second input of the first comparing device is connected to the source voltage the second integrator’s input.The operation of this device consists in charging the first integrator with a current, proportional to the magnitude of the non-selective transmission, to the reference level and charge in orogo integrator for the same time current which is proportional to the magnitude of the multiplicative mixture of selective and non-selective transmittance. The second integrator is then discharged with a current proportional to the reference voltage. By the time of discharge, the magnitude of the selective transmission is judged 2. However, the known device is characterized by low speed, due to the need to charge the first integrator to the maximum level specified by the voltage source, and the measuring unit is complex. The purpose of the invention is to increase the speed and simplify the device for measuring the selective transmittance and measuring measurement. This goal is achieved by the fact that in a known device for measuring the coefficient of selective transmission, containing two integrators, the first for charging current, a pro-proponal non-selective transmission value, the second for charging current proportional to the mixture of selective and non-selective transmission and discharge of the second integrator by current, proportional to the charge of the first, comparing device for fixing the discharge time, proportional to the coefficient of selective transmission, at the input of each integrator Keys are simultaneously entered that simultaneously open the circuit for a fixed time interval, for example, a multiple of the supply voltage period. The drawing shows a diagram of a device for measuring the selective transmittance. The measurement unit consists of the first integrator, the output of which is connected to the discharge circuit of the second integrator 2, the output of which is connected to the first input 3 of the comparison device 4, the second input 5 of which is connected to the zero potential bus, the key at the input of the first integrator 6, at the input of the second - 7. The unit works as follows. Keys 6 and 7 open for a period of time I. The input to the first integrator 1 is a signal that differs from the reference one by the non-selective transmission factor. The charge of the first integrator is maintained for the time interval I in the same way as the charge of the second integrator 2, whose input signal differs from the reference signal by a factor of multiplicative selective and non-selective transmission. As a result, by the end of interval I, at the output of integrator 1, a voltage level Y, proportional to the accumulated charge, will act. Oh,., -, 1sJ HLx where UQ is the reference voltage level, the non-selective transmission coefficient, and at the integrator 2 output is the Ua level. . gdes (- selective transmission coefficient. -rf After the charge is finished, the process of discharging integrator 2 with a current proportional to i begins. The duration of such a discharge is C r-U2 .. where K is the coefficient of converting the discharge circuit of integrator 2. After the end of the discharge, comparing Device 4 triggers and starts a new measurement cycle. The proposed device is very fast because the integrators charge for a short period of time, for example, during a period of mains voltage. The device for measuring the coefficient of selective transmission, containing two integrators, the first for charging current proportional to the amount of non-selective transmission, the second for charging current proportional to the mixture of selective and non-selective transmission and discharging the second integrator with a current proportional to the charge of the first, A comparison device for fixing a discharge time proportional to the selective transmission coefficient, characterized in that, in order to improve the speed and simplify the device, in it, at the input of each integrator, keys are additionally introduced that simultaneously open the circuit for a fixed time interval. Sources of information taken into account in the examination 1.Gulakov IG and others. Functionally analog-to-digital converter for a pulse atomic absorption spectrometer taking into account non-selective absorption. - Journal of Applied Stelectroscopy. 1978, vol. 2R, N 3, p. 544-550 .. 2. Dmitriev D.I., Sosenko V.A. A device for measuring the ratio of signals in 2-beam spectrophotometers. - Bulletin of BSU, 1978, sir. 1, N 2, p. 80-83 (prototype).