SU433386A1 - - Google Patents

Description

one

This invention relates to X-ray spectral analysis of materials.

X-ray spectrometers are known based not on the use of a method for directly measuring the intensity of characteristic x-ray radiation, and stabilization of the intensity of the primary radiation of an x-ray tube is achieved by separately stabilizing the voltage on the anode of the x-ray tube and its current.

However, X-ray spectrometers with stabilized anodic voltage and currents are characterized by the need for high accuracy to separately stabilize high voltage and current, as well as irreparable instability due to unstable x-ray tube itself.

The purpose of the invention is to increase the reliability and accuracy of stabilization.

The drawing shows a schematic diagram of the proposed device.

Take the following notation: X-ray: tube I; stable radiation isotope source 2; sample 3; stage 4; detectors 5 and 6; 7 and V pulses: 11 amplitude discriminators (AD); 9 and 10 pulses; a drive of II pulses; drive 12 difference in the number of pulses; the device 13 for switching the discrimination threshold of arterial pressure, derived from the electronic switch and the driver time: digital controlled resistors (LRC) If, controlling according to a given functional, dependence of the X-ray tube power supply unit; PIT unit 15, X-ray tube,

The device works in a similar way.

The (DETAIGOR 5 INPUT receives radiation from the standard f intensity and is proportional to the intensity of the X-ray tube radiation, and the radiation of an isotopic source, the spectral composition of which is different from the spectral composition of the standard radiation, intensity 5/1 /. The discrimination thresholds of which are periodically turned on by electronic control 13 synchronously with switching the reverse of drive 12 to the difference in the number of pulses. As a result, drive 12 is filled with the number of pulses //, which is proportional to the instability of the intensity of radiation from 43: 7 / y-7. The output of accumulator 12 acts on SDG 14, which converts the A / y number to a change in the reference voltage of the tube's anodic current stabilizer, which leads to a change of 7 the direction of its stabilization. The regulation of the anode current is carried out by changing the voltage of the supply voltage V. The voltage across the voltage VH is connected with the intensity 3 being stabilized by the nonlinear functional dependence VH 5: F (J). The function Vrt F (E) is ,R Botan functional mode converter and also digital-to-analog converter of ln increment in voltage VH provided .With this high accuracy and speed stabilization and 3Beam ene and py m ray bki exciting the test sample 5. SUBJECT OF THE INVENTION A device for stabilizing an X-ray tube radiation. Holding an X-ray tube power supply unit, a reference and radio-top source, so that, in order to improve the reliability and accuracy of stabilization, it contains a radiation detector, a pulse amplifier, an amplitude discriminator, and a pulse accumulator connected in series with each other and through controlled resistors to the input of a power supply unit X-ray tube, and an electronic converter.