CS200843B1 - Connexion for measurement of dosimetric variables of mixed radiation - Google Patents

Description

(54) Wiring for measurement of mixed radiation dosimetric quantities (50 Int. Cl. ⁾ G 01 T 1/17 /

H 01 J 47/16

The invention relates to a circuit for measuring dosimetric quantities in the field of mixed radiation, which makes it possible to determine the resulting dosimetric quantity and its individual components in this field using a single spectrometric detection sensor. The invention solves the question of the arrangement of wiring and specifies the requirements for its sub-parts.

An example of mixed radiation is a space in which several types of radiation act simultaneously, such as gamma radiation and neutron radiation.

In the prior art, it is not possible to measure dosimetric quantities such as dose, kerma or dose equivalent, whose individual contributions to the resulting quantity characterizing the overall effects of mixed radiation are generally different depending on the type of radiation and its energy spectrum.

Therefore, to date, several detection sensors have been used for this purpose, each of which serves to determine one component of the mixed radiation. The data of the individual detectors are then processed and evaluated to obtain the resulting required information.

The apparatus utilizing the circuitry of the present invention to measure dosimetric quantities of mixed radiation is based on the use of a single spectrometric sensor providing output information in the form of an electrical signal, at least one parameter of which unambiguously cha200843

200 043 characterizes each of the components of the mixed radiation and electronic circuits, which sorts, processes and evaluates individual signals characterized by a parameter dependent on individual components of mixed radiation according to this parameter, so that the resulting signal represents data on quantities belonging to individual components or radiation. An advantage of the device according to the invention is its versatility for the selective measurement of dosimetric quantities according to a prescribed regulation, which establishes the relationship between the physical effects of radiation and its influence on the environment, for example the energy transmitted, biological damage, etc.

The progress achieved by the invention is that, in contrast to the prior art, where multiple detectors were used to measure the mixed radiation dosimetric quantity, both the partial contribution values of the individual components of the mixed radiation and i the total value of the dosimetric quantity of the summation of the signals corresponding to the individual components.

The device according to the invention consists of its own detector and electronic circuits whose function is to distinguish the radiation according to the type and to process the obtained signals according to the requirement for measuring the respective dosimetric quantity.

The device for measuring the dosimetric quantities of the mixed radiation is shown in the drawing, where Fig. 1 indicates a block connection without a summation circuit and Fig. 2 indicates a connection with a summation circuit.

The signal from the spectrometer detector sensor for registration of the mixed radiation 1 is fed to the selector circuit 2 _t which splits the response corresponding to the individual components of the mixed radiation into several channels 3p 3 ₂ 3 _N · to channels 3 ^ 3 ₂ to 3 _n are assigned to the operational circuits 4 ^ 4G to _4N that process and evaluate information representing partial contributions measured quantity, whose final value of the accumulator circuit receives £ ,.

The apparatus for measuring the dosimetric quantities of the mixed radiation can be used, for example, in a device where the spectrometric detection sensor for the registration of mixed radiation 1 is a scintillation detector with an organic scintillator giving an electrical per selection circuit. The output signals of the selection circuit 2 correspond to the individual components of the mixed radiation and their amplitude carries the energy information of the individual components of the radiation. The outputs of the selection circuit 2 are connected to the operating circuits 4, 4g to 4, which process the signal according to the measurement requirements of the respective dosimetric quantity.

In the particular case, shape discriminators have been used in the function of the selection circuit 2, while the operating circuits 4p 4 ₂ to 4 _R provide compensation for the nonlinear dependence of the organic scintillator light yield on secondary particle energy and introduce other operations in accordance with the definition of the dosimetric quantity.

Claims (2)

OBJECT OF WINE Wiring for measurement of mixed radiation dosimetric quantities, characterized in that a selector circuit (2) is connected to the spectrometric detection sensor for registration of the mixed radiation (1) with possibility of differentiation of response corresponding to individual components of mixed radiation into several channels (3 _χ , 3) ₂ to 3 _n /, to which operational circuits (4 _χ , 4 ₂ to 4 _n /) are assigned for processing and evaluating information representing partial contributions of the measured dosimetric quantity. 2. The arrangement for measuring radiation dosimetry quantities blend according to claim 1, characterized in that the operating circuits / _χ 4 4 _{2-4 N} / processing and evaluating information representing partial contributions measured dosimetric quantity are connected to the summing circuit / 5 / for indication of the resulting dosimetric quantity.