The MKS-RM1405 dosimeter-radiometer is a measuring instrument designed to monitor the radiation purity of various environmental objects for contamination with gamma and beta radiation sources.
In terms of its technical characteristics and design features, the device fully meets the requirements of the Instruction of the Central Bank of Russia dated December 4, 2007 No. 131-I and can in principle be used to conduct radiation monitoring of banknotes.
With its small overall size and insignificant weight, the device allows you to search, detect and localize gamma and beta radiation sources, accompanying the search process with sound and light signals with an intensity proportional to the radiation power, as well as to accurately measure the ambient dose equivalent power of gamma and X-ray radiation and the flux density of beta particles from contaminated surfaces.
A modification with an alpha channel is available upon special request.
Main characteristics:
Simultaneous and selective measurement of the intensity of gamma and beta radiation;
Sound and light alarm when threshold levels are exceeded and in search mode;
Non-volatile memory;
Connection with a personal computer via USB channel (possibility of system network use of devices with automatic data collection in a single database);
Indication of the degree of battery discharge;
User-friendly interface.
Thanks to a specially developed user software package, data from dosimeters-radiometers can be automatically received both by a local PC and via a computer network to a single database of a remote server, which allows for centralized monitoring and accounting for the detection of radiation-contaminated money supply.
The dosimeter-radiometer can be used:
In the banking and financial-credit system;
At collection points for secondary raw materials;
Emergency response services;
Customs services;
During radiation monitoring at industrial enterprises, in medical and other institutions;
Civil defense units;
A wide range of specialists whose work involves detecting radioactive materials and monitoring sources of ionizing radiation.