The use of fire extinguishing software is based on the principles of system analysis, when any software is created for specific tasks or adapted to use on existing equipment samples. Therewith, a considerable part of the software cannot be implemented in conditions when the operation of technical means is autonomous or specialised. This includes devices of increased accuracy with the requirement to receive a response with a minimum delay. The originality of the study is conditioned by the fact that the principles of creating software for situations with minimal response require its consolidation with equipment that works on the principles of microcode. Based on the analysis of the current state of analogue-to-digital and functional conversion methods, it is shown that a promising area of research and improvement is the creation of converters on switched capacitors that combine the functions of ATFC, and also have an increased number of input values with high accuracy and speed. The methodological basis for creating new methods for constructing ATFC is a combination of structural and algorithmic principles for improving the accuracy of analogue-to-digital conversion based on the properties of capacitor cells. The practical significance of the study is determined by the possibilities of using hardware microcode as modules for the main software set.

Fire hazard; Reference voltage; Instrument manufacture; Tactile pulse; Microcode

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