Currently, due to widespread computerization, the development of automated control systemsis relevant. Due to the development of small businesses, the purchase of commercially availablesystems is a very expensive solution. It is possible to create similar control systems based oninexpensive microprocessor kits (in this particular case, the K1816VE35 microprocessor kit isused). In the future, such a system will not be difficult to improve, and it is also easy to implementinterfacing with various electronic computers (control from a personal computer). A system formeasuring and regulating bulk raw materials (an automated weighing system) is to be developed,which provides control of the pneumatic transport automation with a 2-speed rotary dispenser,through which bulk raw materials are fed to a weighing hopper suspended on a load-bearing device.Measuring the weight of the bulk mass in the hopper of the scales, followed by automaticcontrol of unloading of bulk raw materials from the hopper. The profitability of any industrialoperation involving the weighing of raw materials, work in progress and finished products directlydepends on the accuracy of the weight data. However, even when using high-precision weighingequipment, the method of collecting, recording and processing weight data for the micro ingredientssystem may be subject to errors and inaccuracies. This can cause a potential revenue drainthat is difficult to detect and verify. In many cases, it is assumed that the cause of the problem isrelated to the weighing equipment, whereas in fact it is related to the traditional data collectionand management system. In many factories where bulk products are mixed in batches, dosingscales is a manual, time-consuming operation in which the ingredients are weighed separatelybefore loading into a blender or other technological container. A significant number of such plantscan benefit from the installation of an automated weighing and dosing system.