Multi motor electric drives are the systems, in which the torques from two or more motors are summarized. This summarisation may be done direct on common output shaft of indirect, for example, on the common load through individual transmiisions. In such a systems the problem of common torque distribution among motors exists. Usually this problem is being solved by equal distribution of torques among motors. There are some ways to achieve equal torques. One of them is overlaping of mechanical characteristics of motors by influencing separatly to the hardness and the speed of mechanical charecteristic of motor.

Keywords: multimotor drive, load equalization, automatic control, mechanical characteristic, mathematical description of load distribution, load distribution observing

This paper describes the results of modeling thermal processes and air flows occurring in a universal power source (UPS) with a digital control system for output parameters under given operating conditions. The UIP is intended for scientific research in the field of electrochemical copper deposition in order to form through and via holes in printed circuit boards, three-dimensional microassemblies, metallization of epoxy resins, and organic materials. The article discusses the features of the development of a universal power source, presents the key results of the design and study of the thermodynamic characteristics of a prototype sample.

Keywords: universal power supply, microcontroller, computer aided design, printed circuit board, efficiency factor, computational fluid dynamics, mechanical computer aided design, electrical computer aided design, design rule checking, finite element method

The paper describes the development of a system for indoor microclimate parameters monitoring. The developed system includes a hardware part implemented on the basis of the Arduino UNO platform, and a software part consisting of a server and a client application. The DHT11 temperature and humidity sensor was connected to the Arduino UNO board. Ethernet Shield expansion card was used to transmit the collected values over the network. The server part of the developed system includes program code in the PHP programming language and a database. The client application is implemented in the Python programming language and Qt framework. The developed monitoring system has been tested. It was found that the accuracy of readings and delays in the operation of the system are within acceptable limits for the problem under consideration.

Keywords: microclimate, temperature, humidity, Arduino, Ethernet, Python, PHP, QT, Apache, MySQL, database

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