Моделювання роботи пристрою контролю зарядки акумуляторної батареї у середовищі matlab/simulink
Journal Title: Математичне моделювання - Year 2018, Vol 1, Issue 2
Abstract
MODELING THE BATTERY CHARING CONTROL DEVICE IN MATLAB/SIMULINK Sham O.M. Abstract One of the main components of an autonomous power supply system based on photovoltaic converters is a battery pack that creates the required supply of energy for powering the consumer, in the absence of energy generation from the photovoltaic converter. A device for controlling and regulating battery charging, plays a significant role in the reliability and durability of the system. A deep discharge can remove the battery. Therefore, battery manufacturers set the final discharge voltage, when the battery should be disconnected from the load and recharged. Therefore, for the simulating the autonomous power supply system on the basis of a photoelectric converter, an important issue is the simulation the charging control device. The aim of the study is to develop a universal model of charging control device, which can be used for simulation with any types systems based on batteries, in the Matlab/Simulink,. The model of battery charging control device in the Matlab/Simulink softwere is implemented. This system allows to simulate the operating modes charging and discharging battery, and can be used as a component of other, more complex software systems and systems with battery packs This model of control device is universal, and can be used for simulation with any types of batteries, and systems based on them. The data with input parameters are set by signals. Therefore It is possible to simulate this system at any time interval. The disadvantages of this model are that the electrice processes that take place in the controller are not taken into account. References [1] Okhotkin G.P. Metodika rascheta moshchnosti solnechnykh elektrostantsiy [Method of calculating the power of solar power plants]. Bulletin of the Chuvash University. 2013. № 3. pp. 222–230. [2] Sukhova Y.V. Osveshcheniye parkovykh zon svetil'nikami s avtonomnym pitaniyem [Lighting of park areas with self-powered lamps]. News of TSU. Technical science. 2017. Vol. 12. Part 1. pp. 192–195. [3] Pavlovich E.V. Sfera primeneniya avtonomnogo ulichnogo osveshcheniya [The scope of the autonomous street lighting]. Actual problems of energy. 2016. pp 304–305. [4] Alekhin V.A. Oblasti primeneniya solnechnoy energetiki [Fields of application of solar energy]. News of TSU. Technical science. 2013. Vol. 12. Part 2. [5] Treshch A.M. Modelirovaniye ekspluatatsionnykh kharakteristik solnechnykh batarey (v srede MATLAB/SIMULINK) [Modeling of operational characteristics of solar batteries (in MATLAB/SIMULINK)]. Reports BSUIR № 7 (69). 2012. pp. 111–115. [6] Sharifov B.N., Teregulov T.R. Modelirovaniye solnechnoy paneli v programme MATLAB/SIMULINK [Simulation of a solar panel in the program MATLAB/SIMULINK]. Bulletin of the USATU 2015. pp. 77–83. [7] Kozyukov D.A., Tsygankov B.K. Modelirovaniye kharakteristik fotoelektricheskikh moduley v MATLAB/SIMULINK [Modeling the characteristics of photovoltaic modules in MATLAB / SIMULINK]. Scientific journal KubGAU № 08 (112), 2015. [8] Okhotkin G.P., Serebryannikov A.V. Osnovnyye printsipy postroyeniya avtonomnykh solnechnykh elektrostantsiy [The basic principles of building an autonomous solar power plants]. Modern problems of science and education. 2012. (In Russ.) Available at: https://www.science-education.ru/ru/article/view?id=7345.
Authors and Affiliations
О. М. Шам
Keywords
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- EP ID EP444547
- DOI 10.31319/2519-8106.2(39)2018.154207
- Views 97
- Downloads 0
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