Your search keyword '"Electrical circuit"' showing total 436 results

1. Damping of vibrations of smart-systems incorporating piezoelectric elements and shunt circuits with parameters derived from the models of continuum and discrete mechanics.

Author

Matveenko, Valerii P., Iurlova, Nataliia A., and Oshmarin, Dmitriy A.

Subjects

*CONTINUUM mechanics, *ELECTRIC circuits, *CIRCUIT elements, *FREE vibration

Abstract

The paper considers tasks related to the search for the parameters of smart-systems with piezoelectric elements, to the electroded surfaces to which elements of electrical circuits are connected. The required parameters should provide the maximum damping properties of the simulated systems at free and steady-state forced vibrations. The paper presents the results of calculations of smart-system parameters providing maximum damping properties at free and forced vibrations, which were performed in the framework of continuum and discrete mechanics models. The results demonstrate variants for which the parameters found based on continuum mechanics models provide higher vibration damping rates. [ABSTRACT FROM AUTHOR]

Published

2024

2. Formalizing the law of diminishing returns in metabolic networks using an electrical analogy

Author

Marianyela Petrizzelli, Charlotte Coton, and Dominique de Vienne

Subjects

diminishing returns, metabolic flux, electrical circuit, robustness, Science

Abstract

The way biological systems respond to changes in parameter values caused by mutations is a key issue in evolution and quantitative genetics, as it affects fundamental aspects such as adaptation, selective neutrality, robustness, optimality, evolutionary equilibria, etc. We address this question using the enzyme–flux relationship in a metabolic network as a model of the genotype–phenotype relationship. The lack of a suitable mathematical tool from biochemical theory to investigate this relationship led us to use an analogy between electrical circuits and metabolic networks with uni–uni reactions. We show that a behaviour of diminishing returns, which is commonly observed at various phenotypic levels, is inevitable, irrespective of the complexity of the system. We also present a possible generalization to metabolic networks with both uni–uni and bi–bi reactions.

Published

2024

3. Improving of the Electrohydroimpulse Installations Efficiency for Clearing Castings

Author

Tretyakov, Valeriy P., Prostorova, Alexandra O., Teplukhin, Vasiliy G., Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, and Evgrafov, Alexander N., editor

Published

2024

4. Port-hamiltonian formulation of an electrical circuit using different kinds of states

Author

Hoang Ngoc Ha and Ho Phuoc Tien

Subjects

electrical circuit, quadratic port-hamiltonian representation, dissipation, states, Technology

Abstract

This work focuses on a dynamic electrical circuit whose dynamics are affine in the control input. Such dynamics are considered to be re-expressed in a canonical form, namely the port-Hamiltonian (pH) representation with dissipation, where the Hamiltonian is a quadratic function and has the unit of energy or power. On this basis, it allows revealing the transformation of energy (or power) inside the system, including the energy supply, storage and dissipation, thereby facilitating Lyapunov-based or energy-related control approaches for stabilization and optimization purposes. Two pH representations are proposed and compared; the first one is established with difficult-to-measure states while the second one is obtained with easier-to-measure states.

Published

2024

5. Amplitude-Frequency Effect of Mixed Electric Field on Impedance Spectrum Parameters of Biological Tissue

Author

T.V. Pryimak, D.M. Chervinko, H.V. Voitkiv, and I.M. Hasyuk

Subjects

impedance, liver, tangent of loss angle, electrical circuit, Physics, QC1-999

Abstract

This work analyzes the electric impedance spectra of liver samples. Nyquist diagrams of experimental samples of different sizes were constructed. Optimal model equivalent electrical circuits of the systems studied were obtained and processed, and the parameters of their components were calculated. Changes in parameters and the tangent of the loss angle were shown. A conclusion was made about the interdependence of the electric field strength and the occurrence of stress, caused by using certain frequencies, on the size of the sample.

Published

2024

6. ЕНЕРГЕТИЧНІ ПОКАЗНИКИ ПЕРЕТВОРЮВАЧА ЕНЕРГІЇ МОРСЬКИХ ХВИЛЬ З ВИПРЯМЛЯЧЕМ СТРУМУ ТА АКТИВНО-ЄМНІСНИМ НАВАНТАЖЕННЯМ

Author

І.П. Кондратенко and Р.С. Крищук

Subjects

simulation model, electrical circuit, wave energy conversion, active-reactive load, Physics, QC1-999, Technology

Abstract

The article is dedicated to determining the energy indicators of a generating complex with stochastic wave energy gen-eration. The aim of the study is to compare the energy indicators and power consumption coefficient of wave energy generating complexes' simulation models with magneto-electric generators operating at variable speeds under resistive and resistive-capacitive loads with rectified voltage. The analytical method is employed to calculate the parameters and energy indicators of the magneto-electric generator. The calculation includes inductance, resistance, and voltage gen-erated by the rotor with permanent magnets in the three-phase winding of the magneto-electric generator for electrical circuit modeling with and without a three-phase current rectifier, as well as active-reactive and active loading. The rotor rotation frequency varies harmonically with the same period and amplitude for all electrical circuits. The deter-mined current in the electrical circuits is used to calculate the generator's electromagnetic field and energy indicators. Comparisons are made for circuits with active and active-reactive loads, including power consumption, power losses in the stator winding, power output from the generator, and the power consumption coefficient of wave energy. The com-parison of energy indicators is conducted under the condition of equal rotor oscillation frequency and shaft torque, achieved by varying the load resistance. Bibl. 10, fig. 8, table.

Published

2024

7. Mathematical Model of a Nonlinear Power Transformer for Needs of Relay Protection.

Author

Kolesnikov, Evgeniy, Novozhilov, Aleksandr, Rakhimberdinova, Dilara, Kislov, Aleksandr, and Novozhilov, Timofey

Subjects

*POWER transformers, *CURRENT transformers (Instrument transformer), *MATHEMATICAL models, *MUTUAL inductance, *MAGNETIC flux, *ELECTRIC relays, *SPECTRUM analyzers

Abstract

In this work, a mathematical model of a three-phase nonlinear transformer is suggested. The model enables simulating the transformer operation with allowance for its nonlinearity and covers needs of the relay protection. Our model has been developed on the basis of a mathematical model with phase coordinates, where differential equations are composed by the Kirchhoff's phase-voltage law. Based on this model, we first compose a mathematical model for simulating steady-state operation modes of a transformer, taking into account the asymmetry and nonlinearity of its ferromagnetic core. In this model, the initial values of inductances and mutual inductances of loops are determined from the main phase inductance calculated by the experimentally found no-load current, and their current values are determined from the currents in windings and the magnetic fluxes in legs of the transformer core. The magnetic fluxes are calculated by the nodal-pair method. This improved mathematical model is verified through a comparison between the calculated harmonic components of the phase currents and the experimental results. The harmonic components are calculated with the use of Fourier expansion of the calculated phase currents. Their experimental values are determined with a spectrum analyzer. The calculated and experimental harmonic components of the currents of phase A during no-load and rated-load operation of the transformer are tabulated. The comparison of these results shows that the mathematical model of a three-phase transformer we suggest makes it possible to simulate currents in transformer windings under steady-state operation modes with accuracy acceptable for relay protection. [ABSTRACT FROM AUTHOR]

Published

2024

8. Amplitude-Frequency Effect of Mixed Electric Field on Impedance Spectrum Parameters of Biological Tissue.

Author

Pryimak, T. V., Chervinko, D. M., Voitkiv, H. V., and Hasyuk, I. M.

Subjects

ELECTRIC fields, ELECTRIC circuits, NYQUIST frequency, PARAMETERS (Statistics), LIVER

Abstract

This work analyzes the electric impedance spectra of liver samples. Nyquist diagrams of experimental samples of different sizes were constructed. Optimal model equivalent electrical circuits of the systems studied were obtained and processed, and the parameters of their components were calculated. Changes in parameters and the tangent of the loss angle were shown. A conclusion was made about the interdependence of the electric field strength and the occurrence of stress, caused by using certain frequencies, on the size of the sample. [ABSTRACT FROM AUTHOR]

Published

2024

9. Gain and loss induced higher-order exceptional points in a non-Hermitian electrical circuit.

Author

Shen, Xizhou, Pan, Keyu, Wang, Xiumei, Jiang, Hengxuan, and Zhou, Xingping

Subjects

*ELECTRIC circuits, *OPEN systems (Physics)

Abstract

Non-Hermitian Hamiltonians effectively describing the physics of open systems have become an important tool in various physical platforms, such as photonics, mechanical systems, and electric circuits. The study of non-Hermitian states in electric circuits is developing rapidly recently and forming the field of topoelectrical circuits. Here, we report on the theoretical realization of a higher-order exceptional points (EPs) topological circuit induced by gain and loss. It is shown that, by tuning the value of the positive and negative resistors in the circuit, EPs can collide and merge leading to higher-order singularities. We observe the different energy-difference conserving dynamics near the EPs and the enhanced sensitivity at higher-order EPs. Our results show a way to get higher sensitivity in a non-Hermitian electrical circuit. [ABSTRACT FROM AUTHOR]

Published

2024

10. Solving Electrical Engineering Problems Using Mathematical Simulation

Author

Semenova, Maria, Bebikhov, Yuriy, Yakushev, Ilya, Popova, Ulyana, Sabychikova, Alika, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, and Guda, Alexander, editor

Published

2023

11. Influence of Booster's Geometry and Circuit's Resistor on Performance of the Auxetic Energy Harvester - Experimentally Validated Analysis.

Author

Maleki, Mohsen, Dibajian, Seyed Houssein, Bastami, Abbas Rohani, and Rajabi, Majid

Abstract

Modal and frequency response analysis of the piezoelectric energy harvester utilizing the auxetic booster has been performed in this paper. This harvester has composed of a cantilever, auxetic substrate, and piezoelectric layer. The influence of the piezoelectric's electrical circuit and the harvester's geometrical properties on the fundamental natural frequency, output voltage, and harvested power of the energy harvester have been investigated. The electrical circuit of this electromechanical system consists of a resistor that influences the energy harvester's output voltage and harvested power. A comprehensive parametric study has been performed to find the optimum resistor of the energy harvester. All the analysis has been performed using the finite element method. Mesh size sensitivity analysis of the models is presented, and the finite element model is verified by previous experimental studies. Furthermore, the effect of this energy harvester's damping ratio on the system's outputs has been investigated. The results show that the system's output alters considerably in different damping ratios, and it is necessary to determine the system's damping ratio of the system. The damping ratio of the auxetic energy harvester has been measured through the experimental investigation. The present study illustrates that harvested power of a trapezoidal auxetic energy harvester in resonant frequency could improve by 260 percent by utilizing the optimum resistor. Also, increasing the auxetic booster's thickness could improve the output voltage and harvested power by 48 percent and 22 percent. [ABSTRACT FROM AUTHOR]

Published

2023

12. Mathematical Model of a Nonlinear Power Transformer for Needs of Relay Protection

Author

Evgeniy Kolesnikov, Aleksandr Novozhilov, Dilara Rakhimberdinova, Aleksandr Kislov, and Timofey Novozhilov

Subjects

nonlinear transformer, mathematical model, electrical circuit, magnetic circuit, inductance, mutual inductance, Technology

Abstract

In this work, a mathematical model of a three-phase nonlinear transformer is suggested. The model enables simulating the transformer operation with allowance for its nonlinearity and covers needs of the relay protection. Our model has been developed on the basis of a mathematical model with phase coordinates, where differential equations are composed by the Kirchhoff’s phase-voltage law. Based on this model, we first compose a mathematical model for simulating steady-state operation modes of a transformer, taking into account the asymmetry and nonlinearity of its ferromagnetic core. In this model, the initial values of inductances and mutual inductances of loops are determined from the main phase inductance calculated by the experimentally found no-load current, and their current values are determined from the currents in windings and the magnetic fluxes in legs of the transformer core. The magnetic fluxes are calculated by the nodal-pair method. This improved mathematical model is verified through a comparison between the calculated harmonic components of the phase currents and the experimental results. The harmonic components are calculated with the use of Fourier expansion of the calculated phase currents. Their experimental values are determined with a spectrum analyzer. The calculated and experimental harmonic components of the currents of phase A during no-load and rated-load operation of the transformer are tabulated. The comparison of these results shows that the mathematical model of a three-phase transformer we suggest makes it possible to simulate currents in transformer windings under steady-state operation modes with accuracy acceptable for relay protection.

Published

2024

13. Paper Circuits vs. Breadboards: Materializing Learners' Powerful Ideas Around Circuitry and Layout Design.

Author

Peppler, Kylie A., Sedas, R. Mishael, and Thompson, Naomi

Subjects

*YOUNG adults, *PRINTED circuit design, *ELECTRONIC equipment, *ELECTRICAL engineering, *PUBLIC spaces

Abstract

This exploratory study compares how young people (ages 15–16) learn circuitry concepts and layout design principles important to electrical engineering using one of two educational circuitry toolkits: paper circuits and traditional solderless breadboards. Paper-based prototyping kits are representative of a trend that incorporates new materials and approaches to integrating arts into traditional STEM disciplines. Extending prior research on how non-traditional toolkits enhance learning of electrical engineering outcomes, including basic circuitry concepts (i.e., current flow, polarity, and connections), this study examines the material affordances and design choices of the kits that contribute to youth's understanding of more advanced circuitry layout design principles, including space allocation, placement of electronic components, and routing. Results indicate that paper circuits better afford the learning of layout design principles for printed circuit boards (PCBs) with large effect sizes. This study illuminates how the materials of educational toolkits uniquely solicit body- and material-syntonic patterns of activity, and thus differentially engage learners' powerful ideas around circuitry and design principles. This investigation encourages careful consideration of the material affordances of some toolkits over others for learning purposes. [ABSTRACT FROM AUTHOR]

Published

2023

14. APPLICATION OF THE LAPLACE TRANSFORM IN ELECTRICAL CIRCUITS.

Author

BURALIEVA, JASMINA VETA and PANEVA, MAJA KUKUSHEVA

Subjects

ELECTRIC circuits, LAPLACE transformation, ORDINARY differential equations, COEFFICIENTS (Statistics), SIMULATION methods & models

Abstract

In the present paper the application of the Laplace transform and its inverse transform for solving ordinary differential equations with constant coefficients and initial condition is considered. The solution of an ordinary differential equation that describes a serial RLC circuit is provided. Some results of the simulations are also given. [ABSTRACT FROM AUTHOR]

Published

2023

15. Electric Current

Author

Blum, Michelle and Blum, Michelle

Published

2022

16. Mathematical Modeling of Respiratory System Introducing Electrical Control Function Analogy

Author

Roy, Moupali, Das, Arpan, Biswas, Rounak, Neogi, Biswarup, Saha, Prabir, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Sikdar, Biplab, editor, Prasad Maity, Santi, editor, Samanta, Jagannath, editor, and Roy, Avisankar, editor

Published

2022

17. 纳秒激光诱导等离子体辅助烧蚀的玻璃表面金属化图案电路研究.

Author

易根苗, 林新贵, 何林, 梁良, 姜长城, and 江鲲

Subjects

*LASER plasmas, *SCANNING electron microscopy, *CHEMICAL reduction, *ELECTRIC circuits, *ELECTRIC conductivity

Abstract

Laser Induced Plasma Assisted Ablation (LIPAA) has the advantages of economy, environmental friendliness, and high efficiency in the preparation of glass surface metallization. The feasibility of realizing metallized pattern circuit by using LIPAA process on glass substrate with metal copper as sacrificial target under nanosecond laser is studied. Therefore, firstly, the conductivity of metallized pattern circuit on glass substrate prepared by progressive scanning LIPAA is discussed in detail. In view of the disadvantage of the reduction of its conductivity caused by oxidation, the hydrogen reduction was further used to optimize its post treatment, and the circuit performance was analyzed by combining Scanning Electron Microscopy(SEM) and Energy Dispersive Spectroscopy (EDS), revealing the morphology characteristics and the change rule of resistivity of the surface of the glass metallized pattern circuit prepared by nanosecond laser LIPAA method. The results show that the metal layer on the glass surface can be directly ablated by the laser patterning removal process, and the fine patterned circuit can be prepared on the glass surface. At the same time, the chemical hydrogen reduction method can overcome the disadvantage that the metal layer oxidation seriously affects the circuit resistivity. The average resistivity after chemical hydrogen reduction is only 8.18 X 10-7Ω·m, which greatly improves the conductivity of the patterned circuit on the glass surface, shows broad application prospects. [ABSTRACT FROM AUTHOR]

Published

2023

18. Genetic Circuitry and the Future of Engineering

Author

Nolan, Nick

Subjects

Bioengineering, Genetic circuit, Biological circuit, Electrical circuit, E. coli, Cancer

Published

2019

19. LIGHTNING PROTECTION OF THE AIR VALVE OF THE AIRCRAFT

Author

V.N. Saveliev, N.S. Novotochinov, and N.P. Yampurin

Subjects

aircraft, air outlet valve, hall sensor, transients, qualification requirements, lightning protection, tvs diode, electrical circuit, printing unit, simulation, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Background. Topicality of the topic an important device of the aircraft air conditioning system is the automatic pressure control system for the pressurized cabin, which includes a number of devices, but one of the main ones is the exhaust valve. The electromechanism of the aircraft pneumatic valve includes two brushless electric motors that control the damper, with rotor position sensors based on a magnetically controlled Hall effect microcircuit. inside the electronic control and monitoring unit of the pneumatic valve as close as possible to the object of protection, i.e. the Hall sensor. The pneumatic valve must pass the test for susceptibility to transients caused by lightning, according to the qualification requirements KT-160D in category A3, which means the third level contact test. A protection element was chosen in the form of a TVS diode (voltage limiter), which is installed in the power circuits and on the logic signal lines from the Hall sensors. Materials and methods. An electrical circuit of lightning protection against transients on the domestic element base has been developed, its practical implementation in the form of a printed circuit assembly for installation in the pneumatic valve electromechanism has been presented. The operation of the lightning protection circuit against transients was simulated in the Multisim software package, for which SPICE models of domestic elements and a microsecond pulse generator circuit were developed. Results and conclusions. The simulation results of the pneumatic valve lightning protection confirmed the operability of the proposed solution.

Published

2023

20. Actuation Control System of a Hydraulic Machine Drive Locking Device

Author

Fomenko, N. A., Aleksikov, S. V., Artemova, S. G., Cavas-Martínez, Francisco, Series Editor, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Haddar, Mohamed, Series Editor, Ivanov, Vitalii, Series Editor, Kwon, Young W., Series Editor, Trojanowska, Justyna, Series Editor, di Mare, Francesca, Series Editor, Radionov, Andrey A., editor, and Gasiyarov, Vadim R., editor

Published

2021

21. IN-CORE NEUTRON DETECTOR MONITORING UNDER STEADY AND DYNAMIC REACTOR CONDITIONS

Author

A.M. Pankin, A.A. Kalyutik, and V.S. Kostarev

Subjects

detector, monitoring, nuclear reactor, neutron flux, diagnostic system, diagnostic feature, electrical circuit, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Background. Reliable operation of in-core neutron detectors improves the quality of measurement data processing and make fields of the neutron and power distributions in the nuclear reactor core more efficient. Materials and methods. The article discusses a new method for monitoring the technical condition of self-powered neutron detector (SPND) that is used to measure neutron flux in the nuclear reactor core. The method is based on the measurement of current values of the detector measuring circuit under steady and dynamic conditions. To monitor the state of this neutron detector, it is proposed to determine not only the insulation resistance of the measuring cable, as it is done in traditional methods, but also the generating capacity of the detector emitter. In addition to the given diagnostic parameters, a new diagnostic feature of the controlled object – capacitance of the measuring circuit of the reactor – has been is introduced in this article. Results and conclusions. Determination of the generating capacity of SPND emitter significantly (by 3–4 orders of magnitude) extends the operating range of the detector by the permissible insulation resistance value (less than 106 Ohms). At the same time, we obtain a new method to estimate the degree of electron emitter burnup caused by neutron flux and to monitor the technical condition of detector by the magnitude of its sensitivity to this flux, which increases the reliability of SPND. Determining the capacitance of the measuring cable of the electrical circuit allows you to properly consider this value when measuring the current signal of the activation detector in order to find the reactor neutron flux under the transient modes of operation.

Published

2023

22. Formalizing the law of diminishing returns in metabolic networks using an electrical analogy.

Author

Petrizzelli M, Coton C, and de Vienne D

Abstract

The way biological systems respond to changes in parameter values caused by mutations is a key issue in evolution and quantitative genetics, as it affects fundamental aspects such as adaptation, selective neutrality, robustness, optimality, evolutionary equilibria, etc. We address this question using the enzyme-flux relationship in a metabolic network as a model of the genotype-phenotype relationship. The lack of a suitable mathematical tool from biochemical theory to investigate this relationship led us to use an analogy between electrical circuits and metabolic networks with uni-uni reactions. We show that a behaviour of diminishing returns, which is commonly observed at various phenotypic levels, is inevitable, irrespective of the complexity of the system. We also present a possible generalization to metabolic networks with both uni-uni and bi-bi reactions., Competing Interests: We declare we have no competing interests., (© 2024 The Author(s).)

Published

2024

23. Methodology for the Experimental Calculation the Coefficients of the Functional Dependencies Electrical Circuits Plasma Substitution

Author

Bilokonska, Yuliia, Breslavets, Mariia, Firsov, Serhii, Boyarkin, Andrii, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Nechyporuk, Mykola, editor, Pavlikov, Vladimir, editor, and Kritskiy, Dmitriy, editor

Published

2020

24. Normal Fractional Positive Linear Systems and Electrical Circuits

Author

Kaczorek, Tadeusz, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Szewczyk, Roman, editor, Zieliński, Cezary, editor, and Kaliczyńska, Małgorzata, editor

Published

2020

25. Optimal starting of the induction motor.

Author

Kimstach, Oleg

Subjects

*INDUCTION motors, *ELECTROMAGNETIC induction, *ELECTRIC torque motors, *ELECTRIC circuits, *ELECTRIC inductance

Abstract

The paper proposes an algorithm to determine a method for an optimal starting of the induction motor. The algorithm is demonstrated by comparing on four simple types of the induction motor starting: direct-on-line starting, star-delta starting, starting with an additional resistance and inductance. The algorithm is based on a comparison of results of a numerical simulation of the starting processes of the induction motor. The dynamic curves are drawn for the stator current, rotor speed and electromagnetic torque of the induction motor. For the starting methods using an additional resistance and inductance, curves of the dependence of the corresponding values on the size of an additional resistance and inductance are drawn. They are calculated by using a classical model of the induction motor in the u and v axis. The transient time, average current and average power of the induction motor are used as comparison criterion. To define the optimal starting method, the relative estimations method is used. For the considered example, the starting method of the induction motor with an additional inductance is optimal. [ABSTRACT FROM AUTHOR]

Published

2022

26. On the Duality of Mathematical Models for Problems in Mechanics and in the Theory of Electrical Circuits.

Author

Kurzhanski, A. B. and Usova, A. A.

Abstract

Considered in this paper are mathematical models of mechanics together with the theory of electrical circuits, and their similar dynamical structure is revealed. Using basic analogies, a chain of mechanical springs and an equivalent electrical analogue are constructed. Examples of "successful" borrowings are given, when methods of the theory of electrical circuits may be used to solve stabilization problems for a mechanical system formed by a set of interconnected mechanical subsystems. [ABSTRACT FROM AUTHOR]

Published

2022

27. Rozwiązywanie problemu technicznego przez uczniów 8-letnich. Ustalenie wadliwego elementu w obwodzie zamkniętym.

Author

JELINEK, JAN AMOS

Subjects

*ELECTRIC circuits, *LIGHT bulbs, *HYPOTHESIS, *PROBLEM solving

Abstract

This article presents the process of 81 8-year-old children investigating which compo- nent of an electrical circuit is faulty (a burned-out light bulb). The research was carried out in groups of three and was qualitative in nature. Dewey's (1988) complete act of thinking was used to analyse children's behaviour. The ways in which pupils behave at the stage of familiarisation with the problem, hypothesis formation, hypothesis verification and the stage of finding the final solution to the problem were discussed. Attention was paid to children's capabilities and limitations and conclusions were drawn for further research. [ABSTRACT FROM AUTHOR]

Published

2022

28. A new extension of the Cayley-Hamilton theorem to fractional different orders linear systems.

Author

KACZOREK, Tadeusz

Subjects

*LINEAR orderings, *LINEAR systems, *ELECTRIC circuits, *CAYLEY graphs

Abstract

The classical Cayley-Hamilton theorem is extended to fractional different order linear systems. The new theorems are applied to different orders fractional linear electrical circuits. The applications of new theorems are illustrated by numerical examples. [ABSTRACT FROM AUTHOR]

Published

2022

29. EN Solar panels work and control system modeling in LabVIEW and LTSpice XVII. Comparison of the perspectives of panels using

Author

O. Drozd and L. Scherbak

Subjects

solar energy, prospects, solar tracker, electrical circuit, comparison, model, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Environmental technology. Sanitary engineering, TD1-1066

Abstract

This paper is dedicated to the research of solar energy issues, namely to increase the efficiency of solar panels and to compare the performance of solar panels in different configurations. The author researches and compares the performance of solar panels with and without trackers. The sun is an inexhaustible source of energy that mankind has yet to appreciate. Solar energy is the kinetic energy of radiation (mainly light) generated by thermonuclear reactions in the bowels of the sun. Solar energy is one such alternative, the neglect of which will in the near future lead to catastrophic consequences for humanity. Solar energy is a progressive method of obtaining various types of energy through solar radiation. Solar energy is one of the most promising and dynamic renewable energy sources (RES). Each year, the increase in commissioned capacity is approximately 40-50%. In the last fifteen years alone, the proportion of solar electricity in the world has exceeded the 5% mark. To increase the efficiency of solar panels, designers and engineers are developing new devices and devices, one of which is a solar tracker. A solar tracker is a device that allows you to control the movement of the sun across the sky, as well as move the solar panel to the position where the absorption of sunlight is most effective. After the conducted experiment , calculations an comparison we can see the next results. Without the solar tracker our panel generated maximum power in 2.4 Watt. After the solar tracking system integration, our panel generated almost 20 (19.8) Watt of power! After this comparison we can tell that the generated power increase in 8.25 Watts. We can also admit that the amount of generated power depends on light intensity. But solar panels are the most effective when the solar beam falls perpendicular to solar cell and solar panel is at an angle of 75 – 85 degrees

Published

2021

30. Positivity and cyclicity of descriptor electrical circuits with chain structure.

Author

KACZOREK, Tadeusz and BORAWSKI, Kamil

Subjects

*OPTIMISM

Abstract

The positivity and cyclicity of descriptor linear electrical circuits with chain structure is considered. Two classes of descriptor linear electrical circuits are analyzed. Some new properties of these classes of electrical circuits are established. The results are extended to fractional descriptor linear electrical circuits. [ABSTRACT FROM AUTHOR]

Published

2022

31. Análise de um circuito de corrente constante através dos conceitos da eletrostática.

Author

Fonseca, Anderson and Maioli Penello, Germano

Subjects

*ELECTRIC charge, *SURFACE charges, *ELECTRIC currents, *SURFACE charging, *ELECTRIC circuits, *ELECTROSTATICS

Abstract

Electrostatics and constant current circuits are traditionally discussed without their connection being clearly evident. The conceptual framework and analytical operational methods developed in the study of electrostatics are not used in circuit analysis. In order to bring these two fields of study closer together, a circuit consisting of a battery and conducting wires will be examined where the surface distribution of charge takes center stage in the causal relationship when investigating the emergence of electric current. This allows the use of knowledge about the interaction of electric charges to be employed in the understanding of the physical processes occurring in the circuit components as the connections are established. By examining the circuit in this fashion, the spectrum of problems that can be discussed within the same content is broadened. [ABSTRACT FROM AUTHOR]

Published

2022

32. Modeling of solar flares like an electrical circuit in plasma focus devices.

Author

Useinov, B. M., Zhukeshov, A. M., Solodovnik, A. A., Alimova, N. M., Gabdullina, A. T., Moldabekov, Z. M., and Amrenova, A. U.

Subjects

SOLAR flares, ELECTRIC circuits, PLASMA focus, PLASMA temperature, APPROXIMATION theory

Abstract

Based on theoretical ideas about different plasma processes in Nature and Solar, for example of Solar flares, a conceptual model approach is proposed based on the analogy of the flash flow with processes in an electrical circuit. Quite close in a number of parameters to the flashes are the processes of evolution of plasma objects in the "Plasma focus" setup. Based on the physical similarity of processes of this hind, patterns have been studied that make it possible to trace the change in plasma temperature depending on changes in the operating parameters of the setup. The parameters of the model corresponding to the maximum approximation to the conditions of the flash process are revealed. A program has been developed, calculations and analysis of the dependence of the plasma temperature on the parameters of the setup have been carried out: gas mass, velocity of incoming particles, load resistance in the plasma focus. It is shown that the physical model of a solar flare "Electric Circuit" can be implemented on the basis of an operating plasma focus setup, taking into account the scaling of processes. [ABSTRACT FROM AUTHOR]

Published

2022

33. ANALYSIS AND VERIFICATION OF THE OPERATION OF THE STABILIZING ROBUST CONTROLLER'S ELECTRICAL CIRCUIT OF THE ROTOR FLUX-LINKAGE CONTROL SYSTEM

Author

I. N. Khlopenko, N. J. Khlopenko, and S. A. Rozhkov

Subjects

asynchronous electric drive, flux-linkage control system, robust controller, electrical circuit, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

On the basis of the classical theory of robust control, the theory of stability and the theory of continued fractions, the linearized mathematical model, the procedure for calculating and designing an analog electrical circuit of the H∞-suboptimal robust controller of the flux-linkage control system of the rotor of an asynchronous electric drive, protected by Ukrainian Patent no.137157, were built. The circuit contains three operational amplifiers, several resistors and capacitors. The proposed mathematical model, the procedure for calculating and choosing the parameters of the resistors and capacitors of the circuit take into account the random variations of the object and the controller within the specified boundaries. An analytical relationship between the transfer function coefficients and the resistances of the resistors and the capacitances of the capacitors of the controller's electrical circuit was established. On a specific example, by calculation according to the developed algorithm, the limiting values of the tolerances of the circuit's resistances of the resistors and capacitances of the capacitors were identified and these values were selected with a margin from the standard series. Analysis of noise filtering by the electrical circuit of the controller in the Multisim package shows its insensitivity to noise spreads within fairly wide boundaries.

Published

2020

34. Modeling of Static Negative Bias Temperature Stressing in p-channel VDMOSFETs using Least Square Method

Author

N. Mitrović, D. Danković, B. Ranđelović, Z. Prijić, and N. Stojadinović

Subjects

nbti, vdmosfet, electrical circuit, modeling, least square method, Electronics, TK7800-8360

Published

2020

35. Approaching Electrical Circuit Understanding with Circuit Builder Virtual Laboratory

Author

Purwoko Haryadi Santoso and Nino Munawanto

Subjects

circuit builder, electrical circuit, student comprehension, virtual laboratory., Education (General), L7-991, Physics, QC1-999

Abstract

Nowadays, most students are familiar with the notebook for daily use. The compactness and flexibility of the notebook offer more benefits than a PC. The teachers can engage it during teaching physics. Hence, this research had developed an electrical circuit virtual experiment that acts like real experiments. It can be accessed easily by students in their notebook. This study introduces a flash-based animation Circuit Builder as a simulation designed to help students understand the electrical circuit. This study's purposes were: (1) to analyze the feasibility level of Circuit Builder for enhancing students’ electrical circuit mastery and (2) to know the effectiveness of Circuit Builder based on students’ electrical circuit mastery. Circuit Builder was developed by 4D (Define, Design, Develop, and Disseminate) model. The feasibility level was analyzed by CVI (Content Validity Index). Then, the effectiveness was tested with effect size. This study proved that the virtual laboratory "Circuit Builder” was feasible in physics class with a moderate effect size. The virtual laboratory could improve students’ electrical circuit mastery than doing practices with traditional laboratories.

Published

2020

36. Epistemic Games of Moderate Physics-Capable Students in Completing Electrical Circuit Problems

Author

M. Dewi Manikta Puspitasari, Anita Sari Wardani, and Lilia Sinta Wahyuniar

Subjects

electrical circuit, epistemic game, Education

Abstract

The students need a learning strategy that is compatible to develop electrical circuit problems completion. Additionally, problem-solving strategy (epistemic game) will develop a learning process that can stimulate the completion of physics. This case encourages the researcher to determine the epistemic game of moderate physics-capable students in solving electrical circuit problems. Moreover, it is qualitative research, and the participant of the research is the students who learn the electrical circuit. Moderate physics-capable students (4 moderately capable students out of 13 students) based on their physics understanding test results. Test and interview were used by the researcher to collect data. The test consists of a physics understanding test and an electrical circuit test. The physics understanding test is used to determine the level of students’ physics understanding, while the electrical circuit test is used to determine students’ epistemic games to solve the problems. The research finding showed the epistemic game of moderate physics-capable students was obtained from the analysis result of the electrical circuit test and interview. The analysis result of the first test, the second test, the third test, and the seventh test showed that the game used to solve problems was transliteration to mathematics. Meanwhile, the students used mapping mathematics to meaning and transliteration to mathematics to solve the problems in the fourth test. The analysis result of the fifth test and the eight test showed that the students used mapping mathematics to meaning to solve the problems. Furthermore, the sixth test was completed by mapping meaning to mathematics.

Published

2020

37. A new extension of the Cayley-Hamilton theorem to fractional different orders linear systems

Author

Tadeusz Kaczorek

Subjects

cayley-hamilton theorem, electrical circuit, extension, fractional, different order, Technology, Technology (General), T1-995

Abstract

The classical Cayley–Hamilton theorem is extended to fractional different order linear systems. The new theorems are applied to different orders fractional linear electrical circuits. The applications of new theorems are illustrated by numerical examples.

Published

2022

38. Positivity and cyclicity of descriptor electrical circuits with chain structure

Author

Tadeusz Kaczorek and Kamil Borawski

Subjects

cyclic matrix, descriptor, positive, electrical circuit, fractional, metzler matrix, Technology, Technology (General), T1-995

Abstract

The positivity and cyclicity of descriptor linear electrical circuits with chain structure is considered. Two classes of descriptor linear electrical circuits are analyzed. Some new properties of these classes of electrical circuits are established. The results are extended to fractional descriptor linear electrical circuits.

Published

2022

39. Component-Wise Power Estimation of Electrical Devices Using Thermal Imaging.

Author

Herglotz, Christian, Grosche, Simon, Bharadwaj, Akarsh, and Kaup, Andre

Subjects

*THERMOGRAPHY, *ELECTRONIC equipment, *INFRARED cameras, *METAL bonding, *OBJECT recognition (Computer vision), *THERMAL imaging cameras, *EMISSIVITY

Abstract

This paper presents a novel method to estimate the power consumption of distinct active components on an electronic carrier board by using thermal imaging. The components and the board can be made of heterogeneous material such as plastic, coated microchips, and metal bonds or wires, where a special coating for high emissivity is not required. The thermal images are recorded when the components on the board are dissipating power. In order to enable reliable estimates, a segmentation of the thermal image must be available that can be obtained by manual labeling, object detection methods, or exploiting layout information. Evaluations show that with low-resolution consumer infrared cameras and dissipated powers larger than 300 mW, mean estimation errors of 10% can be achieved. [ABSTRACT FROM AUTHOR]

Published

2021

40. Electrochemical properties of the non‐excitable tissue stria vascularis of the mammalian cochlea are sensitive to sounds.

Author

Zhang, Qi, Ota, Takeru, Yoshida, Takamasa, Ino, Daisuke, Sato, Mitsuo P., Doi, Katsumi, Horii, Arata, Nin, Fumiaki, and Hibino, Hiroshi

Subjects

*HAIR cells, *COCHLEA, *ION flow dynamics, *RADIAL flow, *ACOUSTIC excitation

Abstract

Excitable cochlear hair cells convert the mechanical energy of sounds into the electrical signals necessary for neurotransmission. The key process is cellular depolarization via K+ entry from K+‐enriched endolymph through hair cells' mechanosensitive channels. Positive 80 mV potential in endolymph accelerates the K+ entry, thereby sensitizing hearing. This potential represents positive extracellular potential within the epithelial‐like stria vascularis; the latter potential stems from K+ equilibrium potential (EK) across the strial membrane. Extra‐ and intracellular [K+] determining EK are likely maintained by continuous unidirectional circulation of K+ through a putative K+ transport pathway containing hair cells and stria. Whether and how the non‐excitable tissue stria vascularis responds to acoustic stimuli remains unclear. Therefore, we analysed a cochlear portion for the best frequency, 1 kHz, by theoretical and experimental approaches. We have previously developed a computational model that integrates ion channels and transporters in the stria and hair cells into a circuit and described a circulation current composed of K+. Here, in this model, mimicking of hair cells' K+ flow induced by a 1 kHz sound modulated the circulation current and affected the strial ion transport mechanisms; the latter effect resulted in monotonically decreasing potential and increasing [K+] in the extracellular strial compartment. Similar results were obtained when the stria in acoustically stimulated animals was examined using microelectrodes detecting the potential and [K+]. Measured potential dynamics mirrored the EK change. Collectively, because stria vascularis is electrically coupled to hair cells by the circulation current in vivo too, the strial electrochemical properties respond to sounds. Key points: A highly positive potential of +80 mV in K+‐enriched endolymph in the mammalian cochlea accelerates sound‐induced K+ entry into excitable sensory hair cells, a process that triggers hearing.This unique endolymphatic potential represents an EK‐based battery for a non‐excitable epithelial‐like tissue, the stria vascularis.To examine whether and how the stria vascularis responds to sounds, we used our computational model, in which strial channels and transporters are serially connected to those hair cells in a closed‐loop circuit, and found that mimicking hair cell excitation by acoustic stimuli resulted in increased extracellular [K+] and decreased the battery's potential within the stria.This observation was overall verified by electrophysiological experiments using live guinea pigs.The sensitivity of electrochemical properties of the stria to sounds indicates that this tissue is electrically coupled to hair cells by a radial ionic flow called a circulation current. [ABSTRACT FROM AUTHOR]

Published

2021

41. DETERMINATION OF RESONANT ELECTRICAL CIRCUIT PARAMETERS BASED ON RESONANT FREQUENCY AND QUALITY FACTOR MEASUREMENTS

Author

A.V. Svetlov and Ngoc Manh Nguyen

Subjects

electrical circuit, resonant frequency, quality factor, parameters of circuit elements, measurement, error, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Background. The aim of the article is to develop a methodology to determine parameters of three-element resonant electric circuits based on resonant frequency and quality factor measurements. Materials and methods. The proposed technique provides for the measurement of resonant frequency, quality factor, and maximum voltage at the output of a measuring circuit with subsequent solution of a system of equations connecting the measured parameters with inductance, capacitance, and active resistance of the electrical circuit. Results. Calculated ratios are given, and an example of determining the parameters of a specific three-element resonant electric circuit, and estimating the error component due to imperfection of an operational amplifier, with a measuring circuit built thereon, is considered. Conclusions. An application of the proposed technique to determine the parameters of resonant electrical circuits based on resonant frequency and quality factor measurements made it possible to get rid of errors in analogue conversions of the output voltage of the measuring circuit. According to the simulation results, the error component does not exceed 1 % due to imperfection of the element base of the measuring circuit.

Published

2021

42. Teaching Methods of Hydraulic Circuits Based on Hydraulic-Eelectrical Analogy

Author

Li, Yuesong, Kacprzyk, Janusz, Series editor, Pal, Nikhil R., Advisory editor, Bello Perez, Rafael, Advisory editor, Corchado, Emilio S., Advisory editor, Hagras, Hani, Advisory editor, Kóczy, László T., Advisory editor, Kreinovich, Vladik, Advisory editor, Lin, Chin-Teng, Advisory editor, Lu, Jie, Advisory editor, Melin, Patricia, Advisory editor, Nedjah, Nadia, Advisory editor, Nguyen, Ngoc Thanh, Advisory editor, Wang, Jun, Advisory editor, Qiao, Feng, editor, Patnaik, Srikanta, editor, and Wang, John, editor

Published

2018

43. Example of Vibration Suppression of Electronic Box Using Dual Function EH/TVA

Author

Rafique, Sajid and Rafique, Sajid

Published

2018

44. Positive electrical circuits with the chain structure and cyclic Metzler state matrices.

Author

KACZOREK, Tadeusz

Subjects

*MATRICES (Mathematics)

Abstract

The cyclicity of the state matrices of positive linear electrical circuits with the chain structure is considered. Two classes of positive linear electrical circuits with the chain structure and cyclic Metzler state matrices are analyzed. Some new properties of these classes of positive electrical circuits are established. The results are extended to fractional linear electrical circuits. [ABSTRACT FROM AUTHOR]

Published

2021

45. STRUCTURALLY R-CONTROLLABLE AND STRUCTURALLY R-OBSERVABLE DESCRIPTOR LINEAR ELECTRICAL CIRCUITS.

Author

Kaczorek, Tadeusz and Borawski, Kamil

Abstract

Structurally R-controllable and structurally R-observable descriptor linear electrical circuits are investigated. Sufficient conditions are given under which the Rcontrollability and R-observability of descriptor linear electrical circuits are independent of their parameters. [ABSTRACT FROM AUTHOR]

Published

2021

46. INVESTIGATION OF AMPLITUDE-TEMPORAL CHARACTERISTICS OF A HIGH-VOLTAGE RESISTIVE VOLTAGE DIVIDER

Author

N. I. Boyko and S. O. Syomkin

Subjects

voltage divider, high-voltage pulse generator, computer simulation, electrical circuit, rise time, transient response, pulse front, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Purpose. Determination of the possibility of using the developed autonomous voltage divider for measuring high-voltage pulses with sharpened fronts (down to 1 ns). Methodology. We use the technique to determine the division ratio of the divider using a calibrated oscillator and oscilloscope. To determine the rise time of the transition characteristic of the divider, we use an experimental technique based on a high-voltage pulse generator with a steep front and computer simulation using circuit program Micro-Cap. Results. Oscillograms of high-voltage nanosecond pulses with subnanosecond fronts are experimentally obtained using an autonomous resistive voltage divider. A computer simulation of the operation of the created divider in various modes is carried out. Originality. We have shown that an autonomous shielded resistive high-voltage voltage divider can have a rise time less than 1 ns. The values of the parasitic parameters of the divider, which lead to a distortion of the sharpened pulse front with a rise time of ≈0.1 ns, are established. Practical value. The divider can be used to measure the characteristics of high-voltage pulses with a steep front (up to 1 ns as the lower limit).

Published

2019

47. Modelling of the carotid artery

Author

Ricardo Alonso Espinosa Medina and Hermes Darío Fuentes Muñoz

Subjects

carotid artery, characteristics, electrical circuit, laws of poiseuille, modelling, pressure, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This study presents a modelling for the carotid artery that allows to analyze the theoretical behavior of pressure, flow and arterial volume in it, from the variation of both physical and physiological characteristics, such as: the thickness and length of the vessel blood, the viscosity and density of blood; determinants in the study of the normal functionality of the artery. The model of the arterial vessel –an adaptation of the Windkessel model of three elements, reported by Westerhof and Stergiopulos–, consists of an electrical circuit composed of passive RLC elements. The arterial segment was analyzed by mathematical and computational tools, relating Poiseuille's laws and electric laws. The pressure, flow and volume curves were obtained when changes occurred in the measurable characteristics of the carotid artery, in order to facilitate the medical interpretation of possible pathologies related to these changes.

Published

2019

48. Positive electrical circuits with the chain structure and cyclic Metzler state matrices

Author

Tadeusz Kaczorek

Subjects

cyclic matrix, positive, electrical circuit, fractional, metzler matrix, Technology, Technology (General), T1-995

Abstract

The cyclicity of the state matrices of positive linear electrical circuits with the chain structure is considered. Two classes of positive linear electrical circuits with the chain structure and cyclic Metzler state matrices are analyzed. Some new properties of these classes of positive electrical circuits are established. The results are extended to fractional linear electrical circuits.

Published

2021

49. State vector estimation in descriptor electrical circuits using the shuffle algorithm

Author

Borawski, Kamil, Kacprzyk, Janusz, Series editor, Pal, Nikhil R., Advisory editor, Bello Perez, Rafael, Advisory editor, Corchado, Emilio S., Advisory editor, Hagras, Hani, Advisory editor, Kóczy, László T., Advisory editor, Kreinovich, Vladik, Advisory editor, Lin, Chin-Teng, Advisory editor, Lu, Jie, Advisory editor, Melin, Patricia, Advisory editor, Nedjah, Nadia, Advisory editor, Nguyen, Ngoc Thanh, Advisory editor, Wang, Jun, Advisory editor, Mitkowski, Wojciech, editor, Oprzędkiewicz, Krzysztof, editor, and Skruch, Paweł, editor

Published

2017

50. Solar panels work and control system modeling in LabVIEW and LTSpice XVII. Comparison of the perspectives of panels using .

Author

Drozd, O. and Scherbak, L.

Subjects

SOLAR panels, RENEWABLE energy sources, SOLAR cells, SOLAR energy, SOLAR radiation

Abstract

This paper is dedicated to the research of solar energy issues, namely to increase the efficiency of solar panels and to compare the performance of solar panels in different configurations. The author researches and compares the performance of solar panels with and without trackers. The sun is an inexhaustible source of energy that mankind has yet to appreciate. Solar energy is the kinetic energy of radiation (mainly light) generated by thermonuclear reactions in the bowels of the sun. Solar energy is one such alternative, the neglect of which will in the near future lead to catastrophic consequences for humanity. Solar energy is a progressive method of obtaining various types of energy through solar radiation. Solar energy is one of the most promising and dynamic renewable energy sources (RES). Each year, the increase in commissioned capacity is approximately 40-50%. In the last fifteen years alone, the proportion of solar electricity in the world has exceeded the 5% mark. To increase the efficiency of solar panels, designers and engineers are developing new devices and devices, one of which is a solar tracker. A solar tracker is a device that allows you to control the movement of the sun across the sky, as well as move the solar panel to the position where the absorption of sunlight is most effective. After the conducted experiment, calculations an comparison we can see the next results. Without the solar tracker our panel generated maximum power in 2.4 Watt. After the solar tracking system integration, our panel generated almost 20 (19.8) Watt of power! After this comparison we can tell that the generated power increase in 8.25 Watts. We can also admit that the amount of generated power depends on light intensity. But solar panels are the most effective when the solar beam falls perpendicular to solar cell and solar panel is at an angle of 75 – 85 degrees. [ABSTRACT FROM AUTHOR]

Published

2021