Step-up/step-down regulators in maximum power transmission mode

Romashko, V. Y.; Batrak, L. M.; Abakumova, O. O.

doi:10.20998/2074-272x.2022.2.03

Cited by 4 publications

(5 citation statements)

References 8 publications

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“…Despite regularly carried out technological measures in the manufacture and repair of locomotives, the damage rate of traction motors during operation remains quite high. The main attention is paid to thermal processes in the windings of a traction motor [1][2][3][4][5][6][7][8][9][10], but mechanical stresses arising in the frame due to heating and vibration are practically not considered.…”

Section: Introductionmentioning

confidence: 99%

An estimation of mechanical stresses in the stator of the NB-514 motor of an electric locomotive

Portnoj,

Melnichenko,

Shramko

et al. 2024

E3S Web Conf.

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The aim of the research is to determine the causes of cracks in stators of traction electric motors of the NB-514 series. The application of mathematical modeling using the finite element method, which allows one to evaluate the mechanical stresses arising in the stator under the influence of thermal and vibration loads, is considered. The results of thermal modeling are presented for uneven heating of the electric motor frame to temperatures typical for the hourly operation of a traction motor. The results of vibration modeling, including the study of natural vibration modes and frequencies, are also presented. Based on the results of the studies, it was concluded that the cause of the formation of cracks in the area of ventilation hatches is a complex of cyclically repeating temperature and vibration effects, creating points of mechanical stress with a large value in the area of crack formation. Vulnerabilities in the design of the electric motor frame have been identified. Options have been proposed for improving the design of the ventilation hatches of the frame, allowing reducing mechanical stresses with a constant area of the ventilation and inspection hatches.

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Section: Introductionmentioning

confidence: 99%

An estimation of mechanical stresses in the stator of the NB-514 motor of an electric locomotive

Portnoj,

Melnichenko,

Shramko

et al. 2024

E3S Web Conf.

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“…In the work [11] have proposed high step up boost converter for uninterrupted power supply using renewable energy resources (wind and photovoltaic (PV)). Authors in [12] have discussed switching DC stepup/step-down regulators voltage for maximum power transmission. In the work [13] have presented DC-DC converter topologies for energy management system.…”

mentioning

confidence: 99%

Design and experimental implementation of voltage control scheme using the coefficient diagram method based PID controller for two-level boost converter with photovoltaic system

Latreche,

Taleb,

Bentaallah

et al. 2024

Electrical Engineering & Electromechanics

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Introduction. Currently, in the solar energy systems and a variety of electrical applications, the power converters are essential part. The main challenge for similar systems is controller design. In the literature, the PID controller has proved its effectiveness in many industrial applications, but determining its parameters remains one of the challenges in control theory field. The novelty of the work resides in the design and experimental implementation of a two-level boost DC-DC converter controlled by a PID controller for photovoltaic (PV) maximum power extraction. Purpose. Analysis and control of the two-level boost topology with renewable energy source and design of the PID controller parameters using simple and accurate method. Methods. PID coefficients are optimized using Coefficient Diagram Method (CDM) in the MATLAB environment. Results. A mathematical model of a two-level boost converter with PID controller and PV energy source was developed and analyzed. The model allows to design the controller parameters of the proposed system. Practical value. A prototype steered by the proposed CDM-PID controller was tested using an Arduino embedded board. A comparison between the simulation results and the experimental one is presented. The obtained results illustrate that the experimental results match the simulation closely, and the proposed CDM-PID controller provides a fast and precise results.

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“…Circuits of regulators. Let's consider those variants of IP circuits of the step-up and step-down type, which provide the possibility of sampling MP from the power source [13]. The corresponding circuits of the regulators are presented in Fig.…”

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confidence: 99%

“…2) it is limited to the right [0 ... t max ]. This is a consequence of the duality of the circuits of the considered regulators [13]. To compare the properties of the four main PR circuits Table 1 shows their main features when operating in the MP transmission mode from the power source to the battery, namely:…”

mentioning

confidence: 99%

Obtaining the maximum power from the source using step-up and step-down type pulse regulators that work on battery

Romashko,

Batrak,

Abakumova

2024

Electrical Engineering & Electromechanics

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Introduction. Pulse regulators are widely used to match the output resistance of the source with the load resistance in order to ensure the possibility of taking maximum power when the value of the load resistance changes. Problem. In the case of using non-traditional and renewable sources of electrical energy, for a more uniform supply of energy to the load, a battery is often connected to the output of the pulse regulator, which works in buffer mode. In such cases, the load for the pulse regulator will be the battery itself, and the role of the source load will be performed by the input resistance of the regulator. To ensure the mode of operation of the pulse regulator, in which the maximum power will be transmitted from the source to the load, it is necessary to know the regulating characteristics of the regulator. There are works that analyze the regulating characteristics of step-up and step-down pulse regulators, which are used to match the load with the output resistance of the source. At the same time, for the same purpose, pulse regulators of the step-up and step-down type can be used. Goal. The purpose of the work is to analyze the features of the operation of step-up and step-down type pulse regulators in the mode of maximum power transmission from the source to the battery, as well as to determine the conditions under which it is possible and appropriate to use such regulators for the specified purpose. Methodology. The regulating characteristics of step-up and step-down type pulse regulators with sequential and parallel switching on of the controlled key were determined and analyzed, taking into account the presence of a battery at their output. Results. It is shown that the transfer of energy from the source to the battery is possible only under certain modes of operation of the regulator, which depend on the type of regulator, as well as the amount of voltage on the battery. The conditions under which it is possible to draw the maximum power from the source are determined. Originality. Since the output resistance of the source and the load resistance are of the same order in the maximum power selection mode, the internal resistance of the power source was taken into account when determining the regulating characteristics of the regulators. Practical value. The obtained results made it possible to formulate practical recommendations for a justified choice of the regulator’s operating modes, depending on its type and the value of voltage on the battery. References 15, tables 1, figures 4.

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Step-up/step-down regulators in maximum power transmission mode

Cited by 4 publications

References 8 publications

An estimation of mechanical stresses in the stator of the NB-514 motor of an electric locomotive

An estimation of mechanical stresses in the stator of the NB-514 motor of an electric locomotive

Design and experimental implementation of voltage control scheme using the coefficient diagram method based PID controller for two-level boost converter with photovoltaic system

Obtaining the maximum power from the source using step-up and step-down type pulse regulators that work on battery

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