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Journal of E-Technology

Study of Regular Output Power with Converters

Nikolay Madzharov
Faculty of EEE at Technical University of Gabrovo H. Dimitar str. 4 5300 Gabrovo, Bulgaria

Abstract: In this paper we have addressed the power supply with regular output power which is the converters with energy dosing. It provides energy dosing in the load with operation principle. The power is related to the output voltage received that is equivalent to the load parameters. We in this research have introduced a few converters with the required changes. We have also highlighted the design of converters. We have presented the design and mathematical interpretation of the processes.

Keywords: Energy Dosing, Converter, Harmonic Analysis, Load Matching, Self-harmonization Study of Regular Output Power with Converters

DOI:https://doi.org/10.6025/jet/2021/12/2/33-41

Full_Text PDF 1.01 MB Download: 83 times

References:

[1] Boulatov, O.G., Tsarenko, A.I. (1982). Thyristor-Capacitor Converters, Energoizdat, 1982 (in Russian).
[2] Todorov, T. S., Madgarov, N. D., Alexiev, D.T., Ivanov, P. T. (1996). Autonomous Inverters, Gabrovo, 1996.
[3] Todorov, T. S., Madgarov, N.D. (1997). Wide-Range Resonance Inverters with Energy Dosing with Zero Current of Switching Device, PCIM’97, Power Conversion, Nurnberg, Germany, p 385-392, 1997.
[4] Kraev, G., Hinov, N., Arnaudov, D., Ranguelov, N., Gradinarov, N. (2012). Multiphase DC-DC Converter with Improved Characteristics for Charging Super capacitors and Capacitors with Large Capacitance, Annual Journal of Electronics, V6, B1, TU of Sofia, Faculty of EET, p 128-131, 2012.
[5] Bankov, N., Al. Vuchev, Terziyski, G. (2009). Operating Modes of a Series-Parallel Resonant DC/DC Converter, Annual Journal of Electronics, Sofia, 2009, 3(2), p 129-132.
[6] Erickson, R., Maksimovic, D. (2001). Fundamentals of Power Electronics, Springer Science Business Media, LLC, Second Edition, 2001.
[7] Madzharov, N., Petkov, V. (2017). Analysis of Expedient Operating Modes of Industrial IPT Systems, Acta Technica, 62 (1), 2017, p 93-106.
[8] Madzharov, N. (2017). High-Frequency Power Source with Constant Output Power, Journal of Engineering Science and Technology Review, vol. 9, 2017, p 157-162.
[9] Madzharov, N. D. (2004). A DC/DC Converter with Energy Dosing, Proceeding PCIM’04, Nurnberg, Germany, 2004.
[10] Madzharov, N. D., Ilarionov, R.T., Tonchev, A.T. (2014). System for Dynamic Inductive Power Transfer, Indian Journal of Applied Research, 4 (7), 2014.
[11] Madzharov, N. D., Tonchev, A.T. (2014). Inductive High Power Transfer Technologies for Electric Vehicles, Journal of Electrical Engineering, 65 (2), p 125-128, 2014.
[12] Madzharov, N. D., Ilarionov, R.T. (2011). Battery Charging Station for Electromobiles with Inverters with Energy Dosing, PCIM’11, Power Conversion, Nurnberg, Germany, 2011.

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