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Valtchev, S., K. Brandisky, B. Borges, and B. J. Klaassens, "Magnetic and Design Criteria for Inductive Coupling Energy Transfer", 5th Conference on Telecommunications CONFTELE, 2005.
Valtchev, S., "Magnetic and Design Criteria for Inductive Coupling Energy Transfer", Conference on Telecommunications CONFTELE, , Proceedings ISBN 972–98115–9–8, paper Cr1107, Tomar, 2005. Abstract
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Braslavsky, I., I. Plotnikov, and S. Valtchev, "The mathematical modeling of alternating current electric drive with DC-DC converter and ultracapacitors", Proceedings - 2016 IEEE International Power Electronics and Motion Control Conference, PEMC 2016, pp. 511-515, 2016. Abstract
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Ferreira, S., S. Valtchev, F. Coito, and M. Mudrov, "Mechanical vibration using piezoelectric material", Proceedings - 2017 International Conference on Optimization of Electrical and Electronic Equipment, OPTIM 2017 and 2017 Intl Aegean Conference on Electrical Machines and Power Electronics, ACEMP 2017, United States, Institute of Electrical and Electronics Engineers Inc., pp. 681–686, 7, 2017. Abstract

Piezoelectric energy harvesting has received great attention over the last 20 years. The main goal of this work is to discuss the potential advantages of introducing non-linearities in the dynamics of a beam type piezoelectric vibration energy harvester. The described device is essentially a cantilever beam partially covered by piezoelectric material with a force electromagnetically applied to the beam. Through experimental tests it has been confirmed the benefits of introducing non-linearities in these types of systems.

Valtchev, S., "Medium concentration system HSUN: demonstration results and application of diverse silicon cells", 26th European Photovoltaic Solar Energy Conference and Exhibition (PVSEC), 2011. Abstract
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Meshcheryakov, V. N., V. V. Danilov, S. R. Khasanov, and S. Valtchev, "Minimization of the stator current in induction motor with defined load on the shaft by maintaining optimum absolute slip", E3S Web of Conferences, vol. 124, 2019. Abstract
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Brito, V., L. B. Palma, F. V. Coito, and S. Valtchev, "Modeling and supervisory control of a virtual X8-VB quadcopter", Proceedings - 2016 IEEE International Power Electronics and Motion Control Conference, PEMC 2016, pp. 686-693, 2016. Abstract
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Wahjudi, A., Modelvorming en simulatie van een super-resonante converter met een hoogspanningstransformator, : TU Delft, September, 1993. Abstract
VEEM93A13
vanWesenbeeck, M. P. N., J. B. Klaassens, U. vonStockhausen, A. Munoz de Morales Anciola, and S. S. Valtchev, "Multiple switch high-voltage DC-DC converter", INTELEC, International Telecommunications Energy Conference (Proceedings), pp. 322-329, 1995. Abstract
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vanWesenbeeck, M. P. N., J. B. Klaassens, U. vonStockhausen, A. M. D. Anciola, and S. S. Valtchev, "A multiple-switch high-voltage DC-DC converter", IEEE Transactions on Industrial Electronics, vol. IE-44, no. 6: IEEE, pp. 780–787, December, 1997. Abstracthttps://scholar.google.com/citations?user=5-Rq1wYAAAAJ&hl=en
Series connection of power devices has evolved into a mature technique and is widely applied in HV dc systems. Static and dynamic voltage balance is ensured by shunting individual devices with dissipative snubbers. The snubber losses become pronounced for increased operating frequencies and adversely affect power density. Capacitive snubbers do not exhibit these disadvantages, but they require a zero-voltage switching mode. Super-resonant power converters facilitate the principle of zero-voltage switching. A high-voltage dc-dc power converter with multiple series-connected devices is proposed. It allows the application of nondissipating snubbers to assist the voltage sharing between the multiple series-connected devices and lowers turn-off losses. Simulation results obtained with a circuit simulator are validated in an experimental converter operating with two series-connected devices. The behavior of the series connection is examined for MOSFET's and insulated gate bipolar transistors (IGBT's) by both experimental work with a 2-kW prototype and computer simulation. Applications can be found in traction and heavy industry, where the soft-switching converter is directly powered from a high-voltage source.
vanWesenbeeck, M. P. N., J. B. Klaassens, U. vonStockhausen, A. M. D. Ancíola, and S. S. Valtchev, "A multiple-switch high-voltage DC-DC converter", 17th Telecommunications Energy Conference, INTELEC '95, pp. 322–329, October, 1995.
vanWesenbeeck, M. P. N., J. B. Klaassens, U. vonStockhausen, A. Muñoz De Morales Anciola, and S. S. Valtchev, "A multiple-switch high-voltage dc-dc converter", IEEE Transactions on Industrial Electronics, vol. 44, no. 6, pp. 780-787, 1997. Abstract
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