Voltage balancing in modular energy storage of power supply for micro resistance welding

Yu. V. Kozhushko; O. F. Bondarenko

doi:10.15222/TKEA2017.4-5.15

Yu. V. Kozhushko Igor Sikorsky Kyiv Polytechnic Institute, Kyiv, Ukraine
O. F. Bondarenko Igor Sikorsky Kyiv Polytechnic Institute, Kyiv, Ukraine http://orcid.org/0000-0002-4276-1145

DOI: https://doi.org/10.15222/TKEA2017.4-5.15

Keywords: micro resistance welding, energy storage, supercapacitor, voltage balancing, pulse converter

Abstract

Micro resistance welding is one of the most effective ways to obtain permanent joints of metal parts. The quality of welded joints strongly depends on the characteristics of the power supply of welding equipment. The power supplies for micro resistance welding based on Energy Storage topology have a softer impact on the network than the ones based on Direct Energy topology. The use of supercapacitors for Energy Storage type power supplies makes it possible to reduce the dimensions of welding equipment and to improve its technical parameters. However, the feature of the supercapacitors is low value of the nominal voltage, which usually does not exceed 3 V. To provide higher voltage, the modules of supercapacitors connected in series are designed. In order to extend the lifetime of such modules, a voltage balancing system is required.
A circuit for balancing the voltage of a modular supercapacitor energy storage of a power supply for micro resistance welding is proposed. The fragments of calculation of control units of a supercapacitor module cell are given. The simulation of the balancing circuit operation is carried out and time charts of the supercapacitor charge process are obtained. The operability and effectiveness of the proposed solution is confirmed. The advantage of the proposed circuit is the possibility of obtaining the high efficiency because of returning the excessive energy of the module cell back into the power supply.

References

Bondarenko Iu.V. Multicell-type transistor converter with combined continuous and pulse control for micro resistance welding, Ph. D. thesis. Alchevsk, 2012, p. 148. (Ukr)

Bondarenko O.F., Bondarenko I.V., Safronov P.S., Sydorets V.M. Effective circuit topology of dc power supply for micro resistance welding. Proceedings of 2014 IEEE International Conference on Intelligent Energy and Power Systems (IEPS), Kiev, Ukraine, 2014. http://dx.doi.org/10.1109/IEPS.2014.6874204

Safronov P.S., Bondarenko Iu.V., Bondarenko O.F., Sidorets V.M., Kucherenko D.V. Increase of electromagnetic compatibility of power supplies for resistance welding. Technical Electrodynamics, 2014, no. 5, pp. 89-91. (Ukr)

Balykshov A. [Ionistors]. Elektronnye komponenty, 2005, no. 11, pp. 91-97. (Rus)

Razuvaev Yu.Yu., Chajka M.Yu., Agupov V.V., Gorshkov V.S., Silyutin D.E. [Methods of voltage balancing for the supercapacitors]. Vestnik of Voronezh State Technical University, 2012, no. 7-2, pp. 101-105. (Rus)

Keshmiri V., Westerberg D., Andersson Ersman P., Sandberg M., Forchheimer R., Tu D. A silicon-organic hybrid voltage equalizer for supercapacitor balancing. IEEE J. Emerg. Sel. Top. Circuits Syst., 2017, vol. 7, no. 1, pp. 114-122. http://dx.doi.org/10.1109/JETCAS.2016.2612724

Castano S., Gauchia L., Sanz-Feito J. Effect of Packaging on Supercapacitors Strings Modeling: Proposal of Functional Unit Defined Around Balancing Circuit. IEEE Trans. Components, Packag. Manuf. Technol., 2013, vol. 3, no. 8, pp. 1390-1398. http://dx.doi.org/10.1109/TCPMT.2013.2252956

Sizov M. [The device for equalizing the voltages on the cells of a supercapacitor battery]. Modern electronics, 2013, no. 1, pp. 40-43. (Rus)

Korotynsky A.E., Drachenko N.P., Shapka V.A. Peculiarities of application of supercapacitors in devices for pulse welding technologies. The Paton Welding Journal, 2014, no. 9, pp. 34-38. http://dx.doi.org/10.15407/tpwj2014.09.05

Sokhor Yu.N. [Device simulation using LTspice/SwCAD software]. Publishing House of PPI, Pskov, Russia, 2008, p. 165. (Rus)