• D. V. Slobodeniuk Kremenchuk M.Ostrohradskii National University, Ukraine
  • O. V. Bialobrzeski Kremenchuk M.Ostrohradskii National University, Ukraine



synchronous motor, automatic control of exciting, relay control, transistor converter, storage condenser, mathematical model


Purpose. Development of circuitry and control system with capacitive storage device in the exciting circuit of the synchronous motor for forcing and blacking out the field. Methodology. Mathematical modeling of transient process in dynamic modes in exciting coil of the synchronous motor with taking into consideration the flux linkage in the exciting circuit and analysis of the received results, possible future researches in this field. Results. This paper analyzes the existing loading patterns of regulating exciting current of the synchronous motors. The authors study the issues of applying the storage device in the circuit coil and suggest the structure of the system of controlling dynamic modes of exciting synchronous motor which allows maintaining the specified synchronous motor exciting circuit during a certain period of time due to the capacitor energy introduced into the exciting circuit by a transistor converter. A mathematical model of the suggested device has been developed. There have been received diagrams of the transient process by modeling dynamic modes. Originality. The authors suggest the system of exciting with the storage condenser to apply effectively the compensative ability and enhance stability of the synchronous engine by regulating the exciting circuit in the dynamic modes. Practical value. On the basis of the conducted investigations the device ensures two-way transmission of energy between the exciting coil and capacitor with high characteristics of the circuit change speed which can provide sufficient characteristics for enhancing the automatic control system performance of exciting the synchronous motor is developed.


Kalentionok E.V. Ustoichivost' elektroenergeticheskikh system [The stability of electric power systems]. Minsk, Tekhnoperspektiva Publ., 2008. 375 p. (Rus).

Slodarzh M.I. Rezhimy raboty, releinaia zashchita i avtomatika sinkhronnykh elektrodvigatelei [Safe mode works, relay protection and automation synchronous motors]. Moscow, Energiia Publ., 1977. 216 p. (Rus).

Nizimov V.B., Kolychev S.V., Storoshzko V.S., Nizimov R.V. Control of synchronous motors with energy storage in circuit excitation. Visnyk KrNU im. M. Ostrohradskoho – Transactions of Kremenchuk Mykhailo Ostrohradskyi National University, 2008, no.50, pp. 108-112. (Rus).

Plahtyna O.G., Kucyk A.S., Semenjuk M.B. Excitation regulation of synchronous electric drives with compensation of armature reaction. Visnyk NTU «KhPI» – Bulletin of NTU "KhPІ", 2010, no.28, pp. 421-422. (Ukr).

Nizimov V.B., Kolychev S.V., Snizhko A.A. Parametric system start-up of a synchronous motor with a step-energy storage in the field winding. Zbirnyk naukovyh prac' Dniprodzerzhyns'kogo derzhavnogo tehnichnogo universytetu – The collection of scientific works of Dneprodzerzhinsk State Technical University, 2011, no.1(16), pp. 101-106. (Rus).

Osipov O.I., Mel'nikov V.V., Os'kin A.A., Kutsyi K.L. Control of thyristor exciters for high-voltage synchronous motors. Vestnik Yuzhno-Ural'skogo gosudarstvennogo universiteta – Bulletin of the South Ural State University, 2008, no.26(126), pp. 56-60. (Rus).

Mytsyk G.S., Berilov A.V., Mikheev V.V. Poiskovoe proektirovanie ustroistv silovoi elektroniki: (transformatorno-poluprovodnikovye ustroistva): uchebnoe posobie po kursam «Elektronnye energeticheskie sistemy» [Exploratory design of power electronics devices (transformer-semiconductor devices): a textbook for the course "E-Energy Systems"]. Moscow, MEI Publ., 2010. 282 p. (Rus).

Routimo M., Salo M., Tuusa H. Comparison of voltage-source and current-source shunt active power filters. IEEE Transactions on Power Electronics, 2007, no.2(22), pp. 636-643. doi: 10.1109/tpel.2006.890005.



How to Cite

Slobodeniuk, D. V., & Bialobrzeski, O. V. (2015). THE CAPACITIVE STORAGE DEVICE IN THE CIRCUIT OF SYNCHRONOUS MOTOR EXCITATION FOR THE FIELD FORCING AND DISCHARGE. Electrical Engineering & Electromechanics, (2), 16–20.



Electrical Machines and Apparatus