Russian Internet Journal of Electrical Engineering

This article gives a comparative analysis of different types of traction electric motor. This analysis allows to choose the most appropriate electric motor for serial hybrid vehicle. This article based on literature review and comparison of the characteristic of the for types of electric motor: DC motor, asynchronous motor with squirrel cage rotor, synchronous motor with permanent magnet and switch reluctance motor. Conclusion is that the switched reluctance motor is more suitable in using as a part of traction engine electrical transmission of vehicle.

Bahmutov S., Seliphonov V., Lomakin V., Karpuhin K. The ways of the problem decision of environment pollutions by automobile transport in the megapolises [Puti resheniya problemy zagryazneniya okruzhayushchey sredy avtomobilnym transportom v megapolisakh], Vestnik Kharkovskogo natsionalnogo avtomobilno-dorozhnogo universiteta [Bulletin of Kharkov National Automobile and Highway University], 2008, no.14, pp. 28-35. (in Russ.)

Barbashov N.N., Leonov I.V. Choice optimum power internal combustion engine hybrid power plant [Vybor optimalnoy moshchnosti dvigatelya vnutrennego sgoraniya gibridnoy silovoy ustanovki], Vestnik MGTU im. N.E. Baumana. Seriya Mashinostroenie [Herald of the Bauman Moscow State Technical University], 2010, no.4, pp. 47-54. (in Russ.)

Bahmutov S.V. Konstruktivnye skhemy avtomobiley s gibridnymi silovymi ustanovkami: uchebnoe posobie [Structural schemes of cars with hybrid power plants: study guide], Moscow, MGTU “MAMI”, 2007, 71 p. (in Russ.)

Prediger V., Hoffmann J., Trentmann V., Kostilev S., Lohmann E., Selifonov V., Karpukhin K., Baulina E. Automatic Control of Hybrid Transmission of an All-Wheel Drive Vehicle [Avtomaticheskoe upravlenie gibridnoy silovoy ustanovkoy polnoprivodnogo avtomobilya], Izvestiya MGTU MAMI [Izvestiya MGTU MAMI], 2009, no.1, pp. 60-67. (in Russ.)

Djuzhev A.A., Mariev P.L., Krasnevskiy L.G., Poddubko S.N., Belevich A.V. Hybrid propulsions of mobile machines is competitive direction of Belarus mechanical engineering [Gibridnye silovye ustanovki mobil'nykh mashin – konkurentosposobnoe napravlenie razvitiya mashinostroeniya Belarusi], Mekhanika mashin, mekhanizmov i materialov [Mechanics of machines, mechanisms and materials], 2014, no.2, pp. 5-11. (in Russ.)

Radionov A.A., Chernyshev A.D. Formation of technical requirements for automotive transmission [Formirovanie tekhnicheskikh trebovaniy k avtomobilnoy transmissii], Nauka i proizvodstvo Urala [Urals Science and Industry], 2015, no.11, pp. 85-89. (in Russ.)

Sleptsov M.A. Osnovy elektricheskogo transporta [Fundamentals of electric transport], Moscow, Academia, 2006, 464 p. (in Russ.)

Stashinov Yu.P. Traction drive mine battery electric motors on the basis of independent excitation windings [Tyagovyy privod shakhtnogo akkumulyatornogo elektrovoza na baze dvigateley s nezavisimymi obmotkami vozbuzhdeniya], Gornyy informatsionno-analiticheskiy byulleten (nauchno-tekhnicheskiy zhurnal) [Mining informational and analytical bulletin (scientific and technical journal)], 2009, no.12, pp. 210-215. (in Russ.)

Berbirenkov I.A., Lohnin V.V. Traction motors with permanent magnets in the drive [Tyagovye dvigateli na postoyannykh magnitakh v elektroprivode], Elektro. Elektrotekhnika, elektroenergetika, elektrotekhnicheskaya promyshlennost [Electro. Electrical power engineering, electrical engineering], 2011, no.1, pp. 27-28. (in Russ.)

Petrov B.I. Elektroprivod sistem upravleniya letatel'nykh apparatov: uchebnoe posobie dlya vuzov [Electric aircraft control systems: a manual for schools], Moscow, Mechanical engineering, 1973, 360 p. (in Russ.)

Berbirenkov I.A., Lohnin V.V. Traction motors with permanent magnets in the drive electric: [Tyagovye dvigateli na postoyannykh magnitakh v elektroprivode elektromobilya], Izvestiya Tomskogo politekhnicheskogo universiteta [Bulletin of the Tomsk Polytechnic University], 2011, no.4, pp. 148-150. (in Russ.)

Shagovik A.E. Sistema adaptivnogo upravleniya tyagovykh asinkhronnym privodom magistralnogo lokomotiva: dis. … kand. tekhn. nauk [Adaptive Control of traction induction motor drive system of the main locomotive: dissertation of the candidate of technical sciences], St. Petersburg, 2006, 150 p. (in Russ.)

Lazarev D.B. Energoeffektivnaya sistema individualnogo elektroprivoda vedushchikh koles transportnogo sredstva: dis. … kand. tekhn. nauk [Energy efficient system of individual electric vehicle drive wheels: dissertation of the candidate of technical sciences], Moscow, 2014, 183 p. (in Russ.)

Baulina E.E., Krutashov A.V., Serebryakov V.V. Do I need a manual transmission car with electric drive? [Nuzhna li korobka peredach avtomobilyu s elektroprivodom?], Nauka i obrazovanie: nauchnoe izdanie MGTU im. N.E. Baumana [Science and Education of Bauman MSTU], 2014, no.6, pp. 93-106. (in Russ.)

Opeyko O.F., Ptashnik A.I., Khilmon V.I. Tractional Electric Drive with Non-Sensing Element Vector Control System [Tyagovyy elektroprivod s bezdatchikovoy sistemoy vektornogo upravleniya], Energetika. Izvestiya vysshikh uchebnykh zavedeniy i energeticheskikh ob''edineniy SNG [ENERGETIKA. Proceedings of CIS higher education institutions and power engineering associations], 2010, no.6, pp. 37-43. (in Russ.)

Gollandtsev Yu.A. Comparison of mechanical characteristics of asynchronous and switched reluctance motors [Sravnenie mekhanicheskikh kharakteristik asinkhronnykh i ventilnykh induktorno-reaktivnykh dvigateley], Informatsionno-upravlyayushchie sistemy [Information and Control Systems], 2006, no.6, pp. 50-53. (in Russ.)

Gulyaev I.V., Tutaev G.M. Sistemy vektornogo upravleniya elektroprivodom na osnove asinkhronizirovannogo ventil'nogo dvigatelya : monografiya [Vector control system based on electric asynchronized valve engine: a monograph], Saransk, Izdatelstvo Mordovskogo universiteta, 2010, 200 p. (in Russ.)

Lashkevich M.M. Razrabotka sistemy upravleniya dlya elektrotransmissii s tyagovymi ventilno-induktornymi dvigatelyami: dis. … kand. tekhn. nauk [Development of a control system for the electric transmission with traction valve-inductor motor: dissertation of the candidate of technical sciences], 2013, 175 p. (in Russ.)

Berbirenkov I.A., Lohnin V.V. Traction motors with permanent magnets in electric drive vehicle [Tyagovye dvigateli na postoyannykh magnitakh v elektroprivode avtomobilya], Elektrotekhnicheskie i informatsionnye kompleksy i sistemy [Electrical and information systems and systems], 2011, no.2, pp. 10-12. (in Russ.)

Kozachenko V.F., Lashkevich M.M. Switched reluctance drive with external excitation for the traction electric drive [Ventilno-induktornyy elektroprivod s nezavisimym vozbuzhdeniem dlya tyagovogo primeneniya], Elektrotekhnicheskie i komp'yuternye sistemy [Electrotechnic and computer systems], 2011, no.3, pp. 138-139. (in Russ.)

Nikiforov B.V., Pakhomin S.A., Ptakh G.K. Switched Reluctance Motors for Traction Electric Drives [Ventilno-induktornye dvigateli dlya tyagovykh elektroprivodov], Elektrichestvo [Electrical Technology Russia], 2007, no.2, pp. 34-38. (in Russ.)

Nguyen Manh Tuan, Nguyen Trong Hai, The main advantages of switched reluctance motors compared to traditional motors [Osnovnye dostoinstva reaktivno-ventilnykh elektrodvigateley po sravneniyu s traditsionnymi elektrodvigatelyami], Izvestiya Tulskogo gosudarstvennogo universiteta. Tekhnicheskie nauki [News of the Tula State University. Technical science], 2014, no.8, pp. 184-187. (in Russ.)

Kozachenko V.F., Korpusov D.E. Power on the basis of valve inductor machines with electromagnetic excitation [Elektroprivod na baze ventilnykh induktornykh mashin s elektromagnitnym vozbuzhdeniem], Elektronnye komponenty [Electronic components], 2005, no.6, pp. 60-64. (in Russ.)

Grigoryev M.A. Sinkhronnyy reaktivnyy elektroprivod s nezavisimym upravleniem po kanalu vozbuzhdeniya i predel'nymi kharakteristikami po bystrodeystviyu i peregruzochnym sposobnostyam: dis. … doktora. tekhn. nauk [Reluctance drive with independent control over the channel excitation and limiting characteristics for speed and overload capacity: dissertation of the doctor of technical sciences], Chelyabinsk, 2013, 325 p. (in Russ.)

Petrushin A.D., Grebennikov N.V., Piotrovski A.P. Choice of direct drive traction motor type for electric train [Vybor tipa elektrodvigatelya bezreduktornogo ispolneniya dlya elektropoezda], Vestnik Rostovskogo gosudarstvennogo universiteta putey soobshcheniya [Brief Summary of the Journal], 2010, no.4, pp. 49-53. (in Russ.)

Grigorev M.A., Shishkov A.N., Sychev D.A., Menshenin A.S., Hayatov E.S. Realization of electric traction drive extreme characteristics [Realizatsiya predelnykh kharakte-ristik v tyagovom elektroprivode], Fundamentalnyye i prikladnyye issledovaniya v sovre-mennom mire [Fundamental and applied research in the modern world], 2015, no.15, pp. 17-22. (in Russ.)

Ostroverkhov M. System of vector control traction switched reluctance electric drive [Sistema vektornogo upravleniya tyagovym ventilno-induktornym elektroprivodom], Elektrotekhnicheskie i kompyuternye sistemy [Electrotechnic and computer systems], 2014, no.15, pp. 41-44. (in Russ.)

Guryanov G.B. The concept of a hybrid minivan with individual electric wheel [Kontseptsiya gibridnogo mikroavtobusa s individualnym elektroprivodom koles], Trudy “Prioritety razvitiya otechestvennogo avtotraktorostroeniya” [Proc. “Priorities for the development of domestic of tractor”], Moscow, 2014, pp. 12-15. (in Russ.)

Usynin Y.S., Grigoriev M.A., Shishkov A.N., Vinogradov KM., Gorozhankin A.N., Bychkov A.E. Power losses in the variable-speed electric drives at different control laws [Poteri v reguliruemykh elektroprivodakh pri raznykh zakonakh upravleniya], Vestnik Yuzhno-Uralskogo gosudarstvennogo universiteta. Seriya: Energetika. [Bulletin of South Ural State University. Series “Power Engineering”], 2010, no.14, pp. 47-51. (in Russ.)

Grigorev M.A. Specific Weight-Dimension Factors of the Electric Drives [Udelnye massogabaritnye pokazateli elektroprivodov], Vestnik Yuzhno-Uralskogo gosudarstvennogo universiteta. Seriya: Energetika [Bulletin of South Ural State University. Series “Power Engineering”], 2013, no.1, pp. 111-117. (in Russ.)

Bakhmutov S.V. Konstruktivnye skhemy avtomobiley s gibridnymi silovymi ustanovkami: uchebnoe posobie [Structural schemes of cars with hybrid power plants: a tutorial], Moscow, MGTU MAMI, 2007, 71 p. (in Russ.)

Lukic S.M. Effects of drivetrain hybridization on fuel economy and dynamic performance of parallel hybrid electric vehicles, IEEE Trans. Veh. Technol, 2004, vol.53, is.2, pp. 385-389. DOI: 10.1109/TVT.2004.823525

Bakhmutov S.V., Filonov A.I., Kulikov I.A. Development of a delivery of a hybrid vehicle using domestic components [Razrabotka razvoznogo gibridnogo avtomobilya s ispolzovaniyem otechestvennykh komponentov], Nauka i obrazovanie: nauchnoe izdanie MGTU im. N.E. Baumana [Science and Education of Bauman MSTU], 2014, no.6, pp. 82-92. (in Russ.)

Ilimbetov R.Y., Astapenko A.M. Development of the assembly scheme combined power plant for trucks with improved environmental performance [Razrabotka komponovochnoy skhemy kombinirovannoy energeticheskoy ustanovki dlya gruzovogo avtomobilya s uluchshennymi ekologicheskimi pokazatelyami], Vestnik Yuzhno-Uralskogo gosudarstvennogo universiteta. Seriya: Mashinostroenie [Bulletin of South Ural State University. Series “Mechanical engineering industry”], 2013, no.1, pp. 72-79. (in Russ.)