Sensorless Torque Controlled Induction Motor Drives for Applications with Large Parameter Deviation
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Vinogradov A.B. Vektornoe upravlenie elektroprivodami peremennogo toka [Vector control of AC electric drives], Ivanovo, Ivanovo State Power Engineering University named after V.I. Lenin, 2008, 320 p. (in Russ.)
Vinogradov A.B., Kolodin I.Yu. A Sensorless Asynchronous Electric Drive with an Adaptive-Vector Control System [Bezdatchikovyy asinkhronnyy elektroprivod s adaptivno-vektornoy sistemoy upravleniya], Elektrichestvo [Electricity], 2007, no.2, pp. 44-50. (in Russ.)
Vinogradov A.B., Gnezdov N.E., Glebov N.A. Features of the control of electric drives of vehicles with electromechanical transmission [Osobennosti upravleniya elektroprivodami transportnykh sredstv s elektromekhanicheskoy transmissiey], Vestnik Natsional'nogo tekhnicheskogo universiteta "Khar'kovskiy politekhnicheskiy institut". Seriya: Problemy avtomatizirovannogo elektroprivoda. Teoriya i praktika [Bulletin of the National Technical University "Kharkov Polytechnic Institute". Series: Problems of automated electric drive. Theory and practice (special issue)], 2013, no.36 (1009), pp. 278-279. (in Russ.)
Vinogradov A.B., Chistoserdov V.L., Sibirtsev A.N. Kits for traction electrical equipment for heavy duty dump trucks [Komplekty tyagovogo elektrooborudovaniya dlya kar'yernykh samosvalov bol'shoy gruzopod''emnosti], Dobyvayushchaya promyshlennost' [Extractive industry], 2017, no.2 (06), pp. 90-93. (in Russ.)
Vinogradov A.B., Izosimov D.B., Florentsev S.N., Glebov N.A. Method to optimize efficiency of vector control system of induction traction electric drive with parameter identifier [Optimizatsiya KPD sistemy vektornogo upravleniya asinkhronnym tyagovym elektroprivodom s identifikatorom parametrov], Russian Electrical Engineering, 2010, vol. 81, no.12, pp. 635-643. DOI: 10.3103/S1068371210120023
Vinogradov A.B., Sibirtsev A.N., Kolodin I.Yu. Adaptive-vector control system of a non-discrete asynchronous electric drive of the EPO series [Adaptivno-vektornaya sistema upravleniya bezdatchikovogo asinkhronnogo elektroprivoda serii EPV], Silovaya Elektronika [Power Electronics], 2006, no.3, pp. 46-51. (in Russ.)
Vinogradov A.B., Sibirtsev A.N., Zhuravlev S.V. Sensorless electric drive of hoisting and transport mechanisms [Bezdatchikovyy elektroprivod pod''emno-transportnykh mekhanizmov], Silovaya Elektronika [Power Electronics], 2007, no.1, pp. 78-84. (in Russ.)
Kubota H., Matsuse K., Nacmo T. DSP-Based Speed Adaptive Flux Observer of Induction Motor, IEEE transactions on industry applications, 1993, vol. 29, no.2. DOI: 10.1109/IAS.1991.178183
Holts J. Methods for Speed Sensorless Control of AC Drives, Sensorless Control of AC Motors, IEEE Press Book, Germany, 1996.
Holts J. Sensorless Speed and Position Control of In-duction Motor Drives, IEEE Electrical Machines and Drives Group, University of Wuppertal, Germany, IECON Roanoke VA, 2003.
Pankratov V.V., Kotin D.A. Adaptivnye algoritmy bezdatchikovogo vektornogo upravleniya asinkhronnymi elektroprivodami pod''emno-transportnykh mekhanizmov: ucheb. Posobie [Adaptive algorithms of sensorless vector control of asynchronous electric drives of hoisting and transport mechanisms: a training manual], Novosibirsk, Publishing house of NSTU, 2012, 143 p. (in Russ.)
DOI: http://dx.doi.org/10.24892/RIJEE/20180107
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