Features of frequency analysis of torque control loop in ac electric drives

Authors

  • A. N. Shishkov South Ural State University, Chelyabinsk
  • D. A. Sychev South Ural State University, Chelyabinsk
  • N. V. Savosteenko South Ural State University, Chelyabinsk
  • M. N. Krupnova South Ural State University, Chelyabinsk
  • A. A. Zemlyansky South Ural State University, Chelyabinsk

DOI:

https://doi.org/10.14529/power170210

Keywords:

electric drive, frequency control, bode plots, synchronous reluctance motor

Abstract

In the article, the structural scheme of the synchronous motor torque control channel is shown and mathematically described. Passing of a sine signal in the torque control loop is considered, equations for describing the dynamic properties of the current control loop are given. Specific features relating to the frequency characteristics of the channel for controlling of the electromagnetic torque in the adjustable variable speed drive with synchronous electric machines are considered. The control channel is regarded as a linear system with amplitude modulation. A comparative analysis of the experimental and calculated Bode plots of the current and torque control loops is carried out.

Author Biographies

A. N. Shishkov, South Ural State University, Chelyabinsk

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D. A. Sychev, South Ural State University, Chelyabinsk

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N. V. Savosteenko, South Ural State University, Chelyabinsk

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M. N. Krupnova, South Ural State University, Chelyabinsk

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A. A. Zemlyansky, South Ural State University, Chelyabinsk

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References

Efimenko E.I. Physical Processes in Salient Poles Alternating Current Machines and their Ana-lytical Description Taking into Account Discrete Windings. Electrical Technology Russia, 2001, iss. 4, pp. 27–36.

Golubev A.N., Lapin A.A. A Multiphase Synchronous Electric Drive. Electrical Technology Russia, 2005, iss. 2, pp. 43–47.

Usynin Yu.S., Grigor'ev M.A., Vinogradov K.M. [Electric Drives and Generators with Synchronous Reactive Machine of Independent Excitation]. Elec-trical Technology Russia, 2007, iss. 3, pp. 21–27.

(in Russ.)

Ivanov E.S. [Principles of Using Phase EMF in Electric Drives with Frequency-Current Control of AC Motor Torque]. Electrical Technology Rus-sia, 2008, iss. 7, pp. 32–42. (in Russ.)

Shreyner R.T., Krivovyaz V.K., Kalygin A.I. [Control of Direct Frequency Converters with PWM in AC Drive Systems]. Electrical Technology Rus-sia, 2007, iss. 5, pp. 26–38. (in Russ.)

Dement'ev Yu.N. [Mathematical Description of Static and Dynamic Modes of an Electric Drive of an Alternating Current with Gate Converters]. Elec-trical Technology Russia, 2009, iss. 12, pp. 45–51. (in Russ.)

Usynin Yu.S., Grigor'ev M.A., Shishkov A.N. [Frequency Characteristics of Torque Control Channel in Synchronous Electric Drives]. Electrical Techno¬logy Russia, 2012, iss. 4, pp. 54–60. (in Russ.)

Karzhavov B.N. [About Control of Torque of Executive Motor in Electric Drives]. Electrical Technology Russia, 2011, iss. 2, pp. 39–46. (in Russ.)

Dement'ev Yu.N. [Mathematical Description of AC Drives with a Gate Converter]. Electrical Technology Russia, 2012, iss. 6, pp. 36–42. (in Russ.)

Terekhov V.M. [Modern Control Methods and their Use in the Electric Drive]. Russian Elec-trical Engineering, 2000, iss. 2, pp. 25–28. (in Russ.)

Vayner G.A., Stroganov B.G. Controllable Synchronous Motor in System with Frequency and Phase Feedback. Russian Electrical Engineering, 2005, iss. 6, pp. 1–9.

Litvinov B.V., Davydenko O.B. Synchro-nous Reluctance Motor with a Laminated Rotor. Russian Electrical Engineering, 2009, vol. 80, iss. 1, pp. 29–32.

Litvinov B.V., Davydenko O.B. Synchro-nous Reluctance Motors with Lowered Magnetic Conductivity along Transverse Axis. Russian Elec-trical Engineering, 2010, vol. 81, iss. 3, pp. 121–125. DOI: 10.3103/S106837121003003X

Solomatin A.A., Meshcheryakov V.N., Le¬vin P.N. [Synchronized Asynchronous Electric Drive with Frequency Control]. Elektromekhanika [Russian Electromechanics], 2009, iss. 2, pp. 51–57. (in Russ.)

Davydenko O.B., Kazanskiy V.M. Substi-tution Circuit of Reactive Synchronous Motor with Laminated Rotor. Russian Electrical Engineering, 1998, iss. 2, pp. 18–22.

Kobzev A.A., Novikova N.A., MishulinYu.E. Electric Drive Control System with Control Signal Modulation. Electrical Technology Russia, 1997, iss. 4, pp. 21–25.

Plakhtyna E.G., Shakaryan Yu.G., Vinits-kiy Yu.D., Vasyliv K.N., Lozinskiy A.S. Mathemat-ical Model of AC Adjustable-Frequency Electric Drive. Electrical Technology Russia, 1996, iss. 3,

pp. 53–59.

Kurbasov A.S. Parameters of Reluctance Motors. Electrical Technology Russia, 1994, iss. 12, pp. 58–62.

Tarasov V.N. [Low-Power Synchronous Electric Drives with Adjustable Magnetic Excita-tion]. Electrical Technology Russia, 1990, iss. 11, pp. 38–43. (in Russ.)

Kodkin V.L., Gafiyatullin R.Kh., Khayb-zhov E.R. [Frequency Analysis of Digital Control Systems for High-Precision Servomechanical Drives with Regard to the Suppression Link]. Bulletin of South Ural State University, Series “Power Engi-neering”, 2002, iss. 2, pp. 60–63. (in Russ.)

Usynin Yu.S., Butakov S.M., Grigor'ev M.A., Karavaev G.V., Vinogradov K.M. [Experi-mental Frequency of Characteristics of AC Drives with Valve Frequency Converters]. Bulletin of South Ural State University, Ser. Power Engineering, 2002, iss. 2,

pp. 67–70. (in Russ.)

UsyninYu.S., Monyushko N.D., Grigor'ev M.A., Karavaev G.V., Vinogradov K.M. [Electric Drive With Synchronous Independent-excitation Jet Engine]. Bulletin of South Ural State University, Ser. Power Engineering, 2001, iss. 1, pp. 70–77. (in Russ.)

Published

2017-09-29

Issue

Section

Elecromechanical systems