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Electrical Engineering
Erschienen in: Electrical Engineering 5/2022

26.02.2022 | Original Paper

Model predictive flux control of six-phase permanent magnet synchronous motor with novel virtual voltage vectors

verfasst von: Ming Yao, Jingyao Peng, Xiaodong Sun

Erschienen in: Electrical Engineering | Ausgabe 5/2022

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Abstract

This paper presents a model predictive flux control strategy for a six-phase permanent magnet synchronous motor with novel virtual voltage vectors. First, the novel virtual vector combination suppresses the stator current harmonics in the xy subspace and simplifies the cost function. In order to be easily implemented in a real-time system, the vectors are cleverly synthesized in two different ways. In addition, the use of 24 auxiliary vectors of two different magnitudes effectively reduces torque ripple. For the sake of reducing the computational burden, the range of prediction vectors is further reduced by dividing sectors and look-up tables. Finally, the effectiveness of the proposed method is verified by experimental comparison.
Vorheriger Artikel Transformer model with hysteresis for electromagnetic transients computation in the frequency domain
Nächster Artikel Determining the life cycle cost and reliability of an induction motor designed for light vehicle applications: a comparative analysis

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Literatur
1.
Kang J, Li X, Liu Y, Mu S, Wang S (2018) Predictive current control with torque ripple minimization for PMSM of electric vehicles, In: 2018 IEEE international power electronics and application conference and exposition (PEAC)
2.
Sun X, Shi Z, Lei G, Guo Y, Zhu J (2021) Multi-objective design optimization of an IPMSM based on multilevel strategy. IEEE Trans Industr Electron 68(1):139–148CrossRef
3.
Yu F, Zhang W, Shen Y, Mao J (2018) A nine-phase permanent magnet electric-drive-reconstructed onboard charger for electric vehicle. IEEE Trans Energy Convers 33(4):2091–2101CrossRef
4.
Sun X, Wu M, Yin C, Wang S (2021) Model predictive thrust force control for linear motor actuator used in active suspension. IEEE Trans Energy Convers 36(4):3063–3072CrossRef
5.
Sun X, Diao K, Lei G, Guo Y, Zhu J (2021) Direct torque control based on a fast modeling method for a segmented-rotor switched reluctance motor in HEV application. IEEE J Emerg Selected Topics Power Electron 9(1):232–241CrossRef
6.
Li H, Xie H, Xie Y (2018) Research on PMSM model predictive control for ship electric propulsion. Chinese Control Decis Conf (CCDC) 2018:1392–1398
7.
Shao L, Hua W, Dai N, Tong M, Cheng M (2016) Mathematical modeling of a 12-phase flux-switching permanent-magnet machine for wind power generation. IEEE Trans Industr Electron 63(1):504–516CrossRef
8.
Shi Z, Sun X, Cai Y, Yang Z (2020) Robust design optimization of a five-phase PM hub motor for fault-tolerant operation based on taguchi method. IEEE Trans Energy Convers 35(4):2036–2044CrossRef
9.
Chen H, He J, Demerdash NAO, Guan X, Lee CHT (2021) Diagnosis of open-phase faults for a five-phase PMSM fed by a closed-loop vector-controlled drive based on magnetic field pendulous oscillation technique. IEEE Trans Industr Electron 68(7):5582–5593CrossRef
10.
Sun X, Li T, Tian X, Zhu J (2022) Fault-tolerant operation of a six-phase permanent magnet synchronous hub motor based on model predictive current control with virtual voltage vectors. IEEE Trans Energy Convers 37(1):337–346CrossRef
11.
Yu F, Cheng M, Chau KT (2016) Controllability and performance of a nine-phase FSPM motor under severe five open-phase fault conditions. IEEE Trans Energy Convers 31(1):323–332CrossRef
12.
Chen L, Xu H, Sun X (2021) A novel strategy of control performance improvement for six-phase permanent magnet synchronous hub motor drives of EVs under new european driving cycle. IEEE Trans Veh Technol 70(6):5628–5637CrossRef
13.
Ma X, Yu Y, Zhang H, Wang W, Liu L (2015) Study on direct torque control of dual Y shift 30 degree six-phase PMSM, In: 2015 IEEE 10th conference on industrial electronics and applications (ICIEA), pp 1964–1968
14.
Gonçalves PFC, Cruz SMA, Mendes AMS (2020) Diagnosis of open-phase faults and high resistance connections in six-phase PMSM drives, In: 2020 international conference on smart energy systems and technologies (SEST).
15.
Guo H, Guo S, Xu J, Tian X (2021) Power switch open-circuit fault diagnosis of six-phase fault tolerant permanent magnet synchronous motor system under normal and fault-tolerant operation conditions using the average current Park’s vector approach. IEEE Trans Power Electron 36(3):2641–2660CrossRef
16.
Shriwastava RG, Bhise DR, Nagrale P (2019) Comparative analysis of FOC based three level DCMLI driven PMSM drive, In: 2019 international conference on innovative trends and advances in engineering and technology (ICITAET)
17.
Jin Z, Sun X, Lei G, Guo Y, Zhu J (2022) Sliding mode direct torque control of SPMSMs based on a hybrid wolf optimization algorithm. IEEE Trans Industr Electron 69(5):4534–4544CrossRef
18.
Jiang W, Wang P, Ni Y, Wang J, Wang L, Liao Y (2018) Multimode current hysteresis control for brushless DC motor in motor and generator state with commutation torque ripple reduction. IEEE Trans Industr Electron 65(4):2975–2985CrossRef
19.
Sun X, Wu J, Lei G, Guo Y, Zhu J (2021) Torque ripple reduction of SRM drive using improved direct torque control with sliding mode controller and observer. IEEE Trans Industr Electron 68(10):9334–9345CrossRef
20.
Li J, Ren H, Wang S, Fang Y (2020) Integral sliding mode control for PMSM with uncertainties and disturbances via nonlinear disturbance observer, In: 2020 39th Chinese control conference (CCC), pp 2055–2060
21.
Sun X, Cao J, Lei G, Guo Y, Zhu J (2021) A composite sliding mode control for SPMSM drives based on a new hybrid reaching law with disturbance compensation. IEEE Trans Transp Electrif 7(3):1427–1436CrossRef
22.
Barrero F et al (2011) An enhanced predictive current control method for asymmetrical six-phase motor drives. IEEE Trans Industr Electron 58(8):3242–3252CrossRef
23.
Sun X, Wu M, Lei G, Guo Y, Zhu J (2021) An improved model predictive current control for PMSM drives based on current track circle. IEEE Trans Industr Electron 68(5):3782–3793CrossRef
24.
Liu S, Liu C (2021) Virtual-vector-based robust predictive current control for dual three-phase PMSM. IEEE Trans Industr Electron 68(3):2048–2058CrossRef
25.
Chen L, Xu H, Sun X, Cai Y (2021) Three-vector-based model predictive torque control for a permanent magnet synchronous motor of EVs. IEEE Trans Transp Electrif 7(3):1454–1465CrossRef
26.
Sun D, Chen W, Cheng Y, Nian H (2021) Improved direct torque control for open-winding PMSM system considering zero-sequence current suppression with low switching frequency. IEEE Trans Power Electron 36(4):4440–4451CrossRef
27.
Wu M, Sun X, Zhu J, Lei G, Guo Y (2021) Improved model predictive torque control for PMSM drives based on duty cycle optimization. IEEE Trans Magn 57(2):1–5
28.
Zhao Y, Lipo TA (1994) Space vector PWM control of dual three phase induction machine using vector space decomposition, In: Proceedings of 1994 IEEE industry applications society annual meeting, pp. 742–749, vol. 1
29.
30.
Luo Y, Liu C (2018) A simplified model predictive control for a dual three-phase PMSM with reduced harmonic currents. IEEE Trans Industr Electron 65(11):9079–9089CrossRef
31.
Gonzalez-Prieto I, Duran MJ, Aciego JJ, Martin C, Barrero F (2018) Model predictive control of six-phase induction motor drives using virtual voltage vectors. IEEE Trans Industr Electron 65(1):27–37CrossRef
32.
Bermudez M, Arahal MR, Duran MJ, Gonzalez-Prieto I (2021) Model predictive control of six-phase electric drives including ARX disturbance estimator. IEEE Trans Industr Electron 68(1):81–91CrossRef
33.
34.
Pandit JK, Aware MV, Nemade RV, Levi E (2017) Direct torque control scheme for a six-phase induction motor with reduced torque ripple. IEEE Trans Power Electron 32(9):7118–7129CrossRef
35.
Luo Y, Liu C (2019) A flux constrained predictive control for a six-phase PMSM motor with lower complexity. IEEE Trans Industr Electron 66(7):5081–5093CrossRef
36.
Luo Y, Liu C (2020) Model predictive control for a six-phase PMSM motor with a reduced-dimension cost function. IEEE Trans Industr Electron 67(2):969–979CrossRef
37.
Aciego JJ, González Prieto I, Duran MJ, Bermudez M, Salas-Biedma P (2021) Model predictive control based on dynamic voltage vectors for six-phase induction machines. IEEE J Emerg Selected Topics Power Electron 9(3):2710–2722CrossRef
38.
Luo Y, Liu C (2019) Multi-vector-based model predictive torque control for a six-phase PMSM motor with fixed switching frequency. IEEE Trans Energy Convers 34(3):1369–1379CrossRef
39.
Yu F, Liu X, Zhu Z, Mao J (2021) An improved finite-control-set model predictive flux control for asymmetrical six-phase PMSMs with a novel duty-cycle regulation strategy. IEEE Trans Energy Convers 36(2):1289–1299CrossRef
Metadaten
Titel
Model predictive flux control of six-phase permanent magnet synchronous motor with novel virtual voltage vectors
verfasst von
Ming Yao
Jingyao Peng
Xiaodong Sun
Publikationsdatum
26.02.2022
Verlag
Springer Berlin Heidelberg
Erschienen in
Electrical Engineering / Ausgabe 5/2022
Print ISSN: 0948-7921
Elektronische ISSN: 1432-0487
DOI
https://doi.org/10.1007/s00202-022-01515-6

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