1 Allahyari A, "a novel high-performance consequent pole dual rotor permanent magnet vernier machine" 35 (35): 1238-1246, 2020
2 Lee CH, "Vernier motor and its design" 82 (82): 343-349, 1963
3 Raminosoa T, "Sinusoidal reluctance machine With DC winding : an attractive non-permanent-magnet option" 52 (52): 2129-2137, 2015
4 Jia S, "Principles of stator dc winding excited vernier reluctance machines" 31 (31): 935-946, 2016
5 Wu F, "Permanent magnet vernier machine : a review" 13 (13): 127-137, 2019
6 Chau KT, "Overview of permanent-magnet brushless drives for electric and hybrid electric vehicles" 55 (55): 2246-2257, 2008
7 Zhang Z, "Overview and design methodology of doubly salient brushless dc generator with stator field winding" 11 (11): 197-211, 2017
8 Kim B, "Operation and design principles of a PM vernier motor" 2013
9 Yin X, "High-torque-density pseudo direct-drive permanent-magnet machine with less magnet" 12 (12): 37-44, 2018
10 Toba A, "Generic torque-maximizing design methodology of surface permanent-magnet vernier machine" 36 (36): 1539-1546, 2000
1 Allahyari A, "a novel high-performance consequent pole dual rotor permanent magnet vernier machine" 35 (35): 1238-1246, 2020
2 Lee CH, "Vernier motor and its design" 82 (82): 343-349, 1963
3 Raminosoa T, "Sinusoidal reluctance machine With DC winding : an attractive non-permanent-magnet option" 52 (52): 2129-2137, 2015
4 Jia S, "Principles of stator dc winding excited vernier reluctance machines" 31 (31): 935-946, 2016
5 Wu F, "Permanent magnet vernier machine : a review" 13 (13): 127-137, 2019
6 Chau KT, "Overview of permanent-magnet brushless drives for electric and hybrid electric vehicles" 55 (55): 2246-2257, 2008
7 Zhang Z, "Overview and design methodology of doubly salient brushless dc generator with stator field winding" 11 (11): 197-211, 2017
8 Kim B, "Operation and design principles of a PM vernier motor" 2013
9 Yin X, "High-torque-density pseudo direct-drive permanent-magnet machine with less magnet" 12 (12): 37-44, 2018
10 Toba A, "Generic torque-maximizing design methodology of surface permanent-magnet vernier machine" 36 (36): 1539-1546, 2000
11 Joseph Vardi, "Electric Energy Generation; Economics, Reliability and Rates" MIT 75-94, 1981
12 Atallah K, "Design, analysis and realization of a high-performance magnetic gear" 151 (151): 135-143, 2004
13 Liu Y, "Design optimization of a novel doubly fed dual-rotor flux-modulated machine for hybrid electric vehicles" 51 (51): 1-4, 2015
14 Chau KT, "Design of a magnetic-geared outer-rotor permanent-magnet brushless motor for electric vehicles" 43 (43): 2504-2506, 2007
15 Wang Q, "Design and analysis of novel magnetic flux-modulated mnemonic machines" 9 : 469-477, 2015
16 Tlali PM, "Design and Performance comparison of vernier and conventional PM synchronous wind generators" 56 (56): 2570-2579, 2020
17 Yu J, "DC-biased operation of a double-stator hybrid flux switching permanent-magnet machine" 56 (56): 2020
18 Jia S, "Comparison of Stator DC current excited vernier reluctance machines with different field winding configurations" 53 (53): 2017
19 Rostami M, "Analysis of linear primary permanent magnet vernier machine using finite element method" 2020
20 Crider JM, "An inner rotor flux-modulated permanent magnet synchronous machine for low-speed high-torque applications" 30 (30): 1247-1254, 2015
21 Atallah K, "A novel high-performance magnetic gear" 37 (37): 2844-2846, 2001
22 Jia S, "A Stator-PM consequentpole vernier machine with hybrid excitation and DC-biased sinusoidal current" 53 (53): 2017