1 S. -G. Oh, "Two-phase SRM with fluxreversal-free stator : concept, analysis, design, and experimental verification" 43 (43): 1247-1257, 2007
2 R. Krishnan, "Switched Reluctance Motor Drives Modelling, Simulation, Analysis, Design and Applications" CRC Press 2001
3 K. N. Srinivas, "Static and dynamic vibration analyses of switched reluctance motors including bearings, housing, rotor dynamics, and applied loads" 40 (40): 1911-1919, 2004
4 Hui Zeng, "Smooth Torque Speed Characteristic of Switched Reluctance Motors" 전력전자학회 14 (14): 341-350, 2014
5 K. Lu, "Single-phase hybrid switched reluctance motor for low-power low-cost applications" 47 (47): 3288-3291, 2011
6 F. Sahin, "Optimum geometry for torque ripple minimization of switched reluctance motors" 15 (15): 30-39, 2000
7 C. Lee, "Novel two-phase switched reluctance machine using common-pole e-core structure : Concept, analysis, and experimental verification" 45 (45): 703-711, 2009
8 G. Bhuvaneswari, "Modeling of a Switched Reluctance Motor in Sensorless and “With Sensor” Modes" 전력전자학회 6 (6): 315-321, 2006
9 W. Cai, "Lowvibration design of switched reluctance motors for automotive applications using modal analysis" 39 (39): 971-977, 2003
10 W. Hua, "Investigation of a five-phase E-core hybrid-excitation flux-switching machine for EV and HEV applications" 55 (55): 124-133, 2017
1 S. -G. Oh, "Two-phase SRM with fluxreversal-free stator : concept, analysis, design, and experimental verification" 43 (43): 1247-1257, 2007
2 R. Krishnan, "Switched Reluctance Motor Drives Modelling, Simulation, Analysis, Design and Applications" CRC Press 2001
3 K. N. Srinivas, "Static and dynamic vibration analyses of switched reluctance motors including bearings, housing, rotor dynamics, and applied loads" 40 (40): 1911-1919, 2004
4 Hui Zeng, "Smooth Torque Speed Characteristic of Switched Reluctance Motors" 전력전자학회 14 (14): 341-350, 2014
5 K. Lu, "Single-phase hybrid switched reluctance motor for low-power low-cost applications" 47 (47): 3288-3291, 2011
6 F. Sahin, "Optimum geometry for torque ripple minimization of switched reluctance motors" 15 (15): 30-39, 2000
7 C. Lee, "Novel two-phase switched reluctance machine using common-pole e-core structure : Concept, analysis, and experimental verification" 45 (45): 703-711, 2009
8 G. Bhuvaneswari, "Modeling of a Switched Reluctance Motor in Sensorless and “With Sensor” Modes" 전력전자학회 6 (6): 315-321, 2006
9 W. Cai, "Lowvibration design of switched reluctance motors for automotive applications using modal analysis" 39 (39): 971-977, 2003
10 W. Hua, "Investigation of a five-phase E-core hybrid-excitation flux-switching machine for EV and HEV applications" 55 (55): 124-133, 2017
11 D. Wu, "Electromagnetic performance of novel synchronous machines with permanent magnets in stator yoke" 50 (50): 2014
12 M. Masoumi, "E-core hybrid reluctance motor with permanent magnets inside common stator poles" 33 (33): 826-833, 2018
13 J. -H. Lee, "Dynamic vibration analysis of switched reluctance motor using magnetic charge force density and mechanical analysis" 12 (12): 1511-1514, 2002
14 N. S. Lobo, "Doubly-salient permanent magnet fluxreversal-free-stator switched reluctance machines" Virginia Polytechnic Institute and State University 2011
15 Z. -C. You, "Design of a high starting torque single-phase DCexcited flux switching machine" 64 (64): 9905-9913, 2017
16 L. Xu, "Design and analysis of a new linear hybrid excited flux reversal motor with inset permanent magnets" 50 (50): 2014
17 Hongtao Zhang, "Design and Analysis of a Segmental Rotor Type 12/8 Switched Reluctance Motor" 전력전자학회 14 (14): 866-873, 2014
18 P. Su, "Analysis of the operation principle for rotor-permanent-magnet fluxswitching machines" 65 (65): 1062-1073, 2018
19 C. Lee, "Analysis and design of novel e-core common pole switched reluctance machine" Virginia Polytechnic Institute and State University 2010
20 P. Pillay, "An investigation into vibration in Switched reluctance Motors" 32 (32): 589-596, 1999
21 H. Eskandari, "An improved 9/12 twophase E-core switched reluctance machine" 28 (28): 951-958, 2013
22 He Cheng, "Adaptive Variable Angle Control in Switched Reluctance Motor Drives for Electric Vehicle Applications" 전력전자학회 17 (17): 1512-1522, 2017
23 T. H. Kim, "A study on the design of an inset-permanentmagnet-type flux-reversal machine" 45 (45): 2859-2862, 2009
24 Y. Hasegawa, "A novel switched reluctance motor with the auxiliary windings and permanent magnets" 48 (48): 3855-3858, 2012
25 S. -H. Mao, "A novel switched reluctance motor with C core stator" 41 (41): 4413-4420, 2005
26 Y. Liao, "A novel Permanent Magnet motor with Doubly salient structure" 31 (31): 1069-1078, 1995