Engineering
Permanent Magnet
100%
Electrical Machine
76%
Rotors
75%
Power Density
50%
Finite Element Method
46%
Synchronous Machine
32%
Synchronous Generator
27%
Permanent Magnet Synchronous Motor
27%
Motor Drive
26%
Experimental Result
22%
Aerospace Applications
20%
Analytical Model
19%
Starters
19%
Induction Machine
17%
Permanent Magnet Motor
17%
Machine Design
15%
Design Optimization
14%
Simulation Result
14%
Drive System
13%
Fits and Tolerances
12%
Harmonics
11%
Finite Element Modeling
10%
Control Strategy
10%
Copper Loss
10%
Reluctance Motor
9%
Power Electronics
9%
Electric Machine
9%
Computational Fluid Dynamics
8%
Lumped Parameter
8%
Thermal Performance
8%
Circuit Faults
8%
Induction Motor
8%
Electric Drives
7%
Electric Power Distribution
7%
Magnetic Field
7%
Thermal Model
7%
Eddy Current Loss
7%
Flux Density
7%
Power Converter
7%
Temperature Distribution
7%
Automotives
7%
Design Consideration
7%
Design Procedure
6%
Power Loss
6%
Degree of Freedom
6%
Open Circuit
6%
Genetic Algorithm
6%
Current Harmonic
6%
Limitations
6%
Design Aspect
6%
Transients
6%
Radial Force
6%
Control System
6%
Test Rig
6%
Automotive Application
6%
Space Vector
6%
Optimal Design
6%
Traction Motors
5%
Electric Vehicle
5%
Tasks
5%
Design Stage
5%
Fiber Bragg Grating
5%
Thermal Behavior
5%
Structural Design
5%
Thermal Fluid
5%
Power Supply
5%
Energy Engineering
5%
Keyphrases
Electrical Machines
65%
Rotor
32%
High Power Density
26%
More Electric Aircraft
26%
Finite Element Analysis
21%
Stator
21%
Power Density
19%
Permanent Magnet Machines
19%
Synchronous Reluctance Motor (SynRM)
19%
Aerospace Applications
18%
Synchronous Generator
16%
Permanent Magnet Synchronous Machine
15%
High Performance
14%
Analytical Model
14%
Machine Design
14%
Aerospace
14%
Induction Machine
14%
Permanent Magnet
14%
Design Optimization
13%
Control Method
12%
Salient-pole Synchronous Machine
12%
Permanent Magnet Motor
11%
Starter-generator
11%
Fault-tolerant
11%
Thermal Management
10%
Electromechanical Actuator
10%
Permanent Magnet Synchronous Motor
10%
Electromagnetic Performance
10%
Actuator
9%
Multi-sector
9%
High Efficiency
9%
Interior Permanent Magnet Synchronous Motor (IPMSM)
9%
Air Gap
9%
AC Loss
8%
Traction Application
8%
Finite Element
8%
Sensitivity Analysis
8%
High-speed Permanent Magnet Machine
8%
Electric Machines
8%
Thermal Analysis
8%
High Power
8%
Torque Ripple
7%
Power Electronics
7%
Computational Fluid Dynamics
7%
Hairpin Winding
7%
Damper Cage
7%
Finite Element Model
7%
Lumped Parameter Thermal Network
7%
Rotor Design
7%
Electrification
7%
Fault Tolerance
7%
Slot-pole Combination
7%
Iron Loss
7%
End Winding
7%
Multi-three-phase
6%
Bearingless
6%
Thermal Network
6%
Thermal Performance
6%
Synchronous Machine
6%
Machining Performance
6%
Eddy Current Loss
6%
Electric Drive
6%
Halbach Array
6%
Electric Motor
6%
Electromagnetic Design
6%
Operating Conditions
6%
Design Procedure
6%
Traction Machine
6%
Permanent Magnetic
6%
Magnetic Generator
6%
PM Generator
6%
Design Considerations
6%
Starter-generator System
6%
Computation Time
5%
High Torque Density
5%
Winding Configuration
5%
Magnet Wire
5%
Copper Loss
5%
Electrical Power Distribution System
5%
Solid Rotor
5%
Power Loss
5%
Design Aspects
5%
High-frequency Signal Injection
5%
Double-sided
5%
Fault Condition
5%
Multiple Stressors
5%
Air Core
5%
Control Strategy
5%
Inductors
5%
Automotive Applications
5%
PMASynRM
5%
Rotor-permanent Magnet
5%
High-speed Applications
5%
Radial Force Control
5%
Insulation Degradation
5%
High-speed Machines
5%
Thermal Behavior
5%