Engineering
Common Mode Voltage
100%
Synchronous Motor
75%
Power Density
55%
Lightweight Material
50%
Lightweight Design
50%
Electrical Machine
50%
Drive System
43%
Motor Drive
43%
Permanent Magnet Synchronous Motor
28%
Structural Materials
25%
Comprehensive Review
25%
Design Method
25%
Advanced Manufacturing
25%
Limitations
25%
Manufacturing Technique
25%
Motor Power
25%
Output Capability
25%
Additive Manufacturing Technique
25%
Control Strategy
25%
Insulation System
18%
Simulation Result
16%
Electromagnetic Interference
11%
Premature Failure
9%
Passive Component
9%
Harmonic Component
9%
Peak Value
9%
Semiconductor Device
9%
Common Mode
8%
Comparative Analysis
8%
Systems Performance
8%
Field-Oriented Control
6%
Energy Dissipation
6%
Passive Element
6%
Negative Effect
6%
Output Torque
6%
Physical Distribution
6%
Hazards
5%
Placement Method
5%
Partial Factor
5%
Theory Rate
5%
Arrhenius Law
5%
Keyphrases
Common-mode Voltage
75%
PM Synchronous Motor
50%
Lightweight Implementation
50%
Integrated Filter
41%
Motor Winding
28%
Motor Characterization
25%
Lightweight Design
25%
Electrical Machines
25%
Lightweight Materials
25%
Implementation Method
25%
Lightweight Manufacturing
25%
Motor System
19%
Lightweight Structures
12%
Advanced Manufacturing Technologies
12%
Lightweighting
12%
Manufacturing Methods
12%
Additive Manufacturing Techniques
12%
Output Capability
12%
Materials Manufacturing
12%
Power Density
12%
Motor Power
12%
Futures Methodology
12%
Material Structure
12%
High Power Density Motor
12%
Lifetime Constraints
10%
Premature Failure
9%
Harmonic Components
9%
Passive Component
9%
Insulation System
9%
Semiconductor Devices
9%
Higher Harmonics
9%
Inductance
9%
Inductors
9%
Switching Action
6%
Negative Effects
6%
Field-oriented Control
6%
Output Torque
6%
Torque Ripple
6%
Energy Loss
6%
Passive Elements
6%
RMS Value
6%
PWM Inverter
6%
Common-mode Voltage Reduction
6%
Motor Performance
6%
High Power Density
6%
Placement Method
6%
Three-phase Voltage
6%
Control Object
6%
Bearing Damage
6%
Accelerated Aging
5%