Add to ORKGThis paper proposes a new high power density permanent magnet (PM) motor design for traction applications to achieve the 50kW/L target set by the US Department of Energy by increasing the torque capability and operating speed compared to conventional PM machine topologies. A large-scale multi-objective design optimization based on 2D finite element analysis (FEA) and differential evolution algorithm was conducted to achieve the best trade-off among high efficiency, high power density and high power factor. The torque-speed envelopes are also checked for the Pareto front designs to make sure they have a constant power speed ratio of at least 3:1. An open frame lab prototype (OFLP) motor has been fabricated and tested to validate the principl...
The thesis details a successful attempt at meeting the US Department of Energy FreedomCar 2020 targe...
Interests in using rare-earth free motors such as switched reluctance motors (SRMs) for electric and...
A novel automated design algorithm for application-based optimization of permanent magnet (PM) machi...
This paper proposes a new high power density permanent magnet (PM) motor design for traction applica...
A large-scale finite element model-based design optimization algorithm is developed for improving th...
A high-speed electric motor is developed as part of a high-density traction system that includes the...
The interest for Permanent Magnet (PM) synchronous machines has increased in the recent years. This ...
Permanent magnet synchronous machines (PMSMs) are widely implemented commercially available traction...
This paper presents the performance trade-offs in the design optimization of spoke-type permanent ma...
The common practices of large-scale finite element (FE) model-based design optimization of permanent...
In electric vehicle applications, the torque density of electric motor plays an important role in im...
For electrical vehicle system, torque density, power density, output performance, high-speed range, ...
Interests in using rare-earth free motors such as switched reluctance motors (SRMs) for electric and...
In commercially existing electric vehicles (EVs), power is transferred from the motor to the wheels ...
In recent years, electric vehicles have demonstrated great economic and environmental advantages in ...
The thesis details a successful attempt at meeting the US Department of Energy FreedomCar 2020 targe...
Interests in using rare-earth free motors such as switched reluctance motors (SRMs) for electric and...
A novel automated design algorithm for application-based optimization of permanent magnet (PM) machi...
This paper proposes a new high power density permanent magnet (PM) motor design for traction applica...
A large-scale finite element model-based design optimization algorithm is developed for improving th...
A high-speed electric motor is developed as part of a high-density traction system that includes the...
The interest for Permanent Magnet (PM) synchronous machines has increased in the recent years. This ...
Permanent magnet synchronous machines (PMSMs) are widely implemented commercially available traction...
This paper presents the performance trade-offs in the design optimization of spoke-type permanent ma...
The common practices of large-scale finite element (FE) model-based design optimization of permanent...
In electric vehicle applications, the torque density of electric motor plays an important role in im...
For electrical vehicle system, torque density, power density, output performance, high-speed range, ...
Interests in using rare-earth free motors such as switched reluctance motors (SRMs) for electric and...
In commercially existing electric vehicles (EVs), power is transferred from the motor to the wheels ...
In recent years, electric vehicles have demonstrated great economic and environmental advantages in ...
The thesis details a successful attempt at meeting the US Department of Energy FreedomCar 2020 targe...
Interests in using rare-earth free motors such as switched reluctance motors (SRMs) for electric and...
A novel automated design algorithm for application-based optimization of permanent magnet (PM) machi...