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Hybrid Parallel Inner-Magnet Machine

Summary

Researchers at Purdue University have developed a topology for a hybrid rotating electrical machine containing a field winding and permanent magnets on the rotor. The rotor pole of the machine is comprised of a permanent magnet interior to two steel components, all of which are surrounded by the rotor field winding. The magnet and the steel components extend from the rotor backiron to the air-gap. In recent years, the design of electrical machinery has changed significantly due to the development of multi-objective optimization techniques, allowing complex systems to be design based on competing objectives. A particular machine design is evaluated based on the machine mass and total loss. The performance of a machine topology is obtained from a family of designs on the Pareto-optimal front that provide the overall mass vs. loss tradeoff. It can be shown that the hybrid parallel inner-magnet (HPI) machine topology outperforms alternative hybrid topologies, as well as the traditional wound rotor synchronous machine (WRSM).

Technology Benefits

Hybrid design that utilizes field winding and magnetsLow-loss flux sourceVoltage regulation capabilities

Technology Application

Power generation

Detailed Technology Description

Scott SudhoffPurdue Electrical and Computer Engineering

Countries

United States

Application No.

9,780,715

*Abstract

None

*Background

A typical approach to power generation includes the use of a wound rotor synchronous machine (WRSM), containing a field winding on the rotor used to regulate the output voltage of the system. However, the ability to regulate the voltage comes at the cost of additional losses associated to the field winding current. On the other hand, a permanent magnet synchronous machine (PMSM) containing magnets on the rotor may be used, wherein the losses are typically lower than in a WRSM. However, output voltage regulation requires the use of a power converter with controllable switches, increasing system complexity and reducing the overall robustness. A hybrid machine, containing a field winding and magnets, provides the potential to leverage the advantages of both approaches, in that the magnets provide a low-loss flux source and the field winding provides the ability to regulate the voltage.

*IP Issue Date

Oct 3, 2017

*IP Type

Utility

*Stage of Development

Prototype Testing

*Web Links

Purdue Office of Technology CommercializationPurdue Innovation and EntrepreneurshipScott SudhoffPurdue Electrical and Computer Engineering

Country/Region

USA