R.S. Colby scite author profile

Abstruct-Acoustic noise in the switched reluctance motor (SRM) is caused primarily by the deformation of the stator lamination stack. Acoustic noise is most severe when the periodic excitation of the SRM phases excites a natural vibration mode of the stack. The natural vibration modes and frequencies of a four-phase, 8/6 SRM are examined. Structural finite element analysis is used to compute the natural modes and frequencies. Impulse tests on the stator stack verify the calculations and show which modes are excited. Heuristic arguments are developed to predict the operating conditions that will excite the natural modes. Measurement of vibration while the machine is under load shows which operating conditions excite the natural modes and verifies the predictions. An approximate formula is derived to predict the frequency of the fundamental vibration mode in terms of lamination dimensions and material properties. The formula is validated by comparison with finite element calculations for several laminations, and hence is shown to be useful in design trade-off studies.

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Simplified model and corrective measures for induction motor instability caused by PWM inverter blanking time

Colby

Simlot

Hallouda

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Efficient Operation of Surface-Mounted PM Synchronous Motors

Colby

Novotny

1987

IEEE Trans. on Ind. Applicat.

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A Model Reduction Perspective on Thermal Models for Induction Machine Overload Relays

Gao

Colby

Habetler

et al. 2008

IEEE Trans. Ind. Electron.

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R.S. Colby

An efficiency-optimizing permanent-magnet synchronous motor drive

Vibration modes and acoustic noise in a four-phase switched reluctance motor

Simplified model and corrective measures for induction motor instability caused by PWM inverter blanking time

Efficient Operation of Surface-Mounted PM Synchronous Motors

A Model Reduction Perspective on Thermal Models for Induction Machine Overload Relays

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