Coaxial Tilt Damping Coil with Additional Active Actuation Capabilities

Hubert Mitterhofer; Gerald Jungmayr; Wolfgang Amrhein

Coaxial Tilt Damping Coil with Additional Active Actuation Capabilities

Hubert Mitterhofer
, Gerald Jungmayr
, Wolfgang Amrhein

Institute of Electric Machines and Power Electronics

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

This work presents a tilt stabilization coil inside an exemplary high speed bearingless disk drive. The coil is based on the passive, electrodynamic “Null-Flux” principle where there are no coil currents and, thus, no losses when the rotor is non-deflected during rotation. The proposed conductor structure is then used as a means of active actuation on the rotor by energizing the coil actively for first producing tilt torque. Modifying the structure geometrically into multiple, coaxial conductor loops which are energized with currents in the same or in equal direction then allows producing additional axial forces and tilt torque with multiple degrees of freedom, depending on the coil design. Simulation and measurement at prototype drives demonstrate the functioning of both, the passive stabilization and the active actuation principles.

Original language	English
Title of host publication	IEMDC 2017, IEEE International Electric Machines & Drives Conference, Miami, Florida, USA
Number of pages	7
Publication status	Published - May 2017

Fields of science

202 Electrical Engineering, Electronics, Information Engineering
202009 Electrical drive engineering
202011 Electrical machines
202025 Power electronics
202027 Mechatronics

JKU Focus areas

Mechatronics and Information Processing

Cite this

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title = "Coaxial Tilt Damping Coil with Additional Active Actuation Capabilities",

abstract = "This work presents a tilt stabilization coil inside an exemplary high speed bearingless disk drive. The coil is based on the passive, electrodynamic “Null-Flux” principle where there are no coil currents and, thus, no losses when the rotor is non-deflected during rotation. The proposed conductor structure is then used as a means of active actuation on the rotor by energizing the coil actively for first producing tilt torque. Modifying the structure geometrically into multiple, coaxial conductor loops which are energized with currents in the same or in equal direction then allows producing additional axial forces and tilt torque with multiple degrees of freedom, depending on the coil design. Simulation and measurement at prototype drives demonstrate the functioning of both, the passive stabilization and the active actuation principles.",

author = "Hubert Mitterhofer and Gerald Jungmayr and Wolfgang Amrhein",

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booktitle = "IEMDC 2017, IEEE International Electric Machines \& Drives Conference, Miami, Florida, USA",

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T1 - Coaxial Tilt Damping Coil with Additional Active Actuation Capabilities

AU - Mitterhofer, Hubert

AU - Jungmayr, Gerald

AU - Amrhein, Wolfgang

PY - 2017/5

Y1 - 2017/5

N2 - This work presents a tilt stabilization coil inside an exemplary high speed bearingless disk drive. The coil is based on the passive, electrodynamic “Null-Flux” principle where there are no coil currents and, thus, no losses when the rotor is non-deflected during rotation. The proposed conductor structure is then used as a means of active actuation on the rotor by energizing the coil actively for first producing tilt torque. Modifying the structure geometrically into multiple, coaxial conductor loops which are energized with currents in the same or in equal direction then allows producing additional axial forces and tilt torque with multiple degrees of freedom, depending on the coil design. Simulation and measurement at prototype drives demonstrate the functioning of both, the passive stabilization and the active actuation principles.

AB - This work presents a tilt stabilization coil inside an exemplary high speed bearingless disk drive. The coil is based on the passive, electrodynamic “Null-Flux” principle where there are no coil currents and, thus, no losses when the rotor is non-deflected during rotation. The proposed conductor structure is then used as a means of active actuation on the rotor by energizing the coil actively for first producing tilt torque. Modifying the structure geometrically into multiple, coaxial conductor loops which are energized with currents in the same or in equal direction then allows producing additional axial forces and tilt torque with multiple degrees of freedom, depending on the coil design. Simulation and measurement at prototype drives demonstrate the functioning of both, the passive stabilization and the active actuation principles.

UR - http://www.iemdc.org/

M3 - Conference proceedings

BT - IEMDC 2017, IEEE International Electric Machines & Drives Conference, Miami, Florida, USA

ER -

Coaxial Tilt Damping Coil with Additional Active Actuation Capabilities

Abstract

Fields of science

JKU Focus areas

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Cite this