A low-voltage rotary actuator fabricated using a five-level polysilicon surface micromachining technology

Author

Krygowski, T.W. ; Rodgers, M.S. ; Sniegowski, J. ; Miller, S.M. ; Jakubczak, J.

Author_Institution

Intelligent Micromachine Dept., Sandia Nat. Labs., Albuquerque, NM, USA

fYear

1999

Firstpage

697

Lastpage

700

Abstract

The design, fabrication and characterization of a low-voltage rotary stepper motor are presented in this work. Using a five-level polysilicon MEMS technology, steps were taken to increase the capacitance over previous stepper motor designs to generate high torque at low voltages. A low-friction hub was developed to minimize frictional loads due to rubbing surfaces, producing an estimated resistive torque of about 6 pN-m. This design also allowed investigations into the potential benefit of using hard materials such as silicon nitride for lining of both the stationary and rotating hub components. The result is an electrostatic stepper motor capable of operation at less than six volts.

Keywords

capacitance; elemental semiconductors; microactuators; micromachining; micromotors; silicon; stepping motors; torque; Si; capacitance; five-level polysilicon; frictional loads; low-friction hub; low-voltage rotary actuator; resistive torque; rotating hub components; stationary hub components; stepper motor; surface micromachining technology; Capacitance; Electrodes; Electrostatics; Micromachining; Micromechanical devices; Pneumatic actuators; Rotors; Stators; Torque; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Electron Devices Meeting, 1999. IEDM '99. Technical Digest. International

Conference_Location

Washington, DC, USA

Print_ISBN

0-7803-5410-9

Type

conf

DOI

10.1109/IEDM.1999.824247

Filename

824247