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5 September 1997 SPICE Modeling of polysilicon thermal actuators
Jeffrey T. Butler, Victor M. Bright, William D. Cowan
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Proceedings Volume 3224, Micromachined Devices and Components III; (1997) https://doi.org/10.1117/12.284526
Event: Micromachining and Microfabrication, 1997, Austin, TX, United States
Abstract
This paper reports on modeling the behavior of micromachined polysilicon thermal actuators. The thermal actuators used in this research were fabricated using the DARPA-sponsored multi-user MEMS processes. Data collected in both air and vacuum demonstrates that thermal actuators can be controlled and positioned using a pulsed input with a period much less than the thermal time constant of the device. Both pulse width and pulse amplitude modulation have been successfully employed to position lateral actuators, lateral actuator arrays, and piston micro-mirrors. In order to better exploit the power averaging characteristics of thermal actuators, SPICE models for polysilicon thermal actuators were developed using relationships between resistance, deflection, and average power. These models incorporate the polysilicon thermal actuators electrical load and transient characteristics necessary for predicting actuator performance and developing CMOS drive circuits. The SPICE models exhibit good agreement with theory and measured performance of the polysilicon thermal actuators.
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Jeffrey T. Butler, Victor M. Bright, and William D. Cowan "SPICE Modeling of polysilicon thermal actuators", Proc. SPIE 3224, Micromachined Devices and Components III, (5 September 1997); https://doi.org/10.1117/12.284526
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KEYWORDS
Actuators
Thermal modeling
Performance modeling
Amplitude modulation
Microelectromechanical systems
Micromirrors
Resistance
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