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Magnetostatic bistable MEMS switch with electrothermal actuators

Magnetostatic bistable MEMS switch with electrothermal actuators

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© The Institution of Engineering and Technology
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The design, fabrication, and an experiment, of a bistable MEMS switch with magnetostatic latching and electrothermal actuation for achieving lower power consumption are presented. The bistabilities feature a crisscross-shaped torsion/cantilever beam system and a permanent magnet for holding the closed state. Therefore, the device is suitable for bistable switching relay applications. Electrical performances have been characterised by a self-built test system using an Agilent oscilloscope. In addition, switching between two stable states of the microswitch was successfully validated with the WYKO NT1100 optical profiling system. Results show that the consumed exciting power is only 0.64 mJ in one DC pulse.

Inspec keywords: built-in self test; cantilevers; microswitches; actuators; permanent magnets

Other keywords: electrothermal actuators; Agilent oscilloscope; self-built test system; crisscross-shaped torsion-cantilever beam system; WYKO NT1100 optical profiling system; magnetostatic latching; magnetostatic bistable MEMS switch; bistable switching relay applications; permanent magnet

Subjects: Relays and switches; Fabrication of MEMS and NEMS devices; Design and modelling of MEMS and NEMS devices

References

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      • R. Luharuka , P.J. Hesketh . A bistable electromagnetically actuated rotary gate microvalve. J. Micromech. Microeng. , 035015 - 14
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      • Y.B. Wu , G.F. Ding , C.C. Zhang , H. Wang . Laminated photoresist sacrificial layer process for 3-D movable suspension microstructures in LIGA-based surface micromachining. Adv. Mater. Res. , 2538 - 2541
http://iet.metastore.ingenta.com/content/journals/10.1049/el.2010.1264
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