A universal electromagnetic microactuator using magnetic interconnection concepts

“…The ability to switch over large distances has been demonstrated by using permanent magnets with external or integrated coils to produce the external field [3][4][5][6][7]. These devices have been used in microrelays and pumps but they are inherently costly in footprint area (around 10's mm 2 ) and have switching distances of around 10 lm rather than 100 lm as required in this work.…”

Section: Introductionmentioning

confidence: 96%

Large throw magnetic microactuator

et al. 2008

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a b s t r a c tThe design and fabrication of an electromagnetic MEMS actuator capable of repeatedly switching over a gap length of 100 lm is presented. The device is to be used as a switch for radio-frequency (RF) circuits. It is based on a potcore type electromagnet and a mover suspended on a microbeam. The device was first modelled and optimised using a finite element analysis and then microfabricated. The ultra thick, negative photoresist, SU-8, was used extensively throughout the construction as: (i) an electroplating mould for the copper coils (up to four layers thick at 50 lm per layer), (ii) the magnetic material for the pot core and mover by loading it with various powders to produce a range of magnetic properties and (iii) the actuator beams because of its low elastic modulus. The potcore has a footprint of $0.8 mm 2 and for a driving current of 1.4 A (corresponding to a power dissipation of about 80 mW) generates an initial force of 0.11 mN which is sufficient to close a 100 lm gap. In this prototype form, the device could be operated for more than 10 4 cycles. The maximum switching distance achieved was $200 lm.

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“…As a result, power consumption is high. However, they can deliver long-range forces (Sadler et al 2000). Electrothermal microactuators have large deflection and strong force.…”

Section: Introductionmentioning

confidence: 99%

Design of micromirror actuator by ionic polymer metal composites

Yun

Kim

et al. 2009

Microsyst Technol

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Microactuators for micromirror system have found many applications in various areas including projection displays, optical switches, RF switches and so on. In this paper we demonstrated micromirror actuator using ionic polymer metal composites (IPMC) that is a suitable candidate, since it has many attractive qualities such as durability, aquatic, miniature and light-weighted. Specially, IPMC has extraordinary advantages which are simple bending motion for low driving voltage (1-2 V), low power consumption, and simple structure. The IPMC actuator is made of Nafion NE-1110 (Dupont Co, Ltd., 260 lm thick) layer and electrode (platinum) layers and driven by 1-4 V. The displacement measured vertically is 0.25 mm and tilting angle is 11.3°. The angular motion, which is more than 10°, is a good advantage in the field of display module. This paper shows that the IPMC actuator has enough possibility for other applications.

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A universal electromagnetic microactuator using magnetic interconnection concepts

Cited by 33 publications

References 26 publications

Nucleation and growth of the electrodeposited iron layers in the presence of an external magnetic field

Nucleation and growth of the electrodeposited iron layers in the presence of an external magnetic field

Large throw magnetic microactuator

Design of micromirror actuator by ionic polymer metal composites

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