Etsuji Ogawa scite author profile

An RF MEMS variable capacitor using hybrid actuation of piezoelectric and electrostatic forces is presented. A surface micromachining process is used to fabricate the device. The piezoelectric actuator, which uses thin film PZT, enables low voltage actuation while the electrostatic actuator realizes large capacitance ratio. The measured capacitance ratio is Cmax/Cmin=14 at 5V. We demonstrate that the hybrid actuation enables to lower the pull-in voltage without changing the pull-out voltage. We also show that the shift of pull-out voltage due to dielectric charging can be reduced drastically at actuation voltages below 1OV. In this sense, the hybrid actuation can realize low voltage operation with enhanced robustness for stiction.

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A creep-immune electrostatic actuator for RF-MEMS tunable capacitor

Ogawa

Ikehashi

Saito

et al. 2011

Sensors and Actuators A: Physical

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Low profile double resonance frequency tunable antenna using RF MEMS variable capacitor for digital terrestrial broadcasting reception

Tsutsumi

Nishio

Obayashi

et al. 2009

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It is difficult to realize the built-in antenna for wideband systems, because a frequency bandwidth of the low profile antenna is narrow. A frequency tunable antenna is a technique for wideband characteristics. In this paper a low profile double resonance frequency tunable antenna using MEMS variable capacitors is presented. It has high efficiency over a wide frequency band. Through both resonant portions from 465 to 665 MHz, the efficiency of more than -4 dB and the VSWR of less than 3 are observed in the measurement using the variable capacitor of 0.4-0.9 pF.

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Etsuji Ogawa

An RF MEMS Variable Capacitor with Intelligent Bipolar Actuation

Barium ferrite particles for high density magnetic recording

A Robust RF MEMS Variable Capacitor with Piezoelectric and Electrostatic Actuation

A creep-immune electrostatic actuator for RF-MEMS tunable capacitor

Low profile double resonance frequency tunable antenna using RF MEMS variable capacitor for digital terrestrial broadcasting reception

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