RF MEMS for ubiquitous wireless connectivity. Part II. Application

Santos, Héctor J. De Los; Fischer, Georg; Tilmans, H.A.C.; Beek, J.T.M. van

doi:10.1109/mmw.2004.1380278

Cited by 46 publications

(17 citation statements)

References 7 publications

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“…As reported in [5], given the configuration shown in Figure 1 the lateral displacement (6) can be defined as a function of the beam's geometry (width (w), length (I) and thickness (t)) and displacement angle (0), as shown in equation (1). In equation (2) (2)…”

Section: Mems Actuator Designmentioning

confidence: 99%

“…Voice, data and broadband technologies utilize various frequencies and network architectures. However, the continuing adoption of stringent requirements demanded by advanced wireless communication systems, including software defined radios (SDRs) and cognitive radio systems, require the development and adoption of emerging technologies such as RF-MEMS devices [1]. One of the primary premises of these emerging technologies is the ability to access multiple frequency bands and enable the utilization of several architectures via a single radio.…”

Section: Introductionmentioning

confidence: 99%

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A RF-MEMS based Monolithically Integrated Wide Range Tunable Low Pass Filter for RF Front End Applications

Fujii

Irieda

Nakamura

et al. 2009

2009 IEEE 22nd International Conference on Micro Electro Mechanical Systems

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Monolithically integrated, wide tuning range low pass filters have been demonstrated based on electrothermally driven MEMS switches. The integrated system is comprised of copper spiral inductors, polysilicon capacitors and electrothermal MEMS actuators on a single 4.3 x 2.4 mm2 chip; the design is optimized for the selection of three commonly used commercial cut-off frequencies: (f,) at 0.9GHz, 1.9GHz and 2.5GHz. The driving voltage is only 3.7V and out-of-band attenuation is -39dB at 3.5GHz, which is comparable to the state-of-art commercial ceramic filters. As such, this tunable filter and related fabrication technologies are applicable for various RF front end applications.

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Section: Mems Actuator Designmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A RF-MEMS based Monolithically Integrated Wide Range Tunable Low Pass Filter for RF Front End Applications

Fujii

Irieda

Nakamura

et al. 2009

2009 IEEE 22nd International Conference on Micro Electro Mechanical Systems

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“…With an average permittivity of 3500 for the piezoelectric material VIBIRT 1334 [72], C amounts to 1.7 nF and ∆E < 3 µJ, which is comparable to MEMS switches [89]. Additional dissipative losses in conducting and ceramic materials are more difficult to assess and necessitate further experiments.…”

Section: CVmentioning

confidence: 99%

Wide piezoelectric tuning of ltcc bandpass filters

Alahmad

Mäenner

Matz

et al. 2005

IEEE MTT-S International Microwave Symposium Digest, 2005.

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This work treats design and fabrication issues associated with innovative tunable front-end components which combine two different ceramic technologies, namely multilayer ceramic circuit boards (low temperature cofired ceramics or LTCC) and piezoelectric actuator technology within a single device. The need for such components is particularly arising due to the increasing number of wireless services and associated frequency bands in the range between 0.5 and 2.5 GHz. This has led in the past to the concept of software-defined radio (SDR) which would provide a cost-efficient solution by treating signals digitally and software-controlled up to the highest possible frequencies and as close as possible towards the transmit antenna, while the final analogue section at the antenna comprises only few high-performing and frequencyagile, tunable components. However, as a consequence of demanding component specifications, SDR has not yet found noticeable application in consumer markets despite ongoing search for suitable device concepts and fabrication technologies.Similar to the known micro-electromechanical (MEMS) approaches for tuning and switching, this work presents a modified parallel plate capacitor with high-permittivity dielectric and piezoelectrically movable top electrode as a tuning element. Like in MEMS solutions, there is no tunable dielectric material required for tuning as for example paraelectric material, which would introduce additional losses. The proposed device therefore has the potential for a high quality factor. Contrasting MEMS, piezoelectric actuators exhibit proven reliability and lifetime. Also sticking of contact surfaces can be overcome by the actuator force. The size of the actuator in the order of several millimeters is not impedimental in the present context, since it compares well to the size of planar integrated filters in the frequency range mentioned.The vertical movement of the electrode opens an air gap above the dielectric film which allows for substantial lowering of the effective dielectric constant and capacitance. When applied as a shunt capacitor in a coupled microstrip lines LTCC bandpass filter, the center frequency of the filter is tuned from 1.1 GHz to 2.6 GHz (tunability of 135%) with 200 V control voltage and low insertion loss of value 4 dB (at zero-bias) to 2 dB (at the maximum bias). For a more compact size, one electrode of the piezoelectric element is simultaneously used as the center microstrip line of a filter employing three coupled lines. Its equivalent circuit has been used to explore the change of the capacitor parameters across the entire tuning range. The capacitor varied from 7 pF to 1.35 pF with a quality factor between 60 and 160. The quality factor could be improved by a factor of 7 when the metallization of the piezoelectric actuator, changes from 80 nm to 500 nm.This thesis discusses also the effects of tuning mechanism on the overall quality factor, return loss, insertion loss, and the relative bandwidth at the mid of the band as a function of ...

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“…Joung et al (2000) and Yan (2002) have studied magnetic and thermal actuation, respectively. Moreover, Lee et al (2005) have also evaluated piezoelectric actuation, but the electrostatic one, investigated by De Los Santos et al (2004), seems to be until now preferred for no current flowing, i.e. a virtual zero power consumption, less complicated manufacturing processes and more promising reliable devices.…”

Section: Introductionmentioning

confidence: 99%