Proceedings of the 2003 Bipolar/BiCMOS Circuits and Technology Meeting (IEEE Cat No 03CH37440) BIPOL-03 2003
DOI: 10.1109/bipol.2003.1274955
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High-Q integrated RF passives and micromechanical capacitors on silicon

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Cited by 19 publications
(10 citation statements)
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“…The Q-factor of MEMS inductors can be increased by choosing a low-loss substrate, such as alumina, as reported by Blondy et al . (2007), as well as by reducing the coupling of the inductor windings with the substrate by depositing a good insulating layer in between them (van Beek et al ., 2003). By means of such solutions, improvements of the Q-factor from 5-10 up to 40-70 have been experimentally demonstrated.…”
Section: Rf Mems (Variable) Inductorsmentioning
confidence: 98%
“…The Q-factor of MEMS inductors can be increased by choosing a low-loss substrate, such as alumina, as reported by Blondy et al . (2007), as well as by reducing the coupling of the inductor windings with the substrate by depositing a good insulating layer in between them (van Beek et al ., 2003). By means of such solutions, improvements of the Q-factor from 5-10 up to 40-70 have been experimentally demonstrated.…”
Section: Rf Mems (Variable) Inductorsmentioning
confidence: 98%
“…It has been demonstrated that for this topology the measured third-order distortion, IM3, shows an improvement compared to the traditional single varactor tuning of more than 30 dB [12]. Another example of a more traditional approach is the MEMS capacitor, which in its most popular implementation is able to switch between two fixed capacitance values [15,16]. MEMS capacitors provide a high Q at moderate capacitance values, but they require nonstandard processing, expensive packaging techniques, and high control voltages, and their reliability and switching speed are still poor compared to semiconductor-based solutions [12].…”
Section: Varactorsmentioning
confidence: 99%
“…Varieties of variable elements have also been presented for automatic impedance matching technology. Microelectromechanical systems capacitor is a popular implementation, which provides a very high-Q at moderate capacitance values [11,12]. However, it is not compatible with standard complementary metal-oxide-semiconductor (CMOS) processing and requires expensive packaging techniques.…”
Section: Introductionmentioning
confidence: 99%