Characterization of high-resistivity polycrystalline silicon substrates for wafer-level packaging and integration of RF passives

High-resistivity polycrystalline silicon (HRPS) wafers are explored as a novel low-cost and low-loss substrate for radio-frequency (RF) passive components in wafer-level packaging (WLP) and integrated passive networks. A record quality factor (Q=11; 1 GHz; 34 nH) and very low loss (0.65 dB/cm; 17 GH...

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Bibliographic Details
Main Authors: Bartek, M., Polyakov, A., Sinaga, S. M., Mendes, P. M., Correia, J. H., Burghartz, J. N.
Format: Conference Object
Language:English
Published: IEEE 2004
Subjects:
Wafer level packaging
Radio frequency (RF) integration
Blue whale
Online Access:http://hdl.handle.net/1822/1629
Description
Summary:High-resistivity polycrystalline silicon (HRPS) wafers are explored as a novel low-cost and low-loss substrate for radio-frequency (RF) passive components in wafer-level packaging (WLP) and integrated passive networks. A record quality factor (Q=11; 1 GHz; 34 nH) and very low loss (0.65 dB/cm; 17 GHz) are demonstrated for inductors and coplanar wave guides, respectively. The waferlevel packaging solution is based on an adhesive bonding of a passive HRPS wafer to an active silicon IC wafer, where the HRPS wafer serves as a mechanical carrier and vertical spacer. This enables integration of large RF passives with a vertical spacing of >150 µm to the conductive silicon substrate containing the circuitry, while providing mechanical stability, reducing form factor and avoiding any additional RF loss. The HRPS substrates have high dielectric constant, low RF loss, high thermal conductivity, perfect thermal matching, and processing similar to the single-crystalline silicon. Philips Semiconductors and Philips Research in the context of the Philips Associate Centre at DIMES (PACD); Fundação para a Ciência e Tecnogia (FCT) (SFRH/BD/4717/2001, POCTI/ESE/38468/2001, FEDER), and the European Commission (project Blue Whale ...

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