Silicon-on-silicon integration of a GSM transceiver with VCO resonator

Silicon-on-silicon integration of a GSM transceiver with VCO resonator

Accurate and spurious-free design of an integrated VCO resonator in a GSM transceiver is demonstrated. The high-Q inductor (Q=60 at 1 GHz) in the resonator is on a high-resistivity silicon substrate and the GSM chip is flip-chip mounted on the same substrate. The VCO meets all GSM requirements: phas...

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Hauptverfasser: Davis, P., Smith, P., Campbell, E., Lin, J., Gross, K., Bath, G., Low, Y., Lau, M., Degani, Y., Gregus, J., Frye, R., Tai, K.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
GSM
Inductors
Low-noise amplifiers
Phase noise
Radio frequency
Radiofrequency amplifiers
Silicon
Synthesizers
Transceivers
Voltage-controlled oscillators
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Beschreibung
Zusammenfassung:Accurate and spurious-free design of an integrated VCO resonator in a GSM transceiver is demonstrated. The high-Q inductor (Q=60 at 1 GHz) in the resonator is on a high-resistivity silicon substrate and the GSM chip is flip-chip mounted on the same substrate. The VCO meets all GSM requirements: phase noise is-142 dBc/Hz at 10 MHz from the 1018 MHz center frequency. A single bipolar chip contains the RF transmit, receive, and synthesizer subsections for the GSM standard. The addition of an external low-noise amplifier, power amplifier, and filters complete the GSM radio section. A number of inductors and capacitors are integrated onto the chip. Many of the passive components needed to operate the transceiver, however, are poor candidates for on-chip integration either because their values are too large or because they have stringent quality factor (Q) requirements.
ISSN:0193-6530
2376-8606
DOI:10.1109/ISSCC.1998.672455