A 65 nm CMOS versatile ADC using time interleaving and ΣΔ modulation for multi-mode receiver

High performances wideband analog to digital converter (ADC) remains a bottleneck to realize software and cognitive radio receivers. Time interleaved sigma-delta (TISigmaDelta) architecture is a good candidate to increase the bandwidth of the data converters with the lowest hardware complexity compa...

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Bibliographic Details
Main Authors: Beydoun, A., Jabbour, C., Fakhoury, H., Nguyen, V.-T., Naviner, L., Loumeau, P.
Format: Conference Proceeding
Language:English
Subjects:
Analog-digital conversion
Clocks
CMOS technology
Cognitive radio
Delta-sigma modulation
Hardware
Interleaved codes
Receivers
Software performance
Wideband
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Summary:High performances wideband analog to digital converter (ADC) remains a bottleneck to realize software and cognitive radio receivers. Time interleaved sigma-delta (TISigmaDelta) architecture is a good candidate to increase the bandwidth of the data converters with the lowest hardware complexity compared to other solutions using parallel sigma-delta modulators. This paper proposes a reconfigurable 4 channels TISigmaDelta using the novel GMSCL (general multi stage closed loop) sigma-delta architecture and a new digital processing reducing considerably the hardware complexity. The sigma-delta modulators have been designed using switched-capacitor technique and implemented with STMicroelectronis 65 nm CMOS technology. Three different scenarios are possible : the first one for GSM standard clocked at 26 MHz and consumes 2.59 mW, the second one for UMTS/DVB-T standards clocked at 208 MHz and consumes 46 mW and the last one for WiFi/WiMax standards clocked at 208 MHz and consumes 92 mW. The total circuit die area is equal to 3 mm 2 . The digital filtering was validated and synthesized in a 1.2 V, 65 nm CMOS process using VHDL language. For a clock rate of 208 MHz, the evaluated die area is 0.115 mm 2 .
DOI:10.1109/NEWCAS.2009.5290510