Architectural Exploration and Design of Time-Interleaved SAR Arrays for Low-Power and High Speed A/D Converters
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概要
- 論文の詳細を見る
Time-interleaved (TI) analog-to-digital converters (ADCs) are frequently advocated as a power-efficient solution to realize the high sampling rates required in single-chip transceivers for the emerging communication schemes: ultra-wideband, fast serial links, cognitive-radio and software-defined radio. However, the combined effects of multiple distortion sources due to channel mismatches (bandwidth, offset, gain and timing) severely affect system performance and power consumption of a TI ADC and need to be accounted for since the earlier design phases. In this paper, system-level design of TI ADCs is addressed through a platform-based methodology, enabling effective investigation of different speed/resolution scenarios as well as the impact of parallelism on accuracy, yield, sampling-rate, area and power consumption. Design space exploration of a TI successive approximation ADC is performed top-down via Monte Carlo simulations, by exploiting behavioral models built bottom-up after characterizing feasible implementations of the main building blocks in a 90-nm 1-V CMOS process. As a result, two implementations of the TI ADC are proposed that are capable to provide an outstanding figure-of-merit below 0.15pJ/conversion-step.
- (社)電子情報通信学会の論文
- 2009-06-01
著者
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SAPONARA Sergio
University of Pisa
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NUZZO Pierluigi
Dept. of Electr. Eng. and Computer Sciences, University of California at Berkeley
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VAN DER
IMEC
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FANUCCI Luca
University of Pisa
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Nani Claudio
Nxp High Tech Campus 37 5656ae Eindhoven
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NANI Claudio
NXP, High Tech Campus 37 5656AE Eindhoven
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Nuzzo Pierluigi
Dept. Of Electr. Eng. And Computer Sciences University Of California At Berkeley
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- Architectural Exploration and Design of Time-Interleaved SAR Arrays for Low-Power and High Speed A/D Converters
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