A. Ramkaj, J. P. Ramos, Yifan Lyu, M. Strackx, Marcel J. M. Pelgrom, M. Steyaert, M. Verhelst, F. Tavernier
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引用次数: 10
Abstract
Emerging 5G communication systems require ADCs to directly digitize wide bandwidth (BW) signals with high spectral purity at low power consumption. Current state-of-the-art solutions include mainly time-interleaved (TI) pipelined [1–4] or pipelined-SAR [5] architectures, enhanced by digital calibration. To ensure a sufficiently high input BW, all these designs employ a static front-end buffer. This buffer often dissipates more power than the ADC itself, significantly deteriorates the linearity and noise performance, and severely limits the available swing, unless over-voltage or multiple supplies are used [1–5].
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