Abstract
While high-speed analog-to-digital converter (ADC) front-ends in serial link receivers enable flexible and powerful digital signal processing-based (DSP-based) equalization, the robustness and power consumption of these ADCs can limit overall receiver energy efficiency. This paper presents a 25 GS/s 6b 8-way time-interleaved multi-bit search ADC that employs a soft-decision selection algorithm to relax track-and-hold (T/H) settling requirements and improve ADC metastability tolerance. T/H bandwidth is also improved with a new shared-input double-tail three-latch structure. Fabricated in general purpose 65 nm CMOS, the ADC occupies 0.24 mm2 total area. A signal-to-noise and distortion ratio (SNDR) of 29.6 dB is achieved at Nyquist while consuming 88 mW from a 1 V supply, translating into a figure-of-merit of 143 fJ/conversion step. A measured $^{-10}$ metastability error rate demonstrates the effectiveness of the soft-decision selection algorithm.
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