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This paper presents a 9-bit 222 MS/s low-power asynchronous single-bit/cycle successive approximation register (SAR) ADC. The SAR ADC combines techniques such as asynchronous clocking, binary-weighted custom-designed capacitive DAC with small unit capacitors, splitting monotonic capacitor switching, and dynamic SAR memory to optimize both power consumption and SAR loop delay using a single comparator. Measurement results show that the 9-bit SAR ADC achieves 47.6 dB SNDR and 29.6 fJ/conversion-step figure-of-merit (FoM) near Nyquist frequency at 222 MS/s, consuming 1.07 mA from a 1.2 V supply. The ADC does not consume static power and the current consumption scales down linearly with the sampling rate, keeping the low FoM value constant over a very wide sampling frequency range. The design occupies an active area of 92 μm × 180 μm (0.017 mm 2 ) in 65 nm CMOS.
Elison de Nazareth Matioli, Georgios Kampitsis
Alexandre Schmid, David Palomeque Mangut
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