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IoT sensors are in rising demand and they often require low power, yet high precision measurements. Under constrained energy, Nyquist-rate SAR ADCs are typically used for readout as they are energy efficient and easy to multiplex across many sensors. However, achieving high precision (>14b) in SAR ADCs is challenging as all factors limiting performance (resolution, mismatch, and noise) must be simultaneously addressed with minimal energy impact. In this paper, we present an energy-efficient, capacitor-array-assisted cascaded charge-injection SAR ADC (c-ciSAR) with 17b nominal resolution (14.14b ENOB) that achieves a 184.9dB Schreier FoM (SFoM) and 4.32fJ/conv with a 1V supply in 0.18μm CMOS. The ADC deploys a combination of techniques to improve resolution, mismatch, and noise performance while remaining energy-efficient, namely: 1) hybridization of a capacitor-array DAC (CDAC) with charge-injection-cell (ci-cell) based DACs (ciDACs) to achieve high resolution and flexible programmability; 2) direct analog DAC mismatch compensation and repeated LSB decisions that leverage flexible programmability; 3) a noise-efficient charge-domain preamplifier for comparator (1.66 NEF) and SNR extended ci-cell; and 4) ±2·VDD signal sampling with pre-sampling MSB decision.
Franz Graf, Giulia Marino, Giuseppe Galbiati