This paper reports on an original approach to design the digital control logic of a Successive Approximation Register Analog to Digital Converter, where no sequencers or code registers are used. It turns out a low complexity digital circuitry, which is applied to the design of a 130nm CMOS 8-bit SAR ADC. The simulations demonstrate that the proposed digital control logic correctly works leading to an Analog to Digital Converter exhibiting performances well aligned with the literature in terms of linearity, dissipated power, and energy spent per bit generation.
130nm CMOS SAR-ADC with Low Complexity Digital Control Logic / Borgarino, M.; Verrascina, N.; Begueret, J. B.. - In: SENSORS & TRANSDUCERS. - ISSN 2306-8515. - 227:11(2018), pp. 1-8.
130nm CMOS SAR-ADC with Low Complexity Digital Control Logic
M. Borgarino
Writing – Original Draft Preparation
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2018
Abstract
This paper reports on an original approach to design the digital control logic of a Successive Approximation Register Analog to Digital Converter, where no sequencers or code registers are used. It turns out a low complexity digital circuitry, which is applied to the design of a 130nm CMOS 8-bit SAR ADC. The simulations demonstrate that the proposed digital control logic correctly works leading to an Analog to Digital Converter exhibiting performances well aligned with the literature in terms of linearity, dissipated power, and energy spent per bit generation.File | Dimensione | Formato | |
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