Arthur Campos scite author profile

During the last decades we have witnessed the performance improvement and the aggressive growth of the complexity of integrated circuits (ICs). The progressive size reduction of transistors in recent technological nodes has allowed and even compelled IC designers to perform analog tasks in the digital domain, increasing the demand for analog-to-digital converters (ADCs). This work presents the design and implementation of a low power, differential, asynchronous successive approximation register analog-to-digital converter (SAR ADC) in a 65-nm CMOS technology. The ADC works in a flexible range of sampling rates, from a few kS/s up to 12.0 MS/s, being suitable for application in a wide spectrum of low power systems and subsystems, such as biosignal recorder interfaces and frontend of wireless receivers. At maximum sampling rate, the post-layout simulated circuit achieved an effective number of bits (ENOB) of 9.65 and a power consumption of 151.4 µW, leading to a Figure of Merit of 15.8 fJ/Conversion-step; at 10.0 kS/s sampling rate, the ENOB is almost the same, 9.63, but the power consumption is reduced to only 0.26 µW. The occupied area of the implemented ADC is 0.074 mm2.

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O uso de ferramentas de marketing digital para o engajamento de seguidores em áreas da engenharia

Campos¹,

Quitete²,

Pessanha³

et al. 2020

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Numerical study of a Magnetic Fluid Boundary Layer using the Vorticity-Stream function Formulation

Campos¹,

Gontijo²,

Cunha³

2015

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Arthur Campos

A Monolithic 32-Channel Front End and DSP ASIC for Gaseous Detectors

Design of a low power 10-bit 12MS/s asynchronous SAR ADC in 65nm CMOS

A low-power 10-bit 0.01-to-12-MS/s asynchronous SAR ADC in 65-nm CMOS

O uso de ferramentas de marketing digital para o engajamento de seguidores em áreas da engenharia

Numerical study of a Magnetic Fluid Boundary Layer using the Vorticity-Stream function Formulation

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