2014
DOI: 10.3384/lic.diva-111958
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Building Blocks for Low-Voltage Analog-to-Digital Interfaces

Abstract: In today's system-on-chip (SoC) implementations, power consumption is a key performance specification. The proliferation of mobile communication devices and distributed wireless sensor networks has necessitated the development of power-efficient analog, radio-frequency (RF), and digital integrated circuits. The rapid scaling of CMOS technology nodes presents opportunities and challenges. Benefits accrue in terms of integration density and higher switching speeds for the digital logic. However, the concomitant … Show more

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“…However, in practice, the channel ADCs suffer from nonidealities such as gain, offset, and timing errors. These nonidealities manifest mainly due to analog circuit imperfections caused by variations in manufacturing process, voltage, and temperature [4,5]. Also, the reduced feature size of transistors in advanced manufacturing processes make within-die and die-to-die variations more pronounced due to the limited accuracy of the existing lithography techniques [6].…”
Section: Chapter 1 Backgroundmentioning
confidence: 99%
See 1 more Smart Citation
“…However, in practice, the channel ADCs suffer from nonidealities such as gain, offset, and timing errors. These nonidealities manifest mainly due to analog circuit imperfections caused by variations in manufacturing process, voltage, and temperature [4,5]. Also, the reduced feature size of transistors in advanced manufacturing processes make within-die and die-to-die variations more pronounced due to the limited accuracy of the existing lithography techniques [6].…”
Section: Chapter 1 Backgroundmentioning
confidence: 99%
“…Also, the reduced feature size of transistors in advanced manufacturing processes make within-die and die-to-die variations more pronounced due to the limited accuracy of the existing lithography techniques [6]. Due to the random nature of the variations [5][6][7][8], each channel ADC exhibits different levels of nonidealities which causes channel mismatch errors in TI-ADCs. In a TI-ADC with mismatch errors, the output is a nonuniformly sampled signal which degrades the achievable resolution at the output of the TI-ADC [4,9].…”
Section: Chapter 1 Backgroundmentioning
confidence: 99%