Architectural selection of A/D converters

Vogels, M.; Gielen, G.

doi:10.1109/dac.2003.1219162

Cited by 4 publications

(1 citation statement)

References 8 publications

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“…power consumption) or to find out feasibility of the circuit topologies. For example, in [9] data about the implementations is used to model the power consumption of the analog-to-digital converter (ADC) as a function of performance parameters and in [10] a guidelines for selecting ADC topology based on achieved performance were derived. Again in [11], [12], [13], [14] a very extensive review of ADC implementation domain and statements about the future possibilities were given.…”

Section: Related Workmentioning

confidence: 99%

Analog and mixed signal circuit and system ontology

Talonen

Ryynänen

2010

2010 12th Biennial Baltic Electronics Conference

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In this paper we describe initial steps that we have taken to create an open source machine processable ontology to store domain knowledge about the analog and mixed signal circuit and systems. It is seen that an openly available semantic knowledge base could be beneficial in distributing circuit and system domain knowledge. This knowledge could be used to leverage productivity of the early phase architectural exploration by having easier access to review implementation domain. Main design goals for the ontology has been interoperability issues and transparency and re-usability of the described data. This is guaranteed by using standard knowledge representation language with well defined semantics and by associating all of the data in the ontology to the corresponding reference by using annotations.

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Section: Related Workmentioning

confidence: 99%

Analog and mixed signal circuit and system ontology

Talonen

Ryynänen

2010

2010 12th Biennial Baltic Electronics Conference

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Systematic top-down design of A/D converters

Vogels

Gielen

Proceedings of the 2005 European Conference on Circuit Theory and Design, 2005.

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Towards a highly-scalable wireless implantable system-on-a-chip for gastric electrophysiology

Ahmed

Farajidavar

Kiani

2015

2015 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)

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This paper presents the system design of a highly-scalable system-on-a-chip (SoC) to wirelessly and chronically detect the mechanisms underlying gastric dysrhythmias. The proposed wireless implantable gastric-wave recording (WIGR) SoC records gastric slow-wave and spike activities from 256 sites, and establishes transcutaneous data communication with an external reader while being inductively powered. The SoC is highly scalable by employing a modular architecture for the analog front-end (AFE), a near-field pulse-delay modulation (PDM) data transmitter (Tx) that its data rate is proportional to the power carrier frequency (fp), and an adaptive power management equipped with automatic-resonance tuning (ART) that dynamically compensates for environmental and fp variations of the implant power coil. The simulation and measurement results for individual blocks have been presented.

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Architectural selection of A/D converters

Cited by 4 publications

References 8 publications

Analog and mixed signal circuit and system ontology

Analog and mixed signal circuit and system ontology

Systematic top-down design of A/D converters

Towards a highly-scalable wireless implantable system-on-a-chip for gastric electrophysiology

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