Titlebook: Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems; Advances in Analog C Kofi A.A. Makinwa,Andrea Baschirotto,Pieter

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书目名称Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems影响因子(影响力)




书目名称Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems影响因子(影响力)学科排名




书目名称Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems网络公开度




书目名称Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems网络公开度学科排名




书目名称Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems被引频次




书目名称Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems被引频次学科排名




书目名称Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems年度引用




书目名称Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems年度引用学科排名




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书目名称Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems读者反馈学科排名

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Energy-Efficient CDCs for Millimeter Sensor Nodesency, high SNR, and wide input range with a variety of techniques. These include correlated double sampling in front of a SAR ADC, incremental delta-sigma conversion with a zoom-in SAR converter, energy-efficient dual-slope conversion, and fully-digital iterative delay-chain discharge conversion.

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A Micro-Power Temperature-to-Digital Converter for Use in a MEMS-Based 32 kHz Oscillator32 kHz MEMS-based oscillator (TCXO). The compensation scheme enables a frequency stability of ±3 ppm over temperatures ranging from −40 to 85 °C. The TDC consists of an NPN-based temperature sensing element and a 15-bit second order ΔΣ modulator. A novel dynamic element matching (DEM) scheme ensures

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A Power-Efficient Compressive Sensing Platform for Cortical Implantsg from neurological disorders such as epilepsy. Recent developments in microfabrication technology have provided new insights into seizure generation at an unprecedented spatial scale. Based on these findings, designing powerful acquisition systems capable of probing the wide-range spatiotemporal ac

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Design and Technology for Very High-Voltage Opampsated to extend the bandwidth working on the transconductance as functions of the strongly nonlinear parasitic capacitance. The second describes a technique to draw the integrated feedback network based on a resistive voltage divider with particular focus to low power dissipation and high linearity.

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