Please use this identifier to cite or link to this item: http://dl.pgu.ac.ir/handle/Hannan/114495
Title: A 0.5V Time-Domain Instrumentation Circuit with Clocked and Unclocked Operation
Issue Date: 28-May-2017
Publisher: IEEE
Description: This paper presents a time-domain instrumentation circuit with exceptional noise efficiency directed at using nanometre CMOS for next generation neural interfaces. Current efforts to realize closed loop neuromodulation and high fidelity BMI prosthetics rely extensively on digital processing which is not well integrated with conventional analogue instrumentation. The proposed time-domain topology employs a differential ring oscillator that is put into feedback using a chopper stabalized low noise transcondutor and capacitive feedback. This realization promises better digital integration by extensively using time encoded digital signals and seemlessly allows both clocked & unclocked behavior which is useful on-chip characterization and interfacing with synchronous systems. A 0.5V instrumentation system is implemented using a 65nm TSMC technology to realize a highly compact footprint that is 0.006 sq.mm in size. Simulation results demonstrate an excess of 55dB dynamic range with 3.5 Vrms input referred noise for the given 810nW total system power budget corresponding to an NEF of 1.64.
URI: http://dl.pgu.ac.ir/handle/Hannan/114495
Other Identifiers: http://hdl.handle.net/10044/1/46107
EP/K015060/1
EP/M020975/1
Type Of Material: OTHER
Appears in Collections:Electrical and Electronic Engineering

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