Title :
Table of contents
Abstract :
The following topics are dealt with: data converters; DeltaSigma modulator; biomedical electronics; ultralow power electronics for medicine; intracortical microstimulation; electronic poin-of-care medical diagnostic devices; wireless interface; peripheral nervous system; nanoscale power; design optimisation; charge-borrowing decap; circuit techniques; switched resonant clocking scheme; frequency synthesizers; digital converter; differential amplifier; high voltage tolerant simulation monitoring circuit; gigabit transceivers; CMOS single chip optical receivers; lithography; high performance microprocessor; trimless second order curvature compensated bandgap reference; energy-performance tunable logic; frequency-to-digital converters; nanometer logic processes; adaptive performance compensation; CMOS balanced downconversion; fractional-N frequency synthesizer; Nyquist method; on-chip power; wide-load-range single-inductor-dual-output boost regulator; single-inductor dual-output switching converter; power efficient monolithic buck converter; on-chip voltage generator; digital wireline; phase-locked loops; nonlinear phase detector; lead-free electronics; heterojunction bipolar transistors power amplifier; microrobotics; integrated power management; reliability; transistor level degradation; system on chip; integrated CMOS receiver chip; synchronized concurrent dual-frequency oscillator; energy-recycling technique; monolithic buck converter; design-space exploration;chopper amplifier; ultralow power MOSFET-C filter; adaptive equalizers; circuit simulation and design methodology; signal processing; digital signal processor; analog-digital mixed mode neural perception engine; CMOS integrated circuits; and ultralow power nonvolatile memory.
Keywords :
CMOS integrated circuits; MOSFET; amplifiers; biomedical electronics; biomedical equipment; circuit simulation; data conversion; heterojunction bipolar transistors; nanotechnology; neurophysiology; random-access storage; CMOS balanced downconversion; CMOS integrated circuits; CMOS single chip optical receivers; DeltaSigma modulator; Nyquist method; adaptive equalizers; adaptive performance compensation; analog-digital mixed mode neural perception engine; biomedical electronics; charge-borrowing decap; chopper amplifier; circuit simulation; circuit techniques; data converters; design optimisation; design-space exploration; differential amplifier; digital converter; digital signal processing; digital wireline; electronic poin-of-care medical diagnostic devices; energy-performance tunable logic; energy-recycling technique; fractional-N frequency synthesizer; frequency synthesizers; frequency-to-digital converters; gigabit transceivers; heterojunction bipolar transistors power amplifier; high performance microprocessor; high voltage tolerant simulation monitoring circuit; integrated CMOS receiver chip; integrated power management; intracortical microstimulation; lead-free electronics; lithography; microrobotics; monolithic buck converter; nanometer logic processes; nanoscale power; nonlinear phase detector; on-chip power; on-chip voltage generator; peripheral nervous system; phase-locked loops; power efficient monolithic buck converter; reliability; single-inductor dual-output switching converter; switched resonant clocking scheme; synchronized concurrent dual-frequency oscillator; system on chip; transistor level degradation; trimless second order curvature compensated bandgap reference; ultralow power MOSFET-C filter; ultralow power electronics; ultralow power nonvolatile memory; wide-load-range single-inductor-dual-output boost regulator; wireless interface;
Conference_Titel :
Custom Integrated Circuits Conference, 2009. CICC '09. IEEE
Conference_Location :
Rome
Print_ISBN :
978-1-4244-4071-9
DOI :
10.1109/CICC.2009.5280938