Power reduction is a central priority in battery-powered medical implantable devices, particularly pacemakers, to either increase battery lifetime or decrease size using a smaller battery. Low Power Analog CMOS for Cardiac Pacemakers proposes new techniques for the reduction of power consumption in analog integrated circuits. Our main example is the pacemaker sense channel, which is representative of a broader class of biomedical circuits aimed at qualitatively detecting biological signals. The first and second chapters are a tutorial presentation on implantable medical devices and pacemakers from the circuit designer point of view. This is illustrated by the requirements and solutions applied in our implementation of an industrial IC for p...
Designing analog circuits that can operate from low supply voltages has become ofincreasing importan...
© 2012 Dr. Leila KoushaeianThe development of an integrated low-power biomedical circuit for use in ...
A high performance, ultra-low power, fully differential 2 nd-order continuous-time ∑Δ analogue-to-di...
PostprintThe design of a sensing channel for implantable cardiac pacemakers in CMOS on silicon-on-in...
The design of a sensing channel for implantable cardiac pacemakers in CMOS on Silicon-on-Insulator (...
PostprintA new class AB output stage is presented which extends a family of recently proposed stages...
Advances in circuits, sensors, and energy storage elements have opened up many new possibilities in ...
Implantable biomedical devices can highly benefit from submicrometer CMOS technologies both in terms...
Ultra-low power consumption and miniature size are by far the most important design requirements for...
Biomedical implant devices are growing in recent years due to advancements in microelectronics, incr...
Personalized healthcare applications require low-cost sensor readouts that have a small form factor ...
Abstract—A high performance, ultra-low power, fully differen-tial 2nd-order continuous-time Σ ∆ anal...
When the heart does not function properly, an artificial pacemaker is needed to correct the heart be...
A high performance, ultra-low power, fully differentia 2nd-order continuous-time Σ∆ analogue-to-digi...
PostprintThis paper shows the implementation of a fully integrated Gm-C 0.5-7Hz bandpass filter-ampl...
Designing analog circuits that can operate from low supply voltages has become ofincreasing importan...
© 2012 Dr. Leila KoushaeianThe development of an integrated low-power biomedical circuit for use in ...
A high performance, ultra-low power, fully differential 2 nd-order continuous-time ∑Δ analogue-to-di...
PostprintThe design of a sensing channel for implantable cardiac pacemakers in CMOS on silicon-on-in...
The design of a sensing channel for implantable cardiac pacemakers in CMOS on Silicon-on-Insulator (...
PostprintA new class AB output stage is presented which extends a family of recently proposed stages...
Advances in circuits, sensors, and energy storage elements have opened up many new possibilities in ...
Implantable biomedical devices can highly benefit from submicrometer CMOS technologies both in terms...
Ultra-low power consumption and miniature size are by far the most important design requirements for...
Biomedical implant devices are growing in recent years due to advancements in microelectronics, incr...
Personalized healthcare applications require low-cost sensor readouts that have a small form factor ...
Abstract—A high performance, ultra-low power, fully differen-tial 2nd-order continuous-time Σ ∆ anal...
When the heart does not function properly, an artificial pacemaker is needed to correct the heart be...
A high performance, ultra-low power, fully differentia 2nd-order continuous-time Σ∆ analogue-to-digi...
PostprintThis paper shows the implementation of a fully integrated Gm-C 0.5-7Hz bandpass filter-ampl...
Designing analog circuits that can operate from low supply voltages has become ofincreasing importan...
© 2012 Dr. Leila KoushaeianThe development of an integrated low-power biomedical circuit for use in ...
A high performance, ultra-low power, fully differential 2 nd-order continuous-time ∑Δ analogue-to-di...