Add to ORKGThis paper presents a stimulator for a cardiac neuroprosthesis aiming to restore the parasympathetic control after heart transplantation. The stimulator is based on time-to-current conversion, instead of the conventional current mode digital-to-analog converter (DAC) that drives the output current mirrors. It uses a DAC based on capacitor charging to drive a power efficient voltage-to-current converter for output. The stimulator uses 1.8 V for system operation and 10 V for stimulation. The total power consumption is Istim × 10 V +18. u μW during the biphasic current output, with a maximum Istim of 512 μA. The stimulator was designed in CMOS 0.18 μm technology and post-layout simulations are presented
An analog VLSI-based low-power neural tissue stimulator is presented as a part of the MIT and Massac...
Multichannel implantable stimulators are being developed which will enable many motor nerves to be s...
This paper describes a design and implementation of an implantable circuit for neural prosthetic de...
This paper presents an integrated stimulator for a cardiac neuroprosthesis aiming to restore the par...
Deep tissue energy harvesters are of increasing interest in the development of battery-less implanta...
Power consumption in neural stimulation devices such as cochlear implants, or retinal implants, is a...
Biomedical implants are designed to last inside the human body for more than a decade. Critical to t...
Neural stimulation is an established treatment methodology for an increasing number of diseases. Ele...
The recent advancements in neuroprosthetics have pushed forward the development of new ...
Over the past decades, the electrical and functional performances of neuro-stimulators (stimulators)...
The overarching goal of Engineered Heart Tissues (EHTs) is to develop functional 3D heart tissues in...
The elimination of integrated batteries in biomedical implants holds great promise for improving hea...
This paper presents a modified design of low power recovery circuit in micro-system implanted device...
Comunicació presentada a: XXX Congreso Anual de la Sociedad Española de Ingeniería Biomédica, CASEIB...
This paper presents the design of an integrated power management circuit for use in an implantable o...
An analog VLSI-based low-power neural tissue stimulator is presented as a part of the MIT and Massac...
Multichannel implantable stimulators are being developed which will enable many motor nerves to be s...
This paper describes a design and implementation of an implantable circuit for neural prosthetic de...
This paper presents an integrated stimulator for a cardiac neuroprosthesis aiming to restore the par...
Deep tissue energy harvesters are of increasing interest in the development of battery-less implanta...
Power consumption in neural stimulation devices such as cochlear implants, or retinal implants, is a...
Biomedical implants are designed to last inside the human body for more than a decade. Critical to t...
Neural stimulation is an established treatment methodology for an increasing number of diseases. Ele...
The recent advancements in neuroprosthetics have pushed forward the development of new ...
Over the past decades, the electrical and functional performances of neuro-stimulators (stimulators)...
The overarching goal of Engineered Heart Tissues (EHTs) is to develop functional 3D heart tissues in...
The elimination of integrated batteries in biomedical implants holds great promise for improving hea...
This paper presents a modified design of low power recovery circuit in micro-system implanted device...
Comunicació presentada a: XXX Congreso Anual de la Sociedad Española de Ingeniería Biomédica, CASEIB...
This paper presents the design of an integrated power management circuit for use in an implantable o...
An analog VLSI-based low-power neural tissue stimulator is presented as a part of the MIT and Massac...
Multichannel implantable stimulators are being developed which will enable many motor nerves to be s...
This paper describes a design and implementation of an implantable circuit for neural prosthetic de...