A Batteryless 19 W MICS/ISM-Band Energy Harvesting Body Sensor Node SoC for ExG Applications
Y Zhang, F Zhang, Y Shakhsheer… - IEEE Journal of solid …, 2012 - ieeexplore.ieee.org
This paper presents an ultra-low power batteryless energy harvesting body sensor node
(BSN) SoC fabricated in a commercial 130 nm CMOS technology capable of acquiring …
(BSN) SoC fabricated in a commercial 130 nm CMOS technology capable of acquiring …
Energy harvesting and control for sensor node
BH Calhoun, B Otis - US Patent 9,882,428, 2018 - Google Patents
An integrated circuit, such as included as a portion of a sensor node, can include a regulator
circuit having an input coupleable to an energy harvesting transducer. The integrated circuit …
circuit having an input coupleable to an energy harvesting transducer. The integrated circuit …
A multiple-input boost converter for low-power energy harvesting
C Shi, B Miller, K Mayaram… - IEEE Transactions on …, 2011 - ieeexplore.ieee.org
In this paper, a component efficient multiple-input boost converter is proposed to extract
power from multiple low-power energy harvesting sources. The time-multiplexed operation …
power from multiple low-power energy harvesting sources. The time-multiplexed operation …
A high-efficiency energy harvesting interface for implanted biofuel cell and thermal harvesters
J Katic, S Rodriguez, A Rusu - IEEE Transactions on Power …, 2017 - ieeexplore.ieee.org
A dual-source energy harvesting interface that combines energy from implanted glucose
biofuel cell and thermoelectric generator is presented. A single-inductor dual-input …
biofuel cell and thermoelectric generator is presented. A single-inductor dual-input …
Determining application-specific peak power and energy requirements for ultra-low-power processors
Many emerging applications such as the Internet of Things, wearables, implantables, and
sensor networks are constrained by power and energy. These applications rely on ultra-low …
sensor networks are constrained by power and energy. These applications rely on ultra-low …
A 20 k-to-100kS/s Sub- W 9.5b-ENOB Asynchronous SAR ADC for Energy-Harvesting Body Sensor Node SoCs in 0.18- m CMOS
This brief presents an asynchronous successive approximation register (SAR) analog-to-
digital converter (ADC) for energy-harvesting body sensor node system-on-chips …
digital converter (ADC) for energy-harvesting body sensor node system-on-chips …
Designing a boost converter of micro energy harvester using thermal and vibration input for biomedical devices
This work presents a designed of boost converter Hybrid Micro Energy Harvester (HMEH)
using thermal and vibration of human body for biomedical application. Thermal converts …
using thermal and vibration of human body for biomedical application. Thermal converts …
[PDF][PDF] Architecture of ultra-low-power micro energy harvester using hybrid input for biomedical devices
This research work presents an Ultra-Low-Power (ULP) Hybrid Micro Energy Harvester
(HMEH) for biomedical application. This architecture uses the inputs of Thermoelectric …
(HMEH) for biomedical application. This architecture uses the inputs of Thermoelectric …
Efficient energy harvesting interface for implantable biosensors
J Katic - 2015 - diva-portal.org
Energy harvesting is identified as a promising alternative solution for powering implantable
biosensors. It can completely replace the batteries, which are introducing many limitations …
biosensors. It can completely replace the batteries, which are introducing many limitations …
Enhancing workload-dependent voltage scaling for energy-efficient ultra-low-power embedded systems
V Mohan, A Iyer, J Sartori - Proceedings of the 55th Annual Design …, 2018 - dl.acm.org
Ultra-low-power (ULP) chipsets are in higher demand than ever due to the proliferation of
ULP embedded systems to support growing applications like the Internet of Things (IoT) …
ULP embedded systems to support growing applications like the Internet of Things (IoT) …