IoT devices operating on harvested energy from the environment need to deal with the variability of the available energy and consequently adapt the application workload. To support this adaptivity, this paper presents a fully-digital multi-level voltage monitor, operating from an unregulated supply voltage down to sub-threshold. The proposed fully-digital voltage monitor eliminates the overhead of analog components and additional power supplies. The proposed design is based on frequency variation with supply voltage of two specifically designed ring oscillators leveraging the dynamic leakage suppression logic. Simulation results of process variations including corners and random mismatch show a maximum standard deviation of 30mV over a supp...
International audienceThe paper proposes a power supply unit to efficiently supply always-on or duty...
Many IoT applications such as implantable biomedical devices, sensor nodes in the internet of things...
The demand of extremely long battery life for electronic devices is the driving force for modern sem...
IoT devices operating on harvested energy from the environment need to deal with the variability of ...
Power supply unpredictable uctuations jeopardize the functioning of several types of current electro...
The Internet-of-Things (IoT) paradigm continues to drive the research and development of energy-harv...
Low power IoT devices are growing in numbers and by 2020 there will be more than 25 Billion of those...
A generalized power tracking algorithm that minimizes power consumption of digital circuits by dynam...
The main aim of this research is to study and develop new Ultra-Low Voltage and energy-efficient cir...
This Ph.D. program pertains to the design and realization of two fundamental analog circuits in dee...
In the future the number of small sensor-based devices is going to increase. The Internet-of-Ever...
Ultra-low voltage digital circuit design is an active research area, especially for portable applica...
Abstract — A digitally controlled current starved pulse width modulator is described in this paper. ...
Internet of Things is a rapidly emerging technology that allows people and things tobe connected any...
This paper presents a 0.9V-VDD sub-nW CMOS voltage reference based on dynamic operation with the abs...
International audienceThe paper proposes a power supply unit to efficiently supply always-on or duty...
Many IoT applications such as implantable biomedical devices, sensor nodes in the internet of things...
The demand of extremely long battery life for electronic devices is the driving force for modern sem...
IoT devices operating on harvested energy from the environment need to deal with the variability of ...
Power supply unpredictable uctuations jeopardize the functioning of several types of current electro...
The Internet-of-Things (IoT) paradigm continues to drive the research and development of energy-harv...
Low power IoT devices are growing in numbers and by 2020 there will be more than 25 Billion of those...
A generalized power tracking algorithm that minimizes power consumption of digital circuits by dynam...
The main aim of this research is to study and develop new Ultra-Low Voltage and energy-efficient cir...
This Ph.D. program pertains to the design and realization of two fundamental analog circuits in dee...
In the future the number of small sensor-based devices is going to increase. The Internet-of-Ever...
Ultra-low voltage digital circuit design is an active research area, especially for portable applica...
Abstract — A digitally controlled current starved pulse width modulator is described in this paper. ...
Internet of Things is a rapidly emerging technology that allows people and things tobe connected any...
This paper presents a 0.9V-VDD sub-nW CMOS voltage reference based on dynamic operation with the abs...
International audienceThe paper proposes a power supply unit to efficiently supply always-on or duty...
Many IoT applications such as implantable biomedical devices, sensor nodes in the internet of things...
The demand of extremely long battery life for electronic devices is the driving force for modern sem...