Power supply unpredictable uctuations jeopardize the functioning of several types of current electronic systems. This work presents a power supply sensor based on a voltage divider followed by buffer-comparator cells employing just MOSFET transistors and provides a digital output. The divider outputs are designed to change more slowly than the thresholds of the comparators, in this way the sensor is able to detect voltage droops. The sensor is implemented in a 65nm technology node occupying an area of 2700?m2 and displaying a power consumption of 50?W. It is designed to work with no voltage reference and with no clock and aiming to obtain a fast response
In this paper we propose a temperature sensor, based on a voltage to time converter cell (VTC). A VT...
Measurement and control of industrial and natural processes are expected to grow in the near future ...
With the development of VLSI technologies, the sensor systems of all kinds of applications have ente...
IoT devices operating on harvested energy from the environment need to deal with the variability of ...
Personalized healthcare applications require low-cost sensor readouts that have a small form factor ...
In recent electronics industry, power management plays a significant role to extend the battery life...
Power Supply Noise (PSN) is one of the main concerns in scaled technology circuits, both if perf...
This paper proposes a novel architecture for the generation of a programmable voltage reference: the...
With the fast growing electronic portable devices, power management becomes an important area in ele...
A voltage reference is strictly required for sensor interfaces that need to perform nonratio-metric ...
This book investigates the possible circuit solutions to overcome the temperature- and supply voltag...
We propose a low power battery voltage supervisory circuit for micro-scale sensor systems that provi...
With integration of various functional modules such as radio frequency (RF) circuits, power manageme...
An adaptive efficiency optimized power regulator that can work at load current ranging from mille-am...
A voltage reference is strictly required for sensor interfaces that need to perform nonratiometric d...
In this paper we propose a temperature sensor, based on a voltage to time converter cell (VTC). A VT...
Measurement and control of industrial and natural processes are expected to grow in the near future ...
With the development of VLSI technologies, the sensor systems of all kinds of applications have ente...
IoT devices operating on harvested energy from the environment need to deal with the variability of ...
Personalized healthcare applications require low-cost sensor readouts that have a small form factor ...
In recent electronics industry, power management plays a significant role to extend the battery life...
Power Supply Noise (PSN) is one of the main concerns in scaled technology circuits, both if perf...
This paper proposes a novel architecture for the generation of a programmable voltage reference: the...
With the fast growing electronic portable devices, power management becomes an important area in ele...
A voltage reference is strictly required for sensor interfaces that need to perform nonratio-metric ...
This book investigates the possible circuit solutions to overcome the temperature- and supply voltag...
We propose a low power battery voltage supervisory circuit for micro-scale sensor systems that provi...
With integration of various functional modules such as radio frequency (RF) circuits, power manageme...
An adaptive efficiency optimized power regulator that can work at load current ranging from mille-am...
A voltage reference is strictly required for sensor interfaces that need to perform nonratiometric d...
In this paper we propose a temperature sensor, based on a voltage to time converter cell (VTC). A VT...
Measurement and control of industrial and natural processes are expected to grow in the near future ...
With the development of VLSI technologies, the sensor systems of all kinds of applications have ente...