We propose a low power battery voltage supervisory circuit for micro-scale sensor systems that provides power-on reset, brown-out detection, and recovery detection to prevent malfunction and battery damage. Ultra-low power is achieved using a 57pA, fast stabilizing two-stage voltage reference and an 81pA leakage-based oscillator and clocked comparator. The supervisor was fabricated in 180nm CMOS and integrated with a complete 1 mm3 sensor system. It consumes 635pW at 3.6V supply voltage, which is an 850 × reduction over the best prior work
With the development of VLSI technologies, the sensor systems of all kinds of applications have ente...
Preserving battery life in duty-cycled sensor nodes requires minimizing energy use in the active reg...
A novel method of power management and sequential monitoring of several sensors is proposed in this ...
In the future the number of small sensor-based devices is going to increase. The Internet-of-Ever...
Power supply unpredictable uctuations jeopardize the functioning of several types of current electro...
Abstract — A low-voltage power supply circuit was developed for micropower CMOS LSI applications, wi...
IoT devices operating on harvested energy from the environment need to deal with the variability of ...
For a few years now, everything has been getting “green”. Reduction of the ecological footprint has ...
This manuscript presents a very low-cost circuit using a PIC12F683 microcontroller and an LM285 band...
We propose a fully-integrated temperature sensor for battery-operated, ultra-low power microsystems....
Abstract — Standby power can dominate the power budgets of battery-operated ultra-low power processo...
In recent electronics industry, power management plays a significant role to extend the battery life...
Power management in a battery operated device can be done with the help of voltage regulators. This ...
Shrinking process feature size has promoted the system-on-a-chip concept. Combining analog and RF ci...
Chip-integrated power management solutions are a must for ultra-low power systems. This enables not ...
With the development of VLSI technologies, the sensor systems of all kinds of applications have ente...
Preserving battery life in duty-cycled sensor nodes requires minimizing energy use in the active reg...
A novel method of power management and sequential monitoring of several sensors is proposed in this ...
In the future the number of small sensor-based devices is going to increase. The Internet-of-Ever...
Power supply unpredictable uctuations jeopardize the functioning of several types of current electro...
Abstract — A low-voltage power supply circuit was developed for micropower CMOS LSI applications, wi...
IoT devices operating on harvested energy from the environment need to deal with the variability of ...
For a few years now, everything has been getting “green”. Reduction of the ecological footprint has ...
This manuscript presents a very low-cost circuit using a PIC12F683 microcontroller and an LM285 band...
We propose a fully-integrated temperature sensor for battery-operated, ultra-low power microsystems....
Abstract — Standby power can dominate the power budgets of battery-operated ultra-low power processo...
In recent electronics industry, power management plays a significant role to extend the battery life...
Power management in a battery operated device can be done with the help of voltage regulators. This ...
Shrinking process feature size has promoted the system-on-a-chip concept. Combining analog and RF ci...
Chip-integrated power management solutions are a must for ultra-low power systems. This enables not ...
With the development of VLSI technologies, the sensor systems of all kinds of applications have ente...
Preserving battery life in duty-cycled sensor nodes requires minimizing energy use in the active reg...
A novel method of power management and sequential monitoring of several sensors is proposed in this ...