Integrated low-frequency oscillators can replace crystal oscillators as sleep-mode timers to reduce the size and cost of wireless sensors [1]. Since the timer is one of the few continuously functioning circuits, minimizing its power consumption can greatly reduce sleep-mode power of highly duty-cycled systems. Temperature stability of the oscillator is important in order to minimize timing uncertainly and guard time for the radios, and thus maximizing sleep time. The voltage-averaging feedback method described in [2] achieves high stability in the MHz frequencies, but when scaled to the kHz range, requires very large filters. On the other extreme, gate leakage-based timers have been designed for sub-nW power consumption, but operate in the ...
Clock signals are a necessity in most digital electronic systems to synchronise various parts of the...
There is growing demand for circuits that can provide ever greater performance from a minimal power...
Thesis (Ph.D.)--University of Washington, 2016-03Low power and low phase noise RF frequency referenc...
A sub-nanowatt oscillator is described. The oscillator is intended for a wake-up timer for remote se...
A reference clock generator is one of the most important components in many electronic devices. Comm...
Back in 2000, the Nobel prize committee recognized the invention of the integrated circuit in 1958 b...
With the increasing demand for small volume and low power devices, such as the Internet of Things, ...
Innovative applications, such as wearable and implantable electronics, are causing an increasing dem...
The design of low-phase-noise fully integrated frequency references is often a critical aspect in th...
This book investigates the possible circuit solutions to overcome the temperature- and supply voltag...
A 50 kHz temperature insensitive RC relaxation oscillator is presented. A novel RC branch, which has...
This paper articulates a novel oscillator design that can provide stable frequency operation over a ...
A pW-power versatile relaxation oscillator operating from sub-threshold (0.3V) to nominal voltage (1...
International audienceThis chapter presents a family of current-mode relaxation oscillators that can...
In this paper, a pW-power relaxation oscillator for sensor node applications is presented. The propo...
Clock signals are a necessity in most digital electronic systems to synchronise various parts of the...
There is growing demand for circuits that can provide ever greater performance from a minimal power...
Thesis (Ph.D.)--University of Washington, 2016-03Low power and low phase noise RF frequency referenc...
A sub-nanowatt oscillator is described. The oscillator is intended for a wake-up timer for remote se...
A reference clock generator is one of the most important components in many electronic devices. Comm...
Back in 2000, the Nobel prize committee recognized the invention of the integrated circuit in 1958 b...
With the increasing demand for small volume and low power devices, such as the Internet of Things, ...
Innovative applications, such as wearable and implantable electronics, are causing an increasing dem...
The design of low-phase-noise fully integrated frequency references is often a critical aspect in th...
This book investigates the possible circuit solutions to overcome the temperature- and supply voltag...
A 50 kHz temperature insensitive RC relaxation oscillator is presented. A novel RC branch, which has...
This paper articulates a novel oscillator design that can provide stable frequency operation over a ...
A pW-power versatile relaxation oscillator operating from sub-threshold (0.3V) to nominal voltage (1...
International audienceThis chapter presents a family of current-mode relaxation oscillators that can...
In this paper, a pW-power relaxation oscillator for sensor node applications is presented. The propo...
Clock signals are a necessity in most digital electronic systems to synchronise various parts of the...
There is growing demand for circuits that can provide ever greater performance from a minimal power...
Thesis (Ph.D.)--University of Washington, 2016-03Low power and low phase noise RF frequency referenc...