International audienceA self-sufficient Giga-Hertz digitally controlled ring oscillator for clock distribution network is presented in this paper. It features a high supply insensitivity in order to mitigate the additional jitter due to supply noise. This is achieved by inducing a mutual compensation between the oscillation frequency parameters that are affected by the supply voltage variations. The proposed method can be easily implemented and takes advantage of the deep sub-micrometer effects peculiar to topical CMOS technologies. We demonstrate by simulations that this approach remains efficient over process variations despite the reliability issue of short channel MOS transistors
Technology scaling enables lower supply voltages, but also increases power density of integrated cir...
Graduation date: 2010Modern day digital systems employ frequency\ud synthesizers to provide a common...
This brief presents a simple all-digital variable-length ring oscillator (VLRO) design that is capab...
A self-sufficient Giga-Hertz digitally controlled ring oscillator for clock distribution network is ...
A method to reduce the supply voltage sensitivity of digitally-controlled ring oscillators (DCROs) u...
A method to reduce the supply voltage sensitivity of digitally-controlled ring oscillators (DCROs) u...
International audienceOn-chip digital oscillators are ubiquitous in every communication applications...
A digitally-controlled ring oscillator for phase locked loops designed in a commercial 28 nm CMOS te...
The design of a temperature-compensated CMOS ring oscillator is introduced. The concept is to make u...
The increasing interest in impulse radio UWB communication links focuses the research interest on bu...
Abstract—This paper reports on the design and characterization of a process, temperature and supply ...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The regular downscaling of MOS transistors dimensions allows integrating a largest number of functio...
Abstract — A digitally controlled current starved pulse width modulator (PWM) is described in this p...
A digital system is often required to operate under a specific frequency. A ring oscillator can be h...
Technology scaling enables lower supply voltages, but also increases power density of integrated cir...
Graduation date: 2010Modern day digital systems employ frequency\ud synthesizers to provide a common...
This brief presents a simple all-digital variable-length ring oscillator (VLRO) design that is capab...
A self-sufficient Giga-Hertz digitally controlled ring oscillator for clock distribution network is ...
A method to reduce the supply voltage sensitivity of digitally-controlled ring oscillators (DCROs) u...
A method to reduce the supply voltage sensitivity of digitally-controlled ring oscillators (DCROs) u...
International audienceOn-chip digital oscillators are ubiquitous in every communication applications...
A digitally-controlled ring oscillator for phase locked loops designed in a commercial 28 nm CMOS te...
The design of a temperature-compensated CMOS ring oscillator is introduced. The concept is to make u...
The increasing interest in impulse radio UWB communication links focuses the research interest on bu...
Abstract—This paper reports on the design and characterization of a process, temperature and supply ...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The regular downscaling of MOS transistors dimensions allows integrating a largest number of functio...
Abstract — A digitally controlled current starved pulse width modulator (PWM) is described in this p...
A digital system is often required to operate under a specific frequency. A ring oscillator can be h...
Technology scaling enables lower supply voltages, but also increases power density of integrated cir...
Graduation date: 2010Modern day digital systems employ frequency\ud synthesizers to provide a common...
This brief presents a simple all-digital variable-length ring oscillator (VLRO) design that is capab...