In this paper, we propose a 60-GHz fractional-N digital frequency synthesizer aimed at reducing its phase noise (PN) at both the flicker (1/f 3 ) and thermal (1/f 2 ) regions while minimizing its power consumption. The digitally controlled oscillator (DCO) fundamentally resonates at 20 GHz and co-generates a strong third harmonic at 60 GHz which is extracted to the output while canceling the 20-GHz fundamental. The latter component is fed back to the frequency dividers in an all-digital phase-locked loop for phase detection, which comprises a pair of digital-to-time and time-to-digital converters with dithering to attenuate fractional spurs. The mechanism of flicker noise upconversion to 1/f 3 PN in the DCO is investigated, and a reduction...
This paper presents a 0.4 to 2.1 GHz open-loop fractional-N multiplying delay-locked loop based freq...
Fifth-generation cellular transceivers operating in the millimeter-wave band require a local oscilla...
Digital phase-locked loops (DPLLs) have been demonstrated to achieve excellent performance as fracti...
In this paper, we propose a 60-GHz fractional-N digital frequency synthesizer aimed at reducing its...
This work presents a low-noise millimeter-wave fractional-N digital frequency synthesizer architectu...
This dissertation contains three parts. In the first part, the analysis and circuits of a jitterclea...
Although multiplying delay-locked loops allow clock frequency multiplication with very low phase noi...
This article describes the implementation of a 30-GHz frequency synthesizer. The target is to reduce...
This paper introduces a Delta-Sigma fractional-N digital PLL based on a single-bit TDC. A digital-to...
Abstract − This paper presents a 18-mW, 2.5-GHz fractional-N frequency synthesizer with 1-bit 4th-o...
This article presents a fractional-N frequency synthesizer architecture that is able to overcome the...
The advanced wireless communication standards (e.g., 5G) placed stringent specifications on the RF/m...
This paper presents a 0.4 to 2.1 GHz open-loop fractional-N multiplying delay-locked loop based freq...
Fifth-generation cellular transceivers operating in the millimeter-wave band require a local oscilla...
Digital phase-locked loops (DPLLs) have been demonstrated to achieve excellent performance as fracti...
In this paper, we propose a 60-GHz fractional-N digital frequency synthesizer aimed at reducing its...
This work presents a low-noise millimeter-wave fractional-N digital frequency synthesizer architectu...
This dissertation contains three parts. In the first part, the analysis and circuits of a jitterclea...
Although multiplying delay-locked loops allow clock frequency multiplication with very low phase noi...
This article describes the implementation of a 30-GHz frequency synthesizer. The target is to reduce...
This paper introduces a Delta-Sigma fractional-N digital PLL based on a single-bit TDC. A digital-to...
Abstract − This paper presents a 18-mW, 2.5-GHz fractional-N frequency synthesizer with 1-bit 4th-o...
This article presents a fractional-N frequency synthesizer architecture that is able to overcome the...
The advanced wireless communication standards (e.g., 5G) placed stringent specifications on the RF/m...
This paper presents a 0.4 to 2.1 GHz open-loop fractional-N multiplying delay-locked loop based freq...
Fifth-generation cellular transceivers operating in the millimeter-wave band require a local oscilla...
Digital phase-locked loops (DPLLs) have been demonstrated to achieve excellent performance as fracti...