This paper presents a technique to regulate the bandwidth of digital phase-locked loops (PLLs), where a fully digital automatic control circuit, running in background, is used to desensitize loop gain from analog parameters. The method that is based on an adaptive least-mean-squares algorithm requires no injection of a training sequence, potentially degrading phase noise performance, and is suitable in particular for bang-bang PLLs, where the bandwidth depends on the input noise. The operating principle is first introduced and discussed with the help of an intuitive time-domain model, and the algorithm extension addressing the practical implementation issues associated with loop latency is then presented. The calibration circuit is embedded...
Abstract—This paper describes bandwidth lineariza-tion techniques in phase-locked loop (PLL) design ...
Thanks to its ability to generate a stable yet programmable output frequency, Phase Locked Loop (PLL...
In today’s fractional-N phase-locked loops, digital- to-time converters are commonly used to cancel ...
This paper presents a technique to regulate the bandwidth of digital phase-locked loops (PLLs), wher...
The bandwidth of a phased-locked loop (PLL) is dependent on several analog parameters that are subje...
Automatic bandwidth control based on least-mean-square adaptive filters has been demonstrated to des...
Graduation date: 2007A digital implementation of a PLL has several advantages compared to its\ud ana...
This paper proposes a novel calibration technique and its application on an adaptive-bandwidth PLL. ...
In digital phase-locked loops (PLLs), the finite resolution of digital representation (quantisation)...
Graduation date: 2011Access restricted to the OSU community at author's request from Dec. 1, 2010 - ...
Phase-locked loops (PLLs) are critical components in modern electronics communication systems, where...
Phase Locked Loop (PLL) technology has received a wide range of applications in modern datacom, tele...
ABSTRACT OF THE DISSERTATION A Time Amplifier Assisted FDC and DTC Linearization for Digital Fract...
DESIGN AND ANALYSIS OF PHASE-LOCKED LOOP AND PERFORMANCE PARAMETERS In this paper, we are present d...
Abstract—This paper describes bandwidth lineariza-tion techniques in phase-locked loop (PLL) design ...
Thanks to its ability to generate a stable yet programmable output frequency, Phase Locked Loop (PLL...
In today’s fractional-N phase-locked loops, digital- to-time converters are commonly used to cancel ...
This paper presents a technique to regulate the bandwidth of digital phase-locked loops (PLLs), wher...
The bandwidth of a phased-locked loop (PLL) is dependent on several analog parameters that are subje...
Automatic bandwidth control based on least-mean-square adaptive filters has been demonstrated to des...
Graduation date: 2007A digital implementation of a PLL has several advantages compared to its\ud ana...
This paper proposes a novel calibration technique and its application on an adaptive-bandwidth PLL. ...
In digital phase-locked loops (PLLs), the finite resolution of digital representation (quantisation)...
Graduation date: 2011Access restricted to the OSU community at author's request from Dec. 1, 2010 - ...
Phase-locked loops (PLLs) are critical components in modern electronics communication systems, where...
Phase Locked Loop (PLL) technology has received a wide range of applications in modern datacom, tele...
ABSTRACT OF THE DISSERTATION A Time Amplifier Assisted FDC and DTC Linearization for Digital Fract...
DESIGN AND ANALYSIS OF PHASE-LOCKED LOOP AND PERFORMANCE PARAMETERS In this paper, we are present d...
Abstract—This paper describes bandwidth lineariza-tion techniques in phase-locked loop (PLL) design ...
Thanks to its ability to generate a stable yet programmable output frequency, Phase Locked Loop (PLL...
In today’s fractional-N phase-locked loops, digital- to-time converters are commonly used to cancel ...