Add to ORKGAbstract − A comprehensive analytical study of high-frequency regenerative frequency dividers (RFD) is presented. The study includes two fundamental modes of operation in RFDs, namely stable and pulled operation modes. Differential equations characterizing the RFD behavior for both operation modes are derived. Next, an RFD circuit is designed and simulated in a 0.18µm standard CMOS process. Simulations verify the accuracy of the proposed analytical models. 1
The behavior of two frequency divider circuits using negative differential resistance (NDR) circuit ...
An analysis of regenerative dividers predicts the required phase shift or selectivity for proper ope...
In this work a two-stage simulation method is presented for the efficient design of frequency divide...
In this letter, the authors present the design, analysis and comparison of a series of dynamic frequ...
High speed frequency dividers are critical parts of frequency synthesisers in wireless systems. Thes...
ii A regenerative frequency divider can be constructed with one integrated circuit and a single-pole...
The aim of this paper is twofold: to give a theoretical analysis of the phase noise in regenerative ...
An investigation into the feasibility of designing a monolithic high frequency voltage controlled os...
We implement an ultra-low-noise frequency divider chain from 8 GHz to 5 MHz that utilizes custom-bui...
One of the key components common in integrated receiver designs is a RF local oscillator. This parti...
A well-defined frequency multiple dividing (FMD) circuit using a resonant model is presented in this...
A frequency divider is an essential circuit of a phase lockedfrequency stable oscillator. The operat...
CMOS regenerative frequency dividers, based on a fully balanced Gilbert cell, are analyzed in this p...
Abstract—Injection-locked frequency dividers (ILFDs) are ver-satile analog circuit blocks used, for ...
A frequency divider is one of the most fundamental and challenging blocks used in high-speed communi...
The behavior of two frequency divider circuits using negative differential resistance (NDR) circuit ...
An analysis of regenerative dividers predicts the required phase shift or selectivity for proper ope...
In this work a two-stage simulation method is presented for the efficient design of frequency divide...
In this letter, the authors present the design, analysis and comparison of a series of dynamic frequ...
High speed frequency dividers are critical parts of frequency synthesisers in wireless systems. Thes...
ii A regenerative frequency divider can be constructed with one integrated circuit and a single-pole...
The aim of this paper is twofold: to give a theoretical analysis of the phase noise in regenerative ...
An investigation into the feasibility of designing a monolithic high frequency voltage controlled os...
We implement an ultra-low-noise frequency divider chain from 8 GHz to 5 MHz that utilizes custom-bui...
One of the key components common in integrated receiver designs is a RF local oscillator. This parti...
A well-defined frequency multiple dividing (FMD) circuit using a resonant model is presented in this...
A frequency divider is an essential circuit of a phase lockedfrequency stable oscillator. The operat...
CMOS regenerative frequency dividers, based on a fully balanced Gilbert cell, are analyzed in this p...
Abstract—Injection-locked frequency dividers (ILFDs) are ver-satile analog circuit blocks used, for ...
A frequency divider is one of the most fundamental and challenging blocks used in high-speed communi...
The behavior of two frequency divider circuits using negative differential resistance (NDR) circuit ...
An analysis of regenerative dividers predicts the required phase shift or selectivity for proper ope...
In this work a two-stage simulation method is presented for the efficient design of frequency divide...