An Active-Inductor Injection Locked Frequency Divider With Variable Division Ratio

## Abstract In this study, a multimodulus CMOS injection‐locked frequency divider (ILFD) fabricated in a 0.18‐μm CMOS process is designed and the operation principle of the ILFD is described, which was realized using a cross‐coupled PMOS LC‐tank oscillator as the load of a double‐balanced NMOS Gilb

## Abstract This article presents a wide‐locking range injection‐locked frequency divider (ILFD), using a tunable active inductor (TAI), which is used to extend the locking range and to reduce die area. The CMOS ILFD is based on a new Colpitts voltage‐controlled oscillator (CVCO) with TAI‐C tank an

## Abstract This article presents a wide locking‐range divide‐by‐3 injection‐locked frequency divider (ILFD) employing tunable active inductors (TAIs), which are used to extend the locking range and to reduce die area. The CMOS ILFD is based on a voltage‐controlled oscillator (VCO) with cross‐coupl

## Abstract This article proposes a new CMOS LC‐tank injection locked frequency divider (ILFD) fabricated in a 0.18‐μm CMOS process and describes the operation principle of the ILFD. The ILFD circuit is realized with a double cross‐coupled CMOS LC‐tank oscillator with a symmetric MOS‐switched LC re

## Abstract This letter proposes a divide‐by‐3 frequency divider employing inductor‐over MOS topology to reduce the chip area and chip cost; the divider was fabricated using the 0.35‐μm 2P4M CMOS technology. The divider consists of an nMOS cross‐coupled LC oscillator and two injection MOSFETs in se