A 104- to 112.8-GHz CMOS Injection-Locked Frequency Divider

## Abstract This article presents a fully integrated 24‐GHz divide‐by‐2 injection‐locked frequency divider (ILFD). The circuit was implemented using a standard 90‐nm CMOS process. The ILFD consists of a VCO core and injection MOS for injection signal to the resonator. Two injection MOSFETs are in s

## Abstract A low‐power and wide‐locking‐range 55.8‐GHz (V‐band) injection‐locked frequency‐divider (ILFD) using standard 0.13 μm CMOS technology is reported. To enhance locking range, a shunt inductor was introduced in the source node of the cross‐coupled pair to maximize the equivalent load imped

## Abstract A low‐power and wide‐locking‐range 64.8‐GHz injection‐locked frequency‐divider (ILFD) using standard 0.13 μm CMOS technology is reported. To enhance the locking range, a shunt inductor was introduced in the source node of the cross‐coupled transistor pair to maximize the equivalent load

## Abstract This paper presents a new integrated direct‐injection locked frequency (ILFD) with the capability of quadrature generation. The circuit consists of a quadrature VCO, based on the cross‐coupling of two differential LC‐tank VCOs and with the coupling transistors placed in parallel with th

## Abstract This article proposes a divide‐by‐3 frequency divider (FD) with quadrature outputs fabricated in the 0.18‐μm CMOS technology. The current reuse and the back‐gate coupling techniques are adopted. Measured results show that the free‐running frequency is from 1.173 to 1.25 GHz. The propose