A 0.8-mW 55-GHz Dual-Injection-Locked CMOS Frequency Divider

## 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 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 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 A low‐power 63‐GHz (V‐band) direct injection‐locked frequency‐divider (ILFD) using standard 0.13‐μm CMOS technology is reported. To reduce power consumption and enhance locking range, a PMOS switch directly coupled to the LC tank (output) of the ILFD is used to replace the traditional t

## 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