V-band injection-locked oscillator with 9 GHz locking range

## 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 20–30 GHz divide‐by‐3 ring‐based injection locked frequency divider (ILFD) using NMOS loads for a wide locking range has been developed in a commercial 0.13‐μm Si RFCMOS technology.The ILFD shows a locking range up to 7.5 GHz (20.8−28.3 GHz, 30.5%) and operation range of 10 GHz (20.8–

## 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 new approach to the narrow locking range problems of an injection‐locked oscillator (ILO) has been investigated using a feedback signal into the active device and a fictitious internal source generated by nonlinearities of the active device. Through this analysis, a new design methodo