Design and analysis of a millimeter‐wave injection locked frequency divider with transconductance boosting technique

Summary This paper presents a degenerated injector (mixer) with transconductance boosted by biasing the mixer transistor in the knee region of its I‐V curve, without increasing the transistor size and its parasitics. This mixer can enhance the locking range of millimeter‐wave injection‐locked frequency dividers. To compensate the degradation of mixer transconductance (conversion‐gain) due to the degeneration effect, a neutralization technique is employed. Analyses are given for locking‐range and induced phase‐noise of the proposed divider for arbitrary injection strength. It is shown that the locking‐range, as a function of injection strength, is improved by increasing the fundamental component of transconductance. Using 180‐nm CMOS technology, a 1.78‐mW divider‐by‐two is designed with free‐running frequency of 27.92 GHz, locking‐range of 51 to 59.6 GHz, and figure‐of‐merit of 4.83 (GHz/mW). EM simulation results of the proposed and conventional structure are compared, which illustrates 56% improvement in locking‐range. This paper presents a degenerated injector (mixer) with transconductance boosted by biasing the mixer transistor in the knee region of its I‐V curve, without increasing the transistor size and its parasitics. This mixer can enhance the locking range of millimeter‐wave injection‐locked frequency dividers. To compensate the degradation of mixer transconductance due to the degeneration effect, a neutralization technique is used. It is shown that the locking range, as a function of injection strength, is improved by increasing the fundamental component of transconductance.