A V-band wideband variable gain low-noise amplifier (VGLNA) with a 3 dB bandwidth of 14 GHz (58-72 GHz) is developed in a 65 nm RFCMOS technology. The three-stage VGLNA, adopting the current steering method for the gain control, shows a measured peak power gain of 21.8 dB with a 1 dB gain flatness of 10 GHz (60-70 GHz). With tuning voltage adjusted from 0.8 to 2.8 V, the gain and noise figure are varied from 21.8 to 12.8 dB and from 4.2 to 5.7 dB, respectively, at 64 GHz. Input P 21dB was measured to be 222.1 dBm. DC power consumption is 36 mW with V DD ¼ 1.2 V and the chip size is 0.75 × 0.65 mm.Introduction: The availability of the frequency band around 60 GHz for unlicensed use in many regions in the world is attracting growing attention for broadband wireless communication applications. Along with the high attenuation level in the Earth's atmosphere around this band, the ample bandwidth available with this band makes it a highly attractive option, particularly for the wireless personal area network (WPAN) for the multi-Gbit/s short-range data link. According to the standard developed for this application, the band for WPAN systems encompasses four channels ranging from 57 to 66 GHz [1]. This requires the low-noise amplifier (LNA) to have a bandwidth wide enough to cover this range, preferably with a flat gain throughout this band. In addition, the gain controllability is desired for the LNA to maintain high linearity as well as constant output power of the entire receiver system against variation in the input signal power level. There have been recent reports on variable gain low-noise amplifiers (VGLNAs) intended for 60 GHz application based on either Si CMOS [2] or SiGe BiCMOS [3,4], but their bandwidths were rather limited. In this Letter, a wideband VGLNA for 60 GHz WPAN application is developed in a 65 nm RFCMOS technology
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