A 90-nm CMOS V-band low-power image-reject receiver front-end with high-speed auto-wake-up and gain controls

A low-power auto-wake-up image-reject receiver front-end in 90-nm CMOS technology is presented for V-band applications. The proposed front-end generally operates in the sleep mode and consumes 19 mW. When an RF signal greater than -50 dBm is received, the front-end wakes up automatically and enters into the active mode consuming only 46-mW power. Adjustable linearity (IP _1dB) of the front-end is provided by changing two gain modes (high- and low-gain modes). When input RF power is higher than -30 dBm, IP_1dBwill be improved (from high-gain mode to low-gain mode). Experiments show IP_1dB of -25.2 and -22.5 dBm in high- and low-gain modes, respectively. An image-reject ratio greater than 32 dB is measured when using the proposed image-reject mixer topology. All passive phase-shift couplers for realizing the image-rejection are composed of standard CMOS lumped elements, thereby considerably reducing the chip size (0.82 mm²).