A 60-GHz Band 2$,times,$2 Phased-Array Transmitter in 65-nm CMOS

摘要

A 60-GHz band 2$,times,$ 2 phased-array transmitter implemented in 65-nm bulk CMOS is described. Two-dimensional beam steering in the azimuthal and elevation planes is implemented via LO phase shifting in a transmitter that also supports direct or IF up-conversion. Full current bleeding in the final upconversion mixer suppresses flicker noise, and dynamic LO biasing suppresses carrier feedthrough. The 2.9 $,times,$1.4 mm $^{2}$ chip consumes a total of 590 mW from a 1-V supply when driving all four channels at a maximum saturated output power of 11 dBm, with 20 dB gain per transmitter. Carrier leakage varies between ${-}$20.5 dBc ${pm}$0.5 dB and sideband rejection is 25 to 28 dBc among the four transmitters when measured on the same die. The measured phase noise is $1.7 pm 1$ dB higher than the theoretical 21.6 dB increase in the phase noise due to 12 ${times}$ frequency multiplication of the injected LO. Maximum power-added efficiency of the transmit amplifier is greater than 16%, and gain is above 17 dB from 54 to 61 GHz.