Title :
A 240 GHz Fully Integrated Wideband QPSK Receiver in 65 nm CMOS
Author :
Thyagarajan, Siva V. ; Shinwon Kang ; Niknejad, Ali M.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Univ. of California at Berkeley, Berkeley, CA, USA
Abstract :
Operation at millimeter-wave/sub-terahertz frequencies allows one to realize very high data-rate transceivers for wireless chip-to-chip communication. In this paper, a 240 GHz 16 Gbps QPSK receiver is demonstrated in 65 nm CMOS technology. The receiver employs a direct-conversion mixer-first architecture with an integrated slotted loop antenna. A 240 GHz LO chain drives the passive mixers to down-convert the modulated data to baseband. The baseband signal is then amplified using high gain, wide bandwidth amplifiers. The receiver has a noise figure of 15 dB with a conversion gain of 25 dB calculated from measurement data. The receiver achieves a data rate of 10 Gbps (with ) and a maximum data rate of 16 Gbps (with BER of 10-4) with a receiver efficiency of 16 pJ/bit.
Keywords :
CMOS integrated circuits; broadband antennas; loop antennas; millimetre wave amplifiers; millimetre wave mixers; millimetre wave receivers; radio transceivers; slot antennas; wideband amplifiers; CMOS technology; LO chain; baseband signal amplification; bit rate 10 Gbit/s to 16 Gbit/s; direct-conversion mixer-first architecture; frequency 240 GHz; fully integrated wideband QPSK receiver; gain 25 dB; high gain amplifier; integrated slotted loop antenna; millimeter-wave frequencies; noise figure 15 dB; passive mixer; size 65 nm; subterahertz frequencies; very high data-rate transceivers; wide bandwidth amplifier; wireless chip-to-chip communication; Antennas; Baseband; CMOS integrated circuits; Gain; Mixers; Noise; Receivers; 240 GHz; BPSK; Baseband amplifier; QPSK; communication system; delayed transmission line; direct conversion; frequency doubler; frequency tripler; high data rate; injection-locked oscillator; mixer-first architecture; on-chip slotted loop antenna; receiver; sub-millimeter-wave; sub-terahertz; wideband;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2015.2467216
