Analysis and Design of Wideband I/Q CMOS 100–200 Gb/s Modulators

Abstract

This paper presents the analysis and design of wideband I/Q CMOS modulators and transmitters. Non-idealities and performance limitations of Cartesian transmitter and modulator systems are discussed, and circuit design techniques and analyses are shown. A DC-60 GHz I/Q modulator/transmitter chip in 45-nm SOI CMOS is presented as a critical building block for next-generation multi-standard and high-capacity wireless backhaul links. The modulator consists of a wideband quadrature signal generator, wideband buffers, and two current-combined DC-100 GHz low-noise double-balanced mixers driven in quadrature. The 1.4 mm2 modulator chip achieves 60 dB of dynamic range in a 1-GHz bandwidth, with an OP1dB of ~ −10 dBm, thus enabling spectrally efficient high-order modulation schemes such as 256-QAM. The I/Q modulator achieves 200 Gb/s in 16-QAM (50 Gbaud/s) while consuming 200 mW, resulting in record 1-pJ/bit modulation efficiency. In addition to backhaul links, the modulator is an attractive and cost-effective alternative to short-range optical links for data center interconnects (DCI) and for chip-to-chip communications.