A 5.1 dBm 127–162 GHz Frequency Sextupler with Broadband Compensated Transformer-Based Baluns in 22nm FD-SOI CMOS
Shuyang Li, Wenhua Chen, Xingcun Li, Yunfan Wang
Abstract
This paper presents a D-band frequency sextupler in 22 nm FD-SOI CMOS. It consists of a differential frequency tripler followed by a push-push frequency doubler for six times frequency multiplication, and several differential amplifiers for enhanced conversion gain and output power. A broadband balance-compensation method is proposed for transformer-based baluns to realize wideband conversion between single-ended and balanced signals. The measured peak output power and peak efficiency are 5.1 dBm and 8.49% at 145.5 GHz, respectively. The fabricated frequency sextupler features a 3-dB output power bandwidth from 127 to 162 GHz and low DC power consumption less than 50 m W from 0.8 V power supply.