GaN-Based Frequency Doubler With Pulsed Output Power Over 1 W at 216 GHz
Xubo Song, Shixiong Liang, Yuanjie Lv, Zhenpeng Zhang, Lisen Zhang, Xingchang Fu, Yanmin Guo, Guodong Gu, Yuangang Wang, Yuan Fang, Aimin Bu, Shujun Cai, Zhihong Feng
Abstract
This letter reports a frequency doubler based on GaN Schottky barrier diodes (SBDs) with high pulse output power. An improved chip configuration with six anodes distributed in two rows was utilized to improve the power-handling capacity. An accurate diode model was developed from DC and small-signal S-parameters from 0.5 to 110 GHz. The frequency doubler was designed with a balanced structure and assembled with a flip-chip configuration. When a GaN-based high-power amplifier was used to drive the doubler, it delivered a peak output power of 1006 mW at 216 GHz with a corresponding conversion efficiency of 15%. The GaN-based frequency doubler shows potential for use in high-power terahertz source applications.