Design of a 340 GHz GaN-Based Frequency Doubler with High Output Power
2022 IEEE 10TH ASIA-PACIFIC CONFERENCE ON ANTENNAS AND PROPAGATION, APCAP(2022)
Abstract
This paper presents a high-power 340 GHz frequency doubler based on GaN Schottky barrier diode (SBD) technology. The proposed frequency doubler consists of a pair of GaN SBDs chips, a quartz circuit, as well as the transition waveguides. To improve the power handling capabilities, a pair of GaN SBDs chips with six anodes in total is flip-chip mounted on the quartz circuit. The suspended microstrip line is employed in the circuit on quartz due to its low-attenuation characteristics at terahertz frequencies. To enhance the electrical performance of frequency doubler, low-loss transition structures are designed. The proposed frequency doubler shows a simulated output power of 300 mW with a conversion efficiency of 20% at 340 GHz.
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Key words
conversion efficiency,efficiency 20 percent,flip-chip,frequency 340.0 GHz,GaN/int,high output power,high-power frequency doubler,low-loss transition structures,power 300.0 mW,power handling capabilities,quartz circuit,SBD chips,Schottky barrier diode technology,simulated output power,suspended microstrip line,terahertz frequencies,transition waveguides
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