Gallium Nitride Phase Shifters

Abstract: This thesis presents two different types of high-power gallium nitride (GaN) phase shifters designed for X-band (8-12 GHz) but offering good performance over a much wider band. The first type of phase shifter is a novel design having 22.5°phase shift, which promises wide bandwidth (in this case limited by the SPDT switch also designed), but achieves decent insertion loss (5 dB), good return loss (better than 11 dB) and very low phase variation (1°) across X-band. The components for a 45°differential phase shif… Show more

“…Simplified RF front-end for a typical beamforming system in a non-GaN technology [[30] Figure IV.3: Example RF front-end possible with GaN with key components in blue [[30] While there has been significant progress made in developing GaN technology for high-power amplification applications as explained before in Chapter II, there have been few studies to date on the use of GaN HEMTs for high-power RF/microwave phase shifters applications. In future RF/microwave systems that are based on GaN device technology, the GaN control elements, such as phase shifters, will often be conjointly placed together with high-power GaN amplifiers, thereby requiring an in-depth look at these control devices in term of their parameters design presented previously.Using GaN technology, a few phase shifters works have already been reported over the last few years.…”

Design of GaN-based Microwave Components and Application to Novel High Power Reconfigurable Antennas

“…Simplified RF front-end for a typical beamforming system in a non-GaN technology [[30] Figure IV.3: Example RF front-end possible with GaN with key components in blue [[30] While there has been significant progress made in developing GaN technology for high-power amplification applications as explained before in Chapter II, there have been few studies to date on the use of GaN HEMTs for high-power RF/microwave phase shifters applications. In future RF/microwave systems that are based on GaN device technology, the GaN control elements, such as phase shifters, will often be conjointly placed together with high-power GaN amplifiers, thereby requiring an in-depth look at these control devices in term of their parameters design presented previously.Using GaN technology, a few phase shifters works have already been reported over the last few years.…”

Design of GaN-based Microwave Components and Application to Novel High Power Reconfigurable Antennas