And the Winner for the IEEE IMS 2021 Best Industry Paper Award Is… NXP

placeholder

The IEEE MTT-S International Microwave Symposium (IMS) 2021 recently awarded NXP the Best Industry Paper Award. Our paper is titled, “Novel Continuous Inverse Class F Power Amplifier for High-Power 5G Macro Base Station Application.”

This is exciting news! This research paper aligns with our innovation in 5G and Gallium Nitride (GaN). Some of our findings include: Harmonically tuned GaN amplifiers have been shown to exhibit high-efficiency operation, but until recently, power density improvement has not been a target for waveform engineering. So far, this work has set a high record for power density of 14.5 W/mm reported using an active GaN on SiC NXP die, about 45% improvement from the typical 10 W/mm figure. This is beneficial to NXP because increasing the power density enhancement can help in minimizing the active GaN die size and reducing the overall manufacturing cost.

One of the key findings is that input waveform engineering for power density enhancement is as significant as output waveform engineering and needs considerable attention. Power density enhancement of up to 45% can be achieved over significant fractional bandwidths while maintaining high efficiency with proper harmonic control. In conclusion, the prototype that was used, using a 24mm active GaN die, achieved high-power density (14.5 W/mm at 48V), high efficiency (75% max), and gain (19dB max) across 1.8 – 2.2 GHz.

IMS Connecting Minds Exchanging Ideas

Who’s ready for the age of Connectivity? The theme for this year’s IMS was, “Connecting for a Smarter, Safer World,” which at NXP is something we strive for with “Secure Connections for a Smarter World.” IMS 2021 was a mix of live, in-person attendance in Atlanta, Georgia as well as virtual with attendees being able to view and hear pre-recorded papers. Please visit the IMS2021 website  to access the recording of this paper, “Novel Continuous Inverse Class F Power Amplifier for High-Power 5G Macro Base Station Application” that is available for those who registered for IMS.

Reach out to Jeffrey Roberts to find out more about high-power 5G macro PA design for base station applications.

Tags: Communication Infrastructure

Author

Jeffrey Roberts

Jeffrey Roberts

RF PA Design Engineer

Jeffrey Roberts received the B.Sc. degree from The University of Texas in 2013 and the M.Sc. degree from The University of Arizona in 2015. Since graduation, he has been at NXP Semiconductors within the Radio Power division as a RF PA Design Engineer. His research includes advanced amplifier design, wideband GaN, and integrated PA module development for massive MIMO applications. He has authored and co-authored five publications and holds seven granted patents.