A State-of-the-Art Review on CMOS Radio Frequency Power Amplifiers for Wireless Communication Systems

Hamid, Sofiyah Sal; Mariappan, Selvakumar; Rajendran, Jagadheswaran; Rawat, Arvind Singh; Rhaffor, Nuha A.; Kumar, Nagendra; Nathan, Arokia; Yarman, Binboğa Sıddık

doi:10.3390/mi14081551

Cited by 3 publications

(1 citation statement)

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“…The use of GaN HEMT power semiconductor devices at VHF is unusual, as the latest Si-LDMOS devices at these frequencies can provide very good results in terms of power efficiency at a lower cost. Therefore, there is a scarcity of published scientific works based on GaN technology at these frequency bands, and it is difficult to find published results to compare with those obtained in this work because most of the developments are currently focused on the higher-frequency bands (above UHF) and ET PA architectures [42][43][44]. However, there are new communication services, such as the one addressed in this work (satellite communications at the VHF band), that are currently under development and can benefit from using GaN technology in RF power circuits.…”

Section: Discussionmentioning

confidence: 97%

High-Efficiency GaN-Based Power Amplifiers for Envelope Nonlinearities’ Mitigation in VHF Wideband Polar-Mode Transmitters

Patiño-Gómez,

Ortega-González

2023

Electronics

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Space-based communications at the very high frequency (VHF) band for air traffic management is a new technology application under development that requires energy-efficient architectures to mitigate the power limitations of satellite platforms. The usage of high-efficiency radiofrequency (RF) transmitters can help reduce the power consumption, but nonlinearities concerning the amplified signal in wide fractional bandwidth systems are a problem to solve. This paper proposes a high-efficiency (RF) power amplifier (PA) for satellite communications at the VHF band that aims to reduce the envelope distortion inherent to wide fractional bandwidth multicarrier polar-mode transmitters. Its design is based on a solution called hybrid-coupled switching voltage PA in combination with gallium nitride (GaN) high electron mobility transistor (HEMT) technology. The developed VHF PA prototype delivers up to 95 W from a 28 V power supply, with a drain efficiency about 80% within the 118 MHz to 138 MHz operating band. To test its linearity performance, operating in a polar-mode configuration, a GaN-based wideband envelope amplifier (EA) has been developed to modulate the RF PA supply port. This EA improves its power efficiency by combining it with a slow envelope power supply (SEPS). Some measurements have been taken for a 100 W peak envelope power (PEP) and 10 MHz (maximum carrier spacing) four-tone digitally-modulated test signal, where any distortion product is attenuated 46 dB below the average power of the amplified signal without applying any digital predistortion (DPD) technique.

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Section: Discussionmentioning

confidence: 97%