Mark P. van der Heijden scite author profile

Abstract-A 90-W peak-power 2.14-GHz improved GaN outphasing amplifier with 50.5% average efficiency for wideband code division multiple access (W-CDMA) signals is presented. Independent control of the branch amplifiers by two in-phase/quadrature modulators enables optimum outphasing and input power leveling, yielding significant improvements in gain, efficiency, and linearity. In deep-power backoff operation, the outphasing angle of the branch amplifiers is kept constant below a certain power level. This results in class-B operation for the very low output power levels, yielding less reactive loading of the output stages, and therefore, improved efficiency in power backoff operation compared to the classical outphasing amplifiers. Based on these principles, the optimum design parameters and input signal conditioning are discussed. The resulting theoretical maximum achievable average efficiency for W-CDMA signals is presented. Experimental results support the foregoing theory and show high efficiency over a large bandwidth, while meeting the linearity specifications using low-cost low-complexity memoryless pre-distortion. These properties make this amplifier concept an interesting candidate for future multiband base-station implementations.Index Terms-Base station, high-efficiency RF power amplifier, mixed-mode amplifier, outphasing amplifier, wideband code division multiple access (W-CDMA).

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A Package-Integrated Chireix Outphasing RF Switch-Mode High-Power Amplifier

Calvillo-Cortes

Heijden

Acar

et al. 2013

IEEE Trans. Microwave Theory Techn.

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A 19W high-efficiency wide-band CMOS-GaN class-E Chireix RF outphasing power amplifier

Heijden¹,

Acar²,

Vromans³

et al. 2011

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System-Efficiency Analysis of Power Amplifier Supply-Tracking Regimes in Mobile Transmitters

Minnis

Moore

Whatmough³

et al. 2009

IEEE Trans. Circuits Syst. I

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A 65 nm CMOS 30 dBm Class-E RF Power Amplifier With 60% PAE and 40% PAE at 16 dB Back-Off

Apostolidou

Heijden

Leenaerts

et al. 2009

IEEE J. Solid-State Circuits

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