Statistical harmonic load termination analysis of switch-mode power amplifiers employing bandpass-pulse-length modulation

Statistical harmonic load termination analysis of switch-mode power amplifiers employing bandpass-pulse-length modulation

This paper presents a method to determine optimum load impedances from a statistical analysis of a harmonic load pull simulation for a switch-mode power amplifier fed with a bandpass-pulse-length modulated signal. The variability of the duty cycle caused by the modulation was taken into account. The...

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Bibliographische Detailangaben
Hauptverfasser: Krause, Sebastian, Maroldt, Stephan, Zech, Christian, Quay, Rudiger, Hein, Matthias A.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
bandpass-RF pulse length modulation
class-S
Frequency modulation
Gallium nitride
GaN
Harmonic analysis
Impedance
Microwave circuits
switch-mode amplifier
Transistors
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Zusammenfassung:This paper presents a method to determine optimum load impedances from a statistical analysis of a harmonic load pull simulation for a switch-mode power amplifier fed with a bandpass-pulse-length modulated signal. The variability of the duty cycle caused by the modulation was taken into account. Thereby, the crucial impact of the phase angle of the filter input reflection coefficient on the achievable efficiency is shown. The simulation was carried out for a 0.25μm gate length GaN based current-switching power amplifier. Based on the simulation results, a microstrip line network working as reconstruction filter was designed and fabricated. The demonstrator comprising the switch-mode power amplifier monolithic microwave integrated circuit and reconstruction filter achieved a drain efficiency and RF output power of up to 71.1% and 36.7dBm (4.6 W), respectively, over a frequency range from 870MHz to 930 MHz.