Effect of Second and Third Harmonic Input Impedances in a Class-F Amplifier

Abstract: Abstract-In this paper, the design of a class-F radio frequency power amplifier with a multiharmonic input transmission line network is presented. Harmonic signal components at the gate come from several sources including nonlinear device capacitances and imperfect output harmonic terminations that create harmonic components that are fed back to the gate through the gate-drain capacitance. The effect of these harmonic generation mechanisms and the potential to shape the gate waveform to improve power efficienc… Show more

“…If we assume the active device (in the following considered as FET type) acting as a voltage controlled current source, a general scheme of the harmonic control technique is represented in Figure 1. In the reported scheme, the input matching network (ZS1 and filter @ f 0 ) has to assure, at the fundamental frequency, the conjugate matching criterion over the operating bandwidth, whereas the input harmonic terminations (ZL2, @2 f 0 ; ZL3, @3 f 0 ) shape the v GS voltage waveform (i.e., the FET input controlling signal), which ultimately controls the generation of the output drain current harmonic components [14][15][16]. The role of the output matching network (ZL1, @ f 0 ) is to achieve a purely resistive loading at the intrinsic terminal of the active device nonlinear current source, whereas the other output matching networks (ZL2, @2 f 0 ; ZL3, @3 f 0 ) are used to properly shape the device output voltage waveforms v DS .…”

S Band Hybrid Power Amplifier in GaN Technology with Input/Output Multi Harmonic Tuned Terminations

“…If we assume the active device (in the following considered as FET type) acting as a voltage controlled current source, a general scheme of the harmonic control technique is represented in Figure 1. In the reported scheme, the input matching network (ZS1 and filter @ f 0 ) has to assure, at the fundamental frequency, the conjugate matching criterion over the operating bandwidth, whereas the input harmonic terminations (ZL2, @2 f 0 ; ZL3, @3 f 0 ) shape the v GS voltage waveform (i.e., the FET input controlling signal), which ultimately controls the generation of the output drain current harmonic components [14][15][16]. The role of the output matching network (ZL1, @ f 0 ) is to achieve a purely resistive loading at the intrinsic terminal of the active device nonlinear current source, whereas the other output matching networks (ZL2, @2 f 0 ; ZL3, @3 f 0 ) are used to properly shape the device output voltage waveforms v DS .…”

S Band Hybrid Power Amplifier in GaN Technology with Input/Output Multi Harmonic Tuned Terminations

High efficiency and high power GaN HEMT inverse class-F synchronous rectifier for wireless power applications

Design and Analysis of Class B Power Amplifier to be Used in All Digital Transmitters