Sharif Digital Repository

Recently, class-J₂ operation mode has been proposed in the literature for high-efficiency power amplifier (PA) design. It has been shown that the output power (Pout) of a class-J₂ PA can be 1.5 dB higher than Pout of a class-J counterpart, whereas the theoretical drain efficiency of the class-J₂ mode can be as high as 83%. This paper is devoted to introduce and characterize the class-J₂₃ mode of operation, which is the generalized form of the class-J₂ mode and provides a new design space to realize highly efficient PSs. In this new PA mode, the third-harmonic voltage is also included in the drain voltage of the transistor to increase the drain efficiency up to 95.4% in theory. Design space... 

Recently, class-J₂ operation mode has been proposed in the literature for high-efficiency power amplifier (PA) design. It has been shown that the output power (Pout) of a class-J₂ PA can be 1.5 dB higher than Pout of a class-J counterpart, whereas the theoretical drain efficiency of the class-J₂ mode can be as high as 83%. This paper is devoted to introduce and characterize the class-J₂₃ mode of operation, which is the generalized form of the class-J₂ mode and provides a new design space to realize highly efficient PSs. In this new PA mode, the third-harmonic voltage is also included in the drain voltage of the transistor to increase the drain efficiency up to 95.4% in theory. Design space... 

This paper presents the theoretical introduction and experimental validation of the "Class-J2 Mode Power Amplifier," which provides higher efficiency and output power compared with conventional class-J mode counterpart. This mode of operation is realized by injection of the second-harmonic current to drain node of a class-J power amplifier (PA) to reduce the 45° phase shift between drain current and voltage signals. Similar to class-J PAs, the second-harmonic impedance of class-J2 PAs is purely reactive to simplify the design of the output matching network. The auxiliary second-harmonic injection circuit comprises a transistor biased in class-B mode followed by a class-C biased amplifier to... 

In this paper, the class-J mode of operation is investigated when sinusoidal, half-sinusoidal (HS), triangle, pulse, and reduced conduction angle voltage waveforms are shaped at the gate node of the transistor. Output power, maximum power-added efficiency (PAE), large signal gain (LSG), and load-pull contours are presented and compared for each input signal. It is shown that PAE of a class-J power amplifier (PA) is improved when an HS voltage is realized at the gate node of the transistor. This enhancement can also be observed for a pulse input with 20% duty cycle, however, at the expense of reduced output power and LSG. A proof-of-concept, two-stage class-J PA is designed and fabricated in... 

LLC resonant converter has been used widely as dc-dc converter for achieving constant dc voltage. In this paper, an LLC resonant converter, by adding an inductance to its conventional topology and considering the rectifying stage stray inductances, is proposed for an adjustable wide range regulated current source (20-200 A dc) for using as ion implanter's filament power supply. The additional inductor increases output current adjustment range and efficiency, especially at light loads. Transformer's leakage inductances and rectifying stage stray inductances have been considered. Because of these inductances, the rectifier stage always works in continuous conduction mode, and its conduction...