In this paper a design solution for the synthesis of distributed matching networks to fulfil both fundamental and harmonic load conditions is presented. The proposed approach becomes suitable for the design of high frequency and high efficiency power amplifiers (PAs) based on harmonic tuning approaches [1]. Taking into account the fundamental frequency and its second and third harmonics, all the possible circuital solutions are examined, and for each available circuit solutions, synthesis formulae are outlined. Finally an example of the synthesis of a passive harmonic matching network is provided, comparing simulated behaviour with measurement results
Nowadays, ‘green’ communication is of great importance to save electric energy. In communication sys...
In this paper a new approach to design frequency triplers is introduced. The technique is based on t...
Based on the use of distributed lossless elements, a closed-form synthesis for double-frequency-mat...
In this paper a design solution for the synthesis of distributed matching networks to fulfil both fu...
In this paper a design solution for the synthesis of distributed matching networks to fulfil both fu...
In this paper a design solution for the synthesis of distributed matching networks to fulfil both fu...
In this paper a design solution for the synthesis of distributed matching networks to fulfil both fu...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
In this paper a closed-form synthesis of distributed networks for harmonic matching is presented. ...
In this paper a closed-form synthesis of distributed networks for harmonic matching is presented. ...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
In this paper a closed-form synthesis of distributed networks for harmonic matching is presented. ...
In this paper a closed-form synthesis of distributed networks for harmonic matching is presented. ...
Nowadays, ‘green’ communication is of great importance to save electric energy. In communication sys...
In this paper a new approach to design frequency triplers is introduced. The technique is based on t...
Based on the use of distributed lossless elements, a closed-form synthesis for double-frequency-mat...
In this paper a design solution for the synthesis of distributed matching networks to fulfil both fu...
In this paper a design solution for the synthesis of distributed matching networks to fulfil both fu...
In this paper a design solution for the synthesis of distributed matching networks to fulfil both fu...
In this paper a design solution for the synthesis of distributed matching networks to fulfil both fu...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
In this paper a closed-form synthesis of distributed networks for harmonic matching is presented. ...
In this paper a closed-form synthesis of distributed networks for harmonic matching is presented. ...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
In this paper a closed-form synthesis of distributed networks for harmonic matching is presented. ...
In this paper a closed-form synthesis of distributed networks for harmonic matching is presented. ...
Nowadays, ‘green’ communication is of great importance to save electric energy. In communication sys...
In this paper a new approach to design frequency triplers is introduced. The technique is based on t...
Based on the use of distributed lossless elements, a closed-form synthesis for double-frequency-mat...