In this paper a new approach to design frequency triplers is introduced. The technique is based on the closed-form synthesis of distributed matching networks which synthesize the desired load values at fundamental, second and third harmonic frequencies. Then to validate the introduced approach an active frequency tripler is designed and the resulting performances are reported
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...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
In this paper a design approach for active frequency triplers is introduced. The technique is base...
In this paper a design approach for active frequency triplers is introduced. The technique is base...
In this paper a design approach for active frequency triplers is introduced. The technique is base...
In this paper a design approach for active frequency triplers is introduced. The technique is base...
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...
In this paper a design solution for the synthesis of distributed matching networks to fulfil both fu...
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. ...
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...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
In this paper a design approach for active frequency triplers is introduced. The technique is base...
In this paper a design approach for active frequency triplers is introduced. The technique is base...
In this paper a design approach for active frequency triplers is introduced. The technique is base...
In this paper a design approach for active frequency triplers is introduced. The technique is base...
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...
In this paper a design solution for the synthesis of distributed matching networks to fulfil both fu...
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. ...
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...
This paper presents a class of distributed element matching networks that is able to guarantee the r...
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