HIGH-FREQUENCY SWITCH CIRCUIT

A high-frequency switch circuit that controls pass/block of a signal transmitted through a high-frequency transmission line by arranging a switching element between the high-frequency transmission line and the ground. An impedance matching circuit is constituted by an adjusting transmission line com...

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Bibliographic Details
Main Authors UDA, HISANORI, HAYASHI, HIROAKI
Format Patent
LanguageEnglish
French
Japanese
Published 29.03.2001
Edition7
Subjects
BASIC ELECTRIC ELEMENTS
ELECTRICITY
RESONATORS, LINES, OR OTHER DEVICES OF THE WAVEGUIDE TYPE
WAVEGUIDES
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Summary:A high-frequency switch circuit that controls pass/block of a signal transmitted through a high-frequency transmission line by arranging a switching element between the high-frequency transmission line and the ground. An impedance matching circuit is constituted by an adjusting transmission line comprising at least two lines having different line impedance and connected in series to adjust the reflection coefficient. The line impedance and the length of each line constituting the adjusting transmission line are determined so as to satisfy A = 0, B = jZ, C = j/Z, and D=0 where A, B, C and D are respectively the elements W11, W12, W21 and W22 of a transmission matrix (W) of a cascade circuit comprising the capacitance of a switching element in an OFF state and the adjusting transmission line, and Z is the impedance when viewed from the connecting terminal. L'invention concerne un circuit de commutation haute fréquence qui commande le passage/blocage d'un signal transmis sur une ligne de transmission haute fréquence, grâce à un élément de commutation installé entre la ligne de transmission haute fréquence et la terre. Un circuit d'adaptation d'impédance est constitué d'une ligne de transmission de réglage comprenant au moins deux lignes possédant une impédance différente et connectées en série, de manière à permettre l'ajustement du coefficient de réflexion. L'impédance de ligne et la longueur de chaque ligne formant la ligne de transmission de réglage sont déterminées, de sorte que A=0, B=jZ, C=j/Z et D=0, A, B, C et D représentant respectivement les éléments W11, W12, W21, W22 d'une matrice de transmission (W) d'un circuit en cascade présentant la capacité de l'élément de commutation à l'état d'ARRET et de la ligne de transmission, et Z représente l'impédance, vu de la borne de connexion.
Bibliography:Application Number: WO2000JP06458