RF MEMS Matrices have been implemented within an ESA-ESTEC supported consortium to release the feasibility of sub-elements useful for more complicated structures involving several switches, to be implemented for satellite communications. At this stage, 2 x 2 Matrices have been developed, by using series ohmic switches for I/O interconnections and shunt capacitive switches to improve the isolation response. The realised configurations have been tested in the frequency range (0.045 – 40) GHz. Insertion Losses as low as -1.5 dB and Return Losses around -40 dB have been measured at 20 GHz for the 90 degrees path.
RF MEMS Matrices for Space Applications
Giacomozzi, Flavio;Margesin, Benno;Mulloni, Viviana;
2008-01-01
Abstract
RF MEMS Matrices have been implemented within an ESA-ESTEC supported consortium to release the feasibility of sub-elements useful for more complicated structures involving several switches, to be implemented for satellite communications. At this stage, 2 x 2 Matrices have been developed, by using series ohmic switches for I/O interconnections and shunt capacitive switches to improve the isolation response. The realised configurations have been tested in the frequency range (0.045 – 40) GHz. Insertion Losses as low as -1.5 dB and Return Losses around -40 dB have been measured at 20 GHz for the 90 degrees path.File in questo prodotto:
Non ci sono file associati a questo prodotto.
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.