Microwave and millimeter-wave phase shifters are essential components in phased-array antennas for telecommunications and radar applications. Most of the microelectromechanical systems (MEMS) phase shifters developed today are based on established designs except that the solid-state switch is replaced by a MEMS switch. MEMS switches result in lower loss phase shifters at any frequency, especially from 8-120 GHz and result in a wideband performance when compared to similar designs using solid-state devices. The goal of the research activity was to design a Branchline Hybrid Coupled Phase Shifter by using MEMS switching devices, starting from standard semiconductor-based designs. Theoretical results are encouraging and show that the proposed phase shifter can be fabricated..
Modeling of a MEMS Branchline Hybrid Coupled Phase Shufter by Using CAD (COMPUTER AIDED DESIGN) Software
Romolo Marcelli;Giancarlo Bartolucci
2005
Abstract
Microwave and millimeter-wave phase shifters are essential components in phased-array antennas for telecommunications and radar applications. Most of the microelectromechanical systems (MEMS) phase shifters developed today are based on established designs except that the solid-state switch is replaced by a MEMS switch. MEMS switches result in lower loss phase shifters at any frequency, especially from 8-120 GHz and result in a wideband performance when compared to similar designs using solid-state devices. The goal of the research activity was to design a Branchline Hybrid Coupled Phase Shifter by using MEMS switching devices, starting from standard semiconductor-based designs. Theoretical results are encouraging and show that the proposed phase shifter can be fabricated..I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
