. . . "3"^^ . "The ARC filters based on RLC ladder prototypes realized using noncascade filter synthesis method exhibit some advantages-namely low sensitivity. On the other hand there are disadvantages which are coupled with ARC simulation of required ideal inductors of LC ladder prototypes what brings higher sensitivities to real parasitic properties of ARC simulation. Usage of new principle of goal-directed lossy RLC ladder prototypes enables to design ARC realizations with optimized parameters and minimized influence of real active elements. In paper are new possibilities of ARC filter optimization in some practical examples presented." . . "6"^^ . "Sedl\u00E1\u010Dek, Ji\u0159\u00ED" . . "[E138CC3712F0]" . . "Z(MSM0021630513)" . . . "Beijing" . . . "Szab\u00F3, Zolt\u00E1n" . "RIV/00216305:26220/09:PU80084" . . . "Optimized ARC Filters Using Goal-lossy GIC" . . "Kadlec, Radim" . "Szab\u00F3, Zolt\u00E1n" . "26220" . "The Electromagnetic Academy" . "332042" . "ARC filters, Goal-lossy GIC, noncascade filter, filter optimization"@en . "978-1-934142-08-0" . "Optimized ARC Filters Using Goal-lossy GIC" . "Cambridge" . . . "2009-03-23+01:00"^^ . . . "RIV/00216305:26220/09:PU80084!RIV10-MSM-26220___" . "Optimized ARC Filters Using Goal-lossy GIC"@en . "Progress In Electromagnetics Research Symposium" . "Optimized ARC Filters Using Goal-lossy GIC"@en . . "The ARC filters based on RLC ladder prototypes realized using noncascade filter synthesis method exhibit some advantages-namely low sensitivity. On the other hand there are disadvantages which are coupled with ARC simulation of required ideal inductors of LC ladder prototypes what brings higher sensitivities to real parasitic properties of ARC simulation. Usage of new principle of goal-directed lossy RLC ladder prototypes enables to design ARC realizations with optimized parameters and minimized influence of real active elements. In paper are new possibilities of ARC filter optimization in some practical examples presented."@en . "3"^^ .