In-line filter having mutually compensating inductive and capacitive coupling

Assignee

• CommScope Italy S.R.L. · IT

Inventors

• Stefano Tamiazzo · Milano, IT
• Giuseppe Resnati · Seregno, IT

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH01P1/205
• WIPO fieldTelecommunications
• WIPO sectorElectrical engineering

Abstract

An in-line resonator filter has a linear array of three or more conductors. A first pair of adjacent conductors has inductive main coupling and oppositely signed capacitive main coupling, while a second pair of non-adjacent conductors has inductive cross-coupling. The first and second pairs have one conductor in common. Between the second pair of non-adjacent conductors, there is no direct ohmic connection that provides the corresponding inductive cross-coupling. The oppositely signed capacitive main coupling compensates for at least a portion of the inductive main coupling between the first pair of adjacent conductors. The in-line resonator filter is able to provide one or more transmission zeros without requiring any discrete bypass connectors that provide direct ohmic connection between pairs of non-adjacent conductors. As such, the in-line resonator filters can be smaller, less complex, and less susceptible to damage.