Aspects of this disclosure relate to an acoustic wave filter that includes acoustic wave resonators arranged to filter a radio frequency signal. The acoustic wave resonators include a first acoustic wave resonator. The acoustic wave filter includes a circuit element in parallel with the first acoustic wave resonator in a stage of the acoustic wave filter. The circuit element and the first acoustic wave resonator have different resonant frequencies. The circuit element can reduce an impact of bulk mode of the first acoustic wave resonator on insertion loss of the acoustic wave filter. The first acoustic wave resonator can be a surface acoustic wave resonator in certain embodiments. The circuit element can be a second acoustic wave resonator or a capacitor, for example.

Aspects of this disclosure relate to an acoustic wave filter that includes acoustic wave resonators arranged to filter a radio frequency signal. The acoustic wave resonators include a first acoustic wave resonator. The acoustic wave filter includes a circuit element in parallel with the first acoustic wave resonator in a stage of the acoustic wave filter. The circuit element and the first acoustic wave resonator have different resonant frequencies. The circuit element can reduce an impact of bulk mode of the first acoustic wave resonator on insertion loss of the acoustic wave filter. The first acoustic wave resonator can be a surface acoustic wave resonator in certain embodiments. The circuit element can be a second acoustic wave resonator or a capacitor, for example.

A multiplexer includes: a substrate having a surface; another substrate having another surface facing the surface across an air gap; a filter that is located on the surface, and includes first series resonators in a first series pathway from a common terminal to a terminal, and first parallel resonators in first parallel pathways; another filter that is located on the another surface, and includes second series resonators in a second series pathway from the common terminal to another terminal, and second parallel resonators in second parallel pathways, a second parallel resonator closest to the another terminal and a second series resonator closest to the another terminal not overlapping with the first series pathway, at least a part of the second parallel pathways overlapping with at least a part of first pathways between the first series pathway and the first parallel resonators, the first parallel resonators, and the first series pathway.

A multiplexer includes: a substrate having a surface; another substrate having another surface facing the surface across an air gap; a filter that is located on the surface, and includes first series resonators in a first series pathway from a common terminal to a terminal, and first parallel resonators in first parallel pathways; another filter that is located on the another surface, and includes second series resonators in a second series pathway from the common terminal to another terminal, and second parallel resonators in second parallel pathways, a second parallel resonator closest to the another terminal and a second series resonator closest to the another terminal not overlapping with the first series pathway, at least a part of the second parallel pathways overlapping with at least a part of first pathways between the first series pathway and the first parallel resonators, the first parallel resonators, and the first series pathway.

Wireless communication circuitry is disclosed. The wireless communication circuitry includes an antenna terminal and an electrically conductive path between a first port terminal and the antenna terminal through a second port terminal. Also included is a bulk acoustic wave filter configured to filter and pass a desired radio frequency signal between the first port terminal and the second port terminal. Further included is a first magnetic coupling component that is electrically connected to the electrically conductive path and a resonant circuit made up of a capacitor and a second magnetic coupling component that is magnetically coupled to the first magnetic coupling component. The resonant circuit is tuned to suppress an undesired desired radio frequency signal that in some embodiments is the second harmonic of the desired radio frequency signal.

Wireless communication circuitry is disclosed. The wireless communication circuitry includes an antenna terminal and an electrically conductive path between a first port terminal and the antenna terminal through a second port terminal. Also included is a bulk acoustic wave filter configured to filter and pass a desired radio frequency signal between the first port terminal and the second port terminal. Further included is a first magnetic coupling component that is electrically connected to the electrically conductive path and a resonant circuit made up of a capacitor and a second magnetic coupling component that is magnetically coupled to the first magnetic coupling component. The resonant circuit is tuned to suppress an undesired desired radio frequency signal that in some embodiments is the second harmonic of the desired radio frequency signal.

A notch filter includes an inductor coupled between an input node and an output node, and a dual-resonator structure coupled between the input node, the output node, and ground.

A resonator element for use in a filter is provided. The resonator element includes a first resonator acoustically coupled to a second or third resonator or both. The first resonator has terminals for incorporation in a filter structure. A tuning circuit is coupled to the second or third resonator or both to enable tuning of the resonator element. The tuning circuit includes a variable capacitor and an inductor.

In accordance with an embodiment, an RF system includes a transmit path having a first tunable transmit band stop filter, and a power amplifier coupled to an output of the first tunable transmit band stop filter, where the first tunable transmit band stop filter is configured reject a receive frequency and pass a transmit frequency; a receive path comprising an LNA; and a duplex filter having a transmit path port coupled to an output of the power amplifier, a receive path port coupled to an input of the LNA, and an antenna port, where the duplex filter is configured to pass the transmit frequency and reject the receive frequency between the antenna port and the transmit path port, pass the receive frequency and reject the transmit frequency between the antenna port and the receive path port.

A resonator element for use in a filter is provided. The resonator element includes a first resonator acoustically coupled to a second or third resonator or both. The first resonator has terminals for incorporation in a filter structure. A tuning circuit is coupled to the second or third resonator or both to enable tuning of the resonator element. The tuning circuit includes a variable capacitor and an inductor.