A low-profile slide screw impedance tuner with rotating disc-shaped tuning probes uses a mechanical arrangement for correcting the skewing of the reflection factor response of the rotating tuning probes. As the axis of the control motor turns, a protruding pin pushes against a fixed limit stop block and shifts the motor and its axis, and by that the tuning probe, in the opposite direction of the rotation shift. This corrects for the skewing phase rotation.

A low-profile slide screw impedance tuner with rotating disc-shaped tuning probes uses a mechanical arrangement for correcting the skewing of the reflection factor response of the rotating tuning probes. As the axis of the control motor turns, a protruding pin pushes against a fixed limit stop block and shifts the motor and its axis, and by that the tuning probe, in the opposite direction of the rotation shift. This corrects for the skewing phase rotation.

In accordance with an embodiment, a differential directional coupler includes a first coupler having a first transformer comprising a first input coil and a first output coil, and a second coupler having a second transformer comprising a second input coil and a second output coil. The first input coil and the second input coil each include an input port, the first transformer at least partially covers the second transformer in a top view from a vertical direction onto the differential directional coupler, and the first input coil and the second input coil are configured to be mirror symmetric with respect to one another in the top view with respect to their input ports.

In accordance with an embodiment, a differential directional coupler includes a first coupler having a first transformer comprising a first input coil and a first output coil, and a second coupler having a second transformer comprising a second input coil and a second output coil. The first input coil and the second input coil each include an input port, the first transformer at least partially covers the second transformer in a top view from a vertical direction onto the differential directional coupler, and the first input coil and the second input coil are configured to be mirror symmetric with respect to one another in the top view with respect to their input ports.

Coupling apparatuses, circuits having such coupling apparatuses and corresponding methods are provided that involve a first and a second signal being coupled out from an out-coupling circuit part and being separately coupled into first and second circuit pmts. The use of different coupling mechanisms effects signal separation in this case. In particular, one of the signals can be coupled as a differential signal and the other as a common mode signal.

Coupling apparatuses, circuits having such coupling apparatuses and corresponding methods are provided that involve a first and a second signal being coupled out from an out-coupling circuit part and being separately coupled into first and second circuit pmts. The use of different coupling mechanisms effects signal separation in this case. In particular, one of the signals can be coupled as a differential signal and the other as a common mode signal.

The present disclosure relates to antenna devices and arrays of antenna devices. One example antenna device includes a first radiator configured to radiate a first electromagnetic signal, a second radiator configured to radiate a second electromagnetic signal, and a joint feeding network including a first 180-degree coupler and a second 180-degree coupler arranged in sequence. The first 180-degree coupler receives first input signal and second input signal, and the second 180-degree coupler provides first output signal to the first radiator and second output signal to the second radiator. In the joint feeding network, a first path connects the first 180-degree coupler to the second 180-degree coupler including a first phase shifter. A second path connects the first 180-degree coupler to the second 180-degree coupler including a second phase shifter and an attenuator.

The present disclosure relates to antenna devices and arrays of antenna devices. One example antenna device includes a first radiator configured to radiate a first electromagnetic signal, a second radiator configured to radiate a second electromagnetic signal, and a joint feeding network including a first 180-degree coupler and a second 180-degree coupler arranged in sequence. The first 180-degree coupler receives first input signal and second input signal, and the second 180-degree coupler provides first output signal to the first radiator and second output signal to the second radiator. In the joint feeding network, a first path connects the first 180-degree coupler to the second 180-degree coupler including a first phase shifter. A second path connects the first 180-degree coupler to the second 180-degree coupler including a second phase shifter and an attenuator.

The disclosure describes a multi-section directional coupler comprising: a plurality of conductive lines, each conductive line comprises a plurality of line sections; a plurality of coupled line sections, each coupled line section comprises a first line section of a first conductive line and a second line section of a second conductive line, the coupled line sections comprise different coupling strength values, the coupled line sections facilitate signal coupling; and at least one grounded conductive coupling reduction structure arranged adjacent to a selected coupled line section and operable to reduce a coupling value between a respective line section of the first conductive line and a respective line section of the second conductive line of the selected coupled line section. The selected coupled line section comprises a smaller coupling strength value than another one of the coupled line sections. Methods of manufacturing and operating the multi-section directional coupler are also provided.

A directional coupler includes a conductor serving as a primary line disposed in a multilayer body and conductors serving as a plurality of secondary lines that are disposed in the multilayer body and each of which is capable of being electromagnetically coupled to the conductor serving as the primary line. A facing area where the conductor serving as the secondary line and the conductor serving as the secondary line face each other is smaller than a facing area where the conductor serving as the secondary line and the conductor serving as the primary line face each other. A distance between the conductor serving as the secondary line and the conductor serving as the secondary line is longer than a distance between the conductor serving as the secondary line and the conductor serving as the primary line.