A rectangular waveguide device is provided. The rectangular waveguide device comprising: a first broad wall; a second broad wall parallel to the first broad wall; a first narrow wall perpendicular to and connected to the first broad wall and the second broad wall; a second narrow wall parallel to the first narrow wall and connected to the first broad wall and the second broad wall; and at least one slot in the first broad wall.

A rectangular waveguide device is provided. The rectangular waveguide device comprising: a first broad wall; a second broad wall parallel to the first broad wall; a first narrow wall perpendicular to and connected to the first broad wall and the second broad wall; a second narrow wall parallel to the first narrow wall and connected to the first broad wall and the second broad wall; and at least one slot in the first broad wall.

A transmission line. The transmission line includes a reference electrode. The transmission line also includes a stripline. The stripline meanders within a plane. The stripline has a non-planar profile when viewed along a direction parallel to the plane.

A transmission line. The transmission line includes a reference electrode. The transmission line also includes a stripline. The stripline meanders within a plane. The stripline has a non-planar profile when viewed along a direction parallel to the plane.

In one example, a signal processing circuit including a directional coupler and a termination part is disclosed. The directional coupler includes a main line as a transmission path of an RF signal and a sub-line constituting a coupled line together with the main line. The termination part includes devices connectable between ground and a first port at an end of the sub-line. The signal processing circuit switches, depending on a frequency of the RF signal, the devices of the termination part to be connected to the first port. The phase of a return signal of a signal input as a coupling signal to the termination part via the first port is opposite to the phase of an isolation signal supplied to a second port at the other end of the sub-line and connected to an output port of the coupling signal.

In one example, a signal processing circuit including a directional coupler and a termination part is disclosed. The directional coupler includes a main line as a transmission path of an RF signal and a sub-line constituting a coupled line together with the main line. The termination part includes devices connectable between ground and a first port at an end of the sub-line. The signal processing circuit switches, depending on a frequency of the RF signal, the devices of the termination part to be connected to the first port. The phase of a return signal of a signal input as a coupling signal to the termination part via the first port is opposite to the phase of an isolation signal supplied to a second port at the other end of the sub-line and connected to an output port of the coupling signal.

A bidirectional coupler includes a first main line that transmits a first signal from a first input end thereof to a first output end thereof, a second main line that transmits a second signal from a second input end thereof to a second output end thereof, a first sub-line having a first end corresponding to the first input end and a second end corresponding to the first output end, a second sub-line having a first end corresponding to the second input end and a second end corresponding to the second output end, a detector port, a termination circuit, and a switch circuit. The first end of the first sub-line and the first end of the second sub-line are connected to each other.

A bidirectional coupler includes a first main line that transmits a first signal from a first input end thereof to a first output end thereof, a second main line that transmits a second signal from a second input end thereof to a second output end thereof, a first sub-line having a first end corresponding to the first input end and a second end corresponding to the first output end, a second sub-line having a first end corresponding to the second input end and a second end corresponding to the second output end, a detector port, a termination circuit, and a switch circuit. The first end of the first sub-line and the first end of the second sub-line are connected to each other.

Systems, apparatuses, and methods are described for increasing a performance of a small wireless device comprising one or more conductive elements electrically coupled with an antenna. A user interface element of the wireless device may be configured to operate as a radiative component of an antenna structure. A power source element may be electrically isolated from a ground, resulting in decreased coupling with the antenna. Moreover, an antenna bandwidth may be increased, via modification of one or more antenna characteristics and/or the addition of one or more novel antenna components, in order to increase the detune-resiliency of the antenna. In addition, the radio frequency performance and reliability of the wireless device may be improved by maintaining fixed positioning between various components of the wireless device. Thus, the antenna and the one or more conductive elements may be configured to increase the device performance.

Systems, apparatuses, and methods are described for increasing a performance of a small wireless device comprising one or more conductive elements electrically coupled with an antenna. A user interface element of the wireless device may be configured to operate as a radiative component of an antenna structure. A power source element may be electrically isolated from a ground, resulting in decreased coupling with the antenna. Moreover, an antenna bandwidth may be increased, via modification of one or more antenna characteristics and/or the addition of one or more novel antenna components, in order to increase the detune-resiliency of the antenna. In addition, the radio frequency performance and reliability of the wireless device may be improved by maintaining fixed positioning between various components of the wireless device. Thus, the antenna and the one or more conductive elements may be configured to increase the device performance.