A wireless communication system including an electrically conductive passive medium capable of simultaneously propagating therealong electromagnetic first and second currents at different respective frequencies F1 and F2, the electrically conductive passive medium including an electrically conductive first passive linear medium portion adjacent an electrically conductive first passive nonlinear medium portion, the first passive nonlinear medium portion capable of generating an intermodulation current based on a nonlinear interaction between the first and second currents, the intermodulation current having a frequency Fi equal to nF1+mF2 and propagating along the first passive nonlinear medium portion, m and n being positive or negative integers; and a first magnetic film disposed proximate an electrically conductive external surface of the first linear medium portion, such that when the first and second currents propagate along the first passive linear medium portion toward the first passive nonlinear medium portion, the magnetic film reduces or prevents the generation of the intermodulation current in the first passive nonlinear medium portion by attenuating at least portions of the first and second currents.

An electronic device may be provided with an antenna module having a substrate. A phased antenna array of dielectric resonator antennas and a radio-frequency integrated circuit for the array may be mounted to one or more surfaces of the substrate. The dielectric resonator antennas may include dielectric columns excited by feed probes. The feed probes may be printed onto sidewalls of the dielectric columns or may be pressed against the sidewalls by biasing structures. A plastic substrate may be molded over each dielectric column and each of the feed probes in the array. The feed probes may cover multiple polarizations. The array may include elements for covering multiple frequency bands. The dielectric columns may be aligned a longitudinal axis and may be rotated at a non-zero and non-perpendicular angle with respect to the longitudinal axis.

An electronic device may be provided with an antenna module having a substrate. A phased antenna array of dielectric resonator antennas and a radio-frequency integrated circuit for the array may be mounted to one or more surfaces of the substrate. The dielectric resonator antennas may include dielectric columns excited by feed probes. The feed probes may be printed onto sidewalls of the dielectric columns or may be pressed against the sidewalls by biasing structures. A plastic substrate may be molded over each dielectric column and each of the feed probes in the array. The feed probes may cover multiple polarizations. The array may include elements for covering multiple frequency bands. The dielectric columns may be aligned a longitudinal axis and may be rotated at a non-zero and non-perpendicular angle with respect to the longitudinal axis.

Aspects of the subject disclosure may include, a first waveguide system that receives first electromagnetic waves that propagate along a transmission medium where the transmission medium comprises an external surface where the first electromagnetic waves propagate along the transmission medium without requiring an electrical return path, and where the first electromagnetic waves convey data. The first waveguide system can generate, according to the first electromagnetic waves, first signals, where the first signals convey the data. The first waveguide system can provide the first signals to a switching device that facilitates generating and providing, according to the first signals and routing information conveyed by the first signals, second signals to a second waveguide system selected from among a group of waveguide systems communicatively coupled to the switching device, where the second signals convey at least a first portion of the data. Other embodiments are disclosed.

Aspects of the subject disclosure may include, a first waveguide system that receives first electromagnetic waves that propagate along a transmission medium where the transmission medium comprises an external surface where the first electromagnetic waves propagate along the transmission medium without requiring an electrical return path, and where the first electromagnetic waves convey data. The first waveguide system can generate, according to the first electromagnetic waves, first signals, where the first signals convey the data. The first waveguide system can provide the first signals to a switching device that facilitates generating and providing, according to the first signals and routing information conveyed by the first signals, second signals to a second waveguide system selected from among a group of waveguide systems communicatively coupled to the switching device, where the second signals convey at least a first portion of the data. Other embodiments are disclosed.

According to one embodiment, a power divider includes a first transmission line, a first input transmission line, a second input transmission line, and the plurality of output transmission lines. The first transmission line has a closed structure. The first input transmission line and the second input transmission line are connected to the first transmission line at locations away from each other along the first transmission line by approximately a quarter of a length of the first transmission line. The plurality of output transmission lines are connected to the first transmission line at locations dividing the length of the first transmission line substantially evenly.

According to one embodiment, a power divider includes a first transmission line, a first input transmission line, a second input transmission line, and the plurality of output transmission lines. The first transmission line has a closed structure. The first input transmission line and the second input transmission line are connected to the first transmission line at locations away from each other along the first transmission line by approximately a quarter of a length of the first transmission line. The plurality of output transmission lines are connected to the first transmission line at locations dividing the length of the first transmission line substantially evenly.

An interface device for communicatively coupling a first communication medium and a second communication medium includes a radio frequency (RF) processor and a frequency shifting subsystem. The RF processor is configured to receive a first data signal from the first communication medium and convert the first data signal to a plurality of first internal RF signals having a common center frequency. The frequency shifting subsystem is configured to shift the plurality of first internal RF signals having the common center frequency to respective first external RF signals having different respective center frequencies, for transmission on the second communication medium. The second communication medium may be a coaxial electrical cable.

An interface device for communicatively coupling a first communication medium and a second communication medium includes a radio frequency (RF) processor and a frequency shifting subsystem. The RF processor is configured to receive a first data signal from the first communication medium and convert the first data signal to a plurality of first internal RF signals having a common center frequency. The frequency shifting subsystem is configured to shift the plurality of first internal RF signals having the common center frequency to respective first external RF signals having different respective center frequencies, for transmission on the second communication medium. The second communication medium may be a coaxial electrical cable.

A communication system in a housing including a first communication device and a second communication device has, in at least one of the first communication device and the second communication device, an antenna structure installed at a position between a device arrangement surface and a specific surface. The housing has an inside member arranged substantially in parallel with a battery arrangement surface at a position at least one of above and below the antenna structure. The inside member has, formed thereon, at least one opening that opens in a vertical direction. The at least one of the first communication device and the second communication device serving as a specific communication device include an antenna having directivity set in a predetermined direction range including at least a direction in which the opening of the inside member is located.