Aspects of the subject disclosure may include, for example, a waveguide system that includes a transmission device having a coupler positioned with respect to a transmission medium to facilitate transmission or reception of electromagnetic waves that transport communications data. The electromagnetic waves propagate along an outer surface of the transmission medium. A training controller detects an impairment on the transmission medium adverse to the transmission or reception of the electromagnetic waves and adjusts the electromagnetic waves to reduce the effects of the impairment on the transmission medium. Other embodiments are disclosed.

Aspects of the subject disclosure may include, for example, a waveguide system that includes a transmission device having a coupler positioned with respect to a transmission medium to facilitate transmission or reception of electromagnetic waves that transport communications data. The electromagnetic waves propagate along an outer surface of the transmission medium. A training controller detects an impairment on the transmission medium adverse to the transmission or reception of the electromagnetic waves and adjusts the electromagnetic waves to reduce the effects of the impairment on the transmission medium. Other embodiments are disclosed.

Disclosed are various embodiments for embedding data on a guided surface wave. A guided surface waveguide probe emits power as a guided surface wave received by a guided surface wave receive structure circuit. An aggregate electric load of the receiver circuit is modulated with reference to a data signal. A current at the guided surface waveguide probe is monitored. A data signal is recaptured at the guided surface waveguide probe.

Disclosed are various embodiments for embedding data on a guided surface wave. A guided surface waveguide probe emits power as a guided surface wave received by a guided surface wave receive structure circuit. An aggregate electric load of the receiver circuit is modulated with reference to a data signal. A current at the guided surface waveguide probe is monitored. A data signal is recaptured at the guided surface waveguide probe.

Aspects of the subject disclosure may include, for example, a transmission device that includes a transmitter that generates a first electromagnetic wave to convey data, the first electromagnetic wave having at least one carrier frequency and corresponding wavelength. A coupler couples the first electromagnetic wave to a transmission medium having at least one inner portion surrounded by a dielectric material, the dielectric material having an outer surface and a corresponding circumference, wherein the coupling of the first electromagnetic wave to the transmission medium forms a second electromagnetic wave that is guided to propagate along the outer surface of the dielectric material via at least one guided-wave mode that can include an asymmetric mode, wherein the at least one carrier frequency is within a microwave or millimeter-wave frequency band and wherein the at least one corresponding wavelength is less than the circumference of the transmission medium. Other embodiments are disclosed.

Aspects of the subject disclosure may include, for example, a transmission device that includes a transmitter that generates a first electromagnetic wave to convey data, the first electromagnetic wave having at least one carrier frequency and corresponding wavelength. A coupler couples the first electromagnetic wave to a transmission medium having at least one inner portion surrounded by a dielectric material, the dielectric material having an outer surface and a corresponding circumference, wherein the coupling of the first electromagnetic wave to the transmission medium forms a second electromagnetic wave that is guided to propagate along the outer surface of the dielectric material via at least one guided-wave mode that can include an asymmetric mode, wherein the at least one carrier frequency is within a microwave or millimeter-wave frequency band and wherein the at least one corresponding wavelength is less than the circumference of the transmission medium. Other embodiments are disclosed.

An expanded waveguide for providing uniform electromagnetic field is disclosed. The expanded waveguide comprises an expanded area expanded in the direction of the E-plane, an input transition area and an output transition area connected to both sides of the expanded area and configured to pass an electromagnetic wave, and entrance parts formed respectively to an end part of the input transition area and an end part of the output transition area, the electromagnetic wave being inputted and outputted through the entrance parts. Here, a plurality of multilateral pillars are arranged in constant space in the transition areas, and a channel is formed along between the multilateral pillars.

Contactless extremely high frequency connector assemblies, passive cable connector assemblies, and active cable connector assemblies are disclosed herein. In one embodiment, a contactless connector assembly can include several (EHF) contactless communication units operable to selectively transmit and receive EHF signals, and several signal directing structures coupled to the EHF CCUs. The signal directing structures can direct the EHF signals along a plurality of EHF signal pathways.

A broadside-coupled transformer is disclosed. The broadside-coupled transformer has a dielectric substrate with a first planar conductor disposed on the dielectric substrate. The first planar conductor includes first and second ends. A second planar conductor is positioned over and spaced apart from the first planar conductor. The second planar conductor includes third and fourth ends. The fourth end is electrically coupled to the first end of the first planar conductor to realize a Ruthroff transformer configuration. Support posts for supporting the second planar conductor over the first planar conductor each have a bottom attached to the dielectric substrate without contacting the first planar conductor and a top attached to a surface of the second planar conductor.

A broadside-coupled transformer is disclosed. The broadside-coupled transformer has a dielectric substrate with a first planar conductor disposed on the dielectric substrate. The first planar conductor includes first and second ends. A second planar conductor is positioned over and spaced apart from the first planar conductor. The second planar conductor includes third and fourth ends. The fourth end is electrically coupled to the first end of the first planar conductor to realize a Ruthroff transformer configuration. Support posts for supporting the second planar conductor over the first planar conductor each have a bottom attached to the dielectric substrate without contacting the first planar conductor and a top attached to a surface of the second planar conductor.