A slot array antenna includes: a first electrically conductive member having a first electrically conductive surface; a second electrically conductive member having a second electrically conductive surface opposed to the first electrically conductive surface; a waveguide member located between the first and second electrically conductive members; and an artificial magnetic conductor extending on both sides of the waveguide member in between the first and second electrically conductive members. The first or second electrically conductive member has a plurality of slots. The waveguide member includes an electrically-conductive waveguide face of a stripe shape opposed to the first electrically conductive surface. The plurality of slots include at least two slots that couple to the waveguide face. In between two positions respectively coupled to the two slots, the waveguide face includes at least one deflecting portion at which the direction that the waveguide face extends changes.

A horn antenna includes a horn including a horn inner surface and a horn bottom including a horn bottom surface. The horn bottom includes a radiation portion which emits a radio wave at a position that deviates from the center of the horn bottom surface. The horn bottom surface extends farther in a first direction. The position of the radiation portion deviates from the center of the horn bottom surface in the first direction. The radiation portion is a slot which is opened in the horn bottom surface. A direction of supplying power to the slot is a second direction which is in parallel or substantially in parallel with the horn bottom surface and perpendicular or substantially perpendicular to the first direction.

Provided is an antenna for satellite communication capable of receiving multi-band signals. The antenna includes: a main reflector; a first feed horn which is provided on the main reflector and receives a signal of a first band; a first reflector which is disposed to be spaced apart from a reflective surface of the main reflector at a predetermined interval and transmits the signal of the first band to the first feed horn; a second feed horn which is provided on the main reflector and receives a signal of a second band; and a second reflector which is disposed to be spaced apart from the reflective surface of the main reflector at a predetermined interval and transmits the signal of the second band to the second feed horn.

A slot antenna device includes a first electrical conductor including first and second electrically conductive surfaces, a second electrical conductor including a third electrically conductive surface that opposes the second electrically conductive surface, a waveguide body on the second electrically conductive surface, and an artificial magnetic conductor extending on both sides of the waveguide body. The first electrical conductor includes a slot. The waveguide body includes a waveguide surface that opposes the third electrically conductive surface. The third electrically conductive surface, the waveguide surface, and the artificial magnetic conductor define a waveguide. The waveguide body includes a first ridge and a second ridge. As viewed from a direction perpendicular or substantially perpendicular to the waveguide surface, the slot is located between the one end of the first ridge and the one end of the second ridge.

A waveguide device includes a first electrical conductor including a first electrically conductive surface, a second electrical conductor including a second electrically conductive surface opposing the first electrically conductive surface, an electrically-conductive ridge protruding from the second electrically conductive surface, and a plurality of electrically-conductive rods disposed on both sides of the ridge. The plurality of rods include one or more first rods adjoining the ridge. Each first rod includes a first side surface opposing a side surface of the ridge and a second side surface not opposing the side surface of the ridge. The first side surface is flat and perpendicular or substantially perpendicular to the second electrically conductive surface. The second side surface includes a shape that increasingly deviates outward from an axial center of the first rod from the leading end toward the root of the first rod.

Various implementations of combined antenna are provided. In one implementation, for example, a combined antenna comprises a transverse electromagnetic (TEM) horn antenna element and a loop antenna element coupled to the TEM horn antenna element, wherein the loop antenna element comprises at least one slot disposed in the loop antenna element.

Antenna components include an additively manufactured elongate body portion and one or more additively manufactured flanges. The elongate body portion extends from a base portion to an aperture opposite the base portion. The elongate body portion is at least substantially hollow and is configured to direct radio frequency signals. Each flange extends radially outwardly from the elongate body portion and around an outer circumference of the elongate body portion. Each flange is integrally formed with the elongate body portion, and includes an angled portion and a horizontal portion. The angled portion of the flange diverges from the elongate body portion at an acute angle, and the horizontal portion is at least substantially perpendicular to a longitudinal axis of the elongate body portion. Satellite systems including said antenna components also are disclosed, along with related methods of additively manufacturing antenna components with integral flanges.

In accordance with one or more embodiments, an access point includes a communication interface having: a coupler configured to receive, via a transmission medium, first guided electromagnetic waves from a communication node of a radio distributed antenna system, wherein the first guided electromagnetic waves propagate along the transmission medium without requiring an electrical return path; and also a receiver configured to receive first data from the first guided electromagnetic waves. A data switch is configured to select first selected portions of the first data for transmission to at least one communication device in proximity to the access point.

An antenna system includes an antenna waveguide having a waveguide surface. A set of printed electronics includes conductors deposited onto the waveguide surface of the antenna waveguide. The system further includes at least one transceiver integrated circuit (IC), the transceiver integrated circuit having a surface assembly, wherein the surface assembly is adhesively coupled to the antenna waveguide and directly connected to the waveguide surface of the antenna waveguide.

This document a two-part folded waveguide with horns. For example, a waveguide includes a channel with an opening in a longitudinal direction at one end, and a sinusoidal shape that folds back and forth about a longitudinal axis that runs in the longitudinal direction through the channel. One part of the waveguide defines a surface of the channel featuring a plurality of radiation slots in the shape of a horn, which allows the two parts of the waveguide to be arranged and configured as one component. A first part of the waveguide has slots and an upper half of the walls of the channel and a second part provides a lower half of the walls of the channel and a surface of the channel opposite the slots. Using horns in combination with two parts enables ease of manufacturing a waveguide with an internal channel having a folded or sinusoidal shape.