Embodiments relate to a device for correcting the polarization twist of two linearly polarized signals using two polarization converters connected in series, wherein the second polarization converter can be rotated about an axis. In this way, the skew angle of an antenna can be compensated with respect to a satellite using a rotatable waveguide circuit. By converting the polarization from linear to circular, it is easier to rotate the now circularly polarized signals, using a second polarization converter, which reestablishes a linear polarization for the circularly polarized signals. Given the dual-channel signal outcoupling, the PCU may allow two orthogonal linear polarizations to be corrected at the same time using a simpler mechanical composition.

A radio frequency waveguide is disclosed. The radio frequency waveguide includes: a dielectric including an exterior input surface, an exterior output surface and other exterior surfaces; and a metal disposed on the other exterior surfaces of the dielectric, wherein the dielectric is voidless and adapted to propagate radio frequency radiation from the exterior input surface to the exterior output surface.

A circularly polarized wave generator includes a rectangular hollow waveguide (1), a plurality of first protrusions (2) that are provided on one pair of opposing wall surfaces in the waveguide (1), have longitudinal directions orthogonal to an axial direction of the waveguide (1), and are arranged at intervals along the axial direction, and a plurality of second protrusions (3) that are provided between the first protrusions (2) on the wall surfaces and are arranged with longitudinal directions thereof running along the axial direction.

A circularly polarized wave generator includes a rectangular hollow waveguide (1), a plurality of first protrusions (2) that are provided on one pair of opposing wall surfaces in the waveguide (1), have longitudinal directions orthogonal to an axial direction of the waveguide (1), and are arranged at intervals along the axial direction, and a plurality of second protrusions (3) that are provided between the first protrusions (2) on the, all surfaces and are arranged with longitudinal directions thereof running along the axial direction.

Various exemplary embodiments relate to an antenna feed configured to receive a signal having a wavelength. They antenna feed may include a cylindrical body and four pin groups. Each pin group may include two pins in close proximity extending across the center of the cylindrical body. One of the two pins may be rotated approximately 22.5 from the angle of the other pin. Each pin group may be spaced approximately one quarter of a wavelength away from each other, and may be rotated approximately 22.5 from the angle of the previous pin group.

A phased array antenna device may include a base including circuitry configured to couple to a backplane and a plurality of circuit cards arranged in parallel and coupled to circuitry of the base. Each circuit card may include an array of circularly polarized unit antenna elements integrated into the circuit card and arranged along an edge of the circuit card. Each circularly polarized unit antenna element of the array may be configured to radiate and receive electromagnetic signals directly from the edge of the circuit card. In some implementations, the edge of each circuit card may include a plurality of substrate extensions with chamfered edges formed from a substrate of the circuit card. At least a portion of some of the chamfered edges may include a metal coating.

For improved Ku band communications, an antenna system includes a planar antenna surface, at least one waveguide feed network, and a waveguide. The planar antenna surface is coupled to at least one port. The at least one waveguide feed network includes an H plane junction splitter and at least two E plane junction splitters. The H plane junction splitter is disposed on a channel septum in a channel. A splitter axis of the channel septum and the H plane junction splitter is rotated about a P axis. The at least two E plane junction splitters are each disposed on septum and coupled to the H plane junction splitter via the channel. The waveguide is coupled to the waveguide feed network.

A radiation support system for radiation therapy includes a waveguide assembly. The waveguide assembly includes a waveguide extending along a first axis, a mode launcher extending along a second axis, the second axis being different than the first axis, and a resonant cavity twist coupling the waveguide to the mode launcher.

Longitudinally ridged quad polarizer feeds include a waveguide spanning a longitudinal axis between a feed port and an antenna port, with first ridge elements that span longitudinally from the feed port on first opposing walls of the waveguide and second ridge elements that span longitudinally from the feed port on second opposing walls of the waveguide. A polarization of a radio frequency signal transiting the waveguide is altered based at least on a difference in longitudinal lengths between the first ridge elements and the second ridge elements. These polarizers can be formed from a single workpiece using an injection molding technique, leading to a reduction in manufacturing complexity, cost, and mass.

A phased array antenna device may include a base including circuitry configured to couple to a backplane and a plurality of circuit cards arranged in parallel and coupled to circuitry of the base. Each circuit card may include an array of circularly polarized unit antenna elements integrated into the circuit card and arranged along an edge of the circuit card. Each circularly polarized unit antenna element of the array may be configured to radiate and receive electromagnetic signals directly from the edge of the circuit card. In some implementations, the edge of each circuit card may include a plurality of substrate extensions with chamfered edges formed from a substrate of the circuit card. At least a portion of some of the chamfered edges may include a metal coating.