A pedestal is provided for mounting a portable antenna onto a platform. The pedestal includes a ring, a base, a horn and a prong composed of three-dimensionally printable composite resin. The ring attaches to the platform. The base inserts into the ring and includes an outer tube having a pair of axially distributed outer holes. The horn includes an inner tube for insertion into the outer tube and an inverted pyramid that connects to the inner tube. The inner tube includes at least three axially distributed inner holes. The prong has two probes that insert into the outer holes and two of the inner holes to secure the horn to the base.

A vehicle may include a spoiler mounted on or near a rear of a vehicle and an antenna apparatus provided inside the spoiler. The spoiler may include a spoiler body configured to include a seating portion on which the antenna apparatus is seated, and a cover configured to cover the seating portion. The antenna apparatus may include a casing, a cable electrically connected to an electric apparatus in the vehicle, a pole type antenna provided outside the casing, and an antenna assembly electrically connected to the cable and the pole type antenna and including at least one semiconductor element and a plurality of patch antennas mounted on a printed circuit board.

A vehicle may include a spoiler mounted on or near a rear of a vehicle and an antenna apparatus provided inside the spoiler. The spoiler may include a spoiler body configured to include a seating portion on which the antenna apparatus is seated, and a cover configured to cover the seating portion. The antenna apparatus may include a casing, a cable electrically connected to an electric apparatus in the vehicle, a pole type antenna provided outside the casing, and an antenna assembly electrically connected to the cable and the pole type antenna and including at least one semiconductor element and a plurality of patch antennas mounted on a printed circuit board.

A system according to one embodiment includes a phased array antenna comprising a plurality of antenna elements, the plurality of antenna elements configured in a planar array, wherein each of the plurality of antenna elements generates a beam pattern directed at an angle out of the plane of the planar array; and driver circuitry coupled to each of the plurality of antenna elements, wherein the driver circuitry comprises a plurality of transceivers, the plurality of transceivers configured to provide independently adjustable phase delay to each of the plurality of antenna elements.

A system according to one embodiment includes a phased array antenna comprising a plurality of antenna elements, the plurality of antenna elements configured in a planar array, wherein each of the plurality of antenna elements generates a beam pattern directed at an angle out of the plane of the planar array; and driver circuitry coupled to each of the plurality of antenna elements, wherein the driver circuitry comprises a plurality of transceivers, the plurality of transceivers configured to provide independently adjustable phase delay to each of the plurality of antenna elements.

A resilient antenna securing device that includes a frame structure and a plurality of fin components projecting outwardly from the frame structure. The fin components are configured to receive and hold one or more RF antenna portions. Each fin of a first pair of the plurality of fins components includes a tab that extends toward the other fin of the first pair of fins. At least one first intermediate fin of the plurality of fins is disposed between the first pair of fins. The tabs from the first pair of fins together trap a first RF antenna portion between the tabs and the at least one first intermediate fin.

A resilient antenna securing device that includes a frame structure and a plurality of fin components projecting outwardly from the frame structure. The fin components are configured to receive and hold one or more RF antenna portions. Each fin of a first pair of the plurality of fins components includes a tab that extends toward the other fin of the first pair of fins. At least one first intermediate fin of the plurality of fins is disposed between the first pair of fins. The tabs from the first pair of fins together trap a first RF antenna portion between the tabs and the at least one first intermediate fin.

The present invention includes: a film antenna (10); a cable (20) which is connected to a feed section (14) of the film antenna (10); and a support (30) around which at least part of the film antenna (20) is wound, the support (30) including a holding section for holding the cable (20).

A user-terminal clamp that receives a user terminal of a satellite communications system, wherein the clamp clamps to a roof of a structure in either of two orthogonal orientations. The clamp includes a frame having a pair of movable clamping members that are actuated by a handle. The frame includes slots or channels that receive ribs that are disposed on the underside of the user terminal.

A user-terminal clamp that receives a user terminal of a satellite communications system, wherein the clamp clamps to a roof of a structure in either of two orthogonal orientations. The clamp includes a frame having a pair of movable clamping members that are actuated by a handle. The frame includes slots or channels that receive ribs that are disposed on the underside of the user terminal.