A mounting base (14) is fixed to an antenna (13) or an antenna bracket (15) for supporting the antenna (13). A baseband unit (11) and an RF unit (12) are fixed to the mounting base (14). The baseband unit (11) fixed to the mounting base (14) is disposed to face a back part (132) of the antenna (13) and to form a space between the back part (132) and the first enclosure (111). The RF unit (12) fixed to the mounting base (14) is disposed in the space formed between the back part (132) of the antenna (13) and the baseband unit (11) and is coupled to a waveguide flange (132) of the antenna (13). Thus, for example, in a configuration of a point-to-point wireless apparatus in which an RF unit and a baseband unit are separated, restrictions on installation space of the apparatus can be facilitated.

The subject matter disclosed here relates to a mounting system that facilitates mounting of an antenna structure or other communication equipment to a tower pole in a cellular communication system. In general, the mounting system includes a mounting bracket and a plurality of bands that encircle the tower pole and pull the mounting bracket toward the tower pole. The mounting bracket includes a mounting surface, two side flanges, and a top and bottom flange. In general, the mounting surface is configured to receive communication equipment and may be configured to attach to multiple different types of antenna structures from different manufacturers. The bracket may thus offer a “universal” type mount. The two side flanges of the mounting bracket extend from the mounting surface at angles that engage with the outer surface of the tower pole.

A street light allows an electronic device installed therein to work properly. The street light has an internal chimney structure for dissipating heat from the electronic device and preventing any liquid from flowing into a space where the electronic device is accommodated. This allows the street light to internally provide both a dry environment and a heat dissipation mechanism for the electronic device, without closing an internal space of the street light, so as to greatly improve the above undesirable structural drawbacks of the conventional street light.

In one embodiment of the present disclosure, an antenna assembly includes a patch antenna array including an upper patch antenna layer, a lower patch antenna layer, and a spacer therebetween, wherein the spacer includes a plurality of apertures defined by cell walls, wherein the each aperture aligns with an upper patch antenna element and a lower patent antenna element from the patch antenna array.

The present disclosure relates to a spacer configured to space a first member apart from a second member, and the spacer includes a support component and a spacer component. The support component has a body, which has a support surface for the first member to be put on, and the support component further has a first hook element separated from the support surface by a first distance and a second hook element separated from the support surface by a second distance greater than the first distance. The spacer component is used to be placed between the first member and the second member and to space the first member apart from the second member, and the spacer component can be snap-fitted with the first hook element or the second hook element relational to the thickness of the first member. The present disclosure further relates to a connection system including the spacer for a base station antenna. The spacer is advantageous in cost, compact in structure, and easy to install.

A mounting assembly for cellular communication components includes a support mast and a mast bracket with w-shaped geometry. The mast bracket includes a central body defining a groove to receive the support mast. The mast bracket also includes a first support tab extending from the central body opposite the groove in a first direction. The first support tab defines a first slot. A second support tab extends from the central body opposite the groove in the first direction with the second support tab substantially parallel to the first support tab and defining a second slot. A device bracket is coupled to the mast bracket and comprises an elongated body to receive cellular equipment. A third support tab extends from the elongated body opposite the mating surface and defines a fifth slot. A fastener extends through the first slot, the second slot, and the fifth slot.

The present disclosure is directed to a brace for a mounting frame typically used for mounting antennas to a monopole tower. The brace may include a standoff connection comprising a first standoff bracket and a second standoff bracket; a first angled member attached to the first standoff bracket at a lower end of the first angled member, the first angled member also including a first handrail connector at an upper end of the first angled member; a second angled member attached to the second standoff bracket at a lower end of the second angled member, the second angled member also including a second handrail connector at an upper end of the second angled member; and a crossmember disposed between the upper end of the first angled member and the upper end of the second angled member.

A radome-reflector assembly includes a generally domed reflector having a peripheral rim and a radome assembly. The radome assembly includes: an annular ring having a front wall and a side wall: a disk that fits within the ring: and an RF-compliant absorber, wherein the rim of the reflector fits within the side wall. The radome assembly further comprises a clip that engages the rim and the ring to secure the reflector to the radome assembly.

A mechanical tilt mounting system for a base station antenna includes a fixed pivot that connects the antenna to a support structure. The antenna is rotatable about the fixed pivot. An adjustable control arm has a first end connected to the antenna and a second end connected to the support structure. Extension and contraction of the adjustable arm rotates the antenna about the fixed pivot to change the angle of inclination of the antenna.

The present disclosure relates to a mounting assembly and the method of use thereof. The mounting assembly is configured to mount a plurality of objects on a single pole at a predetermined included angle and includes: a clamping mechanism, which fixes the mounting assembly on the pole by clamping the pole; an angle control mechanism, which has a polygonal configuration and controls the included angle between the plurality of objects through its polygonal configuration; and a mounting mechanism, which respectively mounts the plurality of objects by mounting each object among the plurality of objects in a manner where it corresponds to one edge among the plurality of edges of the angle control mechanism, thereby mounting the plurality of objects on the pole at a predetermined included angle. The mounting assembly according to the present disclosure is capable of mounting a plurality of objects on the pole at an accurate included angle in a controlled manner with the angle control mechanism thereof, and according to the mounting assembly of the present disclosure, make the disassembly and removal of the plurality of objects easy by shifting the operation space for fastening to the space between the plurality of objects.