Abstract: According to an aspect, a satellite antenna reflector includes a first surface area encompassing a first surface, where the first surface is formed to reflect a first radiated signal towards a first focal point. The reflector also includes a second surface area, encompassing a second surface, where the second surface area is formed to reflect a second radiated signal towards a second focal point. The first and second surfaces reflect the first and second radiated signals such that a first antenna gain and/or beamwidth of the reflected first radiated signal that would be received at the first focal point is the same as a second antenna gain and/or beamwidth of the reflected second radiated signal that would be received at the second focal point.

Abstract: According to an aspect, an antenna mount includes a pole canister and an assembly. The assembly includes a first bracket coupled in a fixed position to the pole canister. The assembly also includes a second bracket coupled to the first bracket at a pivot. The assembly also includes a third bracket movably coupled to the second bracket. The assembly further includes a first cam adapted to pivot the second bracket about the pivot in relation to the first bracket along a horizontal axis. The assembly also includes a second cam adapted to slide the third bracket in relation to the second bracket.

Abstract: There is provided satellite transmitted data receiving and/or transmitting apparatus comprising a reflector dish, an elongate member which typically passes through the said reflector dish and at or adjacent to end of the elongate member there is provided data processing components. The elongate member includes at least one portion therealong of a changed shape and the same is formed and located to reduce reflections and hence allow the cross and/or co polarisation patterns to lie within the predetermined radiation pattern envelope limits.

Abstract: A satellite communications interoperability module and method for frequency down-conversion. The module insertable in-line with an intra-facility link communicating a multiplexed signal between the outdoor unit (ODU) and the indoor unit (IDU). Electrical circuitry of the module transforming and forwarding the multiplexed signal over the intra-facility link, the multiplexed signal including at least direct current, a standard tone, and L-band data signals. Switching means of the module specifies operations performed by the electrical circuitry to transform the multiplexed signal frequencies, waveforms and voltages according to predetermined parameters compatible between the ODU and the IDU. An interoperability method for compatibility with a range of different indoor units applied by the interoperability module and or incorporated into an integral ODU is application of a second frequency shift upon the L-band signal output from the ODU primary down-conversion circuit.

Abstract: A feed horn with a horn body and a waveguide body, each with a front end and a back end, respectively. The horn body and the waveguide body coupled together, the waveguide body front end to the horn body back end. The waveguide body provided with a waveguide bore between the front end and the back end. At least one slot formed in the waveguide bore parallel to a longitudinal axis of the body bore, the at least one slot extending to the front end. The horn body provided with a horn bore between the front end and the back end. The horn body and the waveguide body formable via injection molding methods such as die casting.