RU2004125473A - SPACE AIRCRAFT ANTENNA-FEEDER DEVICE (OPTIONS) - Google Patents

Claims (4)

1. Antenna-feeder device of a spacecraft containing antennas placed diametrically opposite to the outer perimeter of the aircraft’s hull, interconnected by a feeder power system, which includes radio frequency feeders and dividers connected to the on-board radio system, characterized in that each of the antennas has an axisymmetric funnel-shaped radiation pattern, the angle of which is regulated by the flight path of specific types of space flying apparatuses, the directions of the axial minimum magnitude of the antenna pattern are aligned with the central direction of the sector of the communication angles with the ground measuring station involved in oriented flight of the spacecraft. 2. The device according to claim 1, characterized in that, in the immediate vicinity of the antennas, radio signal amplifiers are installed and included in the feeder power system. 3. The device according to claim 1, characterized in that the feeder power system includes matching devices. 4. Antenna-feeder device for a spacecraft containing antennas placed diametrically opposite to the outer perimeter of the spacecraft hull, interconnected by a feeder power system, which includes radio frequency feeders and dividers connected to the on-board radio system, characterized in that each of antenna has an axisymmetric funnel-shaped radiation pattern, the angle of which is regulated by the flight path of specific types of space of aircraft, the directions of the axial minimum value of the antenna pattern are aligned with the central direction of the sector of the communication angles with the ground measuring point involved in oriented flight of the spacecraft, while on a multi-stage spacecraft containing the upper stage, central and side blocks, antennas at the upper stage placed diametrically opposite along the outer unshaded perimeter of the spacecraft’s hull, and The antennas for operation on the central unit are made in the form of two pairs, one of which is placed diametrically opposite along the external unshaded perimeter on opposite different side blocks and is connected through amplifiers located on the side blocks and through dividers to the on-board radio system of the central unit, and the other pair of antennas placed diametrically opposite along the outer shaded perimeter of the central unit and connected to the on-board radio system of the central unit through "locking" feeders with short-circuiting, installed between the central and side blocks with the possibility of performing these "locking" feeders in conjunction with feeders connecting the antennas on the side blocks with the on-board radio system of the central work unit as parallel, open at the end torn off by the separation of the steps, loops that are a multiple of half the working wavelength in the feeder , the antennas for working on each of the side blocks are made on each in the form of two pairs of antennas, while two antennas of one of the pairs are diametrically opposed to the external unshaded on the surfaces of the opposite side blocks and through amplifiers, a divider and tear-off connectors between the side and the central block, each such pair is connected to the radio system of its block, the second pair is formed by one of the antennas of the first pair and the antenna located on the opposite side of the corresponding block shaded before separation of the blocks, the antennas of this pair are interconnected through their "locking" feeders with short-circuiting devices and connected to the radio systems of this unit with the ability to perform these "locking" f with the feeders together with the feeders connecting the antennas on each side block with the on-board radio system of their side block, work as parallel, open at the end torn off by separation of the steps, loops of length multiple of half the working wavelength in the feeder.