Antenna module and antenna driving method

What is claimed is: 1. An antenna module comprising: a plurality of segments each including one input-output port and a plurality of antenna ports and each configured to amplify a radio-frequency signal; and a plurality of subarray antennas each including a plurality of circularly polarized antenna elements, wherein each of the plurality of circularly polarized antenna elements is connected to any of the plurality of antenna ports, the plurality of circularly polarized antenna elements included in each of the plurality of subarray antennas constitutes a sequential array for each subarray antenna, each of the plurality of segments includes a distribution-combination circuit configured to distribute a signal that is input to a first port of the distribution-combination circuit to the plurality of antenna ports via a plurality of second ports of the distribution-combination circuit and configured to combine signals input to the respective plurality of antenna ports so as to output a combined signal from the first port, and a first amplifier connected between the one input-output port and the first port, and a plurality of second amplifiers, at least one of the plurality of second amplifiers disposed along a signal flow path between one of the plurality of antenna ports and a corresponding one of the plurality of second ports of the distribution-combination circuit, wherein, in any one subarray antenna of the plurality of subarray antennas, the plurality of antenna ports to which the respective plurality of circularly polarized antenna elements included in one subarray antenna are connected are included in one segment. 2. The antenna module according to claim 1 , further comprising a second amplifier connected between each of the plurality of antenna ports and the distribution-combination circuit. 3. The antenna module according to claim 1 , wherein, in any one subarray antenna of the plurality of subarray antennas, under a condition geometric centers of all circularly polarized antenna elements included in one subarray antenna are connected by line segments that are one fewer in number than a number of the circularly polarized antenna elements so that a total length of the line segments is shortest, a length of each of the line segments is not greater than a free-space wavelength corresponding to a resonant frequency of the circularly polarized antenna elements. 4. The antenna module according to claim 2 , wherein, in any one subarray antenna of the plurality of subarray antennas, under a condition geometric centers of all circularly polarized antenna elements included in one subarray antenna are connected by line segments that are one fewer in number than a number of the circularly polarized antenna elements so that a total length of the line segments is shortest, a length of each of the line segments is not greater than a free-space wavelength corresponding to a resonant frequency of the circularly polarized antenna elements. 5. The antenna module according to claim 1 , wherein, under a condition geometric centers of all the circularly polarized antenna elements are connected by line segments that are one fewer in number than a number of the circularly polarized antenna elements so that a total length of the line segments is shortest, a length of each of the line segments is not greater than a free-space wavelength corresponding to a resonant frequency of the circularly polarized antenna elements. 6. The antenna module according to claim 2 , wherein, under a condition geometric centers of all the circularly polarized antenna elements are connected by line segments that are one fewer in number than a number of the circularly polarized antenna elements so that a total length of the line segments is shortest, a length of each of the line segments is not greater than a free-space wavelength corresponding to a resonant frequency of the circularly polarized antenna elements. 7. The antenna module according to claim 3 , wherein, under a condition geometric centers of all the circularly polarized antenna elements are connected by line segments that are one fewer in number than a number of the circularly polarized antenna elements so that a total length of the line segments is shortest, a length of each of the line segments is not greater than a free-space wavelength corresponding to a resonant frequency of the circularly polarized antenna elements. 8. The antenna module according to claim 1 , wherein each of the plurality of circularly polarized antenna elements has two feeding points, and a plurality of transmission lines are each connected to the two feeding points of the circularly polarized antenna element through a hybrid circuit. 9. The antenna module according to claim 2 , wherein each of the plurality of circularly polarized antenna elements has two feeding points, and a plurality of transmission lines are each connected to the two feeding points of the circularly polarized antenna element through a hybrid circuit. 10. The antenna module according to claim 3 , wherein each of the plurality of circularly polarized antenna elements has two feeding points, and a plurality of transmission lines are each connected to the two feeding points of the circularly polarized antenna element through a hybrid circuit. 11. The antenna module according to claim 4 , wherein each of the plurality of circularly polarized antenna elements has two feeding points, and a plurality of transmission lines are each connected to the two feeding points of the circularly polarized antenna element through a hybrid circuit. 12. The antenna module according to claim 8 , wherein each of the plurality of circularly polarized antenna elements overlaps the hybrid circuit when viewed in plan. 13. The antenna module according to claim 12 , wherein each of the plurality of circularly polarized antenna elements is circular in shape when viewed in plan. 14. The antenna module according to claim 1 , wherein each of the plurality of circularly polarized antenna elements is a perturbation element. 15. The antenna module according to claim 2 , wherein each of the plurality of circularly polarized antenna elements is a perturbation element. 16. The antenna module according to claim 1 , wherein a direction in which some subarray antennas of the plurality of subarray antennas face differs from a direction in which at least some other subarray antennas face. 17. The antenna module according to claim 2 , wherein a direction in which some subarray antennas of the plurality of subarray antennas face differs from a direction in which at least some other subarray antennas face. 18. The antenna module according to claim 1 , wherein, in the plurality of subarray antennas, there coexist subarray antennas including respective different numbers of circularly polarized antenna elements constituting a sequential array. 19. The antenna module according to claim 2 , wherein, in the plurality of subarray antennas, there coexist subarray antennas including respective different numbers of circularly polarized antenna elements constituting a sequential array. 20. An antenna driving method comprising: in an antenna module, configured to cause M circularly polarized antenna elements to operate with a plurality of first amplifiers, selecting m circularly polarized antenna elements smaller in number than M and causing the in circularly polarized antenna elements to operate as an active element, causing with any one of the plurality of first amplifiers, among the M number of ci