Abstract: Base station antennas include at least one passive internal grid reflector with an array of low band radiating elements projecting forward of a front one of the at least one grid reflector. The grid reflector is provide as a light weight composite FSS. A mMIMO antenna array resides behind a back one of the at least one grid reflector and is configured to transmit signal through the grid reflector and out a front radome of the base station antenna.

Abstract: Antenna systems are provided. An antenna system includes a beamforming array having a plurality of vertical columns of radiating elements that are each configured to transmit at least three antenna beams per polarization. Moreover, the antenna system includes a beamforming radio having a plurality of radio frequency ports per polarization that are coupled to and fewer than the vertical columns.

Abstract: Base station antennas are provided herein. A base station antenna includes a plurality of vertical columns of low-band radiating elements configured to transmit RF signals in a first frequency band. The base station antenna also includes a plurality of vertical columns of high-band radiating elements configured to transmit RF signals in a second frequency band that is higher than the first frequency band. The vertical columns of high-band radiating elements extend in parallel with the vertical columns of low-band radiating elements in a vertical direction.

Abstract: Antenna systems are provided. An antenna system includes a beamforming array having a plurality of vertical columns of radiating elements that are each configured to transmit at least three antenna beams per polarization. Moreover, the antenna system includes a beamforming radio having a plurality of radio frequency ports per polarization that are coupled to and fewer than the vertical columns.

Abstract: Methods of identifying electrical connections between primary ports of a radio frequency circuit and primary ports of a radio are provided. A method of identifying the electrical connections includes receiving a radio frequency signal via each of the primary ports of the radio frequency circuit. Moreover, the method includes providing, by the radio frequency circuit, different responses to the radio frequency signal that is received via the primary ports, respectively, of the radio frequency circuit. In some embodiments, the different responses are different frequency responses or different delay responses. Related radio frequency circuits are also provided.

Abstract: Base station antennas are provided herein. A base station antenna includes a plurality of vertical columns of low-band radiating elements configured to transmit RF signals in a first frequency band. The base station antenna also includes a plurality of vertical columns of high-band radiating elements configured to transmit RF signals in a second frequency band that is higher than the first frequency band. The vertical columns of high-band radiating elements extend in parallel with the vertical columns of low-band radiating elements in a vertical direction.

Abstract: Antenna systems are provided. An antenna system includes a beamforming array having a plurality of vertical columns of radiating elements that are each configured to transmit at least three antenna beams per polarization. Moreover, the antenna system includes a beamforming radio having a plurality of radio frequency ports per polarization that are coupled to and fewer than the vertical columns.

Abstract: Base station antennas are provided herein. A base station antenna includes consecutive vertical columns of radiating elements. The base station antenna includes a phase shifter that is electrically connected to one of the vertical columns of radiating elements. Moreover, the base station antenna includes a phase-error compensation component that is configured to provide phase-error compensation at an input to the phase shifter based on movement of the phase-error compensation component. Related methods of operation are also provided.

Abstract: Base station antennas are provided herein. A base station antenna includes a plurality of vertical columns of low-band radiating elements configured to transmit RF signals in a first frequency band. The base station antenna also includes a plurality of vertical columns of high-band radiating elements configured to transmit RF signals in a second frequency band that is higher than the first frequency band. The vertical columns of high-band radiating elements extend in parallel with the vertical columns of low-band radiating elements in a vertical direction.

Abstract: A base station antenna (BSA) system includes a radio-frequency (RF) generator having a plurality of power-amplifying circuits therein, and an antenna, which includes a plurality of columns of radiating elements. These radiating elements are electrically coupled by RF signal routing to a corresponding plurality of ports of the antenna that receive a corresponding plurality of RF input signals. These RF input signals have respective amplitudes and phases that support the concurrent generation of three spaced-apart RF beams by the antenna and are derived from respective RF signals generated by the plurality of power-amplifying circuits. The RF input signals including: (i) a first RF input signal defined by at least two linearly superposed RF signals of equivalent frequency having unequal combinations of amplitude and phase weighting, and (ii) a second RF input signal defined by at least two linearly superposed RF signals of equivalent frequency having unequal combinations of amplitude and phase weighting.

Abstract: A cable management system is provided for cellular communications system having a remote radio unit and an antenna where each of the antenna and the remote radio unit include a number of RF ports. A jumper cable assembly connects the RF ports on the antenna to the RF ports on the remote radio unit. The jumper cable assembly includes jumper cables configured to connect the RF ports of the antenna to the RF ports of the remote radio unit. A bracket includes channels where one of the channels receives one of the jumper cables. The position of the channels in the bracket corresponds to the position of the RF ports on the antenna and/or the remote radio unit.

Abstract: An arrangement (10) comprising a first conductive antenna element (20), comprising at least one first slot (30; 31, 32, 33, 34; 35, 36) arranged in the first conductive antenna element (20), and a second conductive antenna element (80), comprising at least one second slot (90; 91, 92, 93, 94; 31; 32, 33, 34) arranged in the second conductive antenna element (80), is disclosed. At least one second slot (90; 91, 92) arranged in the second conductive antenna element (80) is coupled with at least one first slot (30; 35, 36) arranged in the first conductive antenna element (20) by means of at least one conductor (111, 112; 113, 114, 115, 116).

Abstract: Base station antennas are provided herein. A base station antenna includes consecutive vertical columns of radiating elements. The base station antenna includes a phase shifter that is electrically connected to one of the vertical columns of radiating elements. Moreover, the base station antenna includes a phase-error compensation component that is configured to provide phase-error compensation at an input to the phase shifter based on movement of the phase-error compensation component. Related methods of operation are also provided.

Abstract: Base station antennas are provided herein. A base station antenna includes a plurality of vertical columns of low-band radiating elements configured to transmit RF signals in a first frequency band. The base station antenna also includes a plurality of vertical columns of high-band radiating elements configured to transmit RF signals in a second frequency band that is higher than the first frequency band. The vertical columns of high-band radiating elements extend in parallel with the vertical columns of low-band radiating elements in a vertical direction.

Abstract: A base station antenna (BSA) system includes a radio-frequency (RF) generator having a plurality of power-amplifying circuits therein, and an antenna, which includes a plurality of columns of radiating elements. These radiating elements are electrically coupled by RF signal routing to a corresponding plurality of ports of the antenna that receive a corresponding plurality of RF input signals. These RF input signals have respective amplitudes and phases that support the concurrent generation of three spaced-apart RF beams by the antenna and are derived from respective RF signals generated by the plurality of power-amplifying circuits. The RF input signals including: (i) a first RF input signal defined by at least two linearly superposed RF signals of equivalent frequency having unequal combinations of amplitude and phase weighting, and (ii) a second RF input signal defined by at least two linearly superposed RF signals of equivalent frequency having unequal combinations of amplitude and phase weighting.

Abstract: An arrangement (10) comprising a first conductive antenna element (20), comprising at least one first slot (30; 31, 32, 33, 34; 35, 36) arranged in the first conductive antenna element (20), and a second conductive antenna element (80), comprising at least one second slot (90; 91, 92, 93, 94; 31; 32, 33, 34) arranged in the second conductive antenna element (80), is disclosed. At least one second slot (90; 91, 92) arranged in the second conductive antenna element (80) is coupled with at least one first slot (30; 35, 36) arranged in the first conductive antenna element (20) by means of at least one conductor (111, 112; 113, 114, 115, 116).

Abstract: A broadband antenna of an antenna system comprises a conductive plate comprising four slots. The slots are arranged in a rotation symmetrical manner in the plate. Each slot extends from a circumference of the plate towards a center of the plate. Each slot has an associated feed point located at its associated slot. The feed points associated with a pair of oppositely arranged slots are arranged to be fed with radio frequency signals, such that that a main radiation propagation direction of the antenna is along the rotational symmetry axis of the plate. The antenna design enables the achievement of flexibility in terms of isolation between the two polarizations. The antenna design may further enable a reduced size and weight. The antenna design also enables an antenna unit and an antenna array.

Abstract: A broadband antenna of an antenna system comprises a conductive plate comprising four slots. The slots are arranged in a rotation symmetrical manner in the plate. Each slot extends from a circumference of the plate towards a center of the plate. Each slot has an associated feed point located at its associated slot. The feed points associated with a pair of oppositely arranged slots are arranged to be fed with radio frequency signals, such that that a main radiation propagation direction of the antenna is along the rotational symmetry axis of the plate. The antenna design enables the achievement of flexibility in terms of isolation between the two polarizations. The antenna design may further enable a reduced size and weight. The antenna design also enables an antenna unit and an antenna array.

Abstract: An adjustable constant impedance phase shifter is provided. In the adjustable constant impedance phase shifter a conductive circuit path is arranged between a conductive sheet and a parallel plane that is parallel to the conductive sheet; an edge of a dielectric plate and an edge of a conductive plate are adjoined such that the dielectric plate and the conductive plate form a slide member; and the slide member is movably arranged along a slide path between the circuit element and the conductive sheet so that any point of the conducting circuit path is consistently enclosed between the slide member and the parallel plane, and so that the relative permittivity of a medium adjacent to a point on the conductive circuit path is simultaneously changed as the slide member is moved.

Abstract: A broadband antenna of an antenna system comprises a conductive plate comprising four slots. The slots are arranged in a rotation symmetrical manner in the plate. Each slot extends from a circumference of the plate towards a center of the plate. Each slot has an associated feed point located at its associated slot. The feed points associated with a pair of oppositely arranged slots are arranged to be fed with radio frequency signals, such that that a main radiation propagation direction of the antenna is along the rotational symmetry axis of the plate. The antenna design enables the achievement of flexibility in terms of isolation between the two polarizations. The antenna design may further enable a reduced size and weight. The antenna design also enables an antenna unit and an antenna array.