Multi-signal transmit array with low intermodulation
First Claim
1. A transmitter for simultaneously transmitting n different signals in l directive beams, said transmitter comprising:
- n beamformers receiving n different signals with each beamformer receiving a signal to be transmitted, each of said beamformers having m outputs for each signal to be transmitted, and wherein said n beamformers have an m×
n output array;
m passive couplers each operatively connected to said n beamformers, wherein each passive coupler has n inputs for receiving said n different signals to be transmitted simultaneously from said n beamformers, each passive coupler having p outputs in phased relationship to one another; and
an antenna with an aperture within which a two-dimensional m×
p array of radiating elements are disposed, said radiating elements connected to the outputs of the passive couplers and transmitting said n different signals simultaneously in l directive beams, wherein each of said n beamformers receives steering control signals for determining the direction of transmission for each of said directive beams.
1 Assignment
0 Petitions
Accused Products
Abstract
A transmitter is provided for simultaneously transmitting a plurality of signals in a plurality of directive beams to corresponding destination stations, each destination station located in a separate fan within a service area. The transmitter includes a plurality of beamformers, each beamformer receiving one of the signals to be transmitted to an associated fan, each of the beamformers having a plurality of outputs for each different signal to be transmitted. A plurality of Butler matrices each receive one of the plurality of outputs from the plurality of beamformers for each different signal to be transmitted, each Butler matrix having a plurality of outputs in phased relationship to one another, wherein each of the signals to be transmitted is simultaneously provided across the outputs of each Butler matrix in a phased relationship. An antenna is provided with an aperture within which a two-dimensional array of antenna elements are disposed, wherein equal fractions of adjacent antenna elements are connected to the outputs of each Butler matrix, and wherein each of the plurality of signals are simultaneously transmitted by the entire two-dimensional array of antenna elements. Each of the plurality of beamformers receives steering control signals for steering the direction of each beam within its respective fan.
162 Citations
39 Claims
-
1. A transmitter for simultaneously transmitting n different signals in l directive beams, said transmitter comprising:
-
n beamformers receiving n different signals with each beamformer receiving a signal to be transmitted, each of said beamformers having m outputs for each signal to be transmitted, and wherein said n beamformers have an m×
n output array;
m passive couplers each operatively connected to said n beamformers, wherein each passive coupler has n inputs for receiving said n different signals to be transmitted simultaneously from said n beamformers, each passive coupler having p outputs in phased relationship to one another; and
an antenna with an aperture within which a two-dimensional m×
p array of radiating elements are disposed, said radiating elements connected to the outputs of the passive couplers and transmitting said n different signals simultaneously in l directive beams,wherein each of said n beamformers receives steering control signals for determining the direction of transmission for each of said directive beams. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
-
-
14. A transmitter for simultaneously transmitting 2n different signals in 2l directive beams, said transmitter comprising:
-
n beamformers receiving 2n different signals with each beamformer receiving two signals with first and second polarizations, respectively, each of said beamformers having m output pairs, for the first and second polarizations, where said n beamformers have a 2m×
n output array;
m passive coupler pairs each operatively connected to said n beamformers, wherein each passive coupler pair comprises a first passive coupler having n inputs for receiving n different signals of the first polarization, and a second passive coupler having n inputs for receiving n different signals of the second polarization, permitting all of said 2n different signals to be transmitted simultaneously, each of the first and second passive couplers having p outputs in phased relationship to one another defining 2p outputs for each passive coupler pair; and
an antenna with an aperture within which a two-dimensional m×
p array of dual-polarization radiating elements are connected to the outputs of the passive coupler pairs, with each element having a connection for the first polarization and a connection for the second polarization,wherein each of said n beamformers receives first and second steering control signals, for the first and second polarizations, respectively, for determining a direction of transmission for said directive beams. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
-
-
27. A transmitter for simultaneously transmitting n different signals in a plurality of directive beams to corresponding destination stations, each destination station located in a separate sub-region within a service area, said transmitter comprising:
-
n beamformers receiving n different signals with each beamformer receiving a signal to be transmitted to an associated sub-region, each of said beamformers having m outputs for each different signal to be transmitted;
m passive couplers are operatively connected to said m outputs for receiving said n different signals to be transmitted simultaneously from said n beamformers, each passive coupler having r outputs in phased relationship to one another; and
an antenna with an aperture within which a two-dimensional q×
p array of radiating elements are disposed, with a fraction of adjacent radiating elements connected to the r outputs of each passive coupler,wherein n is less than or equal to the number of radiating elements coupled by each passive coupler, wherein each of said n beamformers receives steering control signals for steering the direction of each beam within its respective one of said sub-regions. - View Dependent Claims (28, 29, 30, 31, 32, 33)
-
-
34. A transmitter for simultaneously transmitting a plurality of signals in a plurality of directive beams to corresponding destination stations, each destination station located in a separate fan within a service area, said transmitter comprising:
-
a plurality of beamformers, each beamformer receiving one of the signals to be transmitted to an associated fan, each of the beamformers having a plurality of outputs for each different signal to be transmitted;
a plurality of Butler matrices each receiving one of the plurality of outputs from the plurality of beamformers for each different signal to be transmitted, each Butler matrix having a plurality of outputs in phased relationship to one another, wherein each of the signals to be transmitted is simultaneously provided across the outputs of each Butler matrix in a phased relationship;
an antenna with an aperture within which a two-dimensional array of antenna elements are disposed, wherein equal fractions of adjacent antenna elements are connected to the outputs of each Butler matrix, wherein each of the plurality of signals are simultaneously transmitted by the entire two-dimensional array of antenna elements, wherein each of the plurality of beamformers receives steering control signals for steering the direction of each beam within its respective fan. - View Dependent Claims (35)
-
-
36. A method for providing simultaneous communication to a plurality of stationary user terminals located at known locations within a plurality of fan beams, said method comprising the steps of:
-
defining a plurality of fan beams along a first axis, with each of the plurality of fans having a length along a second axis substantially perpendicular to the first axis;
providing a plurality of groups of directional transmitting beams, each of the groups of directional transmitting beams associated with a respective fan beam;
providing a plurality of communication signals each intended for a stationary user terminal;
determining which of the groups of directional transmitting beams to use for transmitting each of the plurality of communication signals to each respective destined preselected fixed user terminal;
multiplexing the plurality of communication signals on respective groups of directional transmitting beams associated with the respective destined stationary user terminal; and
transmitting the plurality of communication signals to each respective destined stationary user terminal via the signal multiplexed directional transmitting beam groups. - View Dependent Claims (37)
-
-
38. A communications system for providing communication to a plurality of fixed user terminals located at a known locations within a grid of geographical cells, said communications satellite comprising:
-
an orbiting satellite in a non-geostationary orbit defining a ground track;
a satellite-borne, multi-beam transmitter simultaneously creating a plurality of directional transmitting beams, each of said transmitting beams having a different angular displacement to the right or left of the satellite'"'"'s ground track and being electronically steerable in a plane approximately parallel to the satellite'"'"'s ground track via electronic steering signals; and
a satellite-borne, multi-beam receiver receiving signals from said user terminals including a destination location identifier signal of a terminal for which each signal is destined, said receiver translating the destination location identifier signals to determine which of said directional transmitting beams to use for transmitting each of said signals to its respectively indicated destination terminal. - View Dependent Claims (39)
-
Specification