Phased array antennas with binary phase shifters
First Claim
1. A steerable linear phased array antenna of the tapered type comprising a plurality of radiators, in which the energy applied to the center radiators is a maximum and the radiator energy is tapered off toward both ends of said array to reduce antenna pattern sidelobes, each of said radiators being provided with a binary digital phase shifter each comprising one or more elementary binary phase shifter stages connected in series, each of said phase shifter stages being capable of assuming either zero phase shift or 180°
- phase shift, or some submultiple of 180°
which is an integral power of 2, whereby by selectively controlling the phase shifts of said elementary phase shifters, 2n different total phase shifts may be obtained, wherein "n" is the number of elementary phase shifter stages per antenna radiator, and wherein the said maximum energy center radiators are provided with a greater number of stages of said elementary phase shifters than are the lower energy radiators on either side thereof.
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Abstract
Steerable phased array antennas of the tapered type in which the antenna ment power is maximum at the center of the array and tapers off on either side thereof. The phase shifters of each antenna element are of the binary digital type with the number of stages and hence the phase accuracy being maximum for the high power center antenna elements and tapering off on either side thereof. Redundant stages for the binary phase shifters can be provided to increase reliability.
52 Citations
8 Claims
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1. A steerable linear phased array antenna of the tapered type comprising a plurality of radiators, in which the energy applied to the center radiators is a maximum and the radiator energy is tapered off toward both ends of said array to reduce antenna pattern sidelobes, each of said radiators being provided with a binary digital phase shifter each comprising one or more elementary binary phase shifter stages connected in series, each of said phase shifter stages being capable of assuming either zero phase shift or 180°
- phase shift, or some submultiple of 180°
which is an integral power of 2, whereby by selectively controlling the phase shifts of said elementary phase shifters, 2n different total phase shifts may be obtained, wherein "n" is the number of elementary phase shifter stages per antenna radiator, and wherein the said maximum energy center radiators are provided with a greater number of stages of said elementary phase shifters than are the lower energy radiators on either side thereof. - View Dependent Claims (2, 3)
- phase shift, or some submultiple of 180°
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4. In a steerable linear phased array antenna of the tapered type and which includes a plurality of radiators,--each radiator being provided with a binary digital phrase shifter each of which comprises one or more elementary binary shifter stages in series, wherein maximum energy center radiators are provided with a greater number of stages of said elementary phase shifters than are the lower energy radiators on either side thereof,--the improvement comprising a binary phase shifter with redundant stages of elementary phase shifters wherein the number of such redundant stages is larger for the phase bits of most significance and tapers down to a smaller number of stages for the phase bits of least significance.
- 5. A tapered linear phased array antenna for a radar set including a transmitter and a receiver, comprising six or more radiators arranged in a line with binary digital phase shifters connected to each said radiator, and two or more center radiators having maximum transmitter energy applied thereto with the two or more end radiators having minimum energy applied thereto and the two or more intermediate radiators having intermediate transmitter energies applied thereto, whereby the phase shifters connected to said two or more center radiators have a maximum number of stages in the said phase shifter thereof, with the number of phase shifter stages and hence the phase accuracy tapering off toward the radiators at either end of said array.
Specification