Steerable phased-array antenna having series feed network
First Claim
1. A steerable phase array antenna, comprising:
- a series-feed network comprising a feed line that receives a first signal and propagates a first group of signal components resulting from power splitting of the first signal;
a plurality of power splitters for splitting the first signal and for splitting a portion of the first group of signal components propagating in the feed line;
a plurality of branch lines for receiving a second group of signal components resulting from power splitting of the first signal and the portion of the first group of signal components;
a plurality of radiating elements, each one electrically connected to one branch line, wherein the radiating elements are operable to receive the second group of signal components and to transmit them as electromagnetic energy; and
a phase shifter array comprising a plurality of phase-shifting slabs, each phase-shifting slab having;
a phase-shifting member operable to change the phase of one of the signal components of the first group, andone impedance-matching member depending from a second edge of the phase-shifting member that reduces impedance mismatch occurring in the feed line while the phase-shifting member is changing the phase of the one signal component.
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Accused Products
Abstract
A phased-array antenna in accordance with illustrative embodiments of the present invention advantageously includes a plurality of radiating elements and a phase-shifter array integrated into a feed line of the antenna'"'"'s series feed network. The phase-shifter array advantageously comprises a plurality of phase-shifting slabs each of which includes a phase-shifting member, advantageously comprised of a dielectric material. When placed in electromagnetic fields generated by signals propagating through different regions of a feed line, the phase-shifting members affect the phase of such signals. Each slab in the phase-shifter array also advantageously incorporates at least one impedance-matching member that decreases or eliminates an impedance mismatch between air-suspended and dielectric-loaded regions of the transmission line over the full phase-shifting range of the phase-shifting members. Since phased-array antennas in accordance with the illustrative embodiments are well impedance matched, relatively high-dielectric-constant materials may be used for the phase shifters. As such, the phase shifters provide a high differential phase shift that contributes to a large phase-shifting range and a large antenna beam steering range. In some embodiments, the present phased-array antennas are configured such that relatively little phase is required between adjacent radiating elements so that antenna bandwidth is relatively broad. The present phased-array antennas advantageously use Wilkinson power splitters and one impedance-matching member per phase shifter to reduce sensitivity to impedance mismatch from radiating elements while keeping phase between adjacent radiating elements quite small.
138 Citations
14 Claims
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1. A steerable phase array antenna, comprising:
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a series-feed network comprising a feed line that receives a first signal and propagates a first group of signal components resulting from power splitting of the first signal; a plurality of power splitters for splitting the first signal and for splitting a portion of the first group of signal components propagating in the feed line; a plurality of branch lines for receiving a second group of signal components resulting from power splitting of the first signal and the portion of the first group of signal components; a plurality of radiating elements, each one electrically connected to one branch line, wherein the radiating elements are operable to receive the second group of signal components and to transmit them as electromagnetic energy; and a phase shifter array comprising a plurality of phase-shifting slabs, each phase-shifting slab having; a phase-shifting member operable to change the phase of one of the signal components of the first group, and one impedance-matching member depending from a second edge of the phase-shifting member that reduces impedance mismatch occurring in the feed line while the phase-shifting member is changing the phase of the one signal component. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A steerable phased-array antenna, comprising:
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a plurality of radiating antenna elements electrically connected to a plurality of branch lines; a plurality of signal power splitters disposed in a feed line, each signal power splitter operable to split a signal it receives delivering a first signal portion to one of the branch lines and a second signal portion to the feed line, and further wherein the signal power splitters are arranged in series such that the signal split by each successive power splitter is the second signal portion delivered to the feed line by each preceding signal power splitter; a plurality of phase-shifting slabs, each physically configured to be disposed between a different portion of the feed line and a ground plane associated therewith, each phase-shifting slab having; a phase-shifting member comprised of a dielectric material suitable for affecting a dielectric loading of the different portion of feed line and therefore operable to phase shift one of the second signal portions traveling therethrough, and at least one impedance-matching member that reduces impedance mismatch occurring in the different portion of feed line due to the presence of the phase-shifting member; wherein, as each phase-shifting slab is moved from a reference position, which reference position imparts a phase and amplitude to the second signal portions that result in the radiating antenna elements generating a reference radiation pattern, a relative phase difference of 1Δ
φ
is imparted to the reference-position phase of adjacent radiating antenna elements, thereby changing the reference radiation pattern. - View Dependent Claims (12, 13, 14)
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Specification
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- Resources
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Current AssigneeLucent Technologies, Inc. (Nokia Corporation)
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Original AssigneeLucent Technologies, Inc. (Nokia Corporation)
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InventorsHampel, Karl Georg, Hojell, Gary M.
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Primary Examiner(s)Tarcza, Thomas
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Assistant Examiner(s)PHAN, DAO LINDA
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Application NumberUS09/040,848Time in Patent Office517 DaysField of Search342/157, 342/368, 342/372, 343/700 MSUS Class Current342/372CPC Class CodesH01Q 21/0006 Particular feeding systemsH01Q 3/24 varying the orientation by ...
