Delivering both sum and difference beam distributions to a planar monopulse antenna array
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01Q-025/02
H01Q-021/00
출원번호
US-0556348
(2012-07-24)
등록번호
US-9219317
(2015-12-22)
발명자
/ 주소
Strassner, II, Bernd H.
출원인 / 주소
Sandia Corporation
대리인 / 주소
Farber, Madelynne J.
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
A planar monopulse radar apparatus includes a planar distribution matrix coupled to a planar antenna array having a linear configuration of antenna elements. The planar distribution matrix is responsive to first and second pluralities of weights applied thereto for providing both sum and difference
A planar monopulse radar apparatus includes a planar distribution matrix coupled to a planar antenna array having a linear configuration of antenna elements. The planar distribution matrix is responsive to first and second pluralities of weights applied thereto for providing both sum and difference beam distributions across the antenna array.
대표청구항▼
1. A planar monopulse radar apparatus, comprising: first and second input ports;a planar antenna array having a linear configuration of antenna elements, the antenna elements including a first antenna element, a second antenna element, a third antenna element, and a fourth antenna element;a planar f
1. A planar monopulse radar apparatus, comprising: first and second input ports;a planar antenna array having a linear configuration of antenna elements, the antenna elements including a first antenna element, a second antenna element, a third antenna element, and a fourth antenna element;a planar feed network between said antenna array and said first and second input ports, the feed network having a first input to a distribution matrix, a second input to the distribution matrix, a third input to the distribution matrix, and a fourth input to the distribution matrix, the planar feed network comprises:the distribution matrix that connects the first input, the second input, the third input, and the fourth input to the antenna array, the distribution matrix comprising: a first crossover component and a second crossover component; anda first comparator component and a second comparator component, the first input connected to the second antenna element and the third antenna element via the first comparator component and the first crossover component, the second input connected to the first antenna element and the fourth antenna element via the second comparator component and the first and second crossover components, the third input connected to the first antenna element and the fourth antenna element via the second comparator and the first and second crossover components, and the fourth input connected to the second antenna element and the third antenna element via the second crossover component and the first comparator component, wherein the feed network is configured to provide both sum and difference beam distributions across said antenna array responsive to power being applied at said first and second input ports. 2. The apparatus of claim 1, wherein said sum beam distribution is a Taylor distribution and said difference beam distribution is a Bayliss distribution. 3. The apparatus of claim 1, wherein said feed network further includes first and second power splitters respectively coupled to said first and second input ports, wherein said first power splitter is configured to output a first plurality of weights associated with said sum distribution responsive to the power being applied at said first input port, and wherein said second power splitter is configured to output a second plurality of weights associated with said difference beam distribution responsive to the power being applied at said second input port. 4. The apparatus of claim 3, wherein said first plurality of weights are associated with a Taylor distribution and said second plurality of weights are associated with a Bayliss distribution. 5. The apparatus of claim 3, wherein said distribution matrix is configured to provide an equal phase front over said antenna array responsive to said first plurality of weights, and said distribution matrix configured to provide, over respective groups of adjacent antenna elements, respective equal phase fronts that are 180° out of phase with one another responsive to said second plurality of weights. 6. The apparatus of claim 3, wherein said distribution matrix includes a plurality of crossover components and a plurality of 0/180° comparator components, the first and second crossover components included in the plurality of crossover components, the comparator component included in the plurality of 0/180° comparator components. 7. The apparatus of claim 6, wherein said crossover components respectively include two cascaded double-box 90° branchline couplers, and wherein said 0/180° comparator components respectively include a double-box 90° branchline coupler cascaded with a phase shifter. 8. The apparatus of claim 6, wherein said crossover components and said 0/180° comparator components all have an equal number of connection ports, and wherein said connection ports of said crossover components and said connection ports of said 0/180° comparator components fit within a same size footprint. 9. The apparatus of claim 6, wherein a majority of said crossover components are oriented to extend transversely to a direction of power propagation across said distribution matrix from said first and second power splitters to said antenna array. 10. The apparatus of claim 6, wherein said crossover components and said 0/180° comparator components are arranged to collectively provide a plurality of power distribution paths from said power splitters to said antenna array, and wherein all of power distribution paths have equivalent phase lengths. 11. The apparatus of claim 6, wherein each said 0/180° comparator component includes two branches having respective phase delay profiles that are substantially parallel to one another. 12. A planar monopulse radar apparatus, comprising: a first plurality of input ports comprising a first input port and a second input port, the first input port and the second input port being respectively connected to output ports of a Bayliss power splitter;a second plurality of input ports comprising a third input port and a fourth input port, the third input port and the fourth input port being respectively connected to an output of a Taylor power splitter;a planar antenna array having a linear configuration of antenna elements, the antenna elements comprising a first antenna element, a second antenna element, a third antenna element, and a fourth antenna element; anda planar distribution matrix coupled to said antenna array, said first input port, said second input port, said third input port, and said fourth input port, the planar distribution matrix comprising: first and second crossover components; andfirst and second comparator components, the first and second crossover components and the first and second comparator components distribute weights at each input port to two antenna elements in the planar antenna array,such that said distribution matrix is configured to provide a sum beam distribution across the antenna elements responsive to first weights applied at said first plurality of input ports via the Bayliss power splitter, said distribution matrix further configured to provide a difference beam distribution across the antenna elements responsive to second weights applied at said second plurality of input ports via the Taylor power splitter. 13. The apparatus of claim 12, wherein said distribution matrix includes a plurality of crossover components and a plurality of 0/180° comparator components, the first and second crossover components included in the plurality of crossover components, the first and second comparator components included in the plurality of 0/180° comparator components. 14. The apparatus of claim 13, wherein said crossover components respectively include two cascaded double-box 90° branchline couplers, and wherein said 0/180° comparator components respectively include a double-box 90° branchline coupler cascaded with a phase shifter. 15. The apparatus of claim 13, wherein said crossover components and said 0/180° comparator components all have an equal number of connection ports, and wherein said connection ports of said crossover components and said connection ports of said 0/180° comparator components fit within a same size footprint. 16. The apparatus of claim 13, wherein a majority of said crossover components are oriented to extend transversely to a direction of power propagation across said distribution matrix from the Bayliss power splitter and the Taylor power splitter to said antenna array. 17. The apparatus of claim 13, wherein said crossover components and said plurality of 0/180° comparator components are arranged to collectively provide a plurality of power distribution paths between the Bayliss power splitter and the Taylor power splitter to said antenna array, and wherein all of said power distribution paths have equivalent phase lengths. 18. The apparatus of claim 13, wherein each said 0/180° comparator component includes two branches having respective phase delay profiles that are substantially parallel to one another. 19. The apparatus of claim 13, wherein said antenna array contains Na antenna elements, wherein said plurality of 0/180° comparators numbers Na/2 and wherein said plurality of crossover components Nx numbers: Nx=2∑m=1Na2(Na2-m) 20. The apparatus of claim 12, wherein the distribution matrix is constructed as a stripline network.
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