IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0405147
(2003-04-03)
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발명자
/ 주소 |
- Apostolos, John T.
- Hedges, Steven A.
|
출원인 / 주소 |
- AE Systems Information and Electronic Systems Intergation Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
17 |
초록
▼
A nested cavity embedded loop mode antenna is provided with an ultra wide band response by nesting individual embedded cavity meander line loaded antenna modules, with the meander lines coupled to a ground plane plate either capacitively or directly so as to provide as much as a 27:1 ratio of high f
A nested cavity embedded loop mode antenna is provided with an ultra wide band response by nesting individual embedded cavity meander line loaded antenna modules, with the meander lines coupled to a ground plane plate either capacitively or directly so as to provide as much as a 27:1 ratio of high frequency to low frequency cutoff. The nested meander line structure is exceptionally compact and eliminates the problem of a null in the antenna radiation pattern perpendicular to the face of the antenna, thus to provide a loop type antenna pattern at all frequencics across which the antenna is to be operated. The use of the nested meander line configuration provides a flush mount for the antenna having a footprint associated with the larger of the meander line cavities and thus the lowest frequency of operation, the nesting precluding the necessity of providing separate side-by-side meander line loaded antennas which would increase the real estate required.
대표청구항
▼
1. An ultra wide band antenna, comprising:a number of cavity embedded meander line loaded antenna modules having non-overlapping frequency bands of operation, each of said modules having an outer conductive cavity, and further including a ground plane plate above said cavities a meander line at the
1. An ultra wide band antenna, comprising:a number of cavity embedded meander line loaded antenna modules having non-overlapping frequency bands of operation, each of said modules having an outer conductive cavity, and further including a ground plane plate above said cavities a meander line at the top of said outer conductive cavity having an end coupled to said cavity, and means for coupling an end of said meander line to said ground plane plate; and,a common feed to said modules. 2. The antenna of claim 1, wherein said modules are nested one within another. 3. The antenna of claim 1, wherein said modules are serially connected together. 4. The antenna of claim 1, wherein said coupling means includes a capacitive coupling between said meander line and said ground plane plate. 5. The antenna of claim 1, wherein said coupling means includes a conductor for coupling said meander line to said ground plane plate. 6. The antenna of claim 1, wherein said ground plane plate is divided into two sections and wherein said common feed is coupled across said two sections. 7. The antenna of claim 6, wherein said common feed includes a balanced line. 8. The antenna of claim 7, wherein said balanced line is connected across the closest adjacent points on said sections. 9. The antenna of claim 1, wherein said ground plane plate is divided into four sections and wherein said common feed is coupled across said sections to effectuate a predetermined polarization for said antenna. 10. The antenna of claim 9, wherein said polarization is selected from the group consisting of horizontal polarization, vertical polarization, right hand circular polarized and left hand circular polarization, polarized and left hand circular polarization. 11. The antenna of claim 1, wherein the antenna pattern is in the form of a loop across said bands of operation. 12. The method of claim 1, wherein the ultra wide band antenna is used for surveillance from an over flying platform. 13. A method of providing an ultra wide band antenna having a loop type antenna pattern over the bands of operation of the antenna, comprising the steps of:nesting a number of cavity embedded meander line loaded antenna modules having different non-overlapping frequency bands of operation, each of said modules having an outer conductive cavity, and further including a ground plane plate above said cavities, a meander line at the top of said outer conductive cavity having an end coupled to said cavity, and means for coupling an end of said meander line to said ground plane plate; and,providing the antenna modules with a common feed, whereby any side lobes are minimized such that there is no significant null in a direction perpendicular to the face of the nested modules. 14. The method of claim 13, wherein the frequency bands of operation of the modules are contiguous and wherein any bandwidth overlap does not result in any substantial null in a direction perpendicular to the face of the nested modules. 15. The method of claim 13, wherein the modules are serially connected. 16. A compact flush-mountable ultra wide band antenna, comprising:a number of nested cavity embedded meander line loaded antenna modules, each of said modules having an electrically conductive cavity having a top periphery, an apertured dielectric layer at said top periphery, at least one meander line on said dielectric layer and having an end electrically connected to said cavity, a ground plane plate above said meander line and a coupler for coupling another portion of said meander line to said ground plane plate, the aperture in said dielectric layer being of a size to permit the insertion of a smaller cavity therethrough to permit said nesting; and,a common feed for said antenna modules, said modules having substantially non-overlapping bands of operation. 17. The antenna of claim 16, wherein said ground plane plate is divided into sections and wherein said feed includes a pair of conductors coupled to different secti ons. 18. The antenna of claim 17, wherein said ground plane plate is divided into four sections such that said antenna can be driven so as to provide a horizontally polarized, a vertically polarized, a right hand circularly polarized and left hand circularly polarized antenna pattern. 19. The antenna of claim 18, wherein said sections are triangularly shaped.
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