Communications: radio wave antennas – Antennas – Microstrip
Patent
1991-09-20
1993-05-11
Hille, Rolf
Communications: radio wave antennas
Antennas
Microstrip
343731, 343739, H01Q 1380, H01Q 11020, H01Q 3300, H01Q 21060
Patent
active
052105415
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to microstrip patch antenna arrays having applications in the fields of communications and radar. Microstrip patch antennas are particularly useful for spacecraft and aircraft applications on account of their light weight and flat profile.
2. Discussion of Prior Art
A section of a conventional microstripline is shown in FIG. 1. It comprises a conducting ground plane 1, a dielectric spacer 2 and a conductor 3. For a straight, infinitely long strip, virtually no radiation will occur as long as the separation between the conductor 3 and ground plane 1 is small compared with the wavelength of the propagating wave. However, in the presence of a discontinuity, the field in the gap between the conductor 3 and the ground plane 1 becomes unbalanced and the gap radiates.
Any patch of microstrip such as the patch 4 shown in FIG. 2 has a radiating aperture around its rim. If fields and currents are excited by a stripline feed 5, for example, the patch 4 will radiate. The shape of the patch and method and location of its feed determine the field distribution and therefore its radiation characteristics. The most commonly used patches are rectangular, square or circular, such patches producing a fairly broad, single beam of radiation in a direction normal to their surfaces and in the case of rectangular patches, producing a controllable polarisation effect.
Microstrip patches are most commonly used in planar arrays for applications where a narrow beam pattern is required. A plan-view of a typical planar microstrip patch array layout is shown in FIG. 3. It comprises a plurality of rectangular conducting patches 6 fed via a microstrip feedline 7 which is printed onto the same substrate as the patches. The array shown in FIG. 3 has a narrow single beam pattern.
Other discontinuities such as apertures in an otherwise uniform conducting layer will also cause the generation of radiation in the same way, and the term "patch" as used hereinafter shall include such apertures.
It is an object of the present invention to provide a microstrip patch array having a multiple beam capability to facilitate simultaneous or switched coverage of a wide field of view.
Hitherto, multiple beam arrays have been formed by feeding appropriately grouped radiating elements (microstrip patches, for example) via a "beamforming" circuit. A well-known example of a beamforming circuit is the so-called Blass matrix which is shown schematically in FIG. 4. It comprises a grid of transmission lines and directional couplers 8 which couple input power applied to beam ports 9 and 10 to radiating patches 11 (12a to 12f are matched loads). Patch spacing and interconnecting line lengths determine beam direction. In the arrangement of FIG. 4, the number of beams is equal to the number of beam ports.
SUMMARY OF THE INVENTION
Although the beamforming circuitry is located in close proximity to the patch array, it is a separate entity and can occupy a significant volume. For large arrays with many beams, such matrices are bulky. This is a disadvantage when the antenna is required to be operated in a restricted space. The present invention provides a much more compact arrangement in which the antenna and beam forming functions are integrated into a single structure.
This invention consists of a multiple beam microstrip patch antenna array including N substantially parallel columns and n substantially parallel rows of radiating elements (13) and n feed lines (15), each feed line being coupled to a corresponding one of the n rows of elements in which the n elements within each of the N columns are electrically connected to form linear arrays which are terminated so that a voltage standing wave is produced along the arrays when an appropriate excitation signal is applied to at least one of the feed lines, characterised in that the effective lengths of feed line between adjacent elements along one feed line differ from the effective lengths of feed line between adjacent elements along at least
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Electronics Letters, vol. 25, No. 17, 17 Aug. 1989, (Stevenage, Herts., GB), S. J. Vetterlein et al., "Novel Multiple Beam Microstrip Patch Array with Integrated Beamformer", pp. 1149-1150.
International Search Report for PCT/GB90/00141.
Hall Peter
Vetterlein Stephen
Brown Peter Toby
Hille Rolf
The Secretary of State for Defence in her Britannic Majesty's Go
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