Phased array antenna with interconnect member for...

Details Phased array antenna with interconnect member for... Phased array antenna with interconnect member for...

2000-07-19

2001-11-20

Le, Hoanganh (Department: 2821)

Communications: radio wave antennas

Antennas

Microstrip

C343S853000

Reexamination Certificate

active

06320546

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to phased array antennas, and more particularly, this invention relates to phased array antennas used at millimeter wavelengths.
BACKGROUND OF THE INVENTION
Microstrip antennas and other phased array antennas used at millimeter wavelengths are designed for use with an antenna housing and a MMIC (millimeter microwave integrated circuit) subsystem assembly used as a beam forming network. The housing can be formed as a waffle-wall array or other module support to support a beam forming network module, which is typically designed orthogonal to any array of antenna elements. Various types of phased array antenna assemblies that could be used for millimeter wavelength monolithic subsystem assemblies are disclosed in U.S. Pat. No. 5,065,123 to Heckaman, the disclosure which is hereby incorporated by reference in its entirety, which teaches a waveguide mode filter and antenna housing. Other microwave chip carrier packages having cover-mounted antenna elements and hermetically sealed waffle-wall or other configured assemblies are disclosed in U.S. Pat. Nos. 5,023,624 to Heckaman and 5,218,373 to Heckaman, the disclosures which are hereby incorporated by reference in their entirety. In the '624 patent, residual inductance of short wire/ribbon bonds to orthogonal beam forming network modules is controlled.
There are certain drawbacks associated with these and other prior art approaches. Above 20 and 30 GHZ, commercially available soft substrate printed wiring board technology does not have the accuracy required for multilayer circular polarized radiation elements, such as quadrature elements. A single feed circular polarized patch antenna element with an integral hidden circular polarized circuitry is desired for current wide scanning millimeter microwave (MMW) phased array applications. Various commercially available soft substrate layers have copper film layers that are thicker than desired for precision millimeter microwave circuit fabrication. Several bondable commercially available soft dielectric substrates have high loss at microwave millimeter wavelengths and the necessary rough dielectric-to-metal interface causes additional attenuation. Many commercially available dielectric substrates are not available in optimum thicknesses. Various dual feed microstrip elements with surface circuit polarized networks have been provided and some with polarizing film covers, but these have not been proven adequate. It would be desirable to minimize the different layers and use microwave integrated circuit materials and fabrication technologies for a phased array antenna with orthogonally positioned beam forming network modules at millimeter microwave wavelengths.
Additionally, the recent trend has been towards higher frequency phased arrays. In Ka-band phased array antenna applications, the interconnect from the element to the beam forming network modules is very difficult to form because the array face is typically orthogonal to the beam forming network modules and any antenna housing support structure.
Fully periodic wide scan phased array antennas require a dense array of antenna elements, such as having a spacing around 0.23 inches, for example, and having many connections and very small geometries. For circular polarized microstrip antennas, there are normally two quadrature feeds required, making the connections even more difficult at these limited dimensions. Some planar interconnects with linear polarization have been suggested, together with a pin feed through a floor if the area allows. Also, any manufacturable, reworkable interconnect that meets high performance requirements for three-dimensional applications with millimeter microwave integrated circuit technology is not available where planar elements must be electrically connected to circuitry positioned orthogonal to elements and meet the microwave frequency performance requirements. Performance must be consistent for each interconnection and the technology must be easily producible and easily assembled where the interconnection must be repairable at high levels of assembly. The technology must also support multiple interconnects over a small area.
SUMMARY OF THE INVENTION
The present invention is advantageous and provides an interconnect member for electrically connecting orthogonally positioned elements used at microwave, and more particularly, millimeter wavelength frequencies, such as a phased array antenna. In accordance with the present invention, a phased array antenna includes an antenna housing forming a subarray assembly having a plurality of beam forming network modules positioned on the subarray assembly. An antenna support and interconnect member are mounted on the antenna housing and include a carrier member having a front antenna mounting surface substantially orthogonal to the subarray assembly for supporting at least one antenna element. A carrier member includes a rear surface having a receiving slot and at least one conductive via associated with the receiving slot. It is positioned to extend through the carrier member to a circuit element supported by the mounting surface. A launcher member is fitted into the receiving slot and has a module connecting end that connects rearward to a beam forming network. The launcher member includes conductive signal traces that extend along the launcher member from the conductive via to the module connecting end adjacent a beam forming network module.
The carrier member and launcher member are formed from fired green tape ceramic that are shrink bonded together during firing to create an integral circuit connection. A bond pad is formed on the module connecting end. The bond pad supports one of a ribbon or wire bond to the beam forming network module. The signal traces can be formed as microwave striplines or microstrip. The launcher member is positioned substantially 90° to the carrier member. This carrier member and launcher member are substantially rectangular configured. The antenna support and interconnect member and antenna housing are configured to fit together in a locking relationship.
In still another aspect of the present invention, the phased array antenna includes an antenna housing having a subarray assembly and a plurality of beam forming network modules positioned on the subarray assembly. An antenna support and interconnect member are mounted on the antenna housing and include a carrier member having a front antenna mounting surface substantially orthogonal to the module support and at least one antenna element mounted on the antenna mounting surface.
A rear surface has a receiving slot and at least one conductive via associated with the receiving slot and positioned to extend to the antenna element. This at least one antenna element includes a driven antenna element having a front and rear side and a parasitic antenna element positioned forward on the front side of the driven antenna element. A quadrature microstrip circular polarized circuit is positioned rearward of the rear side of the driven antenna element and is operatively connected to the driven antenna element and the conductive via in the carrier member. A launcher member is fitted into the receiving slot and has a module connecting end extending rearward to a as beam forming network. The launcher member includes conductive signal traces that extend along the launcher of member from the conductive via to the module connecting end adjacent a beam forming network module.


REFERENCES:
patent: 5019829 (1991-05-01), Heckman et al.
patent: 5023624 (1991-06-01), Heckaman et al.
patent: 5065123 (1991-11-01), Heckaman et al.
patent: 5165109 (1992-11-01), Han et al.
patent: 5212494 (1993-05-01), Hofer et al.
patent: 5218373 (1993-06-01), Heckaman et al.
patent: 5227808 (1993-07-01), Davis
patent: 5313221 (1994-05-01), Denton, Jr.
patent: 5325103 (1994-06-01), Schuss
patent: 5444453 (1995-08-01), Lalezari
patent: 5453752 (1995-09-01), Wang et al.
patent: 5471223 (1995-11-01), McCorkle
patent: 5539415 (1996-07-01), Metzen et al.
patent: 5615031 (1997-03-01),

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