Claims
- 1. A frame structure for a transmit/receive module configured to transmit and receive electromagnetic radiation over a predetermined portion of the electromagnetic spectrum, comprising a least one frame component formed as a single piece from a synthetic resin dielectric material, said frame component configured to support a plurality of electrical connectors, and a thin film coating on a selected portion of said frame component; said thin film coating configured to provide a ground connection and electromagnetic shield when said frame structure is incorporated into a transmit/receive module.
- 2. The frame structure of claim 1, wherein said thin film coating includes a metal layer that provides a ground connection and electromagnetic shield.
- 3. The frame structure of claim 2, wherein said metal layer is connected to said frame component by a thin layer of connective material.
- 4. The frame structure of claim 3, wherein said metal layer comprises an aluminum layer, and said thin layer of connective material comprises a layer of titanium.
- 5. The frame structure of claim 4, wherein said thin film coating is further configured to provide a getter for materials that can contaminate a transmit/receive module.
- 6. The frame structure of claim 5, wherein said frame component is configured to be incorporated into a transmit/receive module which includes GaAs semiconductor material, and wherein said thin film coating is configured to provide a getter for hydrogen.
- 7. The frame structure of claim 6, wherein said thin film coating includes a titanium getter layer disposed on top of said metal layer.
- 8. The frame structure of claim 7, wherein said thin film coating includes a palladium layer on top of said titanium getter layer.
- 9. The frame structure of claim 8, wherein said frame component is formed of molded synthetic resin dielectric material.
- 10. The frame structure of claim 9, wherein a portion of said frame component is configured to interface with a portion of a transmit/receive module when the frame component is incorporated into the transmit/receive module, and wherein said synthetic resin dielectric material provides the portion of said frame component with a range of compressibility that enables the frame component to provide the module with an effective ground connection over that range of compressibility.
- 11. The frame structure of claim 10, comprising a pair of said frame components, each of which is configured to support respective portions of each of a plurality of electrical connectors.
- 12. The frame structure of claim 1, comprising a pair of said frame components, each of which is configured to support respective portions of each of a plurality of electrical connectors.
- 13. The frame structure of claim 12, wherein each of said pair of frame components is formed of molded synthetic resin dielectric material.
- 14. The frame structure of claim 1, wherein a portion of said frame component is configured to interface with a portion of a transmit/receive module when the frame component is incorporated into the transmit/receive module, and wherein said synthetic resin dielectric material provides the portion of said frame component with a range of compressibility that enables the frame component to provide the module with an effective ground connection over that range of compressibility.
- 15. The frame structure of claim 14, wherein said frame component is formed of molded synthetic resin dielectric material.
- 16. The frame structure of claim 14, comprising a pair of said frame components, each of which is configured to support respective portions of each of a plurality of electrical connectors.
CROSS-REFERENCE TO RELATED APPLICATION
[0001] The present application is related to application Ser. No. 09/965,759, filed on Sep. 22, 2001, and entitled “Multilayer Thin Film Hydrogen Getter” [PD-00W124]. That application is directed to hydrogen getters, used in GaAs hermetically-sealed packaging.