Sealed interposer assembly

Information

  • Patent Grant
  • 6358063
  • Patent Number
    6,358,063
  • Date Filed
    Wednesday, June 28, 2000
    25 years ago
  • Date Issued
    Tuesday, March 19, 2002
    23 years ago
Abstract
An interposer assembly for forming electrical connections between opposed pairs of circuit members includes a plate and metal contacts for electrically connecting the circuit members. A gasket surrounds the plate and sealingly abuts the circuit members when the interposer assembly is sandwiched between the circuit members.
Description




FIELD OF THE INVENTION




The invention relates to interposer assemblies used for forming electrical connections between spaced contact pads on circuit members.




BACKGROUND OF THE INVENTION




Interposer assemblies form electrical connections between densely spaced contact pads on adjacent parallel circuit members. Interposer assemblies are used wherever dense connections are required. The assemblies are particularly well suited for use in electronic devices such as cellular telephones, computers, radios, control circuits and the like. The assemblies enable a reduction in the size and weight of the electronic devices.




The contact pads on the two circuit members are typically arranged in identical patterns. The interposer assembly includes an insulating plate and a plurality of through-contacts carried in the plate and arranged in the same pattern as the pads on the circuit members. Commonly, the circuit members are a circuit board and a ceramic plate carrying integrated circuits. The interposer assembly is sandwiched between the circuit board and the ceramic plate with the contact pads against the top and bottom surfaces of the plate. The contact pads press against the through-contacts, forming electric connections between aligned pairs of pads.




The contact pads must make reliable, low resistance electrical connections with the through-contacts. The contact pads are conventionally made from a nickel or copper alloy substrate with a thin protective plating. The plating may be thin and allow corrosion of the underlying contact pad. Corrosion products accumulate on the outer surfaces of the contact pads and increase the contact resistance between the pads and the through-contacts.




The protective plating may be a film of corrosion-resistant metal such as gold, silver or platinum. The film is typically 3 to 8 millionths of an inch thick. The plating covers the metal substrate and protects the substrate from corrosion. The plating metal is also an excellent conductor of electricity and reduces contact resistance.




The thin plating film will often contain minute defects such as pores and pinholes. In these areas the film thickness is very thin and the substrate metal is vulnerable to corrosion. The thickness of the plating film must be sufficient to protect the metal substrate from corrosion despite the film defects. However, providing a thick film is wasteful and expensive.




Electronic devices are often used in corrosive environments such as hot, humid air. The air often carries contaminants, such as chlorides from sea spray or sulfides found in air pollution. The contact pads are exposed to the airborne contaminants. The chlorides or sulfides in the air attack plating defects and can corrode the contact pads.




Thus, there is a need for an improved interposer assembly which protects plated pads from corrosive environments and permits use of thin film plating on pads. The interposer assembly should be compatible with existing circuit designs.




SUMMARY OF THE INVENTION




The invention is improved interposer assembly having a sealing member that surrounds the plate when the interposer assembly is sandwiched between the circuit members. The sealing member is also sandwiched between circuit members and seals the interior of the gasket. The sealing member prevents airborne contaminants from entering the spaces between the plate and circuit members and corroding contact pads.




In a preferred embodiment of the invention, the sealing member is a resilient circumferential gasket. The gasket surrounds the interposer plate and includes circumferential top and bottom sealing portions that extend beyond the top and bottom sides of the plate. When the interposer assembly is sandwiched between the circuit members, the gasket is compressed between them. The gasket sealing portions abut the circuit members and seal the interior of the assembly against contaminants.




The plate includes mounting ears that extend away from the plate and support the plate on a frame. The ears extend through slots in the gasket and hold the gasket on the plate. The plate and gasket can be fastened to the frame to form a connection subassembly which is later sandwiched between the circuit members.




The improved interposer assembly of the present invention can be incorporated into existing interposer assemblies. The assemblies can be used in corrosive environments to prevent exposure of contact pads to contaminants. The contact pads do not need to be heavily plated. Thin plating films may be used, with resultant cost savings.




Other objects and features of the invention will become apparent as the description proceeds, especially when taken in conjunction with the accompanying drawings illustrating the invention, of which there are five sheets of drawings and one embodiment.











DESCRIPTION OF THE DRAWINGS





FIG. 1

is an exploded perspective view of an interposer assembly of the present invention and a frame;





FIG. 2

is a perspective view of the interposer assembly mounted on the frame;





FIG. 3

is a sectional view of the gasket taken along line


3





3


of

FIG. 1

;





FIG. 4

is a sectional view similar to

FIG. 3

but taken along line


4





4


of

FIG. 1

;





FIG. 5

is a partial sectional view of the interposer assembly taken along line


5





5


of

FIG. 1

;





FIG. 6

is a partial sectional view of the interposer assembly and frame prior to being sandwiched between the circuit members taken along line


6





6


of

FIG. 1

;





FIG. 7

is a view like

FIG. 6

but showing the interposer assembly and frame sandwiched between the circuit members; and





FIG. 8

is a view like

FIG. 7

but taken along line


8





8


of FIG.


1


.











DESCRIPTION OF THE PREFERRED EMBODIMENT





FIGS. 1-5

illustrate an interposer assembly


10


in accordance with the present invention. The interposer assembly


10


is mounted in a conventional frame


12


to form a connection subassembly


14


.




The interposer assembly


10


includes a rectangular plate


16


formed of insulating material with a plurality of metal through contacts


18


held in the plate and extending between top and bottom plate sides


20


and


22


. A resilient circumferential sealing member or gasket


24


surrounds the entire outer periphery of the plate


16


. The gasket


24


is preferably formed from a silicone rubber elastomer.




The plate


16


includes four straight outer circumferential walls


26


that extend from the top side


20


to the bottom side


22


. Four mounting ears


28


extend outwardly from opposed walls


26


at corners of the plate


16


. Each ear


28


includes a through mounting hole


30


that extends from the bottom of the ear to an open cavity


32


in the top of the ear.




Gasket


24


has a central four-sided body


34


with rounded top and bottom gasket sealing portions


36


and


38


on the top and bottom of the body. The gasket body


34


surrounds and is supported on the plate walls


26


. The gasket body


34


does not extend the entire height of the plate walls


26


so that the upper and lower ends of the walls


26


are spaced from the gasket


24


. The height of the gasket between the top and bottom sides is greater than the thickness of the plate


16


. The gasket sealing portions


36


and


38


extend beyond the top and bottom sides of the plate when the gasket


24


is centered on the walls


26


as shown in FIG.


5


.




The mounting ears


28


extend through slots


42


formed in the gasket body


34


. See FIG.


6


. Grooves


44


are formed on the top and bottom of each ear


28


at the adjacent plate wall. The gasket


24


at the slots


42


is in the grooves


44


. The sides of the gasket fit snugly on the ears


28


and center the gasket


24


on the plate. The ears


28


retain the gasket


24


on the plate in position to engage the circuit members.




The circumference of the gasket body


34


is slightly less than the circumference of the outer plate walls


26


when the gasket is unstressed. Gasket


24


is stretched slightly when placed around the plate


16


. The resiliency of the gasket


24


presses the gasket body


34


against the walls


26


of the plate


16


and assures the gasket


24


is in proper position on the plate to engage the circuit members. The slots


42


are sized to enable the gasket


24


to elastically expand and accommodate the mounting ears when the gasket is mounted on the plate.




The frame


12


is a hollow rectangular body that receives the interposer assembly


10


and includes four side walls


46


having top and bottom sides


48


and


50


. Two pairs of recesses


52


open to the top side


48


are formed on opposing pairs of side walls


46


with mounting pins


54


extending from the base of the recesses towards the top side


48


. Frame mounting ears


56


extend outwardly from the corners of the frame and include through mounting holes


58


. Diagonally opposed locater posts


60


are located adjacent a diagonal pair of the mounting holes


58


.





FIG. 2

illustrates the interposer assembly


10


mounted in the frame


12


prior to being permanently fastened to the frame. The plate mounting ears


28


are received in the frame recesses


52


and support the interposer assembly


10


on the frame side walls


46


. The top side


20


of the plate


16


is level with the top side of the frame


12


. The mounting pins


54


extend through the holes


30


and position the interposer assembly


10


in the frame with the gasket


24


spaced inwardly a short distance from the interior of the facing frame side walls


46


. The gasket upper sealing portion


36


extends above the frame


12


and the gasket lower sealing portion


38


is located within the frame


12


.




After mounting the interposer assembly


10


in the frame


12


, the free ends of the mounting pins


54


are deformed and mushroomed over the mounting ears


28


. The mushroomed ends of the pins


54


form heads


62


(see

FIG. 6

) that permanently hold the interposer assembly


10


to the frame


12


to form connector subassembly


14


.




Connection subassembly


14


may be used for forming electrical connections between contact pads on a ceramic integrated circuit and contact pads of a circuit board. The subassembly may also be used for forming electrical connections between other types of contact members or other types of circuit members.





FIG. 6

illustrates the connector subassembly


14


positioned between upper and lower circuit members


64


and


66


prior to being sandwiched between the circuit members. The circuit members


64


and


66


include a number of opposed pairs of contact pads


70


and


72


mounted on outer surfaces of the circuit members. The circuit members will be pressed together by a pressure plate


74


, which can be a component of a conventional clamp used to clamp circuit members together. The clamp can include tension members (not shown) that extend through frame mounting holes


58


.




In this embodiment, the plate


16


and contacts


18


form electrical connections between directly opposed pairs of contact pads. The individual contacts


18


extend outwardly from both sides


20


and


22


of the plate


16


to engage and form electrical connections between opposed pairs contact pads


70


and


72


. In other embodiments, the plate and contacts can form electrical connections with other arrangements of opposed contact pads and the contacts can form electrical connections between a different number of contact pads. Different types of plates, contact passages and contacts can be used.




The lower circuit member


66


is received within close-fitting frame


12


from the bottom side of the frame to align the contact pads


72


with the contacts


18


. The upper circuit member


64


extends beyond the connector subassembly


14


. Locator holes


76


in the circuit member


64


receive locator posts


60


of the frame


12


and align the contacts


18


with the contact pads


70


. The circuit members


64


and


66


are spaced away from the interposer assembly


10


and the contacts


18


and gasket


24


are not compressed.





FIG. 7

illustrates the connector assembly


14


fully sandwiched between circuit members


64


and


66


. Circuit members


64


and


66


are clamped tightly against the plate


16


by pressure plate


74


. When the members are brought toward interposer assembly


10


, the two sets of contact pads


70


and


72


are moved together and compress the contacts


18


to make low resistance pressure electrical connections between the contacts and the contact pads. The contact pads


70


and


72


abut the top and bottom sides of the plate


16


and support the circuit members against the plate.




The circuit members


64


and


66


abut the top and bottom sealing portions


36


and


38


respectively of the gasket


24


and compress the gasket


24


between them. The gasket


24


is compressed to a height equal to the distance between the circuit members. The compressed gasket


24


substantially fills the space between the plate


16


and the frame


12


to prevent contaminants from entering the narrow space between the plate and the circuit members. See FIG.


8


. The gasket sealing portions


36


and


38


deform and press against the circuit members to form an air tight seal between the gasket and the circuit members.




The gasket sealing portions


36


and


38


are preferably rounded to provide space between them and the plate when the gasket is not compressed. The rounded gasket sealing portions bulge laterally as the gasket is sandwiched between the circuit members but do not bulge over the top or bottom of the plate. If the sealing portions bulged over the top or bottom of the plate, the gasket will be captured between the plate and a circuit member. The circuit member will not seat properly against the plate and the contacts may not make reliable electrical connections with the contact pads. The rounded ends provide sufficient space for the gasket to compress without being captured between a circuit member and the plate.




The interior of the gasket is sealed from the outside environment by the gasket, the circuit members and the air tight seals between the gasket and the circuit members. The sets of contact pads


70


and


72


and the interposer contacts


18


are located within the sealed interior chamber


78


. Contaminants cannot enter the interior of the chamber


78


and corrode the contact pads and the interposer contacts.




The circuit members may move towards and away from each other due to changes in operating temperature, user handling of the device, or the like. The gasket is compliant and can expand and contract to maintain sealing contact with the circuit members despite the relative movement of the circuit members.




While I have illustrated and described a preferred embodiment of my invention, it is understood that this is capable of modification, and I therefore do not wish to be limited to the precise details set forth, but desire to avail myself of such changes and alterations as fall within the purview of the following claims.



Claims
  • 1. An interposer assembly for forming electrical connections between a pair of circuit members, each circuit member having a set of contact pads, the interposer assembly comprising:a plate having a top surface, a bottom surface spaced the thickness of the plate from the top surface, an outer wall surrounding the plate and extending from the top surface to the bottom surface, and a plurality of ears extending outwardly from the outer wall of the plate, each ear having a thickness adjacent the plate less than the thickness of plate with the ear adjacent the plate located below the plate top surface and above the plate bottom surface, an outer portion located outwardly of the gasket, and a mounting hole extending through such portion; a plurality of contacts extending through the thickness of the plate for making electrical connections between sets of contact pads; and an elastomeric circumferential gasket surrounding the outer wall of the plate, said gasket having a top circumferential sealing portion adjacent the top of the plate, a bottom circumferential sealing portion adjacent the bottom of the plate, a body located between the top and bottom sealing portions, and a plurality of holes extending through the gasket body between the top and bottom sealing portions, each ear extending through a hole in the gasket with the outer portion and the mounting hole thereof located outwardly from the gasket, said gasket having an uncompressed height greater than the thickness of the plate; wherein when the interposer assembly is sandwiched between a pair of circuit members the gasket sealingly abuts the circuit members.
  • 2. An interposer assembly as in claim 1 wherein each sealing portion is rounded.
  • 3. An interposer assembly as in claim 1 including a pair of circuit members and a frame, each circuit member having a set of contact pads;the plate includes four ears extending from the outer wall and the gasket includes four slots, each ear extending through a slot and engaging the frame; the frame, plate and gasket sandwiched between the circuit members, the contacts electrically connecting the sets of contact pads; and a sealed interior chamber, the sets of contact pads and contacts in the chamber.
  • 4. An interposer assembly as in claim 1 wherein said plate is rectangular and includes four corners, and each ear is located adjacent one of said corners.
  • 5. An interposer assembly as in claim 1 wherein the thickness of each ear adjacent the plate is less than the thickness of the plate.
  • 6. An interposer assembly as in claim 1 wherein each ear has a thickness outwardly of the plate greater than the thickness of the ear adjacent the plate.
  • 7. An interposer assembly for forming electrical connections between a pair of circuit members, each circuit member having a set of contact pads, the interposer assembly comprising:a plate having a top surface, a bottom surface spaced the thickness of the plate from the top surface, and an outer wall surrounding the plate and extending from the top surface to the bottom surface, said outer wall including retention surfaces that engage a gasket to locate the gasket on the outer wall; a plurality of contacts extending through the thickness of the plate for making electrical connections between sets of contact pads; and an elastomeric circumferential gasket surrounding the outer wall of the plate, said gasket including a slot, said retention surfaces extending outwardly from the outer wall and into the slot, the retention surfaces located on an ear that extends through the gasket slot and beyond the gasket to mount the interposer assembly on another body.
  • 8. A connector assembly for establishing electrical connections between a pair of circuit members, each circuit member having a set of contact pads, the connector assembly comprising:an interposer assembly, a frame surrounding the interposer assembly and a connection fastening the interposer assembly to the frame; the interposer assembly including a plate, a plurality of contacts in the plate for making electrical connections between contact pads, and a gasket surrounding the plate and including circumferential top and bottom seal portions, each seal portion extending completely around the plate, and slots in the gasket; and the connection including mounting ears extending from the plate and through the slots, the ears extending beyond the gasket, and a mounting hole extending through each ear outwardly of the gasket, wherein the ears hold the gasket on the plate, and a plurality of mounting pins on the frame, each mounting pin extending through one of the mounting holes.
  • 9. A connector assembly as in claim 8 wherein the gasket is formed from an elastomeric material and engages the plate, the gasket being elastically stressed.
  • 10. A connector assembly as in claim 8 wherein the plate has opposed first and second sides separated by the thickness of the plate and the gasket extends beyond the sides of the plate when uncompressed.
  • 11. A connector assembly as in claim 8 wherein the gasket is elastically stretched against the plate.
  • 12. A connector assembly as in claim 8 wherein the plate has a thickness, and each ear includes an ear portion adjacent the plate, said portion having a thickness less than the thickness of the plate and located between the top and bottom of the plate.
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4743080 Siraty May 1988 A
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Non-Patent Literature Citations (1)
Entry
InterCon Systems, Inc. Drawing 7162—Three sheets before Jun. 28, 2000.