An interposer with a conductive housing is disclosed. Conductive members pass through insulators positioned in openings in the conductive housing. The conductive housing may be grounded, providing a closely spaced ground structure for signal conductors passing through the conductive housing and ther
An interposer with a conductive housing is disclosed. Conductive members pass through insulators positioned in openings in the conductive housing. The conductive housing may be grounded, providing a closely spaced ground structure for signal conductors passing through the conductive housing and therefore providing a desirable impedance to signals carried by the conductive members. Such an interposer may be used in a test system to couple high speed signals between instruments that generate or measure test signals and devices under test.
대표청구항▼
What is claimed is: 1. An interposer comprising: a. a conductive housing with a first side and a second side, the conductive housing having a plurality of holes, each hole passing through the first side and the second side; b. a plurality of insulators, each insulator at least partially embedded in
What is claimed is: 1. An interposer comprising: a. a conductive housing with a first side and a second side, the conductive housing having a plurality of holes, each hole passing through the first side and the second side; b. a plurality of insulators, each insulator at least partially embedded in a corresponding hole in the conductive housing; and c. a plurality of conductive springs, each having a first contact and a second contact, each conductive spring being partially embedded in at least one of the plurality of insulators such that the first contact of the conductive spring is exposed from the first side of the conductive housing and the second contact of the conductive spring is exposed from the second side of the conductive housing, wherein: i. each insulator of the plurality of insulators has a first surface and a second surface opposite the first surface, and the insulator is disposed such that the first surface of each insulator is exposed on the first side of the conductive housing and the second surface of each insulator is exposed on the second side of the conductive housing; and ii. the first contact of each spring of the plurality of conductive springs pierces the first surface of a corresponding insulator and the second contact of each spring of the plurality of conductive springs pierces the second surface of the corresponding insulator. 2. The interposer of claim 1, wherein the conductive housing is die-cast. 3. The interposer of claim 1, wherein the first side and second side of the conductive housing are parallel. 4. The interposer of claim 1, wherein the plurality of holes are perpendicular to the first surface. 5. The interposer of claim 1, wherein the first contact of each of the conductive springs has a U shaped curve wherein a base of the U shape is not embedded in the corresponding insulator. 6. The interposer of claim 1, wherein each of the plurality of insulators has a side surface adjacent to the conductive housing, and wherein the side surface is not pierced by the conductive spring. 7. The interposer of claim 1, further comprising a gold or silver plating on at least a portion of a conductive spring among the plurality of conductive springs. 8. The interposer of claim 1, further comprising a contact for grounding the conductive housing. 9. The interposer of claim 1, wherein an impedance measured between one of the plurality of conductive springs and the conductive housing is between 40 and 60 Ohms within the frequency range associated with data transfer rates of 2.5 to 10 Gbps. 10. An interposer comprising: a. a conductive housing with a first side and a second side opposite to the first side, having a plurality of holes, each hole passing through the first side and the second side; b. a plurality of insulators, each having a first surface and a second surface opposite the first surface, each insulator at least partially embedded in a corresponding hole in the conductive housing such that the first surface of each insulator is exposed from the first side of the conductive housing and the second surface of each insulator is exposed from the second side of the conductive housing; c. a plurality of conductive members, each having a first end and a second end, each conductive member partially embedded in at least one insulator of the plurality of insulators such that the first end of the conductive member is exposed on the first surface of the at least one insulator and the second end of the conductive member is exposed on the second surface of the at least one insulator; d. a first plurality of contacts, each one of the first plurality of contacts in contact with the first end of a corresponding conductive member; and e. a second plurality of contacts, each one of the second plurality of contacts in contact with the second end of a corresponding conductive member. 11. The interposer of claim 10, wherein the first plurality of contacts are elastomeric contacts. 12. The interposer of claim 11, wherein each of the first plurality of elastomeric contacts is insulated from the conductive housing. 13. The interposer of claim 10, wherein the conductive housing is die-cast. 14. The interposer of claim 10, wherein the first side and second side of the conductive housing are parallel. 15. The interposer of claim 10, further comprising a contact for grounding the conductive housing. 16. The interposer of claim 15, wherein the contact for grounding the conductive housing is an elastomeric contact. 17. A test system comprising: a. a plurality of instruments, each adapted to generate and/or measure a test signal; b. a first interface board comprising a first plurality of pads on a first surface, the first interface board being adapted to couple a test signal between a pad of the first plurality of pads and an instrument of the plurality of instruments; c. a second interface board comprising a second plurality of pads on a second surface, the second interface board adapted to couple a test signal between a pad of the second plurality of pads and a test point on a device under test; and d. an interposer disposed between the first interface board and the second interface board, the interposer comprising: i. a conductive housing with a first side and a second side opposite the first side, the conductive housing having a plurality of holes, each hole passing through the first side and the second side; ii. a plurality of insulators, each insulator being at least partially embedded in a corresponding hole in the conductive housing; iii. a plurality of conductive members, each having a first end and a second end, each conductive member being partially embedded in at least one of the plurality of insulators such that the first end of the conductive member is exposed from the first side of the conductive housing and the second end of the conductive member is exposed from the second side of the conductive housing; and iv. a ground contact coupling the conductive housing to a ground pad on at least one of the first interface board and the second interface board, wherein the first end of each conductive member is coupled to a pad of the first plurality of pads and the second end of each conductive member is coupled to a pad of the second plurality of pads. 18. The test system of claim 17, wherein the conductive housing of the interposer is die-cast metal. 19. The test system of claim 17, further comprising: i. a first plurality of contacts, each of the first plurality of contacts coupling a first end of a conductive member of the plurality of conductive members to a pad of the first plurality of pads; and ii. a second plurality of contacts, each of the second plurality of contacts coupling a first end of a conductive member of the plurality of conductive members to a pad of the second plurality of pads.
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이 특허에 인용된 특허 (11)
Olson, Stanley W., Electrical connector with metallized polymeric housing.
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