Arthur G Michaud

US Patent:

6434012, Aug 13, 2002

Filed:

Dec 5, 2000

Appl. No.:

09/730322

Inventors:

Wayne S. Alden - Whitman MA
William Petrocelli - Douglas MA
Peter Wapenski - Foster RI
Arthur G. Michaud - New Bedford MA
Michael Kirkman - Swansea MA
Jeffery Mason - North Attleboro MA
Brian Paul Sharp - Providence RI

Assignee:

Tyco Electronics Logistics AG - Steinach/SG

International Classification:

H05K 500

US Classification:

361752, 361798, 361801, 361802

Abstract:

Interconnection apparatus is provided which is especially useful to mount and connect circuit boards having a contact assembly of resilient compressive contacts to a backplane or other mateable board or device. The apparatus includes an enclosure having guide channels for each board to be housed in the enclosure, a contact assembly for providing compressive contact between the contact ends of each board and corresponding contacts of the backplane, and elements for seating each board into engagement with the backplane.

US Patent:

6796810, Sep 28, 2004

Filed:

Dec 10, 2002

Appl. No.:

10/315299

Inventors:

Stephen D. DelPrete - Rehoboth MA
Jeffrey W. Mason - Attleboro MA
Michael L. Kirkman - Swansea MA
Steven B. Wakefield - Watertown MA
William R. Arsenault - Warwick RI
Shiraz Sameja - Attleboro MA
Peter D. Wapenski - Foster RI
Arthur G. Michaud - Fairhaven MA

Assignee:

Tyco Electronics Corporation - Middletown PA

International Classification:

H01R 458

US Classification:

439 86, 439 66, 439 91

Abstract:

A connector for board-to-board or board-to-socket interconnect applications includes a plurality of conductive elastomeric columnar contacts surrounded by an insulative body. In one embodiment employed in board-to-board applications, the columnar contacts are substantially longer than wide to facilitate mounting of components between opposed boards. The conductive columnar contacts extend slightly beyond the surfaces of the insulative body. The body may include integral raised collars that surround opposing ends of the conductive columnar contacts and at least one stop flange integral with the body that limits overstress on tips of the conductive columnar contacts.

US Patent:

62714821, Aug 7, 2001

Filed:

Dec 29, 1998

Appl. No.:

9/222137

Inventors:

David R. Crotzer - Nashua NH
Jonathan W. Goodwin - Braintree MA
Arthur G. Michaud - New Bedford MA
David A. DeDonato - Hopedale MA

Assignee:

Thomas & Betts International, Inc. - Sparks NV

International Classification:

H01R 1204
H05K 111

US Classification:

174262

Abstract:

An electrical interconnect comprising a non-conductive substrate having respective opposite surfaces and a plurality of apertures formed therein extending between the respective opposite surfaces, and a corresponding plurality of elastic conductive interconnect elements located within the plurality of apertures, in which each elastic conductive interconnect element extends between the respective opposite surfaces of the substrate. Each elastic conductive interconnect element is formed of a non-conductive elastic material having a quantity of conductive flakes and a quantity of conductive powder granules interspersed therein. The interconnect elements can be integrally molded in the substrate or separately formed and inserted in the substrate.

US Patent:

61175390, Sep 12, 2000

Filed:

Sep 16, 1997

Appl. No.:

8/931438

Inventors:

David R. Crotzer - Nashua NH
Arthur G. Michaud - New Bedford MA
Neil N. Silva - Greenville RI

Assignee:

Thomas & Betts Inernational, Inc. - Sparks NV

International Classification:

B32B 522

US Classification:

4283179

Abstract:

An electrically conductive elastomer for grafting to an elastic substrate is disclosed. The conductive elastomer comprises a non-conductive elastic material having a quantity of conductive flakes interspersed therein. The conductive elastomer may further comprise a quantity of conductive particles interspersed in the non-conductive elastic material. Alternatively, a quantity of conductive particles may be imbedded in an outer surface of the conductive elastomer. The conductive elastomer is typically grafted to an elastic substrate by a thermal process.

US Patent:

59490292, Sep 7, 1999

Filed:

Oct 28, 1996

Appl. No.:

8/736830

Inventors:

David R. Crotzer - Nashua NH
Jonathan W. Goodwin - Braintree MA
Arthur G. Michaud - New Bedford MA
David A. DeDonato - Hopedale MA

Assignee:

Thomas & Betts International, Inc. - Sparks NV

International Classification:

H05K 100

US Classification:

174254

Abstract:

Several different types of electrically conductive elastomers are disclosed along with the methods for their fabrication. In one particular embodiment, a layered composition is disclosed which comprises a substrate, a first layer, and a second layer. The substrate is formed of a non-conductive elastic material and it has an outer surface. The first layer, which is formed with a non-conductive elastic material, is grafted to the outer surface of the substrate. The second layer, which is formed with a non-conductive elastic material having a quantity of conductive flakes interspersed therein, is grafted to an outer surface of the first layer. The second layer can further be formed with a quantity of rounded or jagged conductive particles interspersed in the non-conductive elastic material such that some of the conductive particles are present along an outer surface of the second layer. Alternatively, a quantity of rounded or jagged conductive particles may be imbedded in an outer surface of the second layer.