Circuit element and use thereof
First Claim
Patent Images
1. An element for use in electrical circuits comprising:
- A) a body formed of flexible foam material and having(1) an internal structure formed by a plurality of cell-shaped structures, each cell-shaped structure including a plurality of edges(2) a plurality of electrically conductive granules located on the edges of each cell-shaped structure, some of the granules being in electrical contact with each other and some of the electrically conductive granules being spaced apart from each other,(3) foam material being interposed between adjacent spaced apart electrically conductive granules, the foam material that is interposed between adjacent spaced apart electrically conductive granules being electrically insulating so that the adjacent spaced apart electrically conductive granules having foam material interposed therebetween are electrically insulated from each other,(4) an electrically conductive path that is defined through the body by the electrically conductive granules and being defined by the location, orientation and spacing of the electrically conductive granules that are in electrical contact with each other and along with the foam material that is interposed between some adjacent granules, and(5) the body having an electrical resistance that is a function of the internal structure and geometry of the body and which is dissipative; and
B) two electrical contact elements electrically connected to the body, the electrical contact elements being in electrical series with the electrically conductive path defined through the body, each contact element being in contact with the foam body over a defined area of contact which includes some of the electrically conductive path, overall resistance of the body and the electrical contact elements being a function of the internal structure and geometry of the foam body and the geometry of the defined areas of contact between the electrical contact elements and the body.
0 Assignments
0 Petitions
Accused Products
Abstract
A circuit element includes a foam pad having a plurality of electrically conductive granules some of which are in electrical contact with each other and some of which are spaced apart from each other and an electrical path defined through the pad by the granules. The pad has a very high resistance which is a function of the geometry of the pad as well as the electrical path. The pad can be used to dissipate ESD as well as a resistor element. The pad is very versatile and can be used in a large number of situations and in conjunction with other circuit elements.
-
Citations
43 Claims
-
1. An element for use in electrical circuits comprising:
-
A) a body formed of flexible foam material and having (1) an internal structure formed by a plurality of cell-shaped structures, each cell-shaped structure including a plurality of edges (2) a plurality of electrically conductive granules located on the edges of each cell-shaped structure, some of the granules being in electrical contact with each other and some of the electrically conductive granules being spaced apart from each other, (3) foam material being interposed between adjacent spaced apart electrically conductive granules, the foam material that is interposed between adjacent spaced apart electrically conductive granules being electrically insulating so that the adjacent spaced apart electrically conductive granules having foam material interposed therebetween are electrically insulated from each other, (4) an electrically conductive path that is defined through the body by the electrically conductive granules and being defined by the location, orientation and spacing of the electrically conductive granules that are in electrical contact with each other and along with the foam material that is interposed between some adjacent granules, and (5) the body having an electrical resistance that is a function of the internal structure and geometry of the body and which is dissipative; and B) two electrical contact elements electrically connected to the body, the electrical contact elements being in electrical series with the electrically conductive path defined through the body, each contact element being in contact with the foam body over a defined area of contact which includes some of the electrically conductive path, overall resistance of the body and the electrical contact elements being a function of the internal structure and geometry of the foam body and the geometry of the defined areas of contact between the electrical contact elements and the body. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 24, 25, 26, 27, 28, 29, 30, 31, 32)
-
-
15. An element for use in an electrical circuit used to protect equipment or people against the effects of electrostatic discharge (ESD) comprising:
-
A) a body formed of flexible foam material and having (1) an internal structure formed by a plurality of cell-shaped structures, each cell-shaped structure including a plurality of edges, some of which intersect (2) a plurality of electrically conductive granules located on the edges of each cell-shaped structure, some of the granules being in electrical contact with each other and some of the electrically conductive granules being spaced apart from each other, (3) foam material interposed between adjacent spaced apart electrically conductive granules, the foam material that is interposed between spaced apart adjacent granules being electrically insulating so that the adjacent spaced apart electrically conductive granules having foam material interposed therebetween are electrically insulated from each other, (4) an electrically conductive path defined through the body by the electrically conductive granules and which is defined by the location, orientation and spacing of the electrically conductive granules in the body along with the foam material that is interposed between some adjacent granules, said electrically conductive path having an electrical resistance that is dissipative, and (5) the body having an electrical resistance that is a function of the internal structure and geometry of the body; and B) two electrical contact elements electrically connected to the body, the electrical contact elements being in electrical series with the electrically conductive path defined through the body, each contact element being in contact with the foam body over a defined area of contact which includes some of the electrically conductive path, overall resistance of the body and the electrical contact elements being a function of the internal structure and geometry of the foam body and the geometry of the defined areas of contact between the electrical contact elements and the body. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 33, 34, 35, 40, 41)
-
-
36. A method of forming a resistor element for use in an electrical circuit comprising:
-
A) forming a body of flexible foam material; B) forming an internal structure of the body by providing a plurality of cell-shaped structures and providing each cell-shaped structure with a plurality of edges; C) providing a plurality of electrically conductive granules on the edges of each cell-shaped structure, placing some of the granules being in electrical contact with each other and spacing other electrically conductive granules apart from each other; D) providing some of the foam material with electrically insulating properties; E) interposing the electrically insulating foam material between adjacent spaced apart electrically conductive granules and electrically isolating adjacent spaced apart electrically conductive granules having electrically insulating foam material interposed therebetween from each other; F) defining an electrically conductive path through the body using the electrically conductive granules which are in electrical contact with each other and defining the path by the location, orientation and spacing of the electrically conductive granules in the body along with the electrically insulating foam material that is interposed between some adjacent granules, whereby the body is provided with an electrical resistance that is a function of the internal structure and geometry of the body; G) electrically connecting two electrical contact elements to the body; H) placing the electrical contact elements in electrical series with the electrically conductive path defined through the body; and I) placing each contact element in contact with the foam body over a defined area of contact and including some of the electrically conductive path in the defined area of contact between each contact element and the body whereby the overall resistance of the body and the electrical contact elements is a function of the internal structure and geometry of the foam body and the geometry of the defined areas of contact between the electrical contact elements and the body. - View Dependent Claims (37, 38)
-
-
39. A method of preventing corona discharge comprising:
-
A) forming a body of flexible foam material; B) forming an internal structure of the body by providing a plurality of cell-shaped structures and providing each cell-shaped structure with a plurality of edges; C) providing a plurality of electrically conductive granules on the edges of each cell-shaped structure, placing some of the granules being in electrical contact with each other and spacing other electrically conductive granules apart from each other; D) providing some of the foam material with electrically insulating properties; E) interposing the electrically insulating foam material between adjacent spaced apart electrically conductive granules and electrically isolating adjacent spaced apart electrically conductive granules having electrically insulating foam material interposed therebetween from each other; F) defining an electrically conductive path through the body using the electrically conductive granules which are in electrical contact with each other and defining the path by the location, orientation and spacing of the electrically conductive granules in the body along with the electrically insulating foam material that is interposed between some adjacent granules, whereby the body is provided with an electrical resistance that is a function of the internal structure and geometry of the body; G) electrically connecting two electrical contact elements to the body; H) placing the electrical contact elements in electrical series with the electrically conductive path defined through the body; I) placing each contact element in contact with the foam body over a defined area of contact and including some of the electrically conductive path in the defined area of contact between each contact element and the body whereby the overall resistance of the body and the electrical contact elements is a function of the internal structure and geometry of the foam body and the geometry of the defined areas of contact between the electrical contact elements and the body; and J) connecting a touch pad to one of the electrical contact elements.
-
-
42. An element for use in electrical circuits comprising:
-
A) a body formed of flexible foam material and having (1) an internal structure formed by a plurality of cell-shaped structures, each cell-shaped structure including a plurality of edges (2) a plurality of electrically conductive granules located on the edges of each cell-shaped structure, some of the granules being in electrical contact with each other and some of the electrically conductive granules being spaced apart from each other, (3) foam material being interposed between adjacent spaced apart electrically conductive granules, the foam material that is interposed between adjacent spaced apart electrically conductive granules being electrically insulating so that the adjacent spaced apart electrically conductive granules having foam material interposed therebetween are electrically insulated from each other, (4) an electrically conductive path that is defined through the body by the electrically conductive granules and being defined by the location, orientation and spacing of the electrically conductive granules that are in electrical contact with each other and along with the foam material that is interposed between some adjacent granules, and (5) the body having an electrical resistance that is a function of the internal structure and geometry of the body and which is dissipative; and B) an electrical contact element electrically connected to the body, the electrical contact element being in electrical series with the electrically conductive path defined through the body and being in contact with the foam body over a defined area of contact which includes some of the electrically conductive path, overall resistance of the body and the electrical contact elements being a function of the internal structure and geometry of the foam body and the geometry of the defined areas of contact between the electrical contact element and the body.
-
-
43. An element for use in electrical circuits comprising:
-
A) a body formed of flexible foam material and having (1) an internal structure formed by a plurality of cell-shaped structures, each cell-shaped structure including a plurality of edges (2) a plurality of electrically conductive granules located on the edges of each cell-shaped structure, some of the granules being in electrical contact with each other and some of the electrically conductive granules being spaced apart from each other, (3) foam material being interposed between adjacent spaced apart electrically conductive granules, the foam material that is interposed between adjacent spaced apart electrically conductive granules being electrically insulating so that the adjacent spaced apart electrically conductive granules having foam material interposed therebetween are electrically insulated from each other, (4) an electrically conductive path that is defined through the body by the electrically conductive granules and being defined by the location, orientation and spacing of the electrically conductive granules that are in electrical contact with each other and along with the foam material that is interposed between some adjacent granules, and (5) the body having an electrical resistance that is a function of the internal structure and geometry of the body and which is dissipative; B) an electrical contact element electrically connected to the body, the electrical contact element being in electrical series with the electrically conductive path defined through the body and being in contact with the foam body over a defined area of contact which includes some of the electrically conductive path, overall resistance of the body and the electrical contact elements being a function of the internal structure and geometry of the foam body and the geometry of the defined areas of contact between the electrical contact element and the body; and c) a portion of the foam body being located and positioned to be exposed and positioned to serve as a contact area for permitting contact by the entity to be drained of its electrostatic charge.
-
Specification