Claims
- 1. A variable voltage protection component for placement between ground and an electronic circuit, the variable voltage protection component having first and second major surfaces and comprising:a voltage variable material having uniformly distributed, electrically inert, nonwoven spacers embedded in the variable voltage material, the spacers being of relatively low compressibility and a diameter of the spacers spanning between the first and second major surfaces of the variable voltage protection component at a uniform distribution and size selected to maintain a substantially constant thickness of the variable voltage protection component, as defined by the separation between the first and second major surfaces, in the presence of compressive forces, thereby reducing the effect of the compressive forces on the electrical behavior of the variable voltage protection component.
- 2. A variable voltage protection component for placement between a ground and an electric circuit, the variable voltage protection component having first and second major surfaces, and comprising:a voltage variable material comprising a binder and electrically inert, nonwoven spacers uniformly dispersed within the binder wherein the spacers are of insulating material, are of relatively low compressibility and a diameter of the spacers span from the first the second major surfaces of the variable voltage protection component at a uniform size selected to maintain a substantially constant thickness of the variable voltage protection component, as defined by the separation between the first and second major surfaces, in the presence of compressive forces, thereby reducing the effect of the compressive forces on the electrical behavior of the variable voltage protection component.
- 3. The variable voltage protection component of claim 2 wherein the non-woven pieces of insulating material comprise balls.
- 4. The variable voltage protection component of claim 2 wherein the non-woven pieces of insulating material comprise a plurality of pieces of fibrous mat broken, cut or chopped into smaller pieces.
- 5. The variable voltage protection component of claim 2, wherein the spacers are uniformly distributed within the binder in single units.
- 6. A variable voltage protection component for placement between a ground and an electronic circuit, the variable voltage protection component having first and second major surfaces and comprising:a voltage variable material comprising a plurality of discrete, non-woven insulating spacers to provide prescribed thickness dimensions for the variable voltage protection component, the spacers being electrically inert and having relatively low compressibility and a diameter of the spacers spanning between the first and second surfaces of the variable voltage protection component at a uniform distribution and size selected to maintain a substantially constant thickness of the variable voltage protection component, as defined by the separation between the first and second major surfaces, in the presence of compressive forces, thereby reducing the effect of the compressive forces on the electrical behavior of the variable voltage protection component.
- 7. The variable voltage protection component of claim 6 wherein the insulating spacers are ceramic or glass balls 0.2 to 10 mils in diameter.
- 8. A variable voltage protection component for placement between a ground and an electronic circuit, the variable voltage protection component having first and second major surfaces and comprising:a reinforcing layer comprising: a plurality of pieces of insulating material, said plurality of pieces defining a plurality of voids therebetween and comprising electrically inert, uniformly distributed non-woven spacers being of relatively low compressibility and having a diameter of the spacers spanning the first and second major surfaces of the variable voltage protection component at a uniform distribution and size selected to maintain a substantially constant thickness of the variable voltage protection component, as defined by the separation between the first and second major surfaces, in the presence of compressive forces, thereby reducing the effect of the compressive forces on the electrical behavior of the variable voltage protection component; and a voltage variable material distinct from and impregnating the reinforcing layer and filling the plurality of voids, the voltage variable material comprising a binder, the reinforcing layer being substantially completely surrounded by and suspended in said binder.
- 9. The variable voltage protection component of claim 8 wherein the voltage variable material is continuous across at least one surface of the variable voltage protection component.
- 10. The variable voltage protection component of claim 8 wherein the non-woven pieces of insulating material comprise uniformly sized balls.
- 11. The variable voltage protection component of claim 8 wherein the insulating spacers are ceramic or glass balls 0.2 to 10 mils in diameter.
- 12. The variable voltage protection component of claim 8 further comprising a conductive ground plane contacting said variable voltage protection component.
Parent Case Info
This application is a divisional, of application Ser. No. 08/790,250, filed Jan. 28, 1997, which is a File-Wrapper-Continuing application of Ser. No. 08/275,947, now abandoned filed Jul. 14, 1994.
US Referenced Citations (38)
Non-Patent Literature Citations (2)
Entry |
Patent Abstracts of Japan, vol. 17, No. 257 (E-1368), May 20, 1993 and JP,A,05 00314 (Murata Mfg Co Ltd), Jan. 8, 1993. |
Machine Design, vol. 55, No. 27, Nov. 1983, Cleveland, Ohio, USA, pp. 87-91, XP002004500, Ben Carlisle: “Solving Problems with Elastomeric Connectors”. |
Continuations (1)
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Number |
Date |
Country |
Parent |
08/275947 |
Jul 1994 |
US |
Child |
08/790250 |
|
US |