Multi-functional energy conditioner
First Claim
1. A multi-functional energy conditioner for electrical connection between an energy source and a load comprising:
- at least two differential electrode plates;
means for electrostatically shielding said differential electrode plates both above and below said differential electrode plates;
means for preventing direct electrical connection between said differential electrode plates and said means for electrostatically shielding said differential electrode plates; and
means for conditioning energy propagated from said energy source to said load along at least one conductive pathway.
2 Assignments
0 Petitions
Accused Products
Abstract
The present invention relates to a multi-functional energy conditioner having architecture employed in conjunction with various dielectric and combinations of dielectric materials to provide one or more differential and common mode filters for the suppression of electromagnetic emissions and surge protection. The architecture allows single or multiple components to be assembled within a single package such as an integrated circuit or connector. The component'"'"'s architecture is dielectric independent and provides for integration of various electrical characteristics within a single component to perform the functions of filtering, decoupling, fusing and surge suppression.
-
Citations
19 Claims
-
1. A multi-functional energy conditioner for electrical connection between an energy source and a load comprising:
-
at least two differential electrode plates;
means for electrostatically shielding said differential electrode plates both above and below said differential electrode plates;
means for preventing direct electrical connection between said differential electrode plates and said means for electrostatically shielding said differential electrode plates; and
means for conditioning energy propagated from said energy source to said load along at least one conductive pathway. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A multi-functional energy conditioner comprising:
-
at least two Faraday cage-like structures stacked on top of each other in a substantially parallel relationship, wherein each Faraday cage-like structure comprises;
a differential electrode plate;
at least two common ground conductive plates;
wherein said differential electrode plate is sandwiched in a substantially parallel relationship between said at least two common ground conductive plates;
a material having predetermined electrical properties, wherein said material is maintained between said at least two common ground conductive plates and said differential electrode plate preventing direct electrical connection between said plates;
wherein said at least at least two common ground conductive plates are electrically connected to each other; and
wherein between each of said Faraday cage-like structures, said common ground conductive plates are shared and form at least one central common ground conductive plate. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
wherein said first differential electrode plate of said first Faraday cage-like structure of said at least two Faraday cage-like structures and said second differential electrode plate of said second Faraday cage-like structure of said at least two Faraday cage-like structures are at least generally smaller than at least any one common ground conductive plate of said at least two common ground conductive plates of said first Faraday cage-like structure of said at least two Faraday cage-like structures and at least generally smaller than at least any one common ground conductive plate of said at least two common ground conductive plates of said second Faraday cage-like structure of said at least two Faraday cage-like structures.
-
-
13. The multi-functional energy conditioner of claim 12, in which said multi-functional energy conditioner is practicable for simultaneous electrostatic shielding of both said first differential electrode plate of said first Faraday cage-like structure of said at least two Faraday cage-like structures and said second differential electrode plate of said second Faraday cage-like structure of said at least two Faraday cage-like structures when said multi-functional energy conditioner is selectively coupled into a circuit and energized.
-
14. The multi-functional energy conditioner of claim 12, wherein the integer number of the sum total of all of said differential electrode plates and all of said common electrode plates comprising all of said at least two Faraday cage-like structures is an odd integer number.
-
15. The multi-functional energy conditioner of claim 14, wherein the integer number of the sum total of all of said at least two Faraday cage-like structures is an even integer number.
-
16. The multi-functional energy conditioner of claim 12, wherein said multi-functional energy conditioner is arranged to define at least a feedthru capacitor array.
-
17. The multi-functional energy conditioner of claim 15, wherein said multi-functional energy conditioner is arranged to define at least a bypass capacitor.
-
18. The multi-functional energy conditioner of claim 12, wherein said multi-functional energy conditioner is arranged to define at least a cross-over feedthru capacitor array.
-
19. The multi-functional energy conditioner of claim 12, wherein said multi-functional energy conditioner is arranged to define at least a bypass capacitor array.
Specification