Embedded capacitive stack
First Claim
1. A capacitive stack with high capacitive density, comprising:
- a substantially rigid planar core capacitive substrate including a first core dielectric layer sandwiched between a first conductive layer and a second conductive layer,wherein the planar core capacitive substrate is more rigid than one or more additional conductive and cured dielectric layers stacked and formed onto the planar core capacitive substrate and provides structural rigidity to the additional conductive and dielectric layers,wherein the first and second conductive layers are each approximately between 0.5-6 mils thick,wherein the one or more additional conductive and cured dielectric layers include;
a plurality of conductive vias that are electrically coupled to one or more other conductive layers and/or pass through a clearance in the one or more other conductive and cured dielectric layers, anda plurality of test holes in the additional conductive and cured dielectric layers, wherein the test holes were used to access an exposed underlying conductive layer through an uppermost portion of the test hole, wherein the test holes are distinct from the plurality of conductive vias,wherein the one or more additional conductive and cured dielectric layers include a cured second dielectric layer coupled to the planar core capacitive substrate, the cured second dielectric layer having a first planar surface coupled to the first conductive layer of the substantially rigid planar core capacitive substrate and being thinner than the first core dielectric layer and including a dielectric material loaded with a nanopowder selected to achieve a desired dielectric constant; and
a first conductive foil coupled to a second planar surface of the second dielectric layer, the first conductive foil is approximately between 0.25-1.5 mils thick.
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Accused Products
Abstract
A novel method for manufacturing embedded a capacitive stack and a novel capacitive stack apparatus are provided having a capacitive core that serves as a structural substrate on which alternating thin conductive foils and nanopowder-loaded dielectric layers may be added and tested for reliability. This layering and testing allows early fault detection of the thin dielectric layers of the capacitive stack. The capacitive stack may be configured to supply multiple isolated capacitive elements that provide segregated, device-specific decoupling capacitance to one or more electrical components. The capacitive stack may serve as a core substrate on which a plurality of additional signaling layers of a multilayer circuit board may be coupled.
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Citations
16 Claims
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1. A capacitive stack with high capacitive density, comprising:
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a substantially rigid planar core capacitive substrate including a first core dielectric layer sandwiched between a first conductive layer and a second conductive layer, wherein the planar core capacitive substrate is more rigid than one or more additional conductive and cured dielectric layers stacked and formed onto the planar core capacitive substrate and provides structural rigidity to the additional conductive and dielectric layers, wherein the first and second conductive layers are each approximately between 0.5-6 mils thick, wherein the one or more additional conductive and cured dielectric layers include; a plurality of conductive vias that are electrically coupled to one or more other conductive layers and/or pass through a clearance in the one or more other conductive and cured dielectric layers, and a plurality of test holes in the additional conductive and cured dielectric layers, wherein the test holes were used to access an exposed underlying conductive layer through an uppermost portion of the test hole, wherein the test holes are distinct from the plurality of conductive vias, wherein the one or more additional conductive and cured dielectric layers include a cured second dielectric layer coupled to the planar core capacitive substrate, the cured second dielectric layer having a first planar surface coupled to the first conductive layer of the substantially rigid planar core capacitive substrate and being thinner than the first core dielectric layer and including a dielectric material loaded with a nanopowder selected to achieve a desired dielectric constant; and a first conductive foil coupled to a second planar surface of the second dielectric layer, the first conductive foil is approximately between 0.25-1.5 mils thick. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A capacitive stack with high capacitive density, comprising:
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a substantially rigid planar core capacitive substrate including a first core dielectric layer sandwiched between a first conductive layer and a second conductive layer, wherein the planar core capacitive substrate is more rigid than one or more additional conductive and cured dielectric layers stacked and formed onto the planar core capacitive substrate and provides structural rigidity to the additional conductive and dielectric layers, wherein the one or more additional conductive and cured dielectric layers include a cured second dielectric layer coupled to the planar core capacitive substrate, the cured second dielectric layer having a first planar surface coupled to the first conductive layer of the substantially rigid planar core capacitive substrate, the cured second dielectric layer being thinner than the first core dielectric layer and including a dielectric material loaded with a nanopowder selected to achieve a desired dielectric constant; a first conductive foil coupled to a second planar surface of the second dielectric layer; and a pattern of one or more clearances extending from a top surface to a bottom surface of at least one of the first and second conductive layers; wherein edges of the first and second conductive layers and edges of the one or more additional conductive layers including the first conductive foil are offset from or protrude through one or more edges of the capacitive stack to provide test probe access to the first and second conductive layers and the one or more additional conductive layers, wherein the first core dielectric layer is approximately between 0.5-4 mils thick, the first and second conductive layers are each approximately between 0.5-6 mils thick, one of the one or more additional cured dielectric layers is approximately between 0.3 and 1 mil thick, and one of the additional conductive layers is approximately between 0.25-1.5 mils thick. - View Dependent Claims (16)
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Specification