摘要:
A material for use as part of an internal capacitor within a circuitized substrate includes a polymer resin and a quantity of nano-powders including a mixture of at least one metal component and at least one ferroelectric ceramic component, the ferroelectric ceramic component nano-particles having a particle size substantially in the range of between about 0.01 microns and about 0.9 microns and a surface within the range of from about 2.0 to about 20 square meters per gram. A circuitized substrate adapted for using such a material and capacitor therein and a method of making such a substrate are also provided. An electrical assembly (substrate and at least one electrical component) and an information handling system (e.g., personal computer) are also provided.
摘要:
A conducting paste and method of forming the paste for device level interconnection. The conducting paste contains metal loading in the range 80-95% that is useful for making five micron device level interconnects. The conducting paste is made by mixing two different conducting pastes, each paste maintaining its micro level individual rich region in the mixed paste even after final curing. One paste contains at least one low melting point alloy and the other paste contains noble metal fillers such as gold or silver flakes. In general, average flake size below five micron is suitable for five micron interconnects. However, 1 micron or smaller silver flakes and an LMP mixture is preferred for five micron interconnects. The amount of LMP based paste in the final mixture is preferably 20-50% by weight. The nano micro paste embodiment shows good electrical yield (81%) and low contact resistance.
摘要:
A method of forming a circuitized substrate for use in electronic packages. A substrate layer is provided that has a copper pad on a surface. A conductive seed layer and a photoresist layer are placed on the surface. The photoresist is developed and conductive material is placed within the developed features and a second conductive material placed on the first conductive material. The photoresist and conductive seed layer are removed to leave a micro-pillar array. The joining and lamination of two circuitized substrate layers utilizes the micro-pillar array for the electrical connection of the circuitized substrate layers.
摘要:
A circuitized substrate for use in such electrical structures as information handling systems wherein the substrate includes a capacitive substrate as part thereof. The capacitive substrate includes a thin film layer of capacitive material strategically positioned on a conductive layer relative to added electrically conductive elements to in turn provide a plurality of internal capacitors within the final circuitized substrate during operation thereof. A method of making such a circuitized substrate is also provided.
摘要:
A tamper-resistant microchip package contains fluid- or nanofluid-filled capsules, channels, or reservoirs, wherein the fluids, either alone or in combination, can destroy circuitry by etching, sintering, or thermally destructing when reverse engineering of the device is attempted. The fluids are released when the fluid-filled cavities are cut away for detailed inspection of the microchip. Nanofluids may be used for the sintering process, and also to increase the thermal conductivity of the fluid for die thermal management. Through-vias and micro vias may be incorporated into the design to increase circuitry destruction efficacy by improving fluid/chip contact. Thermal interface materials may also be utilized to facilitate chip cooling.
摘要:
A tamper-resistant microchip package contains fluid- or nanofluid-filled capsules, channels, or reservoirs, wherein the fluids, either alone or in combination, can destroy circuitry by etching, sintering, or thermally destructing when reverse engineering of the device is attempted. The fluids are released when the fluid-filled cavities are cut away for detailed inspection of the microchip. Nanofluids may be used for the sintering process, and also to increase the thermal conductivity of the fluid for die thermal management. Through-vias and micro vias may be incorporated into the design to increase circuitry destruction efficacy by improving fluid/chip contact. Thermal interface materials may also be utilized to facilitate chip cooling.
摘要:
A conducting paste and method of forming the paste for device level interconnection. The conducting paste contains metal loading in the range 80-95% that is useful for making five micron device level interconnects. The conducting paste is made by mixing two different conducting pastes, each paste maintaining its micro level individual rich region in the mixed paste even after final curing. One paste contains at least one low melting point alloy and the other paste contains noble metal fillers such as gold or silver flakes. In general, average flake size below five micron is suitable for five micron interconnects. However, 1 micron or smaller silver flakes and an LMP mixture is preferred for five micron interconnects. The amount of LMP based paste in the final mixture is preferably 20-50% by weight. The nano micro paste embodiment shows good electrical yield (81%) and low contact resistance.
摘要:
A capacitive substrate and method of making same in which first and second glass layers are used. A first conductor is formed on a first of the glass layers and a capacitive dielectric material is positioned over the conductor. The second conductor is then positioned on the capacitive dielectric and the second glass layer positioned over the second conductor. Conductive thru-holes are formed to couple to the first and second conductors, respectively, such that the conductors and capacitive dielectric material form a capacitor when the capacitive substrate is in operation.
摘要:
A multilayer capable electrically conductive adhesive (ECA) mixture for connecting multilevel Z-axis interconnects and a method of forming the ECA for connecting multilevel Z-axis interconnects. The multilayer capable ECA contains a mixture of constituent components that allow the paste to be adapted to specific requirements wherein the method of making a circuitized substrate assembly in which two or more subassemblies having potentially disparate coefficients of thermal expansion (CTE) are aligned and Z-axis interconnection are created during bonding. The metallurgies of the conductors, and those of a multilayer capable conductive paste, are effectively mixed and the flowable interim dielectric used between the mating subassemblies flows to engage and surround the conductor coupling.
摘要:
A method of making a circuitized substrate including a resistor comprised of material which includes a polymer resin and a quantity of nano-powders including a mixture of at least one metal component and at least one ceramic component. The ceramic component may be a ferroelectric ceramic and/or a high surface area ceramic and/or a transparent oxide and/or a dope manganite. Alternatively, the material will include the polymer resin and nano-powders, with the nano-powders comprising at least one metal coated ceramic and/or at least one oxide coated metal component. An electrical assembly (substrate and at least one electrical component) and an information handling system (e.g., personal computer) utilizing such a circuitized substrate are also provided.