Abstract: In situ gel-forming compositions are disclosed, which may comprise one or more absorbable polymers, solvents such as N-methyl-2-pyrrolidone, polyethylene glycol or DMSO, and one or more bioactive agents. The composition forms a hydrogel or semi-solid mass on contact with an aqueous environment.

Abstract: According to exemplary inventive practice, ceramic powder or slurry is selectively deposited at many discrete locations on each of many fiberglass fabric substrates. The sizes and/or shapes of the ceramic deposits vary among the substrates. The substrates are selectively ordered and stacked so that perpendicular through-plane alignments of respective ceramic deposits form selected three-dimensional geometric shapes. The resultant stack of substrates, characterized by many three-dimensional ceramic inclusions, is impregnated with an elastomer or an epoxy that binds the ceramic-deposited substrates together, resulting in a finished composite product. Inventive composite structures can be multifariously designed and embodied to afford selected ballistic and/or structural and/or electromagnetic qualities.

Abstract: A grinding apparatus includes a receptacle, a grinding element and a drive means. The receptacle has a receptacle inner wall defining a receptacle cavity. The receptacle inner wall is in the general form of a surface of a revolution extending about a central vertically extending receptacle axis. The receptacle is rotatable about the receptacle axis. The grinding element has a grinding element outer wall in the general form of a surface of revolution extending about a central vertically extending grinding element axis.

Abstract: A grinding apparatus comprises a receptacle, a grinding element and a drive means. The receptacle has a receptacle inner wall defining a receptacle cavity. The receptacle inner wall is in the general form of a surface of a revolution extending about a central vertically extending receptacle axis. The receptacle is rotatable about the receptacle axis. The grinding element has a grinding element outer wall in the general form of a surface of revolution extending about a central vertically extending grinding element axis.

Abstract: Flexible circuitry is populated with integrated circuitry (ICs) disposed along one or both of its major sides. The populated flexible circuitry is disposed proximal to a rigid substrate to place the integrated circuitry on one or both sides of the substrate with one or two layers of integrated circuitry on one or both sides of the substrate. The rigid substrate exhibits adhesion features that allow more advantageous use of thermoplastic adhesives with concomitant rework advantages and while providing flexibility in meeting dimensional specifications such as those promulgated by JEDEC, for example.

Abstract: An IC die and a flexible circuit structure are integrated into a lower stack element that can be stacked with either further integrated lower stack element iterations or with pre-packaged ICs in any of a variety of package types. A die is positioned above the surface of portions of a pair of flex circuits. Connection is made between the die and the flex circuitry. A protective layer is formed to protect the flex-connected die and its connection to the flex. Connective elements are placed along the flex circuitry to create an array of module contacts along the second side of the flex circuitry. The flex circuitry is positioned above the body-protected die to create an integrated lower stack element. The integrated lower stack element may be stacked either with iterations of the integrated lower stack element or with a pre-packaged IC to create a multi-element stacked circuit module.

Abstract: A combination composed from a form standard and a CSP is attached to flex circuitry. Solder paste is applied to first selected locations on the flex circuitry and adhesive is applied to second selected locations on the flex circuitry. The flex circuitry and the combination of the form standard and CSP are brought into proximity with each other. During solder reflow operation, a force is applied that tends to bring the combination and flex circuitry closer together. As the heat of solder reflow melts the contacts of the CSP, the combination collapses toward the flex circuitry displacing the adhesive as the solder paste and contacts merge into solder joints. In a preferred embodiment, the form standard will be devised of heat transference material, a metal, for example, such as copper would be preferred, to improve thermal performance. In other embodiments, the methods of the invention may be used to attach a CSP without a form standard to flex circuitry.

Abstract: Flexible circuitry is populated with integrated circuitry (ICs) disposed along one or both major sides. Contacts distributed along the flexible circuitry provide connection between the module and an application environment. A rigid substrate configured with wings diverging from a central axis to create, preferably, a ‘V’-shaped structure provide supportive structure for the populated flex circuitry that is wrapped about an edge of the substrate.

Abstract: There is provided a stacked IC module including first and second leaded packages in stacked disposition, each of the first and second leaded packages having plural leads emergent along at least one side of each of the respective leaded packages, and a flexible circuit disposed in part between the first and second leaded packages, wherein the flexible is folded back on itself to create an arcuate connective field that is compressed to have conformity with the plural leads of the first and second leaded packages.

Abstract: A system and method for electrically and thermally coupling adjacent IC packages to one another in a stacked configuration is provided. A flex circuit is inserted in part between ICs to be stacked and provides a connective field that provides plural contact areas that connect to respective leads of the ICs. Thus, the flex does not require discrete leads which must be individually aligned with the individual leads of the constituent ICs employed in the stack. The principle may be employed to aggregate two or more contact areas for respective connection to leads of constituent ICs but is most profitably employed with a continuous connective field that provides contact areas for many leads of the ICs.

Abstract: The present invention provides a system and method for combining a leaded package IC and a semiconductor die using a flex circuitry to reduce footprint for the combination. A leaded IC package is disposed along the obverse side of a flex circuit. In a preferred embodiment, leads of the leaded IC package are configured to allow the lower surface of the body of the leaded IC package to contact the surface of the flex circuitry either directly or indirectly through an adhesive. A semiconductor die is connected to the reverse side of the flex circuit. In one embodiment, the semiconductor die is disposed on the reverse side of the flex while, in an alternative embodiment, the semiconductor die is disposed into a window in the flex circuit to rest directly or indirectly upon the body of the leaded IC package. Module contacts are provided in a variety of configurations. In a preferred embodiment, the leaded IC package is a flash memory and the semiconductor die is a controller.

Abstract: The present invention provides a system and method for combining a leaded package IC and a semiconductor die using a flex circuitry to reduce footprint for the combination. A leaded IC package is disposed along the obverse side of a flex circuit. In a preferred embodiment, leads of the leaded IC package are configured to allow the lower surface of the body of the leaded IC package to contact the surface of the flex circuitry either directly or indirectly through an adhesive. A semiconductor die is connected to the reverse side of the flex circuit. In one embodiment, the semiconductor die is disposed on the reverse side of the flex while, in an alternative embodiment, the semiconductor die is disposed into a window in the flex circuit to rest directly or indirectly upon the body of the leaded IC package. Module contacts are provided in a variety of configurations. In a preferred embodiment, the leaded IC package is a flash memory and the semiconductor die is a controller.

Abstract: A composition comprising a copper salt of N?-hydroxy-N-cyclohexyldiazenium oxide (CuHDO) and a diluent is useful for combating and/or killing bacteria, mould, yeast and algae in industrial materials and or industrial processes. In a preferred embodiment CuHDO is generated in-situ within the application or medium. The composition may additionally include at least one or certain other biocidal active components.

Abstract: The present invention provides a system and method that amounts integrated circuit devices onto substrates and a system and method for employing the method in stacked modules. The contact pads of a packaged integrated circuit device are substantially exposed. A solder paste that includes higher temperature solder paste alloy is applied to a substrate or to the integrated circuit device to be mounted. The integrated circuit device is positioned to contact the contacts of the substrate. Heat is applied to create high temperature joints between the contacts of the substrate and the integrated circuit device resulting in a device-substrate assembly with high temperature joints. The formed joints are less subject to re-melting in subsequent processing steps. The method may be employed in devising stacked module constructions such as those disclosed herein as preferred embodiments in accordance with the invention. Typically, the created joints are low in profile.

Abstract: The present invention provides a system and method that mounts integrated circuit devices onto substrates and a system and method for employing the method is stacked modules. The contact pads of a packaged integrated circuit device are substantially exposed. A solder past that includes higher temperature solder paste alloy is applied to a substrate or to the integrated circuit device to be mounted. The integrated circuit device is positioned to contact the contacts of the substrate. Heat is applied to create high temperature joints between the contacts of the substrate and the integrated circuit device resulting in a device-substrate assembly with high temperature joints. The formed joints are less subject to re-melting in subsequent processing steps. The method may be employed in devising stacked module constructions such as those disclosed herein as preferred embodiments in accordance with the invention. Typically, the created joints are low in profile.

Abstract: A system and method for electrically and thermally coupling adjacent IC packages to one another in a stacked configuration is provided. A flex circuit is inserted in part between ICs to be stacked and provides a connective field that provides plural contact areas that connect to respective leads of the ICs. Thus, the flex does not require discrete leads which must be individually aligned with the individual leads of the constituent ICs employed in the stack. The principle may be employed to aggregate two or more contact areas for respective connection to leads of constituent ICs but is most profitably employed with a continuous connective field that provides contact areas for many leads of the ICs.

Abstract: A combination composed from a form standard and a CSP is attached to flex circuitry. Solder paste is applied to first selected locations on the flex circuitry and adhesive is applied to second selected locations on the flex circuitry. The flex circuitry and the combination of the form standard and CSP are brought into proximity with each other. During solder reflow operation, a force is applied that tends to bring the combination and flex circuitry closer together. As the heat of solder reflow melts the contacts of the CSP, the combination collapses toward the flex circuitry displacing the adhesive as the solder paste and contacts merge into solder joints. In a preferred embodiment, the form standard will be devised of heat transference material, a metal, for example, such as copper would be preferred, to improve thermal performance. In other embodiments, the methods of the invention may be used to attach a CSP without a form standard to flex circuitry.

Abstract: Flexible circuitry is populated with integrated circuitry (ICs) disposed along one or both of its major sides. The populated flexible circuitry is disposed proximal to a rigid substrate to place the integrated circuitry on one or both sides of the substrate with one or two layers of integrated circuitry on one or both sides of the substrate. The rigid substrate exhibits adhesion features that allow more advantageous use of thermoplastic adhesives with concomitant rework advantages and while providing flexibility in meeting dimensional specifications such as those promulgated by JEDEC, for example.

Abstract: The present invention provides a flexible circuit connector for electrically coupling IC devices to one another in a stacked configuration. Each IC device includes: (1) a package having top, bottom, and peripheral sides; and (2) external leads that extend out from at least one of the peripheral sides. In one embodiment, the flexible circuit connector comprises a plurality of discrete conductors that are adapted to be mounted between the upper side of a first package and the lower side of a second package. The flexible circuit connector also includes distal ends that extend from the conductors. The distal ends are adapted to be electrically connected to external leads from the first and second packages to interconnect with one another predetermined, separate groups of the external leads. In this manner, individual devices within a stack module can be individually accessed from traces on a circuit card.

Abstract: The present invention stacks integrated circuits into modules that conserve board surface area. In a two-high stack or module devised in accordance with a preferred embodiment of the present invention, a pair of integrated circuits is stacked, with one integrated circuit above the other. The two integrated circuits are connected with a pair of flexible circuit structures. Each of the pair of flexible circuit structures is partially wrapped about a respective opposite lateral edge of the lower integrated circuit of the module. The flex circuit pair connects the upper and lower integrated circuits and provides a thermal and electrical path connection path between the module and an application environment such as a printed wiring board (PWB). The present invention may be employed to advantage in numerous configurations and combinations of integrated circuits in modules provided for high-density memories or high capacity computing.