Abstract: Replacements of thick film pads with smaller, thinner, metal contacts or straps are used to eliminate many of the stress-related failure modes associated with the larger contact pads. These straps allow for a more simplified manufacturing process than that associated with an anchored I/O pad configuration. A single via, electrically connected to a plurality of vias in a substrate layer above, is introduced to enhance the reliability of the signal net, and provides for higher frequency applications through reduction in parasitic capacitance and electrical leakage. The straps are directionally located toward the substrate center. Once the locations of the internal strap vias are redirected to lower local distance-to-neutral points, still within the same I/O capture pad, and directed towards the center of the substrate, single vias are then placed at the strap end closest the substrate center.

Abstract: Replacements of thick film pads with smaller, thinner, metal contacts or straps are used to eliminate many of the stress-related failure modes associated with the larger contact pads. These straps allow for a more simplified manufacturing process than that associated with an anchored I/O pad configuration. A single via, electrically connected to a plurality of vias in a substrate layer above, is introduced to enhance the reliability of the signal net, and provides for higher frequency applications through reduction in parasitic capacitance and electrical leakage. The straps are directionally located toward the substrate center. Once the locations of the internal strap vias are redirected to lower local distance-to-neutral points, still within the same I/O capture pad, and directed towards the center of the substrate, single vias are then placed at the strap end closest the substrate center.

Abstract: The distance between a discrete or passive electrical component and an electrical semiconductor device and substrate or carrier is minimized by shortening the lead length connections of the passive component. One or more passive electronic components are mounted within the body of a carrier or board by creating a cavity in the substrate or carrier that is directly below a semiconductor device. The passive component is electrically connected to the substrate and device using solder bump technology resulting in much shorter lead length connections to and from the passive component.

Abstract: The distance between a discrete or passive electrical component and an electrical semiconductor device and substrate or carrier is minimized by shortening the lead length connections of the passive component. One or more passive electronic components are mounted within the body of a carrier or board by creating a cavity in the substrate or carrier that is directly below a semiconductor device. The passive component is electrically connected to the substrate and device using solder bump technology resulting in much shorter lead length connections to and from the passive component.

Abstract: Multilayer glass ceramic substrate electronic components having enhanced flexibility and strength are prepared using greensheets as a top and/or bottom layer, which greensheets are made from a glass-ceramic greensheet casting composition comprising crystallizable glass, a binder resin and a solvent system, and preferably a plasticizer. The top and/or bottom greensheets have a lower coefficient of thermal expansion (CTE) than the greensheets used to make the internal layers of the MLC and both greensheets are characterized by having, after sintering, a microstructure which is greater than 99% crystalline. A crystalline matrix forming material such as P2O5 is preferably used in the composition. This type structure, in combination with the lower CTE, has been found to provide an MLC having enhanced strength and flexibility.

Abstract: The distance between a discrete or passive electrical component and an electrical semiconductor device and substrate or carrier is minimized by shortening the lead length connections of the passive component. One or more passive electronic components are mounted within the body of a carrier or board by creating a cavity in the substrate or carrier that is directly below a semiconductor device. The passive component is electrically connected to the substrate and device using solder bump technology resulting in much shorter lead length connections to and from the passive component.

Abstract: A method for making multilayer ceramic substrates having substantially reduced planar shrinkage and distortion resulting from the firing or sintering process. Contact sheets are employed in the fabrication process on the surface of the multilayer ceramic substrate to be fired with the contact sheets being prepared from a composition containing a non-sinterable non-metallic inorganic material such as alumina having an average particle size approximately about 1 micron or less and an organic binder and preferably a plasticizer. In a preferred embodiment of the invention, the multilayer structure to be fired containing the contact sheet of the invention is provided with a beveled or chamfered edge at an angle of greater than about 60 degrees. A fabrication process employing only chamfering of the edge or the use of a contact sheet of the invention also provides improved multilayer ceramic substrate products.