A package comprising a substrate and an integrated device coupled to the substrate through a plurality of pillar interconnects and a plurality of solder interconnects. The plurality of pillar interconnects comprises a first pillar interconnect. The first pillar interconnect comprises a first pillar interconnect portion comprising a first width and a second pillar interconnect portion comprising a second width that is different than the first width.

A semiconductor device includes a substrate that includes a first insulating layer, a conductive layer on the first insulating layer, a second insulating layer on the conductive layer, and an opening that passes through the conductive layer and the second insulating layer and in which part of the conductive layer is exposed, a conductive material that contacts at least the first insulating layer and the part of the conductive layer in the opening, and a semiconductor chip that has an electrode extending towards the first insulating layer within the opening and contacting the conductive material.

A semiconductor device includes a substrate that includes a first insulating layer, a conductive layer on the first insulating layer, a second insulating layer on the conductive layer, and an opening that passes through the conductive layer and the second insulating layer and in which part of the conductive layer is exposed, a conductive material that contacts at least the first insulating layer and the part of the conductive layer in the opening, and a semiconductor chip that has an electrode extending towards the first insulating layer within the opening and contacting the conductive material.

A device is provided. The device includes a bridge layer over a first substrate. A first connector electrically connecting the bridge layer to the first substrate. A first die is coupled to the bridge layer and the first substrate, and a second die is coupled to the bridge layer.

A device is provided. The device includes a bridge layer over a first substrate. A first connector electrically connecting the bridge layer to the first substrate. A first die is coupled to the bridge layer and the first substrate, and a second die is coupled to the bridge layer.

A method and system for heat bonding a chip to a substrate by means of heat bonding material disposed there between. At least the substrate is preheated from an initial temperature to an elevated temperature below a damage temperature of the substrate. A light pulse applied to the chip momentarily increases the chip temperature to a pulsed peak temperature below a peak damage temperature of the chip. The momentarily increased pulsed peak temperature of the chip causes a flow of conducted heat from the chip to the bonding material, causing the bonding material to form a bond.

A method and system for heat bonding a chip to a substrate by means of heat bonding material disposed there between. At least the substrate is preheated from an initial temperature to an elevated temperature below a damage temperature of the substrate. A light pulse applied to the chip momentarily increases the chip temperature to a pulsed peak temperature below a peak damage temperature of the chip. The momentarily increased pulsed peak temperature of the chip causes a flow of conducted heat from the chip to the bonding material, causing the bonding material to form a bond.

A curable resin or adhesive composition includes at least one monomer, a photoinitiator capable of initiating polymerization of the monomer when exposed to light, and at least one energy converting material, preferably a phosphor, capable of producing light when exposed to radiation (typically X-rays). The material is particularly suitable for bonding components at ambient temperature in situations where the bond joint is not accessible to an external light source. An associated method includes: placing a polymerizable adhesive composition, including a photoinitiator and energy converting material, such as a down-converting phosphor, in contact with at least two components to be bonded to form an assembly; and, irradiating the assembly with radiation at a first wavelength, capable of conversion (down-conversion by the phosphor) to a second wavelength capable of activating the photoinitiator, to prepare items such as inkjet cartridges, wafer-to-wafer assemblies, semiconductors, integrated circuits, and the like.

A semiconductor device includes a dielectric interposer, a first interconnection layer, an electronic component, a plurality of electrical conductors and a plurality of conductive structures. The dielectric interposer has a first surface and a second surface opposite to the first surface. The first interconnection layer is over the first surface of the dielectric interposer. The electronic component is over and electrically connected to the first interconnection layer. The electrical conductors are over the second surface of the dielectric interposer. The conductive structures are through the dielectric interposer, wherein the conductive structures are electrically connected to the first interconnection layer and the electrical conductors.

A semiconductor device includes a dielectric interposer, a first interconnection layer, an electronic component, a plurality of electrical conductors and a plurality of conductive structures. The dielectric interposer has a first surface and a second surface opposite to the first surface. The first interconnection layer is over the first surface of the dielectric interposer. The electronic component is over and electrically connected to the first interconnection layer. The electrical conductors are over the second surface of the dielectric interposer. The conductive structures are through the dielectric interposer, wherein the conductive structures are electrically connected to the first interconnection layer and the electrical conductors.