In an embodiment, a package includes a first package structure including a first die having a first active side and a first back-side, the first active side including a first bond pad and a first insulating layer a second die bonded to the first die, the second die having a second active side and a second back-side, the second active side including a second bond pad and a second insulating layer, the second active side of the second die facing the first active side of the first die, the second insulating layer being bonded to the first insulating layer through dielectric-to-dielectric bonds, and a conductive bonding material bonded to the first bond pad and the second bond pad, the conductive bonding material having a reflow temperature lower than reflow temperatures of the first and second bond pads.

A bonded device structure including a first substrate having a first set of conductive contact structures, preferably connected to a device or circuit, and having a first non-metallic region adjacent to the contact structures on the first substrate, a second substrate having a second set of conductive contact structures, preferably connected to a device or circuit, and having a second non-metallic region adjacent to the contact structures on the second substrate, and a contact-bonded interface between the first and second set of contact structures formed by contact bonding of the first non-metallic region to the second non-metallic region. The contact structures include elongated contact features, such as individual lines or lines connected in a grid, that are non-parallel on the two substrates, making contact at intersections. Alignment tolerances are thus improved while minimizing dishing and parasitic capacitance.

Embodiments of mechanisms for testing a die package with multiple packaged dies on a package substrate use an interconnect substrate to provide electrical connections between dies and the package substrate and to provide probing structures (or pads). Testing structures, including daisy-chain structures, with metal lines to connect bonding structures connected to signals, power source, and/or grounding structures are connected to probing structures on the interconnect substrate. The testing structures enable determining the quality of bonding and/or functionalities of packaged dies bonded. After electrical testing is completed, the metal lines connecting the probing structures and the bonding structures are severed to allow proper function of devices in the die package. The mechanisms for forming test structures with probing pads on interconnect substrate and severing connecting metal lines after testing could reduce manufacturing cost.

A method includes forming an under bump metallization (UBM) layer over a dielectric layer, forming a redistribution structure over the UBM layer, disposing a semiconductor device over the redistribution structure, removing a portion of the dielectric layer to form an opening to expose the UBM layer, and forming a conductive bump in the opening such that the conductive bump is coupled to the UBM layer.

Representative techniques and devices including process steps may be employed to mitigate the potential for delamination of bonded microelectronic substrates due to metal expansion at a bonding interface. For example, a metal pad having a larger diameter or surface area (e.g., oversized for the application) may be used when a contact pad is positioned over a TSV in one or both substrates.

Methods and apparatus to reduce solder bump bridging between two substrates. An apparatus includes a first substrate including a first bump and a second bump spaced apart from the first bump, the first bump including a first base, the second bump including a second base; and a second substrate including a third bump and a fourth bump spaced apart from the third bump, the third bump including a third base, the fourth bump including a fourth base, the first base electrically coupled to the third base by first solder, the second base electrically coupled to the fourth base by second solder, the first solder having a first volume, the second solder having a second volume, the first volume less than the second volume.

In an embodiment, a package includes a first package structure including a first die having a first active side and a first back-side, the first active side including a first bond pad and a first insulating layer a second die bonded to the first die, the second die having a second active side and a second back-side, the second active side including a second bond pad and a second insulating layer, the second active side of the second die facing the first active side of the first die, the second insulating layer being bonded to the first insulating layer through dielectric-to-dielectric bonds, and a conductive bonding material bonded to the first bond pad and the second bond pad, the conductive bonding material having a reflow temperature lower than reflow temperatures of the first and second bond pads.

A buffer chip includes: a chip select signal reception circuit configured to receive chip select signals transmitted from a memory controller; a command address reception circuit configured to receive command address signals transmitted from the memory controller; a chip select signal transmission circuit configured to transmit the chip select signals to a plurality of memory chips; a command address transmission circuit configured to transmit the command address signals to the plurality of memory chips; and a command address fixing circuit configured to fix levels of at least one of the command address signals transmitted by the command address transmission circuit when the chip select signals are deactivated for a predetermined time or more.

A package structure includes a semiconductor device, a first dielectric layer, a redistribution line and a conductive bump. The first dielectric layer is over the semiconductor device and has first and second openings on opposite surfaces of the first dielectric layer, wherein the first and second openings taper in substantially opposite direction. The redistribution line is partially in the first opening of the first dielectric layer and electrically connected to the semiconductor device. The conductive bump is partially embeddedly retained in the second opening and electrically connected to the redistribution line.

In an embodiment, a package includes a first package structure including a first die having a first active side and a first back-side, the first active side including a first bond pad and a first insulating layer a second die bonded to the first die, the second die having a second active side and a second back-side, the second active side including a second bond pad and a second insulating layer, the second active side of the second die facing the first active side of the first die, the second insulating layer being bonded to the first insulating layer through dielectric-to-dielectric bonds, and a conductive bonding material bonded to the first bond pad and the second bond pad, the conductive bonding material having a reflow temperature lower than reflow temperatures of the first and second bond pads.