A method includes forming a metal bump on a top surface of a first package component, forming a solder region on a top surface of the metal bump, forming a protection layer extending on a sidewall of the metal bump, reflowing the solder region to bond the first package component to a second package component, and dispensing an underfill between the first package component and the second package component. The underfill is in contact with the protection layer.

A method includes forming a metal bump on a top surface of a first package component, forming a solder region on a top surface of the metal bump, forming a protection layer extending on a sidewall of the metal bump, reflowing the solder region to bond the first package component to a second package component, and dispensing an underfill between the first package component and the second package component. The underfill is in contact with the protection layer.

Provided is a liquid sealing material for copper bumps which is inhibited from suffering filler separation during thermal curing and thereby causing bump cracking. Also provided is a resin composition for use as the sealing material. The resin composition according to the present invention comprises (A) a liquid epoxy resin, (B) a hardener, and (C) an alumina filler having a surface treated with the silane coupling agent of the following formula (1).

Provided is a liquid sealing material for copper bumps which is inhibited from suffering filler separation during thermal curing and thereby causing bump cracking. Also provided is a resin composition for use as the sealing material. The resin composition according to the present invention comprises (A) a liquid epoxy resin, (B) a hardener, and (C) an alumina filler having a surface treated with the silane coupling agent of the following formula (1).

A electronic module includes a printed circuit board (PCB) substrate, a controller substrate, a controller, a memory device, and a heat spreader. The controller is disposed on the controller substrate. The memory device is disposed on the PCB substrate. The heat spreader is disposed on the controller and the memory device, in which the heat spreader has a first portion on the controller and a second portion on the memory device, and the heat spreader has a first opening between the first portion and the second portion.

A electronic module includes a printed circuit board (PCB) substrate, a controller substrate, a controller, a memory device, and a heat spreader. The controller is disposed on the controller substrate. The memory device is disposed on the PCB substrate. The heat spreader is disposed on the controller and the memory device, in which the heat spreader has a first portion on the controller and a second portion on the memory device, and the heat spreader has a first opening between the first portion and the second portion.

A method for integrating III-V semiconductor materials onto a rigid host substrate deposits a thin layer of reactive metal film on the rigid host substrate. The layer can also include a separation layer of unreactive metal or dielectric, and can be patterned. The unreactive metal pattern can create self-aligned device contacts after bonding is completed. The III-V semiconductor material is brought into contact with the thin layer of reactive metal. Bonding is by a low temperature heat treatment under a compressive pressure. The reactive metal and the functional semiconductor material are selected to undergo solid state reaction and form a stable alloy under the low temperature heat treatment without degrading the III-V material. A semiconductor device of the invention includes a functional III-V layer bonded to a rigid substrate via an alloy of a component of the functional III-V layer and a metal that bonds to the rigid substrate.

A printed circuit board (PCB) includes an insulating layer with an upper surface and a lower surface opposite to the upper surface; a first conductive pattern on the upper surface of the insulating layer; a second conductive pattern on the lower surface of the insulating layer; an aluminum pattern that covers at least a portion of an upper surface of the first conductive pattern; and a first passivation layer that covers at least a portion of sides of the first conductive pattern and that prevents diffusion into the first conductive pattern.

A semiconductor package that includes a conductive can, a power semiconductor device electrically and mechanically attached to the inside surface of the can, and an IC semiconductor device copackaged with the power semiconductor device inside the can.

An optical sensor and filter assembly is provided and includes an optical sensor, a filter and a mounting structure. The optical sensor includes a detector layer having first and second opposed faces and a read-out integrated circuit (ROIC) to which the first face of the detector layer is hybridized. The filter permits passage of one or more wavelength bands of interest of incident light toward the optical sensor and the mounting structure directly hybridizes the filter to the second face of the detector layer.