A method of assembling a semi-hermetic semiconductor package includes bonding a semiconductor die having bond pads to a top side of a base region of a package substrate having vertical side walls that are hollow which define an inner open volume (gap) having an adhesive or thermoplastic material therein. There are a plurality of metal terminals providing top terminal contacts on the top side of the base region and bottom terminal contacts on a bottom side or below the base region. The bond pads are coupled to the top terminal contacts. A lid is placed which provides a top for the semiconductor package, where the lid extends to vertically oriented end protrusions so that the protrusions are positioned within the adhesive or thermoplastic material to secure the protrusions within the adhesive or thermoplastic material to provide a seal for the semiconductor package.

A printed circuit board includes: a printed wiring board including an insulating layer wherein a recessed part is provided on a top surface of the insulating layer, and a printed conductor provided inside the recessed part; a bare chip part mounted in the recessed part and electrically connected to the printed conductor; an electronic part mounted on the top surface of the printed wiring board other than the recessed part; and a cap fixed to the top surface of the printed wiring board and hollow-sealing the bare chip part mounted in the recessed part, wherein using a height of the top surface of the printed wiring board as a reference, a height of a top surface of the cap is equal to or below a maximum height of a top surface of the electronic part.

A method for mounting an electrical component to a substrate may include mounting the component onto the substrate, forming a cover including a thermally softenable or hardenable material and a contacting structure defined by integrated conductor paths, mounting the cover onto a mounting side of the substrate and onto the component mounted on the substrate, such that (a) the cover laterally traverses the component, (b) first contact surfaces of the contacting structure engage with the substrate at a first joining level defined at the mounting side of the substrate, and (c) second contact surfaces of the contacting structure engage with the component at a second joining level at the top side of the component, the second joining level being different than the first joining level. After assembling the components, joining connections at the first and second joining levels may be completed by a temperature or pressure based joining process

A method of assembling a semi-hermetic semiconductor package includes bonding a semiconductor die having bond pads to a top side of a base region of a package substrate having vertical side walls that are hollow which define an inner open volume (gap) having an adhesive or thermoplastic material therein. There are a plurality of metal terminals providing top terminal contacts on the top side of the base region and bottom terminal contacts on a bottom side or below the base region. The bond pads are coupled to the top terminal contacts. A lid is placed which provides a top for the semiconductor package, where the lid extends to vertically oriented end protrusions so that the protrusions are positioned within the adhesive or thermoplastic material to secure the protrusions within the adhesive or thermoplastic material to provide a seal for the semiconductor package.

A method for mounting an electrical component on a substrate is disclosed. According to the method, joining is simplified using a cover, or hood, that includes a contact structure on an inner side of the hood, wherein when the hood is mounted, the contact structure is joined to the underlying structure at different joining levels simultaneously using an additional material. Moreover, a joining pressure, e.g., for diffusion or sintered bonds for electrical contacts, can be applied using such a hood.