In an example, an IC package includes a package substrate including a plurality of bumps configured for coupling to a printed circuit board, the package substrate including a core disposed between a plurality of top-side conductive layers and a plurality of bottom-side conductive layers. The IC package further includes an IC die coupled to the package substrate and disposed on top of the plurality of top-side conductive layers. The IC die further includes a voltage regulator IC die disposed on the package substrate adjacent to the IC die, the voltage regulator IC die being coupled to the IC die using two of four top-most layers of the plurality of top-side conductive layers nearest the IC die.

A semiconductor device includes a semiconductor die having a first side having a first terminal and an opposite second side having at least two second terminals. A lead frame has a first part and a second part. The second part of the lead frame is both electrically and mechanically spaced from the first part. The second side of the die is attached to the lead frame such that the first and second lead frame parts are respectively connected to the at least two second terminals. The first and second lead frame parts include respective first and second extensions that project past a side of the die and provide first and second terminal surfaces that are co-planar with the first terminal on the first side of the die. The device makes use of the terminals on the both sides of the die. The device second side is exposed for thermal performance.

A semiconductor device includes a semiconductor die having a first side having a first terminal and an opposite second side having at least two second terminals. A lead frame has a first part and a second part. The second part of the lead frame is both electrically and mechanically spaced from the first part. The second side of the die is attached to the lead frame such that the first and second lead frame parts are respectively connected to the at least two second terminals. The first and second lead frame parts include respective first and second extensions that project past a side of the die and provide first and second terminal surfaces that are co-planar with the first terminal on the first side of the die. The device makes use of the terminals on the both sides of the die. The device second side is exposed for thermal performance.

Guide holders for engaging a motherboard sled with an input-output sled stacked thereon within an electronic chassis, are disclosed. The electronic chassis includes a motherboard sled having a housing having a first sidewall and a second sidewall opposite to the first sidewall, a first guide holder and a second guide holder. The first guide holder is coupled to the first sidewall and includes a first plurality of slots for directing motion of a first plurality of guide pins of an input-output sled in a predetermined direction. The second guide holder is coupled to the second sidewall and includes a second plurality of slots for directing motion of a second plurality of guide pins of the input-output sled in the predetermined direction. The motion of the first plurality of guide pins and the second plurality of guide pins, upon completion, locks the input-output sled to the motherboard sled.

An electronic component package structure and an electronic device are provided. The electronic component package structure includes at least: a substrate having a set attachment area for attaching an electronic component; a conductive lid having a top and a sidewall that extends toward the substrate, where one side of the sidewall close to the substrate has a bonding end, where the bonding end bonds the conductive lid to the substrate by using a non-conductive adhesive, and the conductive lid bonded to the substrate encloses the attachment area and forms a shielding space over the attachment area; and the non-conductive adhesive is located between the substrate and the bonding end, and has a dielectric constant not less than 7 and a coating thickness not greater than 0.07 millimeters (mm). With the present invention, an Electromagnetic Interference (EMI) shielding effect of the shielding space can be improved.

An apparatus includes a printed circuit board. The printed circuit board includes at least one conductive layer on top a first dielectric layer, wherein the at least one conductive layer comprises at least one of a ground plane and a power plane. The printed circuit board includes a second dielectric layer on top of the at least one conductive layer. The printed circuit board includes a thermal pad on top of the second dielectric layer. The printed circuit board is fabricated by forming at least one plated through hole for electrically coupling the thermal pad to the at least one conductive layer. The printed circuit board is fabricated by backdrilling the at least one plated through hole to remove a portion of the conductive material, wherein subsequent to the backdrilling the conductive material remaining in the at least one plated through hole electrically couples one or more of the at least one conductive layer to the thermal pad.

A wiring substrate includes an electronic component mounting pad, an electrode pad arranged at an outer side of the electronic component mounting pad, a first insulation layer formed on the electronic component mounting pad and the electrode pad, an opening formed in the first insulation layer on the electronic component mounting pad, a connection hole formed in the first insulation layer on the electrode pad, and recess portions formed at the electronic component mounting pad in the opening and at the electrode pad in the connection hole, respectively.

A socket which holds an IC package and is to be mounted on a circuit board is described that includes: a housing with a bottom portion, two pairs of side wall portions and an opening accommodating the IC package, contacts and holders. The bottom portion is provided with penetration holes. The two pairs of side wall portions face each other across the opening and one pair of side wall portions are provided with ribs protruding outward. The contacts are supported by the housing so as to pass through the penetration holes and are exposed on an opposite side of the opening. The holders have first support holes and are fixed to side surfaces of the housing with the ribs passing through the first support holes.

Embodiments of the present disclosure are directed towards techniques and configurations for dual surface finish package substrate assemblies. In one embodiment a method includes depositing a first surface finish on one or more electrical routing features located on a first side of a package substrate and on one or more lands located on a second side of the package substrate, the second side being opposite the first side of the substrate. The method may further include removing the first surface finish on the first side of the package substrate; and depositing a second surface finish on the one or more electrical routing features of the first side. The depositing of the second surface finish may be accomplished by one of a Direct Immersion Gold (DIG) process or an Organic Solderability Preservative (OSP) process. Other embodiments may be described and/or claimed.

Disclosed is a circuit board having a contact pad for connection with an external device, which protrudes from an upper surface of an outermost insulating layer. A device can be mounted on the circuit board, and a connection terminal of the device can be connected to the contact pad of the circuit board by a wire etc.