One example includes a communication system. The system includes a data transmitter configured to generate a digital communication signal and a data receiver configured to receive the digital communication signal. The system also includes a pulse-width distortion (PWD) correction circuit arranged between the data transmitter and the data receiver and being configured to adjust at least one timing parameter associated with the communication signal.

An information handling system (IHS) includes a heatsink retention apparatus. A processor mounted on a board receives a heatsink base having peripheral, spaced apertures. At least two latching mechanisms include a mounting portion received respectively in peripheral, spaced apertures on opposites sides of the heatsink base. A latching surface is mounted to one of (i) the heatsink base and (ii) a terminal portion of the mounting portion to engage respectively with either the mounting portion or an upper edge of the corresponding peripheral, spaced aperture of the heatsink base. At least two peripheral, spaced loading screws are sized to be engageable by loading nuts when the heatsink base is positioned not higher than the engagement height. The engaged, at least two, latching mechanisms prevent tipping of the heatsink base during loading of the at least two peripheral, spaced loading screws with the at least two spaced apart loading nuts.

A clip for fixing a heat sink on a retaining bracket includes an elastic supporter, an operating member, a movable fastener and a fixing bar. Two ends of the elastic supporter have a connecting portion and a first buckle portion, respectively. The operating member has a resisting portion, a pivot portion and an operating bar. The pivot portion pivots to the connecting portion. The movable fastener installs on the resisting portion and the connecting portion, and includes two sliding slots, a resisting surface and a second buckle portion. The resisting portion has an arc surface for resisting against the resisting surface. The distance between the apex of the arc surface and the pivot portion is the largest distance between the arc surface and the pivot portion. When the clip is locked, the junction of the resisting portion and the resisting surface excludes the apex of the arc surface.

A semiconductor power package includes a pre-molded chip housing and an electrically conducting chip carrier cast-in-place in the pre-molded chip housing. The semiconductor power package further includes a power semiconductor chip bonded on the electrically conducting chip carrier. A covering material is provided to embed the power semiconductor chip. The covering material has an elastic modulus less than an elastic modulus of a material of the pre-molded chip housing and/or a thermal conductivity greater than a thermal conductivity of the material of the pre-molded chip housing and/or a temperature stability greater than a temperature stability of the pre-molded chip housing.

Examples described herein relate to a tool-less manner of forming an assembly with a circuit board carrier enclosure that provide leaf springs that provide a force against a circuit board to maintain a level surface of the circuit board. Multiple leaf springs can be used to apply a desired force to the circuit board. A heat sink can be mounted in the enclosure at a distance from the circuit board. The circuit board with carrier can be inserted without tools into an electrical connection for communications with other devices.

A signal block and a double-faced cooling power module that uses the signal block is provided. The signal block includes a plurality of signal clips that are formed in a ribbon shape to connect a first signal pad formed on a semiconductor chip and a second signal pad formed on a signal lead frame. An insulator fixes the position of the plurality of signal clips while spacing the signal clips apart from each other.

A power semiconductor module includes: a substrate with a metallization layer attached to a dielectric insulation layer and a semiconductor body mounted to the metallization layer; a housing at least partly enclosing the substrate and having sidewalls and a cover that at least partly covers an opening formed by the sidewalls and has a flexible portion; and a press-on pin having arranged on the substrate or semiconductor body. A first end of the press-on pin faces the substrate or semiconductor body and extends towards the cover such that a second end of the press-on pin contacts the flexible portion of the cover. The substrate in an area vertically below the press-on pin has a first spring constant k.sub.1 in a vertical direction that is perpendicular to a top surface of the substrate. The flexible portion of the cover has a second spring constant k.sub.2, where 0.5*k.sub.1≤k.sub.2≤5*k.sub.1.

A heat sink apparatus that utilizes a pivot couple and support with anchor-spring mounts to enable exertion of a uniform amount of force over the mounting surface of the apparatus that is thermally/physically coupled to a heat load. The apparatus can include a heat sink base that has a bottom side defining the mounting surface, and a top side to which a support is pivotally coupled by a pivot couple. The apparatus can include a first and second anchor that each have a first end connected to an anchor point and a second end coupled to a load surface on the support by a spring. The load surfaces can be symmetrically disposed on opposite sides of the pivot couple, which is centrally located relative to the mounting surface so that the force imparted by spring loads of the springs is evenly distributed over the mounting surface.

An internal component and external interface arrangement for a cylindrical compact computing system is described that includes at least a structural heat sink having triangular shape disposed within a cylindrical volume defined by a cylindrical housing. A computing engine having a generally triangular shape is described having internal components that include a graphics processing unit (GPU) board, a central processing unit (CPU) board, an input/output (I/O) interface board, an interconnect board, and a power supply unit (PSU).

In one embodiment, a semiconductor package may be formed having a first side and a second side that is substantially opposite to the first side. An embodiment may include forming an attachment clip extending substantially laterally between the first and second sides wherein the attachment clip is positioned near a distal end of the first and second sides. An embodiment may also include forming the attachment clip to have a flexible main portion that can bend away from a plane of the main portion toward a bottom side of the semiconductor package.