An electronic component assembly is described which comprises a stack of electronic components wherein each electronic component comprises a face and external terminations. A component stability structure is attached to at least one face. A circuit board is provided wherein the circuit board comprises circuit traces arranged for electrical engagement with the external terminations. The component stability structure mechanically engages with the circuit board and inhibits the electronic device from moving relative to the circuit board.

An electronic system and associated methods are disclosed. In one example, the electronic system includes a processor package including at least one processor integrated circuit (IC); an interposer including electrically conductive interposer interconnect; a first liquid metal well array including multiple liquid metal wells arranged between the processor package and the interposer, wherein the first liquid metal well array is attached to a surface of the processor package and attached to a first surface of the interposer and the interposer interconnect; a printed circuit board (PCB) attached to a second surface of the interposer and the interposer interconnect; a second liquid metal well array including a first surface attached to the first surface of the interposer and the interposer interconnect; and a first companion component package attached to a second surface of the second liquid metal well array.

An electronic system and associated methods are disclosed. In one example, the electronic system includes an interposer including electrically conductive interposer interconnect, a first interposer surface, and a second interposer surface; a processor package including at least one processor integrated circuit (IC), the processor package attached to the first interposer surface and electrically connected to the interposer interconnect; a first liquid metal well array including multiple liquid metal wells attached to a second interposer surface and the interposer interconnect; a second liquid metal well array including a first array surface attached to the first interposer surface and the interposer interconnect; and a packaged companion IC to the processor IC attached to a second array surface of the second liquid metal well array.

A server rack including a bottom panel, a top panel opposite to said bottom panel, a plurality of housing units configured for receiving rack-mountable equipment, the plurality of housing units being horizontally side-by-side arranged between the top panel and the bottom panel, the bottom panel comprising two support rails for supporting the server rack.

An intermediate connection layer interposed between a wiring substrate and an electronic part includes a rigid substrate and a flexible substrate. A plurality of conductor portions are formed on opposed principal surfaces of the respective flexible and rigid substrates. The rigid substrate is provided with an opening, and a fuse portion on the flexible substrate faces the opening. The flexible substrate and the rigid substrate are bonded together with solders. The respective rigid and flexible substrates are separately made, solder pastes are applied to the rigid substrate, both substrates are overlaid on each other, and the solder pastes are heated and solidified to make the intermediate connection layer.

A packaged electronic device includes a package structure with opposite first and second sides spaced apart from one another along a first direction, and opposite third and fourth sides spaced apart from one another along a second direction, as well as first and second leads. The first lead includes a first portion that extends outward from the third side of the package structure and extends downward toward a plane of the first side and away from a plane of the second side. The second lead includes a first portion that extends outward from the third side of the package structure, and the second lead extends upward toward the plane of the second side and away from the plane of the first side to allow connection to another circuit or component, such as a second packaged electronic device, a passive circuit component, a printed circuit board, etc.

A system on package SoP module includes a printed circuit board (PCB) having a first side and an opposing second side, a first IC attached to the first side, a second IC attached to the second side. The PCB also provides electrical paths for connecting the first IC and the second IC. Conductors by which the second IC is attached to the PCB also allow for electrical testing of the first IC when the SoP is in a system level state.

A magnetic device comprising a magnetic body, a coil disposed in the magnetic body and at least one thermal conductive layer, wherein a first portion of the at least one thermal conductive layer encapsulates at least one portion of the coil and a second portion of the at least one thermal conductive layer is exposed from the magnetic body, wherein the at least one thermal conductive layer forms a continuous thermal conductive path from the coil to the outside of the magnetic body for dissipating heat generated from the coil.

An electronic package with passive components located between a first substrate and a second substrate. The electronic package can include a first substrate including a device interface for communication with an electronic device. An interposer can be electrically coupled to the first substrate. A second substrate can be offset from the first substrate at a distance. The second substrate can be electrically coupled to the first substrate through the interposer. A passive component can be attached to one of the first substrate or the second substrate. The passive component can be located between the first substrate and the second substrate. A height of the passive component can be is less than the distance between the first substrate and the second substrate. The second substrate can include a die interface configured for communication with a die. The die interface can be communicatively coupled to the passive component.

A component-on-package circuit may include a component for an electrical circuit and a circuit module attached to the component. The circuit module may have circuitry and at least one leadframe which connects the circuitry to the component both electrically and thermally. The leadframe may have a high degree of both electrical and thermal conductivity and a non-planar shape that provides spring-like cushioning of force applied to the component in the direction of the circuit module.

A method of making a component-on-package circuit may include attaching a component for an electrical circuit to a circuit module. The circuit module may have circuitry and at least one leadframe which connects the circuitry to the component after the attachment both electrically and thermally. The leadframe may have a high degree of both electrical and thermal conductivity and a non-planar shape that provides a spring-like cushioning of force applied to the component in the direction of the circuit module. The circuit module may be encapsulated in molding material after the circuit module has been attached to the component, without encapsulation the component at the same time.