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.

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.

Apparatuses and methods related to the field of microchip assembly and handling, in particular to devices and methods for assembling and handling microchips manufactured with solid edge-to-edge interconnects, such as Quilt Packaging® interconnect technology. Specialized assembly tools are configured to pick up one or more microchips, place the microchips in a specified location aligned to a substrate, package, or another microchip, and facilitate electrical contact through one of a variety of approaches, including solder reflow. This specialized assembly tooling performs heating functions to reflow solder to establish electrical and mechanical interconnections between multiple microchips. Additionally, the interconnected microchips may be arranged in an arbitrarily large array.

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 circuit module includes an interposer, and the interposer includes an element body including a first surface, a first interposer terminal provided on the first surface of the element body, and connected to a first external element, a second interposer terminal provided on the first surface of the element body, and connected to a second external element, a first wiring provided in the element body, and electrically connecting the first interposer terminal and the circuit board with each other, a second wiring provided in the element body, and electrically connecting the second interposer terminal and the circuit board with each other, and a bypass wiring provided in the element body and/or on a surface of the element body, and electrically connecting the first interposer terminal and the second interposer terminal with each other.

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 module assembly device (402) is configured for assembling a module assembly (114) for a detector array (110) of an imaging system (100). The module assembly device includes a base (400) having a long axis (401). The module assembly device further includes a first surface (406) of the base and side walls (408) protruding perpendicular up from the first surface and extending in a direction of the long axis along at least two sides of the base. The first surface and side walls form a recess (404) configured to receive the module substrate on the surface and within the side walls. The module assembly device further includes protrusions (403) protruding from the side walls in a direction of the side walls. The protrusions and side walls interface forming a ledge which serves as a photo-detector array tile support (410) configured to receive the photo-detector array tile (118) over the ASIC and the module substrate.

A capacitor component includes a capacitor including a plurality of internal electrodes, a capacitor body containing a piezoelectric material disposed in at least regions between the plurality of internal electrodes, and external electrodes connected to the plurality of internal electrodes; and an interposer disposed to be coupled to the capacitor and including a buffer substrate containing a buffer material having a degree of piezoelectricity lower than that of the piezoelectric material, and connection electrodes electrically connected to the external electrodes.

A second lead frame is set onto a conductive layer and a busbar. The second lead frame has holes previously formed at opposite ends thereof, and pieces of solder material or solder pieces are inserted into the holes. Then, the solder pieces are vibrated by an ultrasonically vibrating tool, whereby the solder pieces are melted without having a high temperature. The second lead frame is thus bonded to the conductive layer and the busbar. A semiconductor element and the busbar are connected by a first lead frame and the second lead frame. The connection structure thereof is such that the second lead frame to be bonded by ultrasonic bonding or other bonding methods is not directly in contact with the semiconductor element, which eliminates the risk of damage to the semiconductor element.

An electronic component mounting board includes: a circuit board having a wiring layer; a pocket part provided on a main surface of one side of the circuit board; a passive component housed in the pocket part; an active component arranged above the passive component and the main surface of the one side of the circuit board and connected to the passive component; and a shield layer formed of a material containing a magnetic material and provided between a bottom surface of the pocket part and a lower surface of the passive component.