An integrated circuit package and manufacturing method thereof are described. The integrated circuit package includes pin up conductive plating to form an interconnect, where an opening on a patterned fifth layer photo-resist material located at bottom portion of a base developed for etching selectively the base to form at least an internal opening and at least a positioning opening, wherein the internal opening corresponds with an inside area of a first patterned conductive layer, and the positioning opening corresponds with an outside area of the first patterned conductive layer.

A power electronics module and a method of manufacturing a power electronics module and a base plate. The power electronics module comprising at least one power electronics component, wherein the power electronics module comprises a base plate for transferring heat generated by the at least one power electronics component to a cooling device, the base plate comprising a layered structure having a first copper layer, a second copper layer and a carbon based layer between the first and second copper layers.

A power electronics module and a method of manufacturing a power electronics module and a base plate. The power electronics module comprising at least one power electronics component, wherein the power electronics module comprises a base plate for transferring heat generated by the at least one power electronics component to a cooling device, the base plate comprising a layered structure having a first copper layer, a second copper layer and a carbon based layer between the first and second copper layers.

Packaged semiconductor components having substantially rigid support member are disclosed. The packages can include a semiconductor die and a support member proximate to the semiconductor die. The support member is at least substantially rigid. The packages can further include an adhesive between the support member and the semiconductor die and adhesively attaching the support member to the semiconductor die. The packages can also include a substrate carrying the semiconductor die and the support member attached to the semiconductor die.

According to various embodiments described herein, an article comprises a glass or glass-ceramic substrate having a first major surface and a second major surface opposite the first major surface, and a via extending through the substrate from the first major surface to the second major surface over an axial length in an axial direction. The article further comprises a helium hermetic adhesion layer disposed on the interior surface; and a metal connector disposed within the via, wherein the metal connector is adhered to the helium hermetic adhesion layer. The metal connector coats the interior surface of the via along the axial length of the via to define a first cavity from the first major surface to a first cavity length, the metal connector comprising a coating thickness of less than 12 m at the first major surface. Additionally, the metal connector coats the interior surface of the via along the axial length of the via to define a second cavity from the second major surface to a second cavity length, the metal connector comprising a coating thickness of less than 12 m at the second major surface and fully fills the via between the first cavity and the second cavity.

Implementations described herein are related to a semiconductor device package having an improved baseplate. In such an improved baseplate, there is a recess cut out of a region of a surface of the baseplate such that the recess has a first sidewall having a first thickness above a recess base and a second sidewall having a second thickness above the recess base. A substrate, e.g., a direct bonded copper (DBC) substrate, may be attached to the baseplate at a recess base using, e.g., a solder layer between the recess base and a surface of the substrate.

Provided is a tape for electronic devices with lead crack and a method of manufacturing the tape. According to the present invention, by forming a cutting portion on a narrow circuit pattern to be connected from an inner lead to an outer lead and further forming the cutting portion within a resin application portion, the problem of occurrence of cracks along a width of a narrow wiring can be avoided. The tape may include a first lead and a second lead formed on a dielectric substrate and a cutting portion formed on one of the first lead and the second lead wherein the cutting portion is formed within a resin application portion.

A semiconductor device is provided, the semiconductor device having: a semiconductor chip; a wiring substrate which supports the semiconductor chip and is electrically connected to the semiconductor chip; a first metal plate which supports the wiring substrate; a second metal plate which is arranged between the wiring substrate and the first metal plate; a first bonding part which bonds the wiring substrate and the second metal plate; and a second bonding part which bonds the first metal plate and the second metal plate, and having a thickness of an outer circumferential part of the second metal plate being larger than a thickness of a center part of the second metal plate.

A fan out package may include a plurality of semiconductor dies, each of the semiconductor dies including a first surface and a second surface opposite to the first surface. The fan out package includes a redistribution layer coupled to the first surface of each of the plurality of semiconductor dies, a dieback conductive member coupled to the second surface of each of the plurality of semiconductors dies, and an encapsulation material coupled to the plurality of semiconductor dies and the dieback conductive member.

Packaged semiconductor components having substantially rigid support member are disclosed. The packages can include a semiconductor die and a support member proximate to the semiconductor die. The support member is at least substantially rigid. The packages can further include an adhesive between the support member and the semiconductor die and adhesively attaching the support member to the semiconductor die. The packages can also include a substrate carrying the semiconductor die and the support member attached to the semiconductor die.