A component package includes a printed circuit board; a first electronic component disposed in a first region on the printed circuit board; a second electronic component disposed in a second region on the printed circuit board; and a metal wall disposed on the printed circuit board and spatially partitioning the first region and the second region on a plane. The metal wall is directly connected to the printed circuit board.

Implementations of semiconductor packages may include: a die coupled to a glass lid; one or more inner walls having a first material coupled to the die; an outer wall having a second material coupled to the die; and a glass lid coupled to the die at the one or more inner walls and at the outer wall; wherein the outer wall may be located at the edge of the die and the glass lid and the one or more inner walls may be located within the perimeter of the outer wall at a predetermined distance from the perimeter of the outer wall; and wherein a modulus of the first material may be lower than a modulus of the second material.

A method for fabricating an electronic device includes fixing a rear face of an integrated-circuit chip to a front face of a support wafer. An infused adhesive is applied in the form of drops or segments that are separated from each other. A protective wafer is applied to the infused adhesive, and the infused adhesive is cured. The infused adhesive includes a curable adhesive and solid spacer elements infused in the curable adhesive. A closed intermediate peripheral ring is deposited on the integrated-circuit chip outside the cured infused adhesive, and an encapsulation block is formed such that it surrounds the chip, the protective wafer and the closed intermediate peripheral ring.

A resin membrane (8) covering a semiconductor device (5) and a dicing line (7) of a semiconductor substrate (1) is formed on a main surface of the semiconductor substrate (1). The resin membrane (8) around the first electrode (2) is removed and the resin membrane (8) on the second electrode (3,4) is removed to form a first contact hole (9) without removing the resin membrane (8) on the dicing line (7). A resin film (11) is applied to a top surface of the resin membrane (8) to form a hollow structure (12) around the first electrode (2). The resin film (11) is patterned to form a second contact hole (13) connected to the first contact hole (9) and a first opening (14) above the dicing line (7) simultaneously. After forming the first opening (14), the semiconductor substrate (1) is diced along the dicing line (7).

According to various aspects and embodiments, a system and method for forming a packaged electronic device is disclosed. One example of the method comprises treating a surface of a first substrate to create a first surface having a low bond strength, at least a portion of the first surface defined by at least one three-dimensional structure and a layer of optical masking material, depositing a layer of structure material onto at least a portion of the first surface, bonding a second substrate to at least a portion of the layer of structure material, and separating the first substrate from the second substrate along the first surface.

The present disclosure relates to a semiconductor device and a method for manufacturing the same. The semiconductor device includes a substrate, a first package body and at least one connecting element. The substrate has a first surface. The first package body is disposed adjacent to the first surface of the substrate, and defines at least one cavity. The connecting element is disposed adjacent to the first surface of the substrate and in a corresponding cavity. A space is defined between a periphery surface of a portion of the connecting element and a sidewall of a portion of the cavity. An end portion of the connecting element extends beyond an outermost surface of the first package body.

A package comprises a molding and a conductive terminal in contact with the molding and having a first surface exposed to a first surface of the molding. The conductive terminal includes a cavity having a first portion extending along at least half of the first surface of the conductive terminal and a second portion extending along less than half of the first surface of the conductive terminal.

An apparatus includes a package, a wall and a lid. The package may be configured to mount two chips configured to generate one or more signals in a millimeter-wave frequency range. The wall may be formed between the two chips. The wall generally has a plurality of conductive arches that attenuate an electromagnetic coupling between the two chips in the millimeter-wave frequency range. The lid may be configured to enclose the chips to form a cavity.

Transistors and method of forming he same include forming a fin on a bottom source/drain region having a channel region and a sacrificial region on the channel region. A gate stack is formed on sidewalls of the channel region. A gate conductor is formed in contact with the gate stack that has a top surface that meets a middle point of sidewalls of the sacrificial region. The sacrificial region is trimmed to create gaps above the gate stack. A top spacer is formed on the gate conductor having airgaps above the gate stack.

The present disclosure provides a semiconductor package structure and a method of manufacturing the same. The semiconductor package structure includes a substrate, a first electronic component, an interlayer, a third electronic component and an encapsulant. The first electronic component is disposed on the substrate. The first electronic component has an upper surface and a lateral surface and a first edge between the upper surface and the lateral surface. The interlayer is on the upper surface of the first electronic component. The third electronic component is attached to the upper surface of the first electronic component via the interlayer. The encapsulant encapsulates the first electronic component and the interlayer. The interlayer does not contact the lateral surface of the first electronic component.