A semiconductor device includes a semiconductor substrate having a bonding pad, and a first dielectric layer disposed over the semiconductor substrate. A portion of the bonding pad is exposed by the first dielectric layer. The semiconductor device also includes a metal oxide layer disposed over the portion of the bonding pad, and a wire bond penetrating through the metal oxide layer to bond to the bonding pad. The portion of the bonding pad is entirely covered by the metal oxide layer and the wire bond.

A semiconductor device includes a semiconductor substrate having a bonding pad, and a first dielectric layer disposed over the semiconductor substrate. A portion of the bonding pad is exposed by the first dielectric layer. The semiconductor device also includes a metal oxide layer disposed over the portion of the bonding pad, and a wire bond penetrating through the metal oxide layer to bond to the bonding pad. The portion of the bonding pad is entirely covered by the metal oxide layer and the wire bond.

A semiconductor package includes a semiconductor die, a tab, a first lead, and a continuous lead frame. The semiconductor die includes a first terminal, a second terminal, and a third terminal. The tab is electronically coupled to the first terminal. The semiconductor die is mounted on the tab. The first lead is electronically coupled to the second terminal. The continuous lead frame is electronically coupled to the third terminal and includes a second lead and a third lead.

A semiconductor package includes a semiconductor die, a tab, a first lead, and a continuous lead frame. The semiconductor die includes a first terminal, a second terminal, and a third terminal. The tab is electronically coupled to the first terminal. The semiconductor die is mounted on the tab. The first lead is electronically coupled to the second terminal. The continuous lead frame is electronically coupled to the third terminal and includes a second lead and a third lead.

In one example, an electronic device includes a substrate including a substrate first side, a conductive structure, and a substrate sidewall on the substrate first side. The substrate sidewall forms a perimeter, the substrate first side within the perimeter defines a substrate base, and the substrate sidewall and the substrate base form a substrate cavity. An electronic component includes a component first side, a component second side, and a component lateral side. The electronic component is disposed over a first portion of the substrate base within the substrate cavity and is coupled to the conductive structure. An encapsulant encapsulates at least a portion of the component lateral side, and a lid is over at least a portion of the component first side. At least a portion of the component first side is devoid of the encapsulant. Other examples and related methods are also disclosed herein.

A packaging structure and a method for fabricating the packaging structure are provided. The packaging structure includes a base substrate including a solder pad body region and a trench region adjacent to and around the solder pad body region. The packaging structure also includes a passivation layer on a surface of the base substrate and exposing the solder pad body region and the trench region. In addition, the packaging structure includes a main body solder pad on the solder pad body region of the base substrate, and one or more trenches on the trench region of the base substrate and between the passivation layer and the main body solder pad. Further, the packaging structure includes a bonding conductive wire having one end connected to the main body solder pad.

A packaging structure and a method for fabricating the packaging structure are provided. The packaging structure includes a base substrate including a solder pad body region and a trench region adjacent to and around the solder pad body region. The packaging structure also includes a passivation layer on a surface of the base substrate and exposing the solder pad body region and the trench region. In addition, the packaging structure includes a main body solder pad on the solder pad body region of the base substrate, and one or more trenches on the trench region of the base substrate and between the passivation layer and the main body solder pad. Further, the packaging structure includes a bonding conductive wire having one end connected to the main body solder pad.

A light emitting apparatus includes a positive lead terminal and a negative lead terminal, each of which includes a first main surface, a second main surface, and an end surface including a first recessed surface area extending from a first point of the first main surface in cross section, and a second recessed surface area extending from a second point of the second main surface in cross section. A distance between a first part of the end surface of the positive lead terminal and a second part of the end surface of the negative lead terminal than a first distance between the first points of the positive lead terminal and the negative lead terminal and a second distance between the second points of the positive lead terminal and the negative lead terminal. The first part and the second part are separated from the first point and the second point.

A nanostructure barrier for copper wire bonding includes metal grains and inter-grain metal between the metal grains. The nanostructure barrier includes a first metal selected from nickel or cobalt, and a second metal selected from tungsten or molybdenum. A concentration of the second metal is higher in the inter-grain metal than in the metal grains. The nanostructure barrier may be on a copper core wire to provide a coated bond wire. The nanostructure barrier may be on a bond pad to form a coated bond pad. A method of plating the nanostructure barrier using reverse pulse plating is disclosed. A wire bonding method using the coated bond wire is disclosed.

A semiconductor device 10 includes a pair of electrodes 16 and a conductive connection member 21 electrically bonded to the pair of electrodes 16. At least a portion of a perimeter of a bonding surface 24 of at least one of the pair of electrodes 16 and the conductive connection member 21 includes an electromigration reducing area 22.