摘要:
Reliable microstrip routing arrangements for electronics components are described. In an example, a semiconductor apparatus includes a semiconductor die having a surface with an integrated circuit thereon coupled to contact pads of an uppermost metallization layer of a semiconductor package substrate by a plurality of conductive contacts. A plurality of discrete metal planes is disposed at the uppermost metallization layer of the semiconductor package substrate, each metal plane located, from a plan view perspective, at a corner of a perimeter of the semiconductor die. Microstrip routing is disposed at the uppermost metallization layer of the semiconductor package substrate, from the plan view perspective, outside of the perimeter of the semiconductor die.
摘要:
Reliable microstrip routing arrangements for electronics components are described. In an example, a semiconductor apparatus includes a semiconductor die having a surface with an integrated circuit thereon coupled to contact pads of an uppermost metallization layer of a semiconductor package substrate by a plurality of conductive contacts. A plurality of discrete metal planes is disposed at the uppermost metallization layer of the semiconductor package substrate, each metal plane located, from a plan view perspective, at a corner of a perimeter of the semiconductor die. Microstrip routing is disposed at the uppermost metallization layer of the semiconductor package substrate, from the plan view perspective, outside of the perimeter of the semiconductor die.
摘要:
Reliable microstrip routing arrangements for electronics components are described. In an example, a semiconductor apparatus includes a semiconductor die having a surface with an integrated circuit thereon coupled to contact pads of an uppermost metallization layer of a semiconductor package substrate by a plurality of conductive contacts. A plurality of discrete metal planes is disposed at the uppermost metallization layer of the semiconductor package substrate, each metal plane located, from a plan view perspective, at a corner of a perimeter of the semiconductor die. Microstrip routing is disposed at the uppermost metallization layer of the semiconductor package substrate, from the plan view perspective, outside of the perimeter of the semiconductor die.
摘要:
A semiconductor apparatus includes a semiconductor die having a surface with an integrated circuit thereon coupled to contact pads of an uppermost metallization layer of a semiconductor package substrate by a plurality of conductive contacts. A plurality of discrete metal planes is disposed at the uppermost metallization layer of the semiconductor package substrate, each metal plane located, from a plan view perspective, at a corner of a perimeter of the semiconductor die. Microstrip routing is disposed at the uppermost metallization layer of the semiconductor package substrate, from the plan view perspective, outside of the perimeter of the semiconductor die.
摘要:
Reliable microstrip routing arrangements for electronics components are described. In an example, a semiconductor apparatus includes a semiconductor die having a surface with an integrated circuit thereon coupled to contact pads of an uppermost metallization layer of a semiconductor package substrate by a plurality of conductive contacts. A plurality of discrete metal planes is disposed at the uppermost metallization layer of the semiconductor package substrate, each metal plane located, from a plan view perspective, at a corner of a perimeter of the semiconductor die. Microstrip routing is disposed at the uppermost metallization layer of the semiconductor package substrate, from the plan view perspective, outside of the perimeter of the semiconductor die.
摘要:
Reliable microstrip routing arrangements for electronics components are described. In an example, a semiconductor apparatus includes a semiconductor die having a surface with an integrated circuit thereon coupled to contact pads of an uppermost metallization layer of a semiconductor package substrate by a plurality of conductive contacts. A plurality of discrete metal planes is disposed at the uppermost metallization layer of the semiconductor package substrate, each metal plane located, from a plan view perspective, at a corner of a perimeter of the semiconductor die. Microstrip routing is disposed at the uppermost metallization layer of the semiconductor package substrate, from the plan view perspective, outside of the perimeter of the semiconductor die.
摘要:
Package substrates enabling reduced bump pitches and package assemblies thereof. Surface-level metal features are embedded in a surface-level dielectric layer with surface finish protruding from a top surface of the surface-level dielectric for assembly, without solder resist, to an IC chip having soldered connection points. Package substrates are fabricated to enable multiple levels of trace routing with each trace routing level capable of reduced minimum trace width and spacing.
摘要:
Package substrates enabling reduced bump pitches and package assemblies thereof. Surface-level metal features are embedded in a surface-level dielectric layer with surface finish protruding from a top surface of the surface-level dielectric for assembly, without solder resist, to an IC chip having soldered connection points. Package substrates are fabricated to enable multiple levels of trace routing with each trace routing level capable of reduced minimum trace width and spacing.
摘要:
Some example forms relate to an electronic package. The electronic package includes a first dielectric layer that includes an electrical trace formed on a surface of the first dielectric layer and a second dielectric layer on the surface of the first dielectric layer. The second dielectric layer includes an opening. The electrical trace is within the opening. The electronic package includes an electrical interconnect that fills the opening and extends above an upper surface of the second dielectric layer such that the electrically interconnect is electrically connected to the electrical trace on the first dielectric layer.
摘要:
The integration of pressure or inertial sensors into an integrated circuit fabrication and packaging flow is described. In one example, a diaphragm is formed by depositing a metal over a first dielectric layer. A second dielectric layer is formed over the diaphragm. A metal mesh layer is formed over the second dielectric. The first dielectric layer is etched under the diaphragm to form a cavity. The cavity is lined with a sealing layer. The cavity is covered to form a chamber adjoining the diaphragm, and the cover is sealed against the cavity.