摘要:
A method for forming an interconnect structure for a semiconductor device includes defining a via in a passivation layer so as expose a top metal layer in the semiconductor device. A seed layer is formed over the passivation layer, sidewalls of the via, and the top metal layer. A barrier layer is formed over an exposed portion of the seed layer, the exposed portion defined by a first patterned opening. The semiconductor device is annealed so as to cause atoms from the barrier layer to diffuse into the seed layer thereunderneath, wherein the annealing causes diffused regions of the seed layer to have an altered electrical resistivity and electrode potential with respect to undiffused regions of the seed layer.
摘要:
A method for forming an interconnect structure for a semiconductor device includes defining a via in a passivation layer so as expose a top metal layer in the semiconductor device. A seed layer is formed over the passivation layer, sidewalls of the via, and the top metal layer. A barrier layer is formed over an exposed portion of the seed layer, the exposed portion defined by a first patterned opening. The semiconductor device is annealed so as to cause atoms from the barrier layer to diffuse into the seed layer thereunderneath, wherein the annealing causes diffused regions of the seed layer to have an altered electrical resistivity and electrode potential with respect to undiffused regions of the seed layer.
摘要:
An optoelectronic assembly for an electronic system includes a transparent substrate having a first surface and an opposite second surface, the transparent substrate being thermally conductive and being metallized on the surface. A support electronic chip set is configured for at least one of providing multiplexing, demultiplexing, coding, decoding and optoelectronic transducer driving and receive functions and is bonded to the second surface of the transparent substrate. A first substrate having a first surface and an opposite second surface, is in communication with the transparent substrate via the metallized second surface and support chip set therebetween. A second substrate is in communication with the second surface of the first substrate and is configured for mounting at least one of data processing, data switching and data storage chips. An optoelectronic transducer is in signal communication with the support electronic chip set; and an optical signaling medium defined with one end having an optical fiber array aligned with the optoelectronic transducer is substantially normal to the first surface of the transparent substrate, wherein an electrical signal from the support electronic chip set is communicated to the optoelectronic transducer via the metallized second surface of the transparent substrate, and wherein the support electronic chip set and the optoelectronic transducer share a common thermal path for cooling.
摘要:
Under the present invention, a semiconductor chip is electrically connected to a substrate (e.g., organic, ceramic, etc.) by an interposer structure. The interposer structure comprises an elastomeric, compliant material that includes metallurgic through connections having a predetermined shape. In a typical embodiment, the metallurgical through connections electrically connect an under bump metallization of the semiconductor chip to a top surface metallization of the substrate. By utilizing the interposer structure in accordance with the present invention, the problems associated with previous semiconductor module designs are alleviated.
摘要:
Optical cubes and optical cube assemblies for directing optical beams are provided. The optical cubes are optically transparent modules that can be adapted to reflect, transmit, and/or partially reflect and transmit optical beams. The optical cubes may include bi-direction or multi-direction beam directing elements for directing optical beams. The optical cube assemblies may include flexible chip assemblies attached to optical cubes. The chip assemblies may include vertical cavity surface-emitting lasers for emitting optical beams or receivers for receiving optical beams mounted on a flexible and electrical interconnect mounting assembly.
摘要:
An optoelectronic assembly for a computer system includes an electronic chip(s), a substrate, an electrical signaling medium, an optoelectronic transducer, and an optical coupling guide. The electronic chip(s) is in communication with the substrate, which is in communication with a first end of the electrical signaling medium. A second end of the electrical signaling medium is in communication with the optoelectronic transducer, and includes the optical coupling guide for aligning an optical signaling medium with the optoelectronic transducer. An electrical signal from the electronic chip is communicated to the optoelectronic transducer via the substrate and the electrical signaling medium. The optical transducer and electronic chip(s) share a common heat spreader, and communication to other groups of electronic chip(s) is done without the need for communication via a second level electrical package.
摘要:
Under the present invention, a semiconductor chip is electrically connected to a substrate (e.g., organic, ceramic, etc.) by an interposer structure. The interposer structure comprises an elastomeric, compliant material that includes metallurgic through connections having a predetermined shape. In a typical embodiment, the metallurgical through connections electrically connect an under bump metallization of the semiconductor chip to a top surface metallization of the substrate. By utilizing the interposer structure in accordance with the present invention, the problems associated with previous semiconductor module designs are alleviated.
摘要:
An optoelectronic assembly for an electronic system includes a thermally conductive, metallized transparent substrate having a first surface and an opposite second surface. A support chip set is bonded to the second surface of the transparent substrate. A first substrate is in communication with the transparent substrate via the metallized second surface and support chip set therebetween. A second substrate is in communication with the second surface of the first substrate and is configured for mounting at least one of data processing, data switching and data storage chips. An optoelectronic transducer is in signal communication with the support chip set, and an optical signaling medium having one end with an optical fiber array aligned with the transducer is substantially normal to the first surface of the transparent substrate. The support chip set and the transducer share a common thermal path for cooling.