Ankireddi
Seshasayee S. Ankireddi, San Jose, CA US
Patent application number | Description | Published |
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20130148305 | DESIGN OF A HEAT DISSIPATION STRUCTURE FOR AN INTEGRATED CIRCUIT (IC) CHIP - An apparatus for cooling an integrated circuit (IC) die is described. The apparatus includes an adhesion layer coated on a surface of the IC die, wherein the adhesion layer has high thermal conductivity. The apparatus also includes a heat dissipation structure affixed onto the adhesion layer. This heat dissipation structure further includes a set of discrete heat dissipation elements which are substantially mechanically isolated from each other. This set of discrete heat dissipation elements provides an extended heat dissipation surface for the IC die. Moreover, each of the set of discrete heat dissipation elements has high compliance, which allows the adhesion layer to be sufficiently thin, thereby reducing a thermal conductivity of the adhesion layer. | 06-13-2013 |
20140312377 | OPTOELECTRONIC APPARATUSES WITH POST-MOLDED REFLECTOR CUPS - An optoelectronic apparatus includes one or more packaged optoelectronic semiconductor devices (POSDs), each including one or more optoelectronic elements encapsulated by a light transmissive molding compound. Each POSD includes a top surface formed by a top surface of the light transmissive molding compound that encapsulates the one or more optoelectronic elements of the POSD. Each POSD also includes a bottom surface including electrical contacts for the one or more optoelectronic elements of the POSD. A peripheral surface extends between the top and bottom surfaces. A light reflective molding compound surrounds the peripheral surface of each POSD and forms a reflector cup for each POSD. The electrical contacts on the bottom surface of each POSD are exposed, and thus, are accessible for electrical connections to other circuitry. Where the optoelectronic apparatus includes a plurality of POSDs, the light reflective molding compound also connects neighboring POSDs to one another. | 10-23-2014 |
Seshasayee (sai) S. Ankireddi, San Jose, CA US
Patent application number | Description | Published |
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20130207126 | OPTOELECTRONIC APPARATUSES AND METHODS FOR MANUFACTURING OPTOELECTRONIC APPARATUSES - A method for manufacturing an optoelectronic apparatus includes attaching bottom surfaces of first and second packaged optoelectronic semiconductor devices (POSDs) to a carrier substrate (e.g., a tape) so that there is a space between the first and second POSDs. An opaque molding compound is molded around portions of the first and second POSDs attached to the carrier substrate, so that peripheral surfaces of the first POSD and the second POSD are surrounded by the opaque molding compound, the space between the first and second POSDs is filled with the opaque molding compound, and the first and second POSDs are attached to one another by the opaque molding compound. The carrier substrate is thereafter removed so that electrical contacts on the bottom surfaces of the first and second POSDs are exposed. A window for each of the POSDs is formed during the molding process or thereafter. | 08-15-2013 |
20130221380 | OPTOELECTRONIC APPARATUSES WITH POST-MOLDED REFLECTOR CUPS AND METHODS FOR MANUFACTURING THE SAME - A method for manufacturing a plurality of optoelectronic apparatuses include attaching bottom surfaces of a plurality of packaged optoelectronic semiconductor devices (POSDs) to a carrier substrate (e.g., a tape) so that there is a space between each POSD and its one or more neighboring POSD(s). A light reflective molding compound is molded around a portion each of the POSDs attached to the carrier substrate so that a reflector cup is formed from the light reflective molding compound for each of the POSDs. The light reflective molding compound can also attach the POSDs to one another. Alternatively, an opaque molding compound can be molded around each POSD/reflector cup to attach the POSDs/reflector cups to one another and form a light barrier between each POSD and its neighboring POSD(s). The carrier substrate is thereafter removed so that electrical contacts on the bottom surfaces of the POSDs are exposed. | 08-29-2013 |
Seshasayee Ss. Ankireddi, San Jose, CA US
Patent application number | Description | Published |
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20130015592 | BOND PAD CONFIGURATIONS FOR SEMICONDUCTOR DIES - A semiconductor device is provided and includes a semiconductor die, and a plurality of bond pads having exposed surfaces arranged in an alternating interleaved pattern on the semiconductor die. Each of the surfaces of the bond pads have a first bond placement area that overlaps with a second bond placement area, with the first bond placement area having a major axis that is orthogonal to a major axis of the second bond placement area. A connecting bond is located at an intersection of the major axes of the first bond placement area and the second bond placement area on one or more of the bond pads. | 01-17-2013 |