| Patent application number | Description | Published |
|---|
| 20080273424 | MONITORING OR IMAGING SYSTEM WITH INTERCONNECT STRUCTURE FOR LARGE AREA SENSOR ARRAY - An ultrasonic monitoring system is formed with a probe unit. In one example an array of transducer cells is arranged in rows and columns formed along a first plane with a first pitch along a first direction. An integrated circuit including an array of circuit cells is formed along a second plane parallel to the first plane. The circuit cells are spaced apart along the first direction at a second pitch smaller than the first pitch. A first of the transducer cells is vertically aligned, along a direction normal to one of the planes, with a first of the circuit cells and having a connection thereto. A second of the transducer cells is offset from vertical alignment with respect to the position of a second circuit cell so as to not overlie the second circuit cell. A connection subsystem is positioned between the array of transducer cells and the array of circuit cells, configured to form connection of the first transducer cell to the first circuit cell and connection of the second transducer cell with the second circuit cell. | 11-06-2008 |
| 20080296708 | Integrated sensor arrays and method for making and using such arrays - The present invention relates to a method for making an integrated sensor comprising providing a sensor array fabricated on a top surface of a bulk silicon wafer having a top surface and a bottom surface, and comprising a plurality of sensors fabricated on the top surface of the bulk silicon wafer. The method further comprises coupling an SOI wafer to the top surface of the bulk silicon wafer, thinning the back surface of the bulk silicon wafer, coupling a plurality of integrated circuit die to the back surface of the bulk silicon wafer, and removing the SOI wafer from the top surface of the bulk silicon wafer. | 12-04-2008 |
| 20080314867 | METHOD OF MAKING DEMOUNTABLE INTERCONNECT STRUCTURE - A method for making an interconnect structure includes applying a first metal layer to an electronic device, wherein the electronic device comprises at least one I/O contact and the first metal layer is located on a surface of the I/O contact; applying a removable layer to the electronic device. The removable layer is adjacent to the first metal layer. An adhesive layer is applied to the electronic device or to a base insulative layer. The electronic device is secured to the base insulative layer using the adhesive layer. The first metal layer and removable layer are disposed between the electronic device and the base insulative layer. | 12-25-2008 |
| 20080315331 | ULTRASOUND SYSTEM WITH THROUGH VIA INTERCONNECT STRUCTURE - An ultrasound monitoring system. In one embodiment, an array of transducer cells is formed along a first plane and an integrated circuit structure, formed along a second plane parallel to the first plane, includes an array of circuit cells. A connector provides electrical connections between the array of transducer cells and the array of circuit cells, and an interconnection structure is connected to transfer signals between the circuit cells and processing and control circuitry. The integrated circuit structure includes a semiconductor substrate and a plurality of conductive through-die vias formed through the substrate to provide Input/Output (I/O) connections between the transducer cells and the interconnection structure. The monitoring system may be configured as an imaging system and the processing and control circuitry may be external to the probe unit. | 12-25-2008 |
| 20080318027 | DEMOUNTABLE INTERCONNECT STRUCTURE - An electronic component includes a base insulative layer having a first surface and a second surface; an electronic device having a first surface and a second surface; at least one I/O contact located on the first surface of the electronic device; an adhesive layer disposed between the first surface of the electronic device and the second surface of the base insulative layer; a first metal layer disposed on the I/O contact; and a removable layer disposed between the first surface of the electronic device and the second surface of the base insulative layer, and located adjacent to the first metal layer. The base insulative layer secures to the electronic device through the first metal layer and removable layer, wherein the first metal layer and removable layer are capable of releasing the base insulative layer from the electronic device when the first metal layer and removable layer are exposed to a temperature higher than their softening points or melting points. | 12-25-2008 |
| 20080318055 | RECOVERABLE ELECTRONIC COMPONENT - An electronic component includes a base insulative layer having a first surface and a second surface; an electronic device having a first surface and a second surface, and the electronic device being secured to the base insulative layer; an adhesive layer disposed between the first surface of the electronic device and the second surface of the base insulative layer; and a removable layer disposed between the first surface of the electronic device and the second surface of the base insulative layer. The base insulative layer secures to the electronic device through the removable layer. The removable layer is capable of releasing the base insulative layer from the electronic device. The removal may be done without damage to a predetermined part of the electronic component. | 12-25-2008 |
| 20080318413 | METHOD FOR MAKING AN INTERCONNECT STRUCTURE AND INTERCONNECT COMPONENT RECOVERY PROCESS - A method is provided for making an interconnect structure. The method includes applying a removable layer to an electronic device or to a base insulative layer; applying an adhesive layer to the electronic device or to the base insulative layer; and securing the electronic device to the base insulative layer using the adhesive layer. | 12-25-2008 |
| 20090028491 | INTERCONNECT STRUCTURE - An interconnect structure includes an insulative web having a first surface and a second surface; a logic device secured to the second surface of the insulative web; a frame panel assembly including a frame base having a first surface and a second surface, a first frame insulative layer disposed between the frame base first surface and the insulative web second surface, an aperture extending through the frame base and first frame insulative layer, wherein at least a portion of the logic device is disposed within the aperture, and a first frame connector disposed between a first electrically conductive layer located on the frame base first surface, and a second electrically conductive layer located on a surface of the first frame insulative layer; a device connector disposed between an I/O contact on a surface of the logic device and a third electrical conductor located on a surface of the insulative web; and an insulative layer connector that is disposed between the third electrical conductor located on a surface of the insulative web and the second electrically conductive layer located on a surface of the first frame insulative layer. | 01-29-2009 |
| 20090148967 | METHODS OF MAKING AND USING INTEGRATED AND TESTABLE SENSOR ARRAY - A method for making a testable sensor assembly is provided. The method includes forming a first sensor array on a first substrate having a first side and a second side, wherein the first sensor array is formed on the first side of the first substrate, coupling a first semiconductor wafer having a first side and a second side to the first sensor array, wherein the first side of the first semiconductor wafer is coupled to the first sensor array, thinning one of the second side of the first substrate or the second side of the first semiconductor wafer, and testing the first sensor array to identify operational and non-operational units in the testable sensor assembly before integration of the sensor assembly with interface electronics. | 06-11-2009 |
| 20100157526 | Low cost anufacturing of micro-channel heatsink - A cooling device includes a ceramic substrate with a metal layer bonded to an outer planar surface. The cooling device also includes a channel layer bonded to an opposite side of the ceramic substrate and a manifold layer bonded to an outer surface of the channel layer. The substrate layers are bonded together using a high temperature process such as brazing to form a single substrate assembly. A plenum housing is bonded to the single substrate assembly via a low temperature bonding process such as adhesive bonding and is configured to provide extended manifold layer inlet and outlet ports. | 06-24-2010 |
| 20100249598 | ULTRASOUND PROBE WITH REPLACEABLE HEAD PORTION - An ultrasound probe includes a transducer comprising an array of transducer elements removably disposed in a head portion. At least one or more stages of electronic circuit units is removably coupled to the transducer and configured to excite the transducer. A handle portion is detachably coupled to the head portion. The head portion and the handle portion are disposed enclosing the at least one or more stages of electronic circuit units. The ultrasound probe is used for one dimensional applications, two dimensional applications, and volumetric applications. | 09-30-2010 |
| 20100327173 | Integrated Direct Conversion Detector Module - A detector module comprises: a direct conversion crystal for converting incident photons into electrical signals, the direct conversion crystal having an anode layer deposited on a first surface and a cathode layer deposited on a second surface; a redistribution layer deposited on the anode layer, the redistribution layer configured to adapt a pad array layout of the direct conversion crystal to a predetermined lead pattern; an integrated circuit in electrical communication with the direct conversion crystal; and a plurality of input/output electrical paths connected to the redistribution layer to provide connectivity between the imaging module and another level of interconnect. | 12-30-2010 |
| 20110071397 | LARGE AREA MODULAR SENSOR ARRAY ASSEMBLY AND METHOD FOR MAKING THE SAME - A modular and tileable sensor array with routing in the interposer carrying the signals from the sensors to the integrated circuits. In one embodiment a large area modular sensor array assembly includes one or more tileable modules coupled together. The tileable modules have a plurality of transducer cells forming a sensor, an interposer coupled on a first side to the plurality of transducer cells by a plurality, one or more integrated circuits coupled to a second side of the interposer, wherein the interposer is configured to form the connection of at least some of the transducer cells to the integrated circuits, and one or more input/output connectors coupled to the interposer and providing an external interface. | 03-24-2011 |
