Patent application number | Description | Published |
20110006423 | SURFACE-MOUNTED SILICON CHIP - A silicon chip surface mounted via balls attached to its front surface, wherein the front and rear surfaces of the chip are covered with a thermosetting epoxy resin having the following characteristics: the resin contains a proportion ranging from 45 to 60% by weight of a load formed of carbon fiber particles with a maximum size of 20 μm and with its largest portion having a diameter ranging between 2 and 8 μm, on the front surface side, the loaded resin covers from 45 to 60% of the ball height, on the rear surface side, the loaded resin has a thickness ranging between 80 and 150 μm. | 01-13-2011 |
20110124157 | METHOD FOR ENCAPSULATING ELECTRONIC COMPONENTS ON A WAFER - A method for encapsulating electronic components, including the steps of: forming, in a first surface of a semiconductor wafer, electronic components; forming, on the first surface, an interconnection stack including conductive tracks and vias separated by an insulating material; forming first and second bonding pads on the interconnection stack; thinning down the wafer, except at least on its contour; filling the thinned-down region with a first resin layer; arranging at least one first chip on the first bonding pads and forming solder bumps on the second bonding pads; depositing a second resin layer covering the first chips and partially covering the solder bumps; bonding an adhesive strip on the first resin layer; and scribing the structure into individual chips. | 05-26-2011 |
20110300647 | METHOD FOR MANUFACTURING SEMICONDUCTOR CHIPS FROM A SEMICONDUCTOR WAFER - A method for manufacturing semiconductor chips from a semiconductor wafer, including the steps of: fastening, on a first support frame, a second support frame having outer dimensions smaller than the outer dimensions of the first frame and greater than the inner dimensions of the first frame; arranging the wafer on a surface of a film stretched on the second frame; carrying out wafer processing operations by using equipment capable of receiving the first frame; separating the second frame from the first frame and removing the first frame; and carrying out wafer processing operations by using equipment capable of receiving the second frame. | 12-08-2011 |
20120009763 | SEMICONDUCTOR CHIP MANUFACTURING METHOD - A method for manufacturing semiconductor chips from a semiconductor wafer, including the steps of: a) arranging the wafer on a surface of an elastic film stretched on a first support frame having dimensions much greater than the wafer dimensions, so that, in top view, a ring-shaped film portion separates this outer contour from the inner contour of the frame; b) performing manufacturing operations by using equipment capable of receiving the first frame; c) arranging, on the ring-shaped film portion, a second frame of outer dimensions smaller than the inner dimensions of the first frame; d) cutting the film between the outer contour of the second frame and the inner contour of the first frame and removing the first frame; and e) performing manufacturing operations by using equipment capable of receiving the second frame. | 01-12-2012 |
20120149174 | METHOD FOR THINNING AND DICING ELECTRONIC CIRCUIT WAFERS - A method for thinning and dicing a wafer of electronic circuits, wherein: a thinning step is carried out while the wafer is supported by a first film bonded at the periphery of a support frame; and a dicing step is carried out while the thinned wafer is supported by a second film bonded at the periphery of the same frame from the other surface of the wafer, the first film being unstuck only once the second one is in place. | 06-14-2012 |
20130043586 | METHOD FOR ENCAPSULATING ELECTRONIC COMPONENTS ON A WAFER - A method for encapsulating electronic components, including the steps of: forming, in a first surface of a semiconductor wafer, electronic components; forming, on the first surface, an interconnection stack including conductive tracks and vias separated by an insulating material; forming first and second bonding pads on the interconnection stack; thinning down the wafer, except at least on its contour; filling the thinned-down region with a first resin layer; arranging at least one first chip on the first bonding pads and forming solder bumps on the second bonding pads; depositing a second resin layer covering the first chips and partially covering the solder bumps; bonding an adhesive strip on the first resin layer; and scribing the structure into individual chips. | 02-21-2013 |
20130178017 | METHOD FOR MANUFACTURING SEMICONDUCTOR CHIPS FROM A SEMICONDUCTOR WAFER - A method for manufacturing semiconductor chips from a semiconductor wafer, including the steps of: fastening, on a first support frame, a second support frame having outer dimensions smaller than the outer dimensions of the first frame and greater than the inner dimensions of the first frame; arranging the wafer on a surface of a film stretched on the second frame; carrying out wafer processing operations by using equipment capable of receiving the first frame; separating the second frame from the first frame and removing the first frame; and carrying out wafer processing operations by using equipment capable of receiving the second frame. | 07-11-2013 |
20130192435 | WAFER CUTTING METHOD AND DEVICE - A device for cutting a wafer provided with grooves on its upper surface having its lower surface supported by a flexible film secured to a frame. This device includes a system for locating the grooves and for positioning the frame with respect to a cutting system, and setting means for positioning the wafer in front of the locating system so that the located area is at a determined distance from the locating system. | 08-01-2013 |
20130216904 | METHOD FOR FORMING A MICROBATTERY - A method for forming a microbattery including, on a surface of a first substrate, one active battery element and two contact pads, this method including the steps of: a) forming, on a surface of a second substrate, two contact pads with a spacing compatible with the spacing of the pads of the first substrate; and b) arranging the first substrate on the second substrate so that the surfaces face each other and that the pads of the first substrate at least partially superpose to those of the second substrate, where a portion of the pads of the second substrate is not covered by the first substrate. | 08-22-2013 |