Patent application number | Description | Published |
20140175657 | METHODS TO IMPROVE LASER MARK CONTRAST ON DIE BACKSIDE FILM IN EMBEDDED DIE PACKAGES - Apparatus including a die including a device side with contact points; and a build-up carrier disposed on the device side of the die; and a film disposed on the back side of the die, the film including a markable material including a mark contrast of at least 20 percent. Method including forming a body of a build-up carrier adjacent a device side of a die; and forming a film on a back side of the die, the film including a markable material including a mark contrast of at least 20 percent. Apparatus including a package including a microprocessor disposed in a carrier; a film on the back side of the microprocessor, the film including a markable material including a mark contrast of at least 20 percent; and a printed circuit board coupled to at least a portion of the plurality of conductive posts of the carrier. | 06-26-2014 |
20140177194 | DBF FILM AS A THERMAL INTERFACE MATERIAL - A die backside film including a matrix material; and an amount of filler particles to render the die backside film thermally conductive, wherein a thermal conductivity of the amount of filler particles is greater than a thermal conductivity of silica particles. A method including introducing a die backside film on a backside surface of a die, the die backside film including a matrix material including an elastomer an amount of filler particles to render the die backside film thermally conductive, wherein a thermal conductivity of the amount of filler particles is greater than a thermal conductivity of silica particles; and disposing the die in a package. | 06-26-2014 |
20140264951 | LASER DIE BACKSIDE FILM REMOVAL FOR INTEGRATED CIRCUIT (IC) PACKAGING - Embodiments of the present disclosure are directed to die adhesive films for integrated circuit (IC) packaging, as well as methods for forming and removing die adhesive films and package assemblies and systems incorporating such die adhesive films. A die adhesive film may be transparent to a first wavelength of light and photoreactive to a second wavelength of light. In some embodiments, the die adhesive film may be applied to a back or “inactive” side of a die, and the die surface may be detectable through the die adhesive film. The die adhesive film may be cured and/or marked with laser energy having the second wavelength of light. The die adhesive film may include a thermochromic dye and/or nanoparticles configured to provide laser mark contrast. UV laser energy may be used to remove the die adhesive film in order to expose underlying features such as TSV pads. | 09-18-2014 |
20150270235 | DRY-REMOVABLE PROTECTIVE COATINGS - Techniques are disclosed for protecting a surface using a dry-removable protective coating that does not require chemical solutions to be removed. In an embodiment, a protective layer is disposed on a surface. The protective layer is composed of one layer that adheres to the surface. The surface is then processed while the protective coating is on the surface. Thereafter, the protective layer is removed from the surface by separating the protective layer away from the surface without the use of chemical solutions. | 09-24-2015 |