Patent application number | Description | Published |
20080287030 | METHOD OF FABRICATING CARBIDE AND NITRIDE NANO ELECTRON EMITTERS - This invention discloses novel field emitters which exhibit improved emission characteristics combined with improved emitter stability, in particular, new types of carbide or nitride based electron field emitters with desirable nanoscale, aligned and sharped-tip emitter structures. | 11-20-2008 |
20090098671 | Nanotube assembly including protective layer and method for making the same - Nanotube assemblies and methods for manufacturing the same, including one or more protective layers. A nanotube assembly may include a substrate, a nanotube array, formed on the substrate, and a protective layer, formed on a first area of the substrate where the nanotube array is not, the protective layer reducing the formation of nanocones, and promoting the formation of nanotubes, which make up the nanotube array. | 04-16-2009 |
20130127046 | REDUCED SUSCEPTIBILITY TO ELECTROSTATIC DISCHARGE DURING 3D SEMICONDUCTOR DEVICE BONDING AND ASSEMBLY - Electrostatic discharge susceptibility is reduced when assembling a stacked IC device by coupling a ground plane of a first semiconductor device and a ground plane of a second semiconductor device to place the ground plane at substantially a same electrical potential. Active circuitry on the first semiconductor device and active circuitry on the second semiconductor device are electrically coupled after the ground planes are coupled. Electrically coupling the ground planes of the first and the second semiconductor device creates a preferred electrostatic discharge path to ground, thus reducing potential damage to sensitive circuit elements. | 05-23-2013 |
20140132297 | RECONFIGURABLE ELECTRIC FIELD PROBE - Systems and methods for EMC, EMI and ESD testing are described. A probe comprises a center conductor extending along an axis of the probe, a probe tip, and a shield coaxially aligned with the center conductor and configured to provide electromagnetic screening for the probe tip. One or more actuators may change the relative positions of the probe tip and shield with respect to a device under test, thereby enabling control of sensitivity and resolution of the probe. | 05-15-2014 |
20140139969 | CAPACITOR STRUCTURE FOR WIDEBAND RESONANCE SUPPRESSION IN POWER DELIVERY NETWORKS - Some novel features pertain to a capacitor structure that includes a first conductive layer, a second conductive layer and a non-conductive layer. The first conductive layer has a first overlapping portion and a second overlapping portion. The second conductive layer has a third overlapping portion, a fourth overlapping portion, and a non-overlapping portion. The third overlapping portion overlaps with the first overlapping portion of the first conductive layer. The fourth overlapping portion overlaps with the second overlapping portion of the first conductive layer. The non-overlapping portion is free of any overlap (e.g., vertical overlap) with the first conductive layer. The non-conductive layer separates the first and second conductive layers. The non-conductive layer electrically insulates the third overlapping portion and the fourth overlapping portion from the first conductive layer. | 05-22-2014 |
20140167273 | LOW PARASITIC PACKAGE SUBSTRATE HAVING EMBEDDED PASSIVE SUBSTRATE DISCRETE COMPONENTS AND METHOD FOR MAKING SAME - One feature pertains to a multi-layer package substrate of an integrated circuit package that comprises a discrete circuit component (DCC) having at least one electrode. The DCC is embedded within an insulator layer, and a via coupling component electrically couples to the electrode. A first portion of the via coupling component extends beyond a first edge of the electrode, and a plurality of vias each having a first end couple to the first via coupling component. At least a first via of the plurality of vias couples to the first portion of the via coupling component that extends beyond the first edge of the electrode. Moreover, the plurality of vias each have a second end that electrically couple to a first outer metal layer, and at least a second portion of the via coupling component is positioned within a first inner metal layer. | 06-19-2014 |
20140252568 | ELECTROMAGNETIC INTERFERENCE ENCLOSURE FOR RADIO FREQUENCY MULTI-CHIP INTEGRATED CIRCUIT PACKAGES - One feature pertains to a multi-chip package that includes a substrate and an electromagnetic interference (EMI) shield coupled to the substrate. At least one integrated circuit is coupled to a first surface of the substrate. The EMI shield includes a metal casing configured to shield the package from radio frequency radiation, a dielectric layer coupled to at least a portion of an inner surface of the metal casing, and a plurality of signal lines. The signal lines are coupled to the dielectric layer and electrically isolated from the metal casing by the dielectric layer. At least one other integrated circuit is coupled to an inner surface of the EMI shield, and at least a portion of the inner surface of the EMI shield faces the first surface of the substrate. The signal lines are configured to provide electrical signals to the second circuit component. | 09-11-2014 |
20140252645 | THERMAL DESIGN AND ELECTRICAL ROUTING FOR MULTIPLE STACKED PACKAGES USING THROUGH VIA INSERT (TVI) - Some implementations provide a semiconductor package structure that includes a package substrate, a first package, an interposer coupled to the first package, and a first set of through via insert (TVI). The first set of TVI is coupled to the interposer and the package substrate. The first set of TVI is configured to provide heat dissipation from the first package. In some implementations, the semiconductor package structure further includes a heat spreader coupled to the interposer. The heat spreader is configured to dissipate heat from the first package. In some implementations, the first set of TVI is further configured to provide an electrical path between the first package and the package substrate. In some implementations, the first package is electrically coupled to the package substrate through the interposer and the first set of TVI. In some implementations, the first set of TVI includes a dielectric layer and a metal layer. | 09-11-2014 |
20140266508 | BANDPASS FILTER IMPLEMENTATION ON A SINGLE LAYER USING SPIRAL CAPACITORS - A planar capacitor includes, in part, a first metal line forming spiral-shaped loops around one of its end point, and a second metal line forming spiral-shaped loops between the loops of the first metal line. The first and second metal lines are coplanar, formed on an insulating layer, and form the first and second plates of the planar capacitor. The planar capacitor may be used to form a filter. Such a filter includes a first metal line forming first spiral-shaped loops, a second metal line forming second spiral-shaped loops, and a third metal line—coplanar with the first and second metal lines—forming loops between the loops of the first and second metal lines. The filter further includes a first inductor coupled between the first and third metal lines, and a second inductor coupled between the second and third metal lines. | 09-18-2014 |
20150048465 | SMALL FORM FACTOR MAGNETIC SHIELD FOR MAGNETORESTRICTIVE RANDOM ACCESS MEMORY (MRAM) - Some implementations provide a die that includes a magnetoresistive random access memory (MRAM) cell array that includes several MRAM cells. The die also includes a first ferromagnetic layer positioned above the MRAM cell array, a second ferromagnetic layer positioned below the MRAM cell array, and several vias positioned around at least one MRAM cell. The via comprising a ferromagnetic material. In some implementations, the first ferromagnetic layer, the second ferromagnetic layer and the several vias define a magnetic shield for the MRAM cell array. The MRAM cell may include a magnetic tunnel junction (MTJ). In some implementations, the several vias traverse at least a metal layer and a dielectric layer of the die. In some implementations, the vias are through substrate vias. In some implementations, the ferromagnetic material has high permeability and high B saturation. | 02-19-2015 |
20150084623 | ADJUSTABLE MAGNETIC PROBE FOR EFFICIENT NEAR FIELD SCANNING - A method and apparatus for testing near field magnetic fields of electronic devices. The method comprises measuring a magnetic field using a loop antenna that is oriented in a first direction. The loop antenna is swept through a desired range of azimuth angles while measuring the magnetic field. Once the first direction testing is completed, the loop antenna is changed to a second orientation direction. The magnetic field is then measured in the second orientation direction and is swept through a desired range of orientation angles in the second direction. The apparatus provides a loop antenna connected to a coaxial probe, with the coaxial cable serving as the center conductor, and two outer conductors. An axle is mounted to the loop antenna and connected to a step motor. A servo motor is also provided for moving the arm assembly. | 03-26-2015 |
20150084653 | CURRENT SOURCE DRIVEN MEASUREMENT AND MODELING - A method and apparatus for testing integrated circuit resistors includes applying a variable source current to a resistive device under test (DUT), measuring the resistance of the resistive DUT as a function of the source current, and fitting the measured resistance to parameters of a polynomial parametric equation, wherein the parametric equation comprises a constant resistance at zero current bias plus a second order current coefficient of resistance multiplied by the square of the current. | 03-26-2015 |