Patent application number | Description | Published |
20090020856 | SEMICONDUCTOR DEVICE STRUCTURES AND METHODS FOR SHIELDING A BOND PAD FROM ELECTRICAL NOISE - Semiconductor device structures and methods for shielding a bond pad from electrical noise generated by active circuitry of an integrated circuit carried on a substrate. The structure includes electrically characterized devices placed in a pre-determined arrangement under the bond pad. The pre-determined arrangement of the electrically characterized devices provides for a consistent high frequency environment under the bond pad, which simplifies modeling of the bond pad by a circuit designer. | 01-22-2009 |
20090146247 | SEMICONDUCTOR GROUND SHIELD - A ground shield is disclosed that includes a ‘cheesed’ metal positioned within a dielectric layer and a metal region positioned within a first metal level over the cheesed metal. The ground shield can have different forms depending on the metal used, and provisions are made to prevent diffusion of copper (Cu) when that is used as the metal in the cheese metal of the ground shield. The ground shield provides a low resistance, very thick metal at a first metal (M1) level for passive RF elements in conjunction with the standard back-end-of-line (BEOL) integration. The invention also includes a method of forming the ground shield. | 06-11-2009 |
20090184423 | LOW RESISTANCE AND INDUCTANCE BACKSIDE THROUGH VIAS AND METHODS OF FABRICATING SAME - A backside contact structure and method of fabricating the structure. The method includes: forming a dielectric isolation in a substrate, the substrate having a frontside and an opposing backside; forming a first dielectric layer on the frontside of the substrate; forming a trench in the first dielectric layer, the trench aligned over and within a perimeter of the dielectric isolation and extending to the dielectric isolation; extending the trench formed in the first dielectric layer through the dielectric isolation and into the substrate to a depth less than a thickness of the substrate; filling the trench and co-planarizing a top surface of the trench with a top surface of the first dielectric layer to form an electrically conductive through via; and thinning the substrate from a backside of the substrate to expose the through via. | 07-23-2009 |
20090240452 | SYSTEM AND METHOD FOR WIRELESS AND DYNAMIC INTRA-PROCESS MEASUREMENT OF INTEGRATED CIRCUIT PARAMETERS - Disclosed are embodiments of a system and a method that allow for wireless and dynamic intra-process (i.e., during and/or between process steps) measurements of integrated circuit parameters. The embodiments incorporate the use of a passive circuit, such as an inductor-capacitor-resistor (LCR) circuit resonator, that has a predetermined sensitivity to process variations in one or more physical or electrical integrated circuit parameters. The passive circuit can be wirelessly interrogated between and/or process steps. Then, the actual behavior exhibited by the passive circuit in response to the interrogation is compared to the expected behavior of an optimal circuit in the absence of process variations in order to determine the one or more parameters. Also disclosed is an embodiment of an exemplary passive circuit that can be used to implement the disclosed system and method embodiments. | 09-24-2009 |
20090243778 | INDUCTOR HAVING OPENING ENCLOSED WITHIN CONDUCTIVE LINE AND RELATED METHOD - Embodiments of an inductor including a conductive line including at least one turn and an opening positioned within an interior of a region of the conductive line are disclosed. Embodiments of a related method of designing the inductor are also disclosed. | 10-01-2009 |
20100019346 | IC HAVING FLIP CHIP PASSIVE ELEMENT AND DESIGN STRUCTURE - IC and design structure including various ways of raising a passive element such as an inductor off the surface of the substrate to improve the performance of the passive element are presented. A first wafer may be provided, and passive elements diced from a second wafer. The passive elements are flipped, and then aligned to be bonded on the first wafer such that the passive elements are raised a distance off the first wafer because of the presence of chip connections such as C4 solder bumps. A gap between the passive elements and the first wafer can be filled with underfill or air. If air is used, a hermetic seal around the gap can be created using chip connections such as C4 solder bumps or other known bonding means to seal the gap. | 01-28-2010 |
20100022063 | METHOD OF FORMING ON-CHIP PASSIVE ELEMENT - Various methods of forming a passive element such as an inductor raised off the surface of the substrate to improve the performance of the passive element are presented. A first wafer may be provided, and passive elements diced from a second wafer. The passive elements are flipped, and then aligned to be bonded on the first wafer such that the passive elements are raised a distance off the first wafer because of the presence of chip connections such as C4 solder bumps. A gap between the passive elements and the first wafer can be filled with underfill or air. If air is used, a hermetic seal around the gap can be created using chip connections such as C4 solder bumps or other known bonding means to seal the gap. | 01-28-2010 |
20120151748 | METHODS OF DESIGNING AN INDUCTOR HAVING OPENING ENCLOSED WITHIN CONDUCTIVE LINE - Embodiments disclosed include methods of designing an inductor. The inductor can include a conductive line including at least one turn and an opening positioned within an interior of a region of the conductive line. | 06-21-2012 |