Patent application number | Description | Published |
20140110821 | FOLDED CONICAL INDUCTOR - A semiconductor inductor structure may include a first spiral structure, located on a first metal layer, having a first outer-spiral electrically conductive track and a first inner-spiral electrically conductive track separated from the first outer-spiral electrically conductive track by a first dielectric material. A second spiral structure, located on a second metal layer, having a second outer-spiral electrically conductive track and a second inner-spiral electrically conductive track separated from the second outer-spiral electrically conductive track by a second dielectric material may also be provided. The first outer-spiral electrically conductive track may be electrically coupled to the second outer-spiral electrically conductive track and the first inner-spiral electrically conductive track may be electrically coupled to the second inner-spiral electrically conductive track. The first outer-spiral conductive track is laterally offset relative to the second outer-spiral conductive track and the first inner-spiral conductive track is laterally offset relative to the second inner-spiral conductive track. | 04-24-2014 |
20140246752 | SEGMENTED GUARD RING STRUCTURES WITH ELECTRICALLY INSULATED GAP STRUCTURES AND DESIGN STRUCTURES THEREOF - Disclosed are guard ring structures with an electrically insulated gap in a substrate to reduce or eliminate device coupling of integrated circuit chips, methods of manufacture and design structures. The method includes forming a guard ring structure comprising a plurality of metal layers within dielectric layers. The method further includes forming diffusion regions to electrically insulate a gap in a substrate formed by segmented portions of the guard ring structure. | 09-04-2014 |
20140264738 | FOLDED CONICAL INDUCTOR - A semiconductor inductor structure may include a first spiral structure, located on a first metal layer, having a first outer-spiral electrically conductive track and a first inner-spiral electrically conductive track separated from the first outer-spiral electrically conductive track by a first dielectric material. A second spiral structure, located on a second metal layer, having a second outer-spiral electrically conductive track and a second inner-spiral electrically conductive track separated from the second outer-spiral electrically conductive track by a second dielectric material may also be provided. The first outer-spiral electrically conductive track may be electrically coupled to the second outer-spiral electrically conductive track and the first inner-spiral electrically conductive track may be electrically coupled to the second inner-spiral electrically conductive track. The first outer-spiral conductive track is laterally offset relative to the second outer-spiral conductive track and the first inner-spiral conductive track is laterally offset relative to the second inner-spiral conductive track. | 09-18-2014 |
20150028979 | HIGH EFFICIENCY ON-CHIP 3D TRANSFORMER STRUCTURE - A transformer structure includes at least three sections, each corresponding to metal layers of an integrated circuit. A first section of the at least three sections is electrically coupled to a third section with a second section disposed between the first and third sections. The at least three sections includes inductor coils, all of which are wound in a same direction and voltage phase starting at an outer terminal and continuing to an inner terminal of each inductor coil. At least one radial wiring channel passes through a portion of a coil in one of the three sections to provide an external connection to an internal terminal of the coil in at least one of the three sections. | 01-29-2015 |
20150028982 | HIGH EFFICIENCY ON-CHIP 3D TRANSFORMER STURCTURE - A transformer structure includes a first coil having two sections of spiral, with a top section including a plurality of metal layers occupying top X metal layers and a bottom section including a plurality of metal layers occupying bottom Z metal layers, where X and Z represent a number of metal layers having a specific number selected to provide a particular performance of the first coil. A second coil of the transformer is disposed between the two sections of the first coil and includes a plurality of metal layers where Y represents a number of vertically adjacent metal layers, with the specific number chosen to provide the particular performance, such that a sum X+Y+Z represents a total number of vertical metal layers for the transformer structure. | 01-29-2015 |
20150028986 | HIGH EFFICIENCY ON-CHIP 3D TRANSFORMER STRUCTURE - An integrated circuit transformer structure includes at least two conductor groups stacked in parallel in different layers. A first spiral track is formed in the at least two conductor groups, the first spiral track included first turns of a first radius within each of the at least two conductor groups, and second turns of a second radius within each of the at least two conductor groups, the first and second turns being electrically connected. A second spiral track is formed in the at least two conductor groups, the second spiral track including third turns of a third radius within each of the at least two conductor groups and disposed in a same plane between the first and second turns in each of the at least two conductor groups. | 01-29-2015 |
20150028987 | HIGH EFFICIENCY ON-CHIP 3D TRANSFORMER STRUCTURE - An integrated circuit transformer structure includes at least two conductor groups stacked in parallel in different layers. A first spiral track is formed in the at least two conductor groups, the first spiral track includes first turns of a first radius within each of the at least two conductor groups, and second turns of a second radius within each of the at least two conductor groups, the first and second turns being electrically connected. A second spiral track is formed in the at least two conductor groups, the second spiral track including a plurality of adjacent turns of one or more radii within each of the at least two conductor groups and disposed in a same plane between the first and second turns in each of the at least two conductor groups. | 01-29-2015 |
20150035112 | SEGMENTED GUARD RING STRUCTURES WITH ELECTRICALLY INSULATED GAP STRUCTURES AND DESIGN STRUCTURES THEREOF - Disclosed are guard ring structures with an electrically insulated gap in a substrate to reduce or eliminate device coupling of integrated circuit chips, methods of manufacture and design structures. The method includes forming a guard ring structure comprising a plurality of metal layers within dielectric layers. The method further includes forming diffusion regions to electrically insulate a gap in a substrate formed by segmented portions of the guard ring structure. | 02-05-2015 |