Class / Patent application number | Description | Number of patent applications / Date published |
257496000 | With physical configuration of semiconductor surface to reduce electric field (e.g., reverse bevels, double bevels, stepped mesas, etc.) | 14 |
20080197442 | SEMICONDUCTOR COMPONENT WITH CELL STRUCTURE AND METHOD FOR PRODUCING THE SAME - A semiconductor component comprises a semiconductor body comprising a first component electrode arranged on one of the surfaces of the semiconductor body, a second component electrode arranged on one of the surfaces of the semiconductor body, and a component control electrode arranged on one of the surfaces of the semiconductor body. In this case, active semiconductor element cells are arranged in a first active cell array of the semiconductor body, the semiconductor element cells comprising a first cell electrode, a second cell electrode and a cell control electrode and also a drift path between the cell electrodes. At least the component control electrode is arranged on a partial region of the semiconductor body and a second active cell array is additionally situated in the partial region of the semiconductor body below the component control electrode. | 08-21-2008 |
20100078755 | Semiconductor structure with an electric field stop layer for improved edge termination capability - An exemplary edge termination structure maintains the breakdown voltage of the semiconductor device after it has been sawed off the wafer and packaged by creating an electric field stop layer at a periphery of the semiconductor device. The electric field stop layer has a dopant concentration higher than that of the layer in which an edge termination is implemented, such as a drift layer or a channel layer. The electric field stop layer may be created by selectively masking the peripheries of the device during the device processing, i.e., mesa etch, to protect and preserve the highly doped material at the peripheries of the device. | 04-01-2010 |
20100213568 | MICRO-ELECTRO-MECHANICAL-SYSTEM DEVICE WITH GUARD RING AND METHOD FOR MAKING SAME - The present invention discloses a MEMS device with guard ring, and a method for making the MEMS device. The MEMS device comprises a bond pad and a sidewall surrounding and connecting with the bond pad, characterized in that the sidewall forms a guard ring by an etch-resistive material. | 08-26-2010 |
20100244179 | STRUCTURE AND METHOD FOR LATCHUP IMPROVEMENT USING THROUGH WAFER VIA LATCHUP GUARD RING - A method and structure for preventing latchup. The structure includes a latchup sensitive structure and a through wafer via structure bounding the latch-up sensitive structure to prevent parasitic carriers from being injected into the latch-up sensitive structure. | 09-30-2010 |
20110278693 | HIGH-VOLTAGE VARIABLE BREAKDOWN VOLTAGE (BV) DIODE FOR ELECTROSTATIC DISCHARGE (ESD) APPLICATIONS - Formation of an electrostatic discharge (ESD) protection device having a desired breakdown voltage (BV) is disclosed. The breakdown voltage (BV) of the device can be set, at least in part, by varying the degree to which a surface junction between two doped areas is covered. This junction can be covered in one embodiment by a dielectric material and/or a semiconductor material. Moreover, a variable breakdown voltage can be established by concurrently forming, in a single process flow, multiple diodes that have different breakdown voltages, where the diodes are also formed concurrently with circuitry that is to be protected. To generate the variable or different breakdown voltages, respective edges of isolation regions can be extended to cover more of the surface junctions of different diodes. In this manner, a first diode can have a first breakdown voltage (BV | 11-17-2011 |
20110298081 | SEMICONDUCTOR DEVICE - A semiconductor device includes a semiconductor substrate, a surface electrode formed on the semiconductor substrate, an ineffective region formed to surround the surface electrode, and an ID-indicating portion made of a different material than the surface electrode and formed on the surface electrode to indicate an ID. The area of the ineffective region is smaller than the area of the surface electrode. | 12-08-2011 |
20120061793 | PARASITIC PNP BIPOLAR TRANSISTOR IN A SILICON-GERMANIUM BICMOS PROCESS - A parasitic PNP bipolar transistor, wherein a base region includes a first and a second region; the first region is formed in an active area, has a depth larger than shallow trench field oxides, and has its bottom laterally extended into the bottom of the shallow trench field oxides on both sides of an active area; the second region is formed in an upper part of the first region and has a higher doping concentration; an N-type and a P-type pseudo buried layer is respectively formed at the bottom of the shallow trench field oxides; a deep hole contact is formed on top of the N-type pseudo buried layer to pick up the base; the P-type pseudo buried layer forms a collector region separated from the active area by a lateral distance; an emitter region is formed by a P-type SiGe epitaxial layer formed on top of the active area. | 03-15-2012 |
20130009272 | Semiconductor device - A semiconductor device includes a semiconductor substrate, a semiconductor element disposed in the semiconductor substrate, a guard ring surrounding at least a part of a periphery of the semiconductor element, a guard ring terminal coupled with the guard ring, a power supply line divided from a line coupled with a power source and applying a first constant voltage to the semiconductor element based on a voltage generated by the power source, a guard ring terminal fixation line divided from the line coupled with the power source and applying a second constant voltage to the guard ring terminal, a bypass capacitor disposed on the guard ring terminal fixation line so as to be coupled in parallel with the guard ring, and a resistor disposed on the guard ring terminal fixation line between the power source and the bypass capacitor. | 01-10-2013 |
20130009273 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device and a method for fabricating a semiconductor device are provided. The method for fabricating a semiconductor device includes forming an isolation layer over a semiconductor substrate defining first and second regions, etching the isolation layer at an edge of the first region to form a guard ring pattern, forming a buried guard ring filling the guard ring pattern, selectively etching the isolation layer of the first region to form a plurality of patterns, forming a plurality of conductive patterns in the respective patterns, and completely removing the isolation layer of the first region through a dip-out process. | 01-10-2013 |
20130020672 | System and Method for Packaging of High-Voltage Semiconductor Devices - A method and an electronic device structure comprising at least one access lead to adapted to be connected to an electrical circuit; at least one substrate region; at least one semiconductor die positioned on the substrate; the at least one semiconductor die being operatively connected to the at least one access lead; a dielectric region extending below the at least one semiconductor die; the dielectric region being formed by creating a cavity in the at least one substrate region; whereby the dielectric region operates to reduce electric field stresses produced by the at least one semiconductor die to thereby reduce the possibility of material failure and voltage breakdown. The method of making an electronic device structure comprises providing at least one substrate region; providing at least one semiconductor die located on the at least one substrate region; removing a portion of the at least one substrate region to provide a dielectric region within the substrate extending below the at least one semiconductor die; whereby the dielectric region within the at least one substrate region operates to reduce electric field stresses produced by the at least one semiconductor die to thereby reduce the possibility of material failure and voltage breakdown. | 01-24-2013 |
20130154048 | Guard Ring for Through Vias - A guard ring for a through via, and a method of manufacture thereof, is provided. The guard ring comprises one or more rings around a through via, wherein the rings may be, for example, circular, rectangular, octagon, elliptical, square, or the like. The guard ring may be formed from a contact through an inter-layer dielectric layer and interconnect structures (e.g., vias and lines) extending through the inter-metal dielectric layers. The guard ring may contact a well formed in the substrate. | 06-20-2013 |
20130256826 | DISCONTINUOUS GUARD RING - An integrated circuit chip comprising a guard ring formed on a semiconductor substrate that surrounds the active region of the integrated circuit chip and extends from the semiconductor substrate through one or more of a plurality of wiring levels. The guard ring comprises stacked metal lines with spaces breaking up each respective metal line. Each space may be formed such that it partially overlies the space in the metal line directly below but does not overlie any other space. Alternatively, each space may also be formed such that each space is at least completely overlying the space in the metal line below it. | 10-03-2013 |
20140145292 | Semiconductor Device With Junction Termination Extension Structure On Mesa And Method Of Fabricating The Same - The invention provides a semiconductor device with a junction termination extension structure on a mesa and a method of fabricating the same. The device comprises: a type-I semiconductor substrate having a first surface and a second surface; a type-I epitaxial layer disposed on the first surface; at least one depression disposed on the type-I epitaxial layer; a mesa-type junction termination extension structure surrounding the at least one depression wherein the mesa-type junction termination extension structure is of type-II; and at least one semiconductor component formed one the depression. | 05-29-2014 |
20140319646 | JUNCTION TERMINATION STRUCTURES INCLUDING GUARD RING EXTENSIONS AND METHODS OF FABRICATING ELECTRONIC DEVICES INCORPORATING SAME - An electronic device includes a semiconductor layer, a primary junction in the semiconductor layer, a lightly doped region surrounding the primary junction and a junction termination structure in the lightly doped region adjacent the primary junction. The junction termination structure has an upper boundary, a side boundary, and a corner between the upper boundary and the side boundary, and the lightly doped region extends in a first direction away from the primary junction and normal to a point on the upper boundary by a first distance that is smaller than a second distance by which the lightly doped region extends in a second direction away from the primary junction and normal to a point on the corner. At least one floating guard ring segment may be provided in the semiconductor layer outside the corner of the junction termination structure. Related methods are also disclosed. | 10-30-2014 |