| Patent application number | Description | Published |
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| 20100314708 | JUNCTION BARRIER SCHOTTKY DIODE - A junction barrier Schottky diode has an N-type well having a surface and a first peak impurity concentration; a P-type anode region in the surface of the well, and having a second peak impurity concentration; an N-type cathode contact region in the surface of the well and laterally spaced from a first wall of the anode region, and having a third peak impurity concentration; and a first N-type region in the surface of the well and laterally spaced from a second wall of the anode region, and having a fourth impurity concentration. The center of the spaced region between the first N-type region and the second wall of the anode region has a fifth peak impurity concentration. An ohmic contact is made to the anode region and cathode contact region, and a Schottky contact is made to the first N-type region. The first and fifth peak impurity concentrations are less than the fourth peak impurity concentration, and the fourth peak impurity concentration is less that the second and third peak impurity concentrations. | 12-16-2010 |
| 20110121387 | INTEGRATED GUARDED SCHOTTKY DIODE COMPATIBLE WITH TRENCH-GATE DMOS, STRUCTURE AND METHOD - A plurality of transistor cells, each of which can include a transistor P-body region and a Schottky diode, wherein the transistor P-body region can be formed below the Schottky diode to provide a semiconductor device having desirable electrical characteristics. | 05-26-2011 |
| 20110121808 | VOLTAGE CONVERTER AND SYSTEMS INCLUDING SAME - A voltage converter includes an output circuit having a high side device and a low side device which can be formed on a single die (i.e. a “PowerDie”) and connected to each other through a semiconductor substrate. Both the high side device and the low side device can include lateral diffused metal oxide semiconductor (LDMOS) transistors. Because both output transistors include the same type of transistors, the two devices can be formed simultaneously, thereby reducing the number of photomasks over other voltage converter designs. The voltage converter can further include a controller circuit on a different die which can be electrically coupled to, and co-packaged with, the PowerDie. | 05-26-2011 |
| 20110156679 | INTEGRATED TRENCH GUARDED SCHOTTKY DIODE COMPATIBLE WITH POWERDIE, STRUCTURE AND METHOD - A method and structure for a voltage converter including a trench field effect transistor (FET) and a trench guarded Schottky diode which is integrated with the trench FET. In an embodiment, a voltage converter can include a lateral FET, a trench FET, and a trench guarded Schottky diode integrated with the trench FET. A method to form a voltage converter can include the formation of a trench FET gate, a trench guarded Schottky diode gate, and a lateral FET gate using a single conductive layer such as a polysilicon layer. | 06-30-2011 |
| 20110156682 | VOLTAGE CONVERTER WITH INTEGRATED SCHOTTKY DEVICE AND SYSTEMS INCLUDING SAME - A semiconductor device such as a voltage converter includes a circuit stage such as an output stage having a high side device and a low side device which can be formed on a single die (i.e., a “PowerDie”) and connected to each other through a semiconductor substrate, and further includes a Schottky diode integrated with at least one of the low side device and the high side device. Both the high side device and the low side device can include lateral diffused metal oxide semiconductor (LDMOS) transistors. Because both output transistors include the same type of transistors, the two devices can be formed simultaneously, thereby reducing the number of photomasks over other voltage converter designs. The voltage converter can further include a controller circuit on a different die which can be electrically coupled to, and co-packaged with, the PowerDie. Various embodiments of the Schottky diode can provide Schottky protection and, additionally JFET protection for the Schottky device. | 06-30-2011 |
| 20110156810 | INTEGRATED DMOS AND SCHOTTKY - Embodiments relate generally to voltage converter structures including a diffused metal oxide semiconductor (DMOS) field effect transistors (FET). Embodiments include the combination of DMOS devices (e.g., FETs with isolated bodies from the substrate) with Schottky diodes on a single semiconductor die. The Schottky diode can be integrated into a cell of a DMOS device by forming an N-type area in the P-body region of the DMOS device. | 06-30-2011 |
| Patent application number | Description | Published |
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| 20080296721 | Junction Barrier Schottky Diode with Dual Silicides and Method of Manufacture - An integrated circuit, including a junction barrier Schottky diode, has an N type well, a P-type anode region in the surface of the well, and an N-type Schottky region in the surface of the well and horizontally abutting the anode region. A first silicide layer is on and makes a Schottky contact to the Schottky region and is on an adjoining anode region. A second silicide layer of a different material than the first silicide is on the anode region. An ohmic contact is made to the second silicide on the anode region and to the well. | 12-04-2008 |
| 20080296722 | JUNCTION BARRIER SCHOTTKY DIODE - A junction barrier Schottky diode has an N-type well having surface and a first impurity concentration; a p-type anode region in the surface of the well, and having a second impurity concentration; and an N-type cathode region in the surface of the well and horizontally abutting the anode region, and having a third impurity concentration. A first N-type region vertically abuts the anode and cathode regions, and has a fourth impurity concentration. An ohmic contact is made to the anode and a Schottky contact is made to the cathode. The fourth impurity concentration is less than the first, second and third impurity concentrations. | 12-04-2008 |
| 20090263952 | SEMICONDUCTOR DEVICE FABRICATION USING SPACERS - A process for fabrication of a semiconductor device that includes forming a first trench in a semiconductor body, forming spaced spacers in the first trench, and forming a narrower second trench at the bottom of the first trench using the spacers as a mask. | 10-22-2009 |
