Class / Patent application number | Description | Number of patent applications / Date published |
257134000 | J-FET (junction field effect transistor) | 6 |
20120007138 | SMOKE-FREE ESD PROTECTION STRUCTURE USED IN INTEGRATED CIRCUIT DEVICES - The present invention provides a smoke-free ESD protection structure used in integrated circuit devices. A JFET or n-channel MOS transistor is coupled between an I/O pad, and a transistor and diode, wherein the JFET or n-channel MOS transistor limits the current flowing through the diode and transistor to prevent the integrated circuit device from heating up and catching on fire or smoke during the smoke test. Moreover, the integrated circuit device will not be damaged by the smoke test. | 01-12-2012 |
20120199875 | CASCODE SCHEME FOR IMPROVED DEVICE SWITCHING BEHAVIOR - A switching device includes a low voltage normally-off transistor and a control circuit built into a common die. The device includes source, gate and drain electrodes for the transistor and one or more auxiliary electrodes. The drain electrode is on one surface of a die on which the transistor is formed, while each of the remaining electrodes is located on an opposite surface. The one or more auxiliary electrodes provide electrical contact to the control circuit, which is electrically connected to one or more of the other electrodes. | 08-09-2012 |
20140291721 | Surge Protection Circuit for Power MOSFETs used as Active Bypass Diodes in Photovoltaic Solar Power Systems - A protection circuit for metal-oxide-semiconductor field-effect transistors (MOSFETs) that are used as active bypass diodes in photovoltaic solar power systems is disclosed. The protection circuit comprises, a detection circuit for detecting the start of a surge event, a switch disposed to connect the MOSFET's drain to it's gate in response to the start of the surge, a diode in series with the switch, a bistable circuit for keeping the switch closed during the surge, and a means of resetting the bistable circuit after the surge. | 10-02-2014 |
20160005732 | BIPOLAR JUNCTION TRANSISTOR STRUCTURE - We disclose a bi-directional bipolar junction transistor (BJT) structure, comprising: a base region of a first conductivity type, wherein said base region constitutes a drift region of said structure; first and second collector/emitter (CE) regions, each of a second conductivity type adjacent opposite ends of said base region; wherein said base region is lightly doped relative to said collector/emitter regions; the structure further comprising: a base connection to said base region, wherein said base connection is within or adjacent to said first collector/emitter region. | 01-07-2016 |
257135000 | Vertical (i.e., where the source is located above the drain or vice versa) | 2 |
257136000 | Enhancement mode (e.g., so-called SITs) | 2 |
20090072269 | GALLIUM NITRIDE DIODES AND INTEGRATED COMPONENTS - A diode device can include an enhancement mode gallium nitride transistor having a gate, a drain and a source, wherein the gate is connected to the drain to enable the device to perform as a diode. In some embodiments, an integrated switching-diode is described that includes a substrate, a gallium nitride switching transistor on the substrate and a free wheeling diode on the substrate and coupled to the switching transistor. | 03-19-2009 |
20100308370 | Insulated gate bipolar transistor (IGBT) with monolithic deep body clamp diode to prevent latch-up - A trench insulation gate bipolar transistor (IGBT) power device with a monolithic deep body clamp diode comprising a plurality of trench gates surrounded by emitter regions of a first conductivity type near a top surface of a semiconductor substrate of the first conductivity type encompassed in base regions of a second conductivity type. The trench semiconductor power device further comprises a collector region of the second conductivity type disposed on a rear side opposite from the top surface of the semiconductor substrate corresponding to and underneath the trench gates surrounded by the emitter regions encompassed in the base regions constituting a plurality of insulation gate bipolar transistors (IGBTs). The IGBT power device further includes a deep dopant region of the second conductivity type having P-N junction depth deeper than the base region, disposed between and extending below the trench gates in the base region of the first conductivity type. The IGBT power device further includes a dopant region of the first conductivity type disposed on the rear side of the semiconductor substrate corresponding to and underneath the deep dopant region disposed between the trench gates thus constituting a plurality of deep body diodes. | 12-09-2010 |