Patent application number | Description | Published |
20090065814 | MOS device with schottky barrier controlling layer - A semiconductor device is formed on a semiconductor substrate. The semiconductor device comprises a drain, an epitaxial layer overlaying the drain, and an active region. The active region comprises a body disposed in the epitaxial layer, having a body top surface, a source embedded in the body, extending from the body top surface into the body, a gate trench extending into the epitaxial layer, a gate disposed in the gate trench, an active region contact trench extending through the source and the body into the drain, an active region contact electrode disposed within the active region contact trench, wherein the active region contact electrode and the drain form a Schottky diode, and a Schottky barrier controlling layer disposed in the epitaxial layer adjacent to the active region contact trench. | 03-12-2009 |
20090065855 | MOS device with integrated schottky diode in active region contact trench - A semiconductor device is formed on a semiconductor substrate. The device comprises a drain, an epitaxial layer overlaying the drain, and an active region. The active region comprises a body disposed in the epitaxial layer, having a body top surface and a body bottom surface, a source embedded in the body, extending from the body top surface into the body, a gate trench extending into the epitaxial layer, a gate disposed in the gate trench, an active region contact trench extending through the source and at least part of the body into the drain, wherein the active region contact trench is shallower than the body bottom surface, and an active region contact electrode disposed within the active region contact trench. | 03-12-2009 |
20090065861 | MOS device with low injection diode - A semiconductor device is formed on a semiconductor substrate. The device includes a drain, an epitaxial layer overlaying the drain, and an active region. The active region includes a body disposed in the epitaxial layer, having a body top surface, a source embedded in the body, extending from the body top surface into the body, a gate trench extending into the epitaxial layer, a gate disposed in the gate trench, an active region contact trench extending through the source and into the body, an active region contact electrode disposed within the active region contact trench, wherein a thin layer of body region separating the active region contact electrode from the drain. | 03-12-2009 |
20110042727 | MOSFET device with reduced breakdown voltage - A semiconductor device includes a drain, an epitaxial layer overlaying the drain, and an active region. The active region includes a body disposed in the epitaxial layer, a source embedded in the body, a gate trench extending into the epitaxial layer, a gate disposed in the gate trench, a contact trench extending through the source and at least part of the body, a contact electrode disposed in the contact trench, and an epitaxial enhancement portion disposed below the contact trench, wherein the epitaxial enhancement portion has the same carrier type as the epitaxial layer. | 02-24-2011 |
20120068262 | Integrated MOSFET Device and Method with Reduced Kelvin Contact Impedance and Breakdown Voltage - A MOSFET device and fabrication method are disclosed. The MOSFET has a drain in chip plane with an epitaxial layer overlay atop. The MOSFET further comprises: a Kelvin-contact body and an embedded Kelvin-contact source; a trench gate extending into the epitaxial layer; a lower contact trench extending through the Kelvin-contact source and at least part of the Kelvin-contact body defining respectively a vertical source-contact surface and a vertical body-contact surface; a patterned dielectric layer atop the Kelvin-contact source and the trench gate; a patterned top metal layer. As a result: a planar ledge is formed atop the Kelvin-contact source; the MOSFET device exhibits a lowered body Kelvin contact impedance and, owing to the presence of the planar ledge, a source Kelvin contact impedance that is lower than an otherwise MOSFET device without the planar ledge; and an integral parallel Schottky diode is also formed. | 03-22-2012 |
20120080751 | MOS DEVICE WITH VARYING CONTACT TRENCH LENGTHS - A semiconductor device is formed on a semiconductor substrate. The device comprises a drain; an epitaxial layer overlaying the drain; a body disposed in the epitaxial layer, having a body top surface and a body bottom surface; a source embedded in the body, extending from the body top surface into the body; a first gate trench extending into the epitaxial layer; a first gate disposed in the first gate trench; an active region contact trench extending through the source and at least part of the body into the drain; an active region contact electrode disposed within the active region contact trench; a second gate trench extending into the epitaxial layer; a second gate disposed in the gate trench; a gate contact trench formed within the second gate; and a gate contact electrode disposed within the gate contact trench. | 04-05-2012 |
20130001683 | FLEXIBLE CRSS ADJUSTMENT IN A SGT MOSFET TO SMOOTH WAVEFORMS AND TO AVOID EMI IN DC-DC APPLICATION - A semiconductor power device comprises a plurality of power transistor cells each having a trenched gate disposed in a gate trench wherein the trenched gate comprising a shielding bottom electrode disposed in a bottom portion of the gate trench electrically insulated from a top gate electrode disposed in a top portion of the gate trench by an inter-electrode insulation layer. At least one of the transistor cells includes the shielding bottom electrode functioning as a source-connecting shielding bottom electrode electrically connected to a source electrode of the semiconductor power device and at least one of the transistor cells having the shielding bottom electrode functioning as a gate-connecting shielding bottom electrode electrically connected to a gate metal of the semiconductor power device. | 01-03-2013 |
20130009242 | MOS DEVICE WITH LOW INJECTION DIODE - A semiconductor device is formed on a semiconductor substrate. The device includes: a drain; an epitaxial layer overlaying the drain, wherein a drain region extends into the epitaxial layer; and an active region. The active region includes: a body disposed in the epitaxial layer, having a body top surface; a source embedded in the body, extending from the body top surface into the body; a gate trench extending into the epitaxial layer; a gate disposed in the gate trench; an active region contact trench extending through the source and into the body; and an active region contact electrode disposed within the active region contact trench. A layer of body region separates the active region contact electrode from the epitaxial layer, and a low injection diode is formed below a body/drain junction. | 01-10-2013 |
20130015550 | JUNCTION BARRIER SCHOTTKY DIODE WITH ENFORCED UPPER CONTACT STRUCTURE AND METHOD FOR ROBUST PACKAGINGAANM Bhalla; AnupAACI Santa ClaraAAST CAAACO USAAGP Bhalla; Anup Santa Clara CA USAANM Pan; JiAACI San JoseAAST CAAACO USAAGP Pan; Ji San Jose CA USAANM Ng; DanielAACI CampbellAAST CAAACO USAAGP Ng; Daniel Campbell CA US - A semiconductor junction barrier Schottky (JBS-SKY) diode with enforced upper contact structure (EUCS) is disclosed. Referencing an X-Y-Z coordinate, the JBS-SKY diode has semiconductor substrate (SCST) parallel to X-Y plane. Active device zone (ACDZ) atop SCST and having a JBS-SKY diode with Z-direction current flow. Peripheral guarding zone (PRGZ) atop SCST and surrounding the ACDZ. The ACDZ has active lower semiconductor structure (ALSS) and enforced active upper contact structure (EUCS) atop ALSS. The EUC has top contact metal (TPCM) extending downwards and in electrical conduction with bottom of EUCS; and embedded bottom supporting structure (EBSS) inside TPCM and made of a hard material, the EBSS extending downwards till bottom of the EUCS. Upon encountering bonding force onto TPCM during packaging of the JBS-SKY diode, the EBSS enforces the EUCS against an otherwise potential micro cracking of the TPCM degrading the leakage current of the JBS-SKY diode. | 01-17-2013 |
20130200451 | NANO MOSFET WITH TRENCH BOTTOM OXIDE SHIELDED AND THIRD DIMENSIONAL P-BODY CONTACT - A semiconductor power device may include a lightly doped layer formed on a heavily doped layer. One or more devices are formed in the lightly doped layer. Each device may include a body region, a source region, and one or more gate electrodes formed in corresponding trenches in the lightly doped region. Each of the trenches has a depth in a first dimension, a width in a second dimension and a length in a third dimension. The body region is of opposite conductivity type to the lightly and heavily doped layers. The source region is formed proximate the upper surface. One or more deep contacts are formed at one or more locations along the third dimension proximate one or more of the trenches. The contacts extend in the first direction from the upper surface into the lightly doped layer and are in electrical contact with the source region. | 08-08-2013 |
20130203224 | FABRICATION OF MOSFET DEVICE WITH REDUCED BREAKDOWN VOLTAGE - Fabricating a semiconductor device includes: forming a gate trench in an epitaxial layer overlaying a semiconductor substrate; depositing gate material in the gate trench; forming a body in the epitaxial layer; forming a source embedded in the body; forming a contact trench that extends through the source and at least part of the body; forming a body contact implant on a sidewall of the contact trench; forming a diode enhancement layer along bottom of the contact trench, the diode enhancement layer having opposite carrier type as the epitaxial layer; disposing an epitaxial enhancement portion below the diode enhancement layer, the epitaxial enhancement portion having the same carrier type as the epitaxial layer; and disposing a contact electrode in the contact trench; wherein: a distance between top surface of the substrate and bottom of the epitaxial enhancement layer is shorter than a distance between the top surface of the substrate and bottom of the body. | 08-08-2013 |
20130203225 | FABRICATION OF MOS DEVICE WITH SCHOTTKY BARRIER CONTROLLING LAYER - Fabricating a semiconductor device includes: forming a gate trench in an epitaxial layer overlaying a semiconductor substrate; depositing gate material in the gate trench; forming a body; forming a source; forming an active region contact trench that extends through the source and the body into the drain; forming a Schottky barrier controlling layer in the epitaxial layer in bottom region of the active region contact trench; and disposing a contact electrode within the active region contact trench. | 08-08-2013 |
20130280870 | FABRICATION OF MOS DEVICE WITH INTEGRATED SCHOTTKY DIODE IN ACTIVE REGION CONTACT TRENCH - Fabricating a semiconductor device includes: forming a gate trench in an epitaxial layer overlaying a semiconductor substrate; depositing gate material in the gate trench; forming a body in the epitaxial layer, having a body top surface and a body bottom surface; forming a source; forming an active region contact trench that extends through the source and the body into the drain, wherein bottom surface of the active region contact trench is formed to include at least a portion that is shallower than the body bottom surface; and disposing a contact electrode within the active region contact trench. | 10-24-2013 |
20130334599 | INTEGRATED SNUBBER IN A SINGLE POLY MOSFET - A MOSFET device includes one or more active device structures and one or more dummy structures formed from semiconductor drift region and body regions. The dummy structures are electrically connected in parallel to the active device structures. Each dummy structure includes an electrically insulated snubber electrode formed proximate the body region and the drift region, an insulator portion formed over the snubber electrode and a top surface of the body region, and one or more electrical connections between the snubber electrode and portions of the body region and a source electrode. It is emphasized that this abstract is provided to comply with rules requiring an abstract that will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims. | 12-19-2013 |
20140054687 | MOSFET DEVICE WITH REDUCED BREAKDOWN VOLTAGE - A semiconductor device includes a drain region, an epitaxial layer overlaying the drain region, and an active region. The active region includes: a body disposed in the epitaxial layer; a source embedded in the body; a gate trench extending into the epitaxial layer; a gate disposed in the gate trench; a contact trench extending through the source and at least part of the body; a contact electrode disposed in the contact trench; and an implant disposed at least in part along a contact trench wall; and an epitaxial enhancement portion disposed below the contact trench and in contact with the implant. | 02-27-2014 |
20140179074 | METHOD OF MAKING MOSFET INTEGRATED WITH SCHOTTKY DIODE WITH SIMPLIFIED ONE-TIME TOP-CONTACT TRENCH ETCHING - Method for fabricating MOSFET integrated with Schottky diode (MOSFET/SKY) is disclosed. Gate trench is formed in an epitaxial layer overlaying semiconductor substrate, gate material is deposited therein. Body, source, dielectric regions are successively formed upon epitaxial layer and the gate trench. Top contact trench (TCT) is etched with vertical side walls defining Schottky diode cross-sectional width SDCW through dielectric and source region defining source-contact depth (SCD); and partially into body region by total body-contact depth (TBCD). A heavily-doped embedded body implant region (EBIR) of body-contact depth (BCD)06-26-2014 | |
20140235024 | Method of Making MOSFET Integrated with Schottky Diode with Simplified One-time Top-Contact Trench Etching - Method for fabricating MOSFET integrated with Schottky diode (MOSFET/SKY) is disclosed. Gate trench is formed in an epitaxial layer overlaying semiconductor substrate, gate material is deposited therein. Body, source, dielectric regions are successively formed upon epitaxial layer and the gate trench. Top contact trench (TCT) is etched with vertical side walls defining Schottky diode cross-sectional width SDCW through dielectric and source region defining source-contact depth (SCD); and partially into body region by total body-contact depth (TBCD). A heavily-doped embedded body implant region (EBIR) of body-contact depth (BCD)08-21-2014 | |
20140239388 | TERMINATION TRENCH FOR POWER MOSFET APPLICATIONS - Aspects of the present disclosure describe a termination structure for a power MOSFET device. A termination trench may be formed into a semiconductor material and may encircle an active area of the MOSFET. The termination trench may comprise a first and second portion of conductive material. The first and second portions of conductive material are electrically isolated from each other. It is emphasized that this abstract is provided to comply with rules requiring an abstract that will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims. | 08-28-2014 |
20140252494 | INTEGRATED SNUBBER IN A SINGLE POLY MOSFET - Aspects of the present disclosure describe MOSFET devices that have snubber circuits. The snubber circuits comprise one or more resistors with a dynamically controllable resistance that is controlled by changes to a gate and/or drain potentials of the one or more MOSFET structures during switching events. It is emphasized that this abstract is provided to comply with rules requiring an abstract that will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims. | 09-11-2014 |
20140319605 | NANO MOSFET WITH TRENCH BOTTOM OXIDE SHIELDED AND THIRD DIMENSIONAL P-BODY CONTACT - A semiconductor power device may include a lightly doped layer formed on a heavily doped layer. One or more devices are formed in the lightly doped layer. Each device may include a body region, a source region, and one or more gate electrodes formed in corresponding trenches in the lightly doped region. Each of the trenches has a depth in a first dimension, a width in a second dimension and a length in a third dimension. The body region is of opposite conductivity type to the lightly and heavily doped layers. The source region is formed proximate the upper surface. One or more deep contacts are formed at one or more locations along the third dimension proximate one or more of the trenches. The contacts extend in the first direction from the upper surface into the lightly doped layer and are in electrical contact with the source region. | 10-30-2014 |
20140357030 | FABRICATION OF MOS DEVICE WITH SCHOTTKY BARRIER CONTROLLING LAYER - Fabricating a semiconductor device includes: forming a gate trench in an epitaxial layer overlaying a semiconductor substrate; depositing gate material in the gate trench; forming a body; forming a source; forming an active region contact trench that extends through the source and the body into a drain; forming a Schottky barrier controlling layer in the epitaxial layer in bottom region of the active region contact trench; and disposing a contact electrode within the active region contact trench. The Schottky barrier controlling layer controls Schottky barrier height of a Schottky diode formed by the contact electrode and the drain. | 12-04-2014 |