Patents Assigned to Avogy, Inc.
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Patent number: 8823140Abstract: An embodiment of a semiconductor device includes a III-nitride base structure of a first conductivity type, and a III-nitride emitter structure of a second conductivity type having a first surface and a second surface. The second surface is substantially opposite the first surface. The first surface of the III-nitride emitter structure is coupled to a surface of the III-nitride base structure. The semiconductor also includes a first dielectric layer coupled to the second surface of the III-nitride emitter structure, and a spacer coupled to a sidewall of the III-nitride emitter structure and the surface of the III-nitride base structure. The semiconductor also includes a base contact structure with a III-nitride material coupled to the spacer, the surface of the III-nitride base structure, and the first dielectric layer, such that the first dielectric layer and the spacer are disposed between the base contact structure and the III-nitride emitter structure.Type: GrantFiled: November 13, 2012Date of Patent: September 2, 2014Assignee: Avogy, Inc.Inventors: Hui Nie, Andrew Edwards, Isik Kizilyalli, Dave Bour
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Patent number: 8822311Abstract: A III-nitride semiconductor device includes an active region for supporting current flow during forward-biased operation of the III-nitride semiconductor device. The active region includes a first III-nitride epitaxial material having a first conductivity type, and a second III-nitride epitaxial material having a second conductivity type. The III-nitride semiconductor device further includes an edge-termination region physically adjacent to the active region and including an implanted region comprising a portion of the first III-nitride epitaxial material. The implanted region of the first III-nitride epitaxial material has a reduced electrical conductivity in relation to portions of the first III-nitride epitaxial material adjacent to the implanted region.Type: GrantFiled: December 22, 2011Date of Patent: September 2, 2014Assignee: Avogy, Inc.Inventors: Isik C. Kizilyalli, Hui Nie, Andrew P. Edwards, Richard J. Brown, Donald R. Disney
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Publication number: 20140235030Abstract: A method for fabricating an edge termination structure includes providing a substrate having a first surface and a second surface and a first conductivity type, forming a first GaN epitaxial layer of the first conductivity type coupled to the first surface of the substrate, and forming a second GaN epitaxial layer of a second conductivity type opposite to the first conductivity type. The second GaN epitaxial layer is coupled to the first GaN epitaxial layer. The method also includes implanting ions into a first region of the second GaN epitaxial layer to electrically isolate a second region of the second GaN epitaxial layer from a third region of the second GaN epitaxial layer. The method further includes forming an active device coupled to the second region of the second GaN epitaxial layer and forming the edge termination structure coupled to the third region of the second GaN epitaxial layer.Type: ApplicationFiled: April 29, 2014Publication date: August 21, 2014Applicant: AVOGY, INC.Inventors: Donald R. Disney, Andrew P. Edwards, Hui Nie, Richard J. Brown, Isik C. Kizilyalli, David P. Bour, Linda Romano, Thomas R. Prunty
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Publication number: 20140203328Abstract: A semiconductor device includes a III-nitride substrate and a first III-nitride epitaxial layer coupled to the III-nitride substrate and comprising a drift region, a channel region, and an extension region. The channel region is separated from the III-nitride substrate by the drift region. The channel region is characterized by a first width. The extension region is separated from the drift region by the channel region. The extension region is characterized by a second width less than the first width. The semiconductor device also includes a second III-nitride epitaxial layer coupled to a top surface of the extension region, a III-nitride gate structure coupled to a sidewall of the channel region and laterally self-aligned with respect to the extension region, and a gate metal structure in electrical contact with the III-nitride gate structure and laterally self-aligned with respect to the extension region.Type: ApplicationFiled: March 25, 2014Publication date: July 24, 2014Applicant: Avogy, Inc.Inventors: Donald R. Disney, Richard J. Brown, Hui Nie
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Publication number: 20140206179Abstract: A semiconductor structure includes a GaN substrate having a first surface and a second surface opposing the first surface. The GaN substrate is characterized by a first conductivity type and a first dopant concentration. The semiconductor structure also includes a first GaN epitaxial layer of the first conductivity type coupled to the second surface of the GaN substrate and a second GaN epitaxial layer of a second conductivity type coupled to the first GaN epitaxial layer. The second GaN epitaxial layer includes an active device region, a first junction termination region characterized by an implantation region having a first implantation profile, and a second junction termination region characterized by an implantation region having a second implantation profile.Type: ApplicationFiled: March 20, 2014Publication date: July 24, 2014Applicant: AVOGY, INC.Inventors: Hui Nie, Andrew P. Edwards, Donald R. Disney, Richard J. Brown, Isik C. Kizilyalli
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Patent number: 8785975Abstract: A semiconductor device includes a III-nitride substrate of a first conductivity type, a first III-nitride epitaxial layer of the first conductivity type coupled to the III-nitride substrate, and a first III-nitride epitaxial structure coupled to a first portion of a surface of the first III-nitride epitaxial layer. The first III-nitride epitaxial structure has a sidewall. The semiconductor device further includes a second III-nitride epitaxial structure of the first conductivity type coupled to the first III-nitride epitaxial structure, a second III-nitride epitaxial layer of the first conductivity type coupled to the sidewall of the second III-nitride epitaxial layer and a second portion of the surface of the first III-nitride epitaxial layer, and a third III-nitride epitaxial layer of a second conductivity type coupled to the second III-nitride epitaxial layer. The semiconductor device also includes one or more dielectric structures coupled to a surface of the third III-nitride epitaxial layer.Type: GrantFiled: June 21, 2012Date of Patent: July 22, 2014Assignee: Avogy, Inc.Inventors: Hui Nie, Andrew P. Edwards, Donald R. Disney, Isik C. Kizilyalli
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Patent number: 8778788Abstract: A semiconductor structure includes a III-nitride substrate with a first side and a second side opposing the first side. The III-nitride substrate is characterized by a first conductivity type and a first dopant concentration. The semiconductor structure also includes a III-nitride epitaxial structure including a first III-nitride epitaxial layer coupled to the first side of the III-nitride substrate and a plurality of III-nitride regions of a second conductivity type. The plurality of III-nitride regions have at least one III-nitride epitaxial region of the first conductivity type between each of the plurality of III-nitride regions. The semiconductor structure further includes a first metallic structure electrically coupled to one or more of the plurality of III-nitride regions and the at least one III-nitride epitaxial region. A Schottky contact is created between the first metallic structure and the at least one III-nitride epitaxial region.Type: GrantFiled: October 11, 2011Date of Patent: July 15, 2014Assignee: Avogy, Inc.Inventors: Andrew P. Edwards, Hui Nie, Isik C. Kizilyalli, Linda Romano, David P. Bour, Richard J. Brown, Thomas R. Prunty
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Publication number: 20140191241Abstract: An array of GaN-based vertical JFETs includes a GaN substrate comprising a drain of one or more of the JFETs and one or more epitaxial layers coupled to the GaN substrate. The array also includes a plurality of hexagonal cells coupled to the one or more epitaxial layers and extending in a direction normal to the GaN substrate. Sidewalls of the plurality of hexagonal cells are substantially aligned with respect to crystal planes of the GaN substrate. The array further includes a plurality of channel regions, each having a portion adjacent a sidewall of the plurality of hexagonal cells, a plurality of gate regions of one or more of the JFETs, each electrically coupled to one or more of the plurality of channel regions, and a plurality of source regions of one or more of the JFETs electrically coupled to one or more of the plurality of channel regions.Type: ApplicationFiled: January 7, 2013Publication date: July 10, 2014Applicant: AVOGY, Inc.Inventors: Andrew P. Edwards, Hui Nie, Donald R. Disney, Isik Kizilyalli
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Publication number: 20140191242Abstract: A vertical JFET includes a GaN substrate comprising a drain of the JFET and a plurality of patterned epitaxial layers coupled to the GaN substrate. A distal epitaxial layer comprises a first part of a source channel and adjacent patterned epitaxial layers are separated by a gap having a predetermined distance. The vertical JFET also includes a plurality of regrown epitaxial layers coupled to the distal epitaxial layer and disposed in at least a portion of the gap. A proximal regrown epitaxial layer comprises a second part of the source channel. The vertical JFET further includes a source contact passing through portions of a distal regrown epitaxial layer and in electrical contact with the source channel, a gate contact in electrical contact with a distal regrown epitaxial layer, and a drain contact in electrical contact with the GaN substrate.Type: ApplicationFiled: January 7, 2013Publication date: July 10, 2014Applicant: AVOGY, Inc.Inventors: Hui Nie, Andrew P. Edwards, Isik Kizilyalli, David P. Bour, Thomas R. Prunty, Quentin Diduck
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Publication number: 20140183543Abstract: An electronic package includes a leadframe, a plurality of pins, a gallium-nitride (GaN) transistor, and a GaN diode. The GaN transistor includes a drain region, a drift region, a source region, and a gate region; the drain region includes a GaN substrate and a drain contact, the drift region includes a first GaN epitaxial layer coupled to the GaN substrate, the source region includes a source contact and is separated from the GaN substrate by the drift region, and the gate region includes a second GaN epitaxial layer and a gate contact. The GaN diode includes an anode region and a cathode region, the cathode region including the GaN substrate and a cathode contact, and the anode region including a third GaN epitaxial layer coupled to the GaN substrate and an anode contact. The drain contact and the anode contact are electrically connected to the leadframe.Type: ApplicationFiled: December 28, 2012Publication date: July 3, 2014Applicant: Avogy, Inc.Inventors: Donald R. Disney, Hemal N. Shah
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Publication number: 20140185327Abstract: A power supply is provided, the power supply including a filter stage configured to receive an AC input voltage, a bridge circuit configured to rectify the filtered AC input voltage, an AC/DC converter, and a DC/DC converter. The AC/DC converter includes a primary transistor and an auxiliary circuit including an auxiliary transistor and configured to convert the rectified AC input voltage to a first DC output voltage, wherein the primary transistor and the auxiliary transistor are at least one of gallium nitride (GaN) transistors or silicon carbide (SiC) transistors. The DC/DC converter is configured to convert the first DC output voltage to a second DC output voltage.Type: ApplicationFiled: December 31, 2012Publication date: July 3, 2014Applicant: AVOGY, INCInventor: Hemal N. Shah
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Publication number: 20140175450Abstract: A method for fabricating a vertical GaN power device includes providing a first GaN material having a first conductivity type and forming a second GaN material having a second conductivity type and coupled to the first GaN material to create a junction. The method further includes implanting ions through the second GaN material and into a first portion of the first GaN material to increase a doping concentration of the first conductivity type. The first portion of the junction is characterized by a reduced breakdown voltage relative to a breakdown voltage of a second portion of the junction.Type: ApplicationFiled: December 20, 2012Publication date: June 26, 2014Applicant: AVOGY, INC.Inventor: Donald R. DISNEY
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Patent number: 8749015Abstract: A method for fabricating an edge termination structure includes providing a substrate having a first surface and a second surface and a first conductivity type, forming a first GaN epitaxial layer of the first conductivity type coupled to the first surface of the substrate, and forming a second GaN epitaxial layer of a second conductivity type opposite to the first conductivity type. The second GaN epitaxial layer is coupled to the first GaN epitaxial layer. The method also includes implanting ions into a first region of the second GaN epitaxial layer to electrically isolate a second region of the second GaN epitaxial layer from a third region of the second GaN epitaxial layer. The method further includes forming an active device coupled to the second region of the second GaN epitaxial layer and forming the edge termination structure coupled to the third region of the second GaN epitaxial layer.Type: GrantFiled: November 17, 2011Date of Patent: June 10, 2014Assignee: Avogy, Inc.Inventors: Donald R. Disney, Andrew P. Edwards, Hui Nie, Richard J. Brown, Isik C. Kizilyalli, David P. Bour, Linda Romano, Thomas R. Prunty
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Publication number: 20140153304Abstract: An electrical circuit includes an input for an AC input voltage coupled to a first inductive element with first and second outputs coupled to respective first and second nodes, and a four-quadrant (4-Q) switch coupled between the first and second nodes. A capacitor is coupled between the first node and a third node, a second inductive element is coupled between the third node and the second node, and a first bidirectional device and a first diode are coupled in series between a positive output node and a negative output node. A first output of the second inductive element is coupled between the first bidirectional device and the first diode. A second bidirectional device and a second diode are coupled in series between the positive output node and the negative output node. A second output of the second inductive element is coupled between the second bidirectional device and the second diode.Type: ApplicationFiled: December 3, 2012Publication date: June 5, 2014Applicant: AVOGY, INC.Inventors: Sitthipong Angkititrakul, Hemal N. Shah
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Patent number: 8741707Abstract: A method for fabricating an edge termination, which can be used in conjunction with GaN-based materials, includes providing a substrate of a first conductivity type. The substrate has a first surface and a second surface. The method also includes forming a first GaN epitaxial layer of the first conductivity type coupled to the first surface of the substrate and forming a second GaN epitaxial layer of a second conductivity type opposite to the first conductivity type. The second GaN epitaxial layer is coupled to the first GaN epitaxial layer. The substrate, the first GaN epitaxial layer and the second GaN epitaxial layer can be referred to as an epitaxial structure.Type: GrantFiled: December 22, 2011Date of Patent: June 3, 2014Assignee: Avogy, Inc.Inventors: Donald R. Disney, Isik C. Kizilyalli, Linda Romano, Andrew Edwards, Hui Nie
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Publication number: 20140145201Abstract: A semiconductor structure includes a III-nitride substrate and a first III-nitride epitaxial layer of a first conductivity type coupled to the III-nitride substrate. The semiconductor structure also includes a first III-nitride epitaxial structure of the first conductivity type coupled to the first III-nitride epitaxial layer and a second III-nitride epitaxial structure of the first conductivity type coupled to the first III-nitride epitaxial structure. The semiconductor structure further includes a second III-nitride epitaxial layer coupled to the first III-nitride epitaxial structure. The second III-nitride epitaxial layer is of a second conductivity type and is not electrically connected to the second III-nitride epitaxial structure.Type: ApplicationFiled: November 29, 2012Publication date: May 29, 2014Applicant: AVOGY, INC.Inventors: Hui Nie, Andrew P. Edwards, David P. Bour, Isik C. Kizilyalli, Richard J. Brown, Thomas R. Prunty
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Publication number: 20140131775Abstract: An embodiment of a vertical power device includes a III-nitride substrate, a drift region coupled to the III-nitride substrate and comprising a III-nitride material of a first conductivity type, and a channel region coupled to the drift region and comprising a III-nitride material of the first conductivity type. The vertical power device also includes a source region coupled to the channel region and comprising a III-nitride material of the first conductivity type, and a gate region coupled to the channel region. The gate region includes a III-nitride material of a second conductivity type. The vertical power device further includes a source-coupled region coupled to the drift region and electrically connected with the source region. The source-coupled region includes a III-nitride material of the second conductivity type.Type: ApplicationFiled: November 13, 2012Publication date: May 15, 2014Applicant: AVOGY, INC.Inventor: Donald R. Disney
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Publication number: 20140131721Abstract: A gallium nitride (GaN)-based junction field-effect transistor (JFET) can include a GaN drain region having a top surface extending in a lateral dimension, a source region, and a GaN channel region of a first conductivity type coupled between the source region and the GaN drain region and operable to conduct electrical current between the source region and the GaN drain region. The JFET can also include a blocking layer disposed between the source region and the GaN drain region such that the GaN channel region is operable to conduct the electrical current substantially along the lateral dimension in a laterally-conductive region of the GaN channel region, and a GaN gate region of a second conductivity type coupled to the GaN channel region such that the laterally-conductive region of the GaN channel region is disposed between at least a portion of the blocking layer and the GaN gate region.Type: ApplicationFiled: November 13, 2012Publication date: May 15, 2014Applicant: AVOGY, INC.Inventors: Hui Nie, Andrew Edwards, Isik Kizilyalli, Dave Bour, Thomas R. Prunty
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Publication number: 20140131837Abstract: An embodiment of a semiconductor device includes a III-nitride base structure of a first conductivity type, and a III-nitride emitter structure of a second conductivity type having a first surface and a second surface. The second surface is substantially opposite the first surface. The first surface of the III-nitride emitter structure is coupled to a surface of the III-nitride base structure. The semiconductor also includes a first dielectric layer coupled to the second surface of the III-nitride emitter structure, and a spacer coupled to a sidewall of the III-nitride emitter structure and the surface of the III-nitride base structure. The semiconductor also includes a base contact structure with a III-nitride material coupled to the spacer, the surface of the III-nitride base structure, and the first dielectric layer, such that the first dielectric layer and the spacer are disposed between the base contact structure and the III-nitride emitter structure.Type: ApplicationFiled: November 13, 2012Publication date: May 15, 2014Applicant: AVOGY, INC.Inventors: Hui Nie, Andrew Edwards, Isik Kizilyalli, Dave Bour
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Patent number: 8716716Abstract: A semiconductor structure includes a GaN substrate having a first surface and a second surface opposing the first surface. The GaN substrate is characterized by a first conductivity type and a first dopant concentration. The semiconductor structure also includes a first GaN epitaxial layer of the first conductivity type coupled to the second surface of the GaN substrate and a second GaN epitaxial layer of a second conductivity type coupled to the first GaN epitaxial layer. The second GaN epitaxial layer includes an active device region, a first junction termination region characterized by an implantation region having a first implantation profile, and a second junction termination region characterized by an implantation region having a second implantation profile.Type: GrantFiled: December 22, 2011Date of Patent: May 6, 2014Assignee: Avogy, Inc.Inventors: Hui Nie, Andrew P. Edwards, Donald R. Disney, Richard J. Brown, Isik C. Kizilyalli