Patents by Inventor Umesh Mishra
Umesh Mishra has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11973138Abstract: Described herein are lateral III-N (e.g., GaN) devices having a III-N depleting layer. A circuit includes a depletion-mode transistor with a source connected to a drain of an enhancement-mode transistor. The gate of the depletion-mode transistor and the gate of the enhancement-mode transistor are biased at zero volts, and the drain of the depletion-mode transistor is biased at positive voltage to block a current in a forward direction. Then, the bias of the gate of the enhancement-mode transistor is changed to a first voltage greater than the threshold voltage of the enhancement-mode transistor and a first current is allowed to flow through the channel in a forward direction. Then, the bias of the gate of the depletion-mode transistor is changed to a second voltage and a second current is allowed to flow through the channel in a forward direction where the second current is greater than the first current.Type: GrantFiled: January 28, 2022Date of Patent: April 30, 2024Assignee: Transphorm Technology, Inc.Inventors: Geetak Gupta, Umesh Mishra, Davide Bisi, Rakesh K. Lal, David Michael Rhodes
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Publication number: 20230420526Abstract: A transistor comprising an active region having a channel layer, with source and drain electrodes formed in contact with the active region and a gate formed between the source and drain electrodes and in contact with the active region. A spacer layer is on at least part of the surface of the plurality of active region between the gate and the drain electrode and between the gate and the source electrode. A field plate is on the spacer layer and extends on the spacer and over the active region toward the drain electrode. The field plate also extends on the spacer layer over the active region and toward the source electrode. At least one conductive path electrically connects the field plate to the source electrode or the gate.Type: ApplicationFiled: September 11, 2023Publication date: December 28, 2023Inventors: Yifeng Wu, Primit Parikh, Umesh Mishra, Scott Sheppard
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Publication number: 20230335464Abstract: A semiconductor device comprises a III-N device including an insulating substrate. The insulating substrate includes a first side and a second side. The device further includes a III-N material structure on a first side of the insulating substrate, and a gate electrode, a source electrode, and a drain electrode on a side of the III-N material structure opposite the substrate. A backmetal layer on the second side of the insulating substrate, and a via hole is formed through the III-N material structure and the insulating substrate. A metal formed in the via-hole is electrically connected to the drain electrode on the first side of the substrate and electrically connected to the backmetal layer on the second side of the substrate.Type: ApplicationFiled: September 17, 2021Publication date: October 19, 2023Inventors: Geetak Gupta, Umesh Mishra, Davide Bisi, David Michael Rhodes, Rakesh K. Lal, Carl Joseph Neufeld
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Patent number: 11791385Abstract: A transistor comprising an active region having a channel layer, with source and drain electrodes formed in contact with the active region and a gate formed between the source and drain electrodes and in contact with the active region. A spacer layer is on at least part of the surface of the plurality of active region between the gate and the drain electrode and between the gate and the source electrode. A field plate is on the spacer layer and extends on the spacer and over the active region toward the drain electrode. The field plate also extends on the spacer layer over the active region and toward the source electrode. At least one conductive path electrically connects the field plate to the source electrode or the gate.Type: GrantFiled: March 11, 2005Date of Patent: October 17, 2023Assignee: Wolfspeed, Inc.Inventors: Yifeng Wu, Primit Parikh, Umesh Mishra, Scott Sheppard
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Publication number: 20230299190Abstract: Described herein are lateral III-N (e.g. GaN) devices having a III-N depleting layer, for which the III-N material is formed in an N-polar orientation. The III-N device includes a III-N layer structure comprising a III-N channel layer between a III-N barrier layer and a p-type III-N depleting layer. The III-N channel layer includes a 2DEG channel formed therein. The III-N device includes a source electrode and a drain electrode, each of which being electrically connected to the 2DEG channel, and a gate electrode between the source and the drain electrodes, the gate being over the III-N layer structure. The p-type III-N depleting layer includes a first portion that is between the gate and the drain electrode and the p-type III-N depleting layer is electrically connected to the gate electrode and electrically isolated from the source and drain electrodes.Type: ApplicationFiled: July 23, 2021Publication date: September 21, 2023Inventors: Davide Bisi, Geetak Gupta, Umesh Mishra, Rakesh K. Lal
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Patent number: 11664429Abstract: A field effect transistor comprising a buffer and channel layer formed successively on a substrate. A source electrode, drain electrode, and gate are all formed in electrical contact with the channel layer, with the gate between the source and drain electrodes. A spacer layer is formed on at least a portion of a surface of the channel layer between the gate and drain electrode and a field plate is formed on the spacer layer isolated from the gate and channel layer. The spacer layer is electrically connected by at least one conductive path to the source electrode, wherein the field plate reduces the peak operating electric field in the device.Type: GrantFiled: September 5, 2017Date of Patent: May 30, 2023Assignee: Wolfspeed, Inc.Inventors: Yifeng Wu, Primit Parikh, Umesh Mishra, Marcia Moore
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Publication number: 20220157981Abstract: Described herein are lateral III-N (e.g., GaN) devices having a III-N depleting layer. A circuit includes a depletion-mode transistor with a source connected to a drain of an enhancement-mode transistor. The gate of the depletion-mode transistor and the gate of the enhancement-mode transistor are biased at zero volts, and the drain of the depletion-mode transistor is biased at positive voltage to block a current in a forward direction. Then, the bias of the gate of the enhancement-mode transistor is changed to a first voltage greater than the threshold voltage of the enhancement-mode transistor and a first current is allowed to flow through the channel in a forward direction. Then, the bias of the gate of the depletion-mode transistor is changed to a second voltage and a second current is allowed to flow through the channel in a forward direction where the second current is greater than the first current.Type: ApplicationFiled: January 28, 2022Publication date: May 19, 2022Inventors: Geetak Gupta, Umesh Mishra, Davide Bisi, Rakesh K. Lal, David Michael Rhodes
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Patent number: 11322599Abstract: A transistor includes a III-N channel layer; a III-N barrier layer on the III-N channel layer; a source contact and a drain contact, the source and drain contacts electrically coupled to the III-N channel layer; an insulator layer on the III-N barrier layer; a gate insulator partially on the insulator layer and partially on the III-N channel layer, the gate insulator including an amorphous Al1-xSixO layer with 0.2<x<0.8; and a gate electrode over the gate insulator, the gate electrode being positioned between the source and drain contacts.Type: GrantFiled: January 13, 2017Date of Patent: May 3, 2022Assignee: Transphorm Technology, Inc.Inventors: Carl Joseph Neufeld, Mo Wu, Toshihide Kikkawa, Umesh Mishra, Xiang Liu, David Michael Rhodes, John Kirk Gritters, Rakesh K. Lal
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Patent number: 11121216Abstract: A III-N device includes a III-N layer structure including a III-N channel layer, a III-N barrier layer over the III-N channel layer, and a graded III-N layer over the III-N barrier layer having a first side adjacent to the III-N barrier layer and a second side opposite the first side; a first power electrode and a second power electrode; and a gate between the first and second power electrodes, the gate being over the III-N layer structure. A composition of the graded III-N layer is graded so the bandgap of the graded III-N layer adjacent to the first side is greater than the bandgap of the graded III-N layer adjacent to the second side. A region of the graded III-N layer is (i) between the gate and the second power electrode, and (ii) electrically connected to the first power electrode and electrically isolated from the second power electrode.Type: GrantFiled: March 9, 2020Date of Patent: September 14, 2021Assignee: Transphorm Technology, Inc.Inventors: Umesh Mishra, Rakesh K. Lal, Geetak Gupta, Carl Joseph Neufeld, David Rhodes
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Publication number: 20210043750Abstract: A transistor includes a III-N channel layer; a III-N barrier layer on the III-N channel layer; a source contact and a drain contact, the source and drain contacts electrically coupled to the III-N channel layer; an insulator layer on the III-N barrier layer; a gate insulator partially on the insulator layer and partially on the III-N channel layer, the gate insulator including an amorphous Al1-xSixO layer with 0.2<x<0.8; and a gate electrode over the gate insulator, the gate electrode being positioned between the source and drain contacts.Type: ApplicationFiled: January 13, 2017Publication date: February 11, 2021Inventors: Carl Joseph Neufeld, Mo Wu, Toshihide Kikkawa, Umesh Mishra, Xiang Liu, David Michael Rhodes, John Kirk Gritters, Rakesh K. Lal
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Publication number: 20200343375Abstract: A lateral III-N device has a vertical gate module with III-N material orientated in an N-polar or a group-III polar orientation. A III-N material structure has a III-N buffer layer, a III-N barrier layer, and a III-N channel layer. A compositional difference between the III-N barrier layer and the III-N channel layer causes a 2DEG channel to be induced in the III-N channel layer. A p-type III-N body layer is disposed over the III-N channel layer in a source side access region but not over a drain side access region. A n-type III-N capping layer over the p-type III-N body layer. A source electrode that contacts the n-type III-N capping layer is electrically connected to the p-type III-N body layer and is electrically isolated from the 2DEG channel when the gate electrode is biased relative to the source electrode at a voltage that is below a threshold voltage.Type: ApplicationFiled: July 8, 2020Publication date: October 29, 2020Inventors: Umesh Mishra, Davide Bisi, Geetak Gupta, Carl Joseph Neufeld, Brian L. Swenson, Rakesh K. Lal
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Patent number: 10756207Abstract: A lateral III-N device has a vertical gate module with III-N material orientated in an N-polar or a group-III polar orientation. A III-N material structure has a III-N buffer layer, a III-N barrier layer, and a III-N channel layer. A compositional difference between the III-N barrier layer and the III-N channel layer causes a 2DEG channel to be induced in the III-N channel layer. A p-type III-N body layer is disposed over the III-N channel layer in a source side access region but not over a drain side access region. A n-type III-N capping layer over the p-type III-N body layer. A source electrode that contacts the n-type III-N capping layer is electrically connected to the p-type III-N body layer and is electrically isolated from the 2DEG channel when the gate electrode is biased relative to the source electrode at a voltage that is below a threshold voltage.Type: GrantFiled: October 10, 2019Date of Patent: August 25, 2020Assignee: Transphorm Technology, Inc.Inventors: Umesh Mishra, Davide Bisi, Geetak Gupta, Carl Joseph Neufeld, Brian L. Swenson, Rakesh K. Lal
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Publication number: 20200212180Abstract: A III-N device includes a III-N layer structure including a III-N channel layer, a III-N barrier layer over the III-N channel layer, and a graded III-N layer over the III-N barrier layer having a first side adjacent to the III-N barrier layer and a second side opposite the first side; a first power electrode and a second power electrode; and a gate between the first and second power electrodes, the gate being over the III-N layer structure. A composition of the graded III-N layer is graded so the bandgap of the graded III-N layer adjacent to the first side is greater than the bandgap of the graded III-N layer adjacent to the second side. A region of the graded III-N layer is (i) between the gate and the second power electrode, and (ii) electrically connected to the first power electrode and electrically isolated from the second power electrode.Type: ApplicationFiled: March 9, 2020Publication date: July 2, 2020Inventors: Umesh Mishra, Rakesh K. Lal, Geetak Gupta, Carl Joseph Neufeld, David Rhodes
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Patent number: 10629681Abstract: A III-N device includes a III-N layer structure including a III-N channel layer, a III-N barrier layer over the III-N channel layer, and a graded III-N layer over the III-N barrier layer having a first side adjacent to the III-N barrier layer and a second side opposite the first side; a first power electrode and a second power electrode; and a gate between the first and second power electrodes, the gate being over the III-N layer structure. A composition of the graded III-N layer is graded so the bandgap of the graded III-N layer adjacent to the first side is greater than the bandgap of the graded III-N layer adjacent to the second side. A region of the graded III-N layer is (i) between the gate and the second power electrode, and (ii) electrically connected to the first power electrode and electrically isolated from the second power electrode.Type: GrantFiled: February 27, 2019Date of Patent: April 21, 2020Assignee: Transphorm Technology, Inc.Inventors: Umesh Mishra, Rakesh K. Lal, Geetak Gupta, Carl Joseph Neufeld, David Rhodes
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Publication number: 20200119179Abstract: A lateral III-N device has a vertical gate module with III-N material orientated in an N-polar or a group-III polar orientation. A III-N material structure has a III-N buffer layer, a III-N barrier layer, and a III-N channel layer. A compositional difference between the III-N barrier layer and the III-N channel layer causes a 2DEG channel to be induced in the III-N channel layer. A p-type III-N body layer is disposed over the III-N channel layer in a source side access region but not over a drain side access region. A n-type III-N capping layer over the p-type III-N body layer. A source electrode that contacts the n-type III-N capping layer is electrically connected to the p-type III-N body layer and is electrically isolated from the 2DEG channel when the gate electrode is biased relative to the source electrode at a voltage that is below a threshold voltage.Type: ApplicationFiled: October 10, 2019Publication date: April 16, 2020Inventors: Umesh Mishra, Davide Bisi, Geetak Gupta, Carl Joseph Neufeld, Brian L. Swenson, Rakesh K. Lal
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Publication number: 20190198615Abstract: A III-N device includes a III-N layer structure including a III-N channel layer, a III-N barrier layer over the III-N channel layer, and a graded III-N layer over the III-N barrier layer having a first side adjacent to the III-N barrier layer and a second side opposite the first side; a first power electrode and a second power electrode; and a gate between the first and second power electrodes, the gate being over the III-N layer structure. A composition of the graded III-N layer is graded so the bandgap of the graded III-N layer adjacent to the first side is greater than the bandgap of the graded III-N layer adjacent to the second side. A region of the graded III-N layer is (i) between the gate and the second power electrode, and (ii) electrically connected to the first power electrode and electrically isolated from the second power electrode.Type: ApplicationFiled: February 27, 2019Publication date: June 27, 2019Inventors: Umesh Mishra, Rakesh K. Lal, Geetak Gupta, Carl Joseph Neufeld, David Rhodes
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Patent number: 10224401Abstract: A III-N device includes a III-N layer structure including a III-N channel layer, a III-N barrier layer over the III-N channel layer, and a graded III-N layer over the III-N barrier layer having a first side adjacent to the III-N barrier layer and a second side opposite the first side; a first power electrode and a second power electrode; and a gate between the first and second power electrodes, the gate being over the III-N layer structure. A composition of the graded III-N layer is graded so the bandgap of the graded III-N layer adjacent to the first side is greater than the bandgap of the graded III-N layer adjacent to the second side. A region of the graded III-N layer is (i) between the gate and the second power electrode, and (ii) electrically connected to the first power electrode and electrically isolated from the second power electrode.Type: GrantFiled: May 31, 2017Date of Patent: March 5, 2019Assignee: Transphorm Inc.Inventors: Umesh Mishra, Rakesh K. Lal, Geetak Gupta, Carl Joseph Neufeld, David Rhodes
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Patent number: 10224427Abstract: AlGaN/GaN HEMTs are disclosed having a thin AlGaN layer to reduce trapping and also having additional layers to reduce gate leakage and increase the maximum drive current. One HEMT according to the present invention comprises a high resistivity semiconductor layer with a barrier semiconductor layer on it. The barrier layer has a wider bandgap than the high resistivity layer and a 2DEG forms between the layers. Source and drain contacts contact the barrier layer, with part of the surface of the barrier layer uncovered by the contacts. An insulating layer is included on the uncovered surface of the barrier layer and a gate contact is included on the insulating layer. The insulating layer forms a barrier to gate leakage current and also helps to increase the HEMT's maximum current drive. The invention also includes methods for fabricating HEMTs according to the present invention. In one method, the HEMT and its insulating layer are fabricated using metal-organic chemical vapor deposition (MOCVD).Type: GrantFiled: September 4, 2009Date of Patent: March 5, 2019Assignee: CREE, INC.Inventors: Primit Parikh, Umesh Mishra, Yifeng Wu
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Patent number: 10199217Abstract: Group III-nitride devices are described that include a stack of III-nitride layers, passivation layers, and conductive contacts. The stack includes a channel layer with a 2DEG channel, a barrier layer and a spacer layer. One passivation layer directly contacts a surface of the spacer layer on a side opposite to the channel layer and is an electrical insulator. The stack of III-nitride layers and the first passivation layer form a structure with a reverse side proximate to the first passivation layer and an obverse side proximate to the barrier layer. Another passivation layer is on the obverse side of the structure. Defected nucleation and stress management layers that form a buffer layer during the formation process can be partially or entirely removed.Type: GrantFiled: October 7, 2016Date of Patent: February 5, 2019Assignee: Transphorm Inc.Inventors: Rongming Chu, Umesh Mishra, Rakesh K. Lal
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Patent number: 10043896Abstract: A transistor includes a III-N layer structure including a III-N channel layer between a III-N barrier layer and a III-N depleting layer, where the III-N channel layer includes a 2DEG channel formed adjacent an interface between the III-N channel layer and the III-N barrier layer; a source and a drain, each of which being directly connected to the III-N channel layer; a gate between the source and the drain, the gate being over the III-N layer structure, where the III-N depleting layer includes a first portion that is disposed in a device access region between the gate and the drain; and where the source electrically contacts the first portion of the III-N depleting layer, and the drain is electrically isolated from the first portion of the III-N depleting layer.Type: GrantFiled: December 8, 2017Date of Patent: August 7, 2018Assignee: Transphorm Inc.Inventors: Umesh Mishra, Rakesh K. Lal, Stacia Keller, Srabanti Chowdhury