Patents by Inventor Saad MURAD
Saad MURAD 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: 10658500Abstract: A layer structure for a normally-off transistor has an electron-supply layer made of a group-III-nitride material, a back-barrier layer made of a group-III-nitride material, a channel layer between the electron-supply layer and the back-barrier layer, made of a group-III-nitride material having a band-gap energy that is lower than the band-gap energies of the other layer mentioned. The material of the back-barrier layer is of p-type conductivity, while the material of the electron-supply layer and the material of the channel layer are not of p-type conductivity, the band-gap energy of the electron-supply layer is smaller than the band-gap energy of the back-barrier layer. In absence of an external voltage a lower conduction-band-edge of the third group-III-nitride material in the channel layer is higher in energy than a Fermi level of the material in the channel layer.Type: GrantFiled: November 9, 2018Date of Patent: May 19, 2020Assignee: AZURSPACE Solar Power GmbHInventors: Stephan Lutgen, Saad Murad
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Publication number: 20190097032Abstract: A layer structure for a normally-off transistor has an electron-supply layer made of a group-III-nitride material, a back-barrier layer made of a group-III-nitride material, a channel layer between the electron-supply layer and the back-barrier layer, made of a group-III-nitride material having a band-gap energy that is lower than the band-gap energies of the other layer mentioned. The material of the back-barrier layer is of p-type conductivity, while the material of the electron-supply layer and the material of the channel layer are not of p-type conductivity, the band-gap energy of the electron-supply layer is smaller than the band-gap energy of the back-barrier layer. In absence of an external voltage a lower conduction-band-edge of the third group-III-nitride material in the channel layer is higher in energy than a Fermi level of the material in the channel layer.Type: ApplicationFiled: November 9, 2018Publication date: March 28, 2019Applicant: AZURSPACE Solar Power GmbHInventors: Stephan LUTGEN, Saad MURAD
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Patent number: 10211296Abstract: An epitaxial group-III-nitride buffer-layer structure is provided on a heterosubstrate, wherein the buffer-layer structure has at least one stress-management layer sequence including an interlayer structure arranged between and adjacent to a first and a second group-III-nitride layers, wherein the interlayer structure comprises a group-III-nitride interlayer material having a larger band gap than the materials of the first and second group-III-nitride layers, and wherein a p-type-dopant-concentration profile drops, starting from at least 1×1018 cm?3, by at least a factor of two in transition from the interlayer structure to the first and second group-III-nitride layers.Type: GrantFiled: July 3, 2018Date of Patent: February 19, 2019Assignee: AzurSpace Solar Power GmbHInventors: Stephan Lutgen, Saad Murad, Ashay Chitnis
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Publication number: 20180331187Abstract: An epitaxial group-ill-nitride buffer-layer structure is provided on a heterosubstrate, wherein the buffer-layer structure has at least one stress-management layer sequence including an interlayer structure arranged between and adjacent to a first and a second group-ill-nitride layer, wherein the interlayer structure comprises a group-ill-nitride interlayer material having a larger band gap than the materials of the first and second group-ill-nitride layers, and wherein a p-type-dopant-concentration profile drops, starting from at least 1×1018 cm?3, by at least a factor of two in transition from the interlayer structure to the first and second group-ill-nitride layers.Type: ApplicationFiled: July 3, 2018Publication date: November 15, 2018Applicant: AZURSPACE Solar Power GmbHInventors: Stephan LUTGEN, Saad MURAD, Ashay CHITNIS
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Patent number: 10128362Abstract: A layer structure for a normally-off transistor has an electron-supply layer made of a group-III-nitride material, a back-barrier layer made of a group-III-nitride material, a channel layer between the electron-supply layer and the back-barrier layer, made of a group-III-nitride material having a band-gap energy that is lower than the band-gap energies of the other layer mentioned. The material of the back-barrier layer is of p-type conductivity, while the material of the electron-supply layer and the material of the channel layer are not of p-type conductivity, the band-gap energy of the electron-supply layer is smaller than the band-gap energy of the back-barrier layer. In absence of an external voltage a lower conduction-band-edge of the third group-III-nitride material in the channel layer is higher in energy than a Fermi level of the material in the channel layer.Type: GrantFiled: September 8, 2017Date of Patent: November 13, 2018Assignee: AZURSPACE Solar Power GmbHInventors: Stephan Lutgen, Saad Murad
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Patent number: 10026814Abstract: An epitaxial group-ill-nitride buffer-layer structure is provided on a heterosubstrate, wherein the buffer-layer structure has at least one stress-management layer sequence including an interlayer structure arranged between and adjacent to a first and a second group-ill-nitride layer, wherein the interlayer structure comprises a group-ill-nitride interlayer material having a larger band gap than the materials of the first and second group-ill-nitride layers, and wherein a p-type-dopant-concentration profile drops, starting from at least 1×1018 cm?3, by at least a factor of two in transition from the interlayer structure to the first and second group-ill-nitride layers.Type: GrantFiled: September 11, 2017Date of Patent: July 17, 2018Assignee: AZURSPACE Solar Power GmbHInventors: Stephan Lutgen, Saad Murad, Ashay Chitnis
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Publication number: 20180012985Abstract: A layer structure for a normally-off transistor has an electron-supply layer made of a group-III-nitride material, a back-barrier layer made of a group-III-nitride material, a channel layer between the electron-supply layer and the back-barrier layer, made of a group-III-nitride material having a band-gap energy that is lower than the band-gap energies of the other layer mentioned. The material of the back-barrier layer is of p-type conductivity, while the material of the electron-supply layer and the material of the channel layer are not of p-type conductivity, the band-gap energy of the electron-supply layer is smaller than the band-gap energy of the back-barrier layer. In absence of an external voltage a lower conduction-band-edge of the third group-III-nitride material in the channel layer is higher in energy than a Fermi level of the material in the channel layer.Type: ApplicationFiled: September 8, 2017Publication date: January 11, 2018Applicant: AZURSPACE Solar Power GmbHInventors: Stephan LUTGEN, Saad MURAD
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Publication number: 20170373156Abstract: An epitaxial group-ill-nitride buffer-layer structure is provided on a heterosubstrate, wherein the buffer-layer structure has at least one stress-management layer sequence including an interlayer structure arranged between and adjacent to a first and a second group-ill-nitride layer, wherein the interlayer structure comprises a group-ill-nitride interlayer material having a larger band gap than the materials of the first and second group-ill-nitride layers, and wherein a p-type-dopant-concentration profile drops, starting from at least 1×1018 cm-3, by at least a factor of two in transition from the interlayer structure to the first and second group-ill-nitride layers.Type: ApplicationFiled: September 11, 2017Publication date: December 28, 2017Applicant: AZURSPACE Solar Power GmbHInventors: Stephan LUTGEN, Saad MURAD, Ashay CHITNIS
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Patent number: 9786744Abstract: An epitaxial group-ill-nitride buffer-layer structure is provided on a heterosubstrate, wherein the buffer-layer structure has at least one stress-management layer sequence including an interlayer structure arranged between and adjacent to a first and a second group-ill-nitride layer, wherein the interlayer structure comprises a group-ill-nitride interlayer material having a larger band gap than the materials of the first and second group-ill-nitride layers, and wherein a p-type-dopant-concentration profile drops, starting from at least 1×1018 cm-3, by at least a factor of two in transition from the interlayer structure to the first and second group-ill-nitride layers.Type: GrantFiled: November 2, 2016Date of Patent: October 10, 2017Assignee: AZURSPACE Solar Power GmbHInventors: Stephan Lutgen, Saad Murad, Ashay Chitnis
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Patent number: 9773896Abstract: A layer structure for a normally-off transistor has an electron-supply layer made of a group-III-nitride material, a back-barrier layer made of a group-III-nitride material, a channel layer between the electron-supply layer and the back-barrier layer, made of a group-III-nitride material having a band-gap energy that is lower than the band-gap energies of the other layer mentioned. The material of the back-barrier layer is of p-type conductivity, while the material of the electron-supply layer and the material of the channel layer are not of p-type conductivity, the band-gap energy of the electron-supply layer is smaller than the band-gap energy of the back-barrier layer. In absence of an external voltage a lower conduction-band-edge of the third group-III-nitride material in the channel layer is higher in energy than a Fermi level of the material in the channel layer.Type: GrantFiled: August 17, 2015Date of Patent: September 26, 2017Assignee: AZURSPACE Solar Power GmbHInventors: Stephan Lutgen, Saad Murad
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Publication number: 20170077242Abstract: An epitaxial group-ill-nitride buffer-layer structure is provided on a heterosubstrate, wherein the buffer-layer structure has at least one stress-management layer sequence including an interlayer structure arranged between and adjacent to a first and a second group-ill-nitride layer, wherein the interlayer structure comprises a group-ill-nitride interlayer material having a larger band gap than the materials of the first and second group-ill-nitride layers, and wherein a p-type-dopant-concentration profile drops, starting from at least 1×1018 cm-3, by at least a factor of two in transition from the interlayer structure to the first and second group-ill-nitride layers.Type: ApplicationFiled: November 2, 2016Publication date: March 16, 2017Applicant: AZURSPACE Solar Power GmbHInventors: Stephan LUTGEN, Saad MURAD, Ashay CHITNIS
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Patent number: 9496349Abstract: An epitaxial group-ill-nitride buffer-layer structure is provided on a heterosubstrate, wherein the buffer-layer structure has at least one stress-management layer sequence including an interlayer structure arranged between and adjacent to a first and a second group-ill-nitride layer, wherein the interlayer structure comprises a group-ill-nitride interlayer material having a larger band gap than the materials of the first and second group-ill-nitride layers, and wherein a p-type-dopant-concentration profile drops, starting from at least 1×1018 cm-3, by at least a factor of two in transition from the interlayer structure to the first and second group-ill-nitride layers.Type: GrantFiled: August 17, 2015Date of Patent: November 15, 2016Assignee: AZURSPACE Solar Power GmbHInventors: Stephan Lutgen, Saad Murad, Ashay Chitnis
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Publication number: 20150357454Abstract: A layer structure for a normally-off transistor has an electron-supply layer made of a group-III-nitride material, a back-barrier layer made of a group-III-nitride material, a channel layer between the electron-supply layer and the back-barrier layer, made of a group-III-nitride material having a band-gap energy that is lower than the band-gap energies of the other layer mentioned. The material of the back-barrier layer is of p-type conductivity, while the material of the electron-supply layer and the material of the channel layer are not of p-type conductivity, the band-gap energy of the electron-supply layer is smaller than the band-gap energy of the back-barrier layer. In absence of an external voltage a lower conduction-band-edge of the third group-III-nitride material in the channel layer is higher in energy than a Fermi level of the material in the channel layer.Type: ApplicationFiled: August 17, 2015Publication date: December 10, 2015Applicant: AZURSPACE SOLAR POWER GMBHInventors: Stephan LUTGEN, Saad MURAD
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Publication number: 20150357419Abstract: An epitaxial group-ill-nitride buffer-layer structure is provided on a heterosubstrate, wherein the buffer-layer structure has at least one stress-management layer sequence including an interlayer structure arranged between and adjacent to a first and a second group-ill-nitride layer, wherein the interlayer structure comprises a group-ill-nitride interlayer material having a larger band gap than the materials of the first and second group-ill-nitride layers, and wherein a p-type-dopant-concentration profile drops, starting from at least 1×1018 cm-3, by at least a factor of two in transition from the interlayer structure to the first and second group-ill-nitride layers.Type: ApplicationFiled: August 17, 2015Publication date: December 10, 2015Applicant: AZURSPACE SOLAR POWER GMBHInventors: Stephan LUTGEN, Saad MURAD, Ashay CHITNIS