High-electron-mobility transistor with buried interconnect
First Claim
1. A method of fabricating a high-electron-mobility transistor (HEMT), the method comprising:
- forming a first contact on a first surface of a substrate layer;
forming a buffer layer on a second surface of the substrate layer, wherein the second surface is opposite the first surface;
forming a first layer comprising gallium adjacent to the buffer layer;
forming a second layer comprising gallium adjacent to the first layer, wherein a two-dimensional electron gas (2DEG) layer is formed within the first layer at a junction with the second layer, wherein the 2DEG layer has an opening;
forming a second contact on the second layer;
forming a gate contact on the second layer, wherein the opening is aligned with the gate contact;
forming a trench that has sidewalls that extend completely through the second layer, the 2DEG layer, the first layer, and the buffer layer and into the substrate layer, wherein the trench has a bottom within the substrate layer;
lining the sidewalls of the trench at the first layer, the buffer layer, and the first layer with an insulating material; and
depositing conducting material into the trench, wherein the conducting material in the trench is in contact with the substrate layer through at the bottom of the trench and wherein the conducting material in the trench is in contact with the second layer and with the 2DEG layer.
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Abstract
A high-electron-mobility transistor (HEMT) includes a substrate layer of silicon, a first contact disposed on a first surface of the substrate layer, and a number of layers disposed on a second surface of the substrate layer opposite the first surface. A second contact and a gate contact are disposed on those layers. A trench containing conducting material extends completely through the layers and into the substrate layer. In an embodiment of the HEMT, the first contact is a drain contact and the second contact is a source contact. In another embodiment of the HEMT, the first contact is a source contact and the second contact is a drain contact.
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Citations
20 Claims
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1. A method of fabricating a high-electron-mobility transistor (HEMT), the method comprising:
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forming a first contact on a first surface of a substrate layer; forming a buffer layer on a second surface of the substrate layer, wherein the second surface is opposite the first surface; forming a first layer comprising gallium adjacent to the buffer layer; forming a second layer comprising gallium adjacent to the first layer, wherein a two-dimensional electron gas (2DEG) layer is formed within the first layer at a junction with the second layer, wherein the 2DEG layer has an opening; forming a second contact on the second layer; forming a gate contact on the second layer, wherein the opening is aligned with the gate contact; forming a trench that has sidewalls that extend completely through the second layer, the 2DEG layer, the first layer, and the buffer layer and into the substrate layer, wherein the trench has a bottom within the substrate layer; lining the sidewalls of the trench at the first layer, the buffer layer, and the first layer with an insulating material; and depositing conducting material into the trench, wherein the conducting material in the trench is in contact with the substrate layer through at the bottom of the trench and wherein the conducting material in the trench is in contact with the second layer and with the 2DEG layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of fabricating a high-electron-mobility transistor (HEMT), the method comprising:
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forming a first contact on a first surface of a substrate layer; forming a buffer layer on a second surface of the substrate layer, wherein the second surface is opposite the first surface; forming a first layer comprising gallium adjacent to the buffer layer; forming a second layer comprising gallium adjacent to the first layer, wherein a two-dimensional electron gas (2DEG) layer is formed within the first layer at a junction with the second layer, wherein the 2DEG layer has an opening; forming a second contact on the second layer, wherein the first contact comprises a source contact, and wherein the second contact comprises a drain contact; forming a gate contact on the second layer; forming a trench that has sidewalls that extend completely through the second layer, the 2DEG layer, the first layer, and the buffer layer and into the substrate layer, wherein the trench has a bottom within the substrate layer; lining the sidewalls of the trench at the first layer, the buffer layer, and the first layer with an insulating material; depositing conducting material into the trench, wherein the conducting material in the trench is in contact with the substrate layer through at the bottom of the trench and wherein the conducting material in the trench is in contact with the second layer and with the 2DEG layer; forming a first field plate; forming a second field plate connected to the drain contact; and forming a passivation layer on the second layer and around the gate contact and the second contact, wherein the gate contact is separated from the first field plate by a region of the passivation layer, and wherein the first field plate and the second field plate are disposed within the passivation layer. - View Dependent Claims (12, 13, 14, 15)
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16. A method of fabricating a high-electron-mobility transistor (HEMT), the method comprising:
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forming a first contact on a first surface of a substrate layer; forming a buffer layer on a second surface of the substrate layer, wherein the second surface is opposite the first surface; forming a first layer comprising gallium adjacent to the buffer layer; forming a second layer comprising gallium adjacent to the first layer, wherein a two-dimensional electron gas (2DEG) layer is formed within the first layer at a junction with the second layer, wherein the 2DEG layer has an opening; forming a second contact on the second layer, wherein the first contact comprises a drain contact, and wherein the second contact comprises a source contact; forming a gate contact on the second layer; forming a trench that has sidewalls that extend completely through the second layer, the 2DEG layer, the first layer, and the buffer layer and into the substrate layer, wherein the trench has a bottom within the substrate layer; lining the sidewalls of the trench at the first layer, the buffer layer, and the first layer with an insulating material; depositing conducting material into the trench, wherein the conducting material in the trench is in contact with the substrate layer through at the bottom of the trench and wherein the conducting material in the trench is in contact with the second layer and with the 2DEG layer; forming a field plate connected to the source contact; and forming a passivation layer on the second layer and around the gate contact, wherein the gate contact is separated from the field plate by a region of the passivation layer and wherein the field plate is disposed within the passivation layer. - View Dependent Claims (17, 18, 19, 20)
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Specification