Methods of manufacturing trench semiconductor devices with edge termination structures
First Claim
1. A method for forming a semiconductor device, comprising:
- providing a semiconductor substrate having a top surface, a bottom surface, an active region, and an edge region;
forming a gate structure in a first trench in the active region of the semiconductor substrate, wherein the gate structure has a first side and a second side, and the gate structure includes a gate electrode and a gate oxide between the gate electrode and the semiconductor substrate;
forming a termination structure in a second trench in the edge region of the semiconductor substrate, wherein the termination structure has an active region facing side and a device perimeter facing side, the second trench is partially defined by a sidewall at the active region facing side of the termination structure, and the termination structure includes an edge electrode and the gate oxide between the edge electrode and the sidewall of the second trench;
forming first and second source regions of a first conductivity type in the semiconductor substrate adjacent both the first side and the second side of the gate structure; and
forming a third source region in the semiconductor substrate adjacent to and contacting the sidewall of the second trench at the active region facing side of the termination structure.
31 Assignments
0 Petitions
Accused Products
Abstract
Embodiments of semiconductor devices and methods of their formation include providing a semiconductor substrate having a top surface, a bottom surface, an active region, and an edge region, and forming a gate structure in a first trench in the active region of the semiconductor substrate. A termination structure is formed in a second trench in the edge region of the semiconductor substrate. The termination structure has an active region facing side and a device perimeter facing side. The method further includes forming first and second source regions of the first conductivity type are formed in the semiconductor substrate adjacent both sides of the gate structure. A third source region is formed in the semiconductor substrate adjacent the active region facing side of the termination structure. The semiconductor device may be a trench metal oxide semiconductor device, for example.
20 Citations
17 Claims
-
1. A method for forming a semiconductor device, comprising:
-
providing a semiconductor substrate having a top surface, a bottom surface, an active region, and an edge region; forming a gate structure in a first trench in the active region of the semiconductor substrate, wherein the gate structure has a first side and a second side, and the gate structure includes a gate electrode and a gate oxide between the gate electrode and the semiconductor substrate; forming a termination structure in a second trench in the edge region of the semiconductor substrate, wherein the termination structure has an active region facing side and a device perimeter facing side, the second trench is partially defined by a sidewall at the active region facing side of the termination structure, and the termination structure includes an edge electrode and the gate oxide between the edge electrode and the sidewall of the second trench; forming first and second source regions of a first conductivity type in the semiconductor substrate adjacent both the first side and the second side of the gate structure; and forming a third source region in the semiconductor substrate adjacent to and contacting the sidewall of the second trench at the active region facing side of the termination structure. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A method for forming a semiconductor device, comprising:
-
providing a semiconductor substrate having a top surface, a bottom surface, an active region, and an edge region; forming a gate structure in a first trench in the active region of the semiconductor substrate, wherein the gate structure has a first side and a second side; forming a termination structure in a second trench in the edge region of the semiconductor substrate, wherein the termination structure has an active region facing side and a device perimeter facing side, and wherein the termination structure substantially surrounds the active region; forming first and second source regions of a first conductivity type in the semiconductor substrate adjacent both the first side and the second side of the gate structure; and forming a third source region in the semiconductor substrate adjacent the active region facing side of the termination structure; forming an extension electrode in a third trench in the edge region, wherein the extension electrode extends from the device perimeter facing side of the termination structure; and forming a gate feed structure above the top surface in the edge region in contact with an end of the extension electrode and extending toward a perimeter of the device.
-
-
8. A method for forming a semiconductor device, comprising:
-
providing a semiconductor substrate having a top surface, a bottom surface, an active region, and an edge region; forming a gate structure in a first trench in the active region of the semiconductor substrate, wherein the gate structure has a first side and a second side, and the gate structure includes a gate electrode and a gate oxide between the gate electrode and the semiconductor substrate; forming a termination structure in a second trench in the edge region of the semiconductor substrate, wherein the termination structure has an active region facing side and a device perimeter facing side, the second trench is partially defined by a sidewall at the active region facing side of the termination structure, and the termination structure includes an edge electrode and the gate oxide between the edge electrode and the sidewall of the second trench; forming a body region of a second conductivity type in the semiconductor substrate between the gate structure and the termination structure, wherein the body region extends from the first side of the gate structure to the active region facing side of the termination structure; forming an enhanced body region of the second conductivity type and a higher doping density in the body region; forming first and second source regions of a first conductivity type in the semiconductor substrate adjacent both the first side and the second side of the gate structure, wherein the first source region is formed in the body region; and forming a third source region in the semiconductor substrate adjacent to and contacting the sidewall of the second trench at the active region facing side of the termination structure, wherein the third source region is formed in the body region.
-
-
9. A method for forming a trench metal oxide semiconductor device, comprising:
-
providing a semiconductor substrate having a top surface, a bottom surface, an active region, and an edge region; forming a plurality of parallel gate structures in a plurality of parallel first trenches in the active region of the semiconductor substrate, wherein each of the gate structures has a first side and a second side, and each of the gate structures includes a gate electrode and a gate oxide between the gate electrode and the semiconductor substrate; forming a termination structure in a second trench in the edge region of the semiconductor substrate, wherein the termination structure has an active region facing side and a device perimeter facing side, the second trench is partially defined by a sidewall at the active region facing side of the termination structure, and the termination structure includes an edge electrode and the gate oxide between the edge electrode and the sidewall of the second trench; forming first and second source regions of a first conductivity type in the semiconductor substrate adjacent both the first sides and the second sides of the gate structures; and forming a third source region in the semiconductor substrate adjacent to and contacting the sidewall of the second trench at the active region facing side of the termination structure. - View Dependent Claims (10, 11)
-
-
12. A method for forming a trench metal oxide semiconductor device, wherein the device has a first side, a second side, a third side, and a fourth side, and the method comprises:
-
providing a semiconductor substrate having a top surface, a bottom surface, an active region, and an edge region; forming a plurality of parallel gate structures in a plurality of parallel first trenches in the active region of the semiconductor substrate, wherein each of the gate structures has a first side and a second side; forming a second trench in the edge region to substantially surround the active region, wherein forming the second trench comprises; forming the second trench to include four trench segments in the edge region, wherein a first trench segment is proximate to and parallel with the first side of the device and is parallel with the gate structures, a second trench segment is proximate to and parallel with the second side of the device and is perpendicular to the first trench segment and the gate structures, a third trench segment is proximate to and parallel with the third side of the device and is parallel with the first trench segment and the gate structures and perpendicular to the second trench segment, and a fourth trench segment is proximate to and parallel with the fourth side of the device and is parallel with the second trench segment and perpendicular to the first and third trench segments and the gate structures; forming a termination structure in the second trench, wherein the termination structure has an active region facing side and a device perimeter facing side; forming first and second source regions of a first conductivity type in the semiconductor substrate adjacent both the first sides and the second sides of the gate structures; and forming a third source region in the semiconductor substrate adjacent the active region facing side of the termination structure. - View Dependent Claims (13, 14, 15, 16, 17)
-
Specification