Power MOSFET semiconductor
First Claim
1. A method for forming a semiconductor device, comprising:
- providing a semiconductor body of a first conductivity type;
forming a first field-effect structure including a source region of the first conductivity type, a body region of a second conductivity type which is adjacent to the source region, a first gate electrode, and a first insulating region which is arranged at least between the first gate electrode and the body region such that the first gate electrode, the first insulating region and the body region form a first capacitor, the first capacitor having a first capacitance per unit area;
forming a second field-effect structure including a source region of the first conductivity type, a body region of a second conductivity type which is adjacent to the source region, a second gate electrode and a second insulating region which is arranged at least between the second gate electrode and the body region such that the second gate electrode, the second insulating region and the body region form a second capacitor, the second capacitor having a second capacitance per unit area; and
forming a source metallization at least in electrical contact to the source regions of the first and second field-effect structures and the second gate electrode;
the first field-effect structure and the second field-effect structure being formed such that the second capacitance per unit area is higher than the first capacitance per unit area, wherein the first field-effect structure and the second field-effect structure are formed such that the first insulating region has a first thickness between the first gate electrode and the body region and the second insulating region has a second thickness between the second gate electrode and the body region, and wherein the second thickness is smaller than the first thickness.
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Abstract
A semiconductor device includes a source metallization, a source region of a first conductivity type in contact with the source metallization, a body region of a second conductivity type which is adjacent to the source region. The semiconductor device further includes a first field-effect structure including a first insulated gate electrode and a second field-effect structure including a second insulated gate electrode which is electrically connected to the source metallization. The capacitance per unit area between the second insulated gate electrode and the body region is larger than the capacitance per unit area between the first insulated gate electrode and the body region.
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Citations
10 Claims
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1. A method for forming a semiconductor device, comprising:
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providing a semiconductor body of a first conductivity type; forming a first field-effect structure including a source region of the first conductivity type, a body region of a second conductivity type which is adjacent to the source region, a first gate electrode, and a first insulating region which is arranged at least between the first gate electrode and the body region such that the first gate electrode, the first insulating region and the body region form a first capacitor, the first capacitor having a first capacitance per unit area; forming a second field-effect structure including a source region of the first conductivity type, a body region of a second conductivity type which is adjacent to the source region, a second gate electrode and a second insulating region which is arranged at least between the second gate electrode and the body region such that the second gate electrode, the second insulating region and the body region form a second capacitor, the second capacitor having a second capacitance per unit area; and forming a source metallization at least in electrical contact to the source regions of the first and second field-effect structures and the second gate electrode; the first field-effect structure and the second field-effect structure being formed such that the second capacitance per unit area is higher than the first capacitance per unit area, wherein the first field-effect structure and the second field-effect structure are formed such that the first insulating region has a first thickness between the first gate electrode and the body region and the second insulating region has a second thickness between the second gate electrode and the body region, and wherein the second thickness is smaller than the first thickness. - View Dependent Claims (2, 3, 4, 5)
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6. A method for forming a semiconductor device, comprising:
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providing a semiconductor body; forming a first field-effect structure including a source region, a body region adjacent to the source region, a first gate electrode, and a first insulating region which is arranged at least between the first gate electrode and the body region such that the first gate electrode, the first insulating region and the body region form a first capacitor, the first capacitor having a first capacitance per unit area; forming a second field-effect structure including a source region, a body region adjacent to the source region, a second gate electrode and a second insulating region arranged at least between the second gate electrode and the body region such that the second gate electrode, the second insulating region and the body region form a second capacitor, the second capacitor having a second capacitance per unit area higher than the first capacitance per unit area; and forming a source metallization at least in electrical contact to the source regions of the first and second field-effect structures and the second gate electrode, wherein the first field-effect structure and the second field-effect structure are formed such that the first insulating region has a first thickness between the first gate electrode and the body region and the second insulating region has a second thickness between the second gate electrode and the body region, and wherein the second thickness is smaller than the first thickness.
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7. A method for forming a semiconductor device, comprising:
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providing a semiconductor body; forming a first field-effect structure including a source region, a body region adjacent to the source region, a first gate electrode, and a first insulating region which is arranged at least between the first gate electrode and the body region such that the first gate electrode, the first insulating region and the body region form a first capacitor, the first capacitor having a first capacitance per unit area; forming a second field-effect structure including a source region, a body region adjacent to the source region, a second gate electrode and a second insulating region arranged at least between the second gate electrode and the body region such that the second gate electrode, the second insulating region and the body region form a second capacitor, the second capacitor having a second capacitance per unit area higher than the first capacitance per unit area; and forming a source metallization at least in electrical contact to the source regions of the first and second field-effect structures and the second gate electrode, wherein the first field-effect structure and the second field-effect structure are formed such that second insulating region has a larger permittivity than the first insulating region.
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8. A method for forming a semiconductor device, comprising:
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providing a semiconductor body; forming a first field-effect structure including a source region, a body region adjacent to the source region, a first gate electrode, and a first insulating region which is arranged at least between the first gate electrode and the body region such that the first gate electrode, the first insulating region and the body region form a first capacitor, the first capacitor having a first capacitance per unit area; forming a second field-effect structure including a source region, a body region adjacent to the source region, a second gate electrode and a second insulating region arranged at least between the second gate electrode and the body region such that the second gate electrode, the second insulating region and the body region form a second capacitor, the second capacitor having a second capacitance per unit area higher than the first capacitance per unit area; and forming a source metallization at least in electrical contact to the source regions of the first and second field-effect structures and the second gate electrode, wherein the first gate electrode is formed in a first trench extending from a first surface of the semiconductor substrate into the semiconductor substrate and comprising in a lower portion a first field plate separated from the semiconductor body, wherein the first gate electrode is formed so that the first gate electrode is separated from the first field plate, wherein the second gate electrode is formed in a second trench extending from the first surface into the semiconductor substrate and comprising in a lower portion a second field plate. - View Dependent Claims (9, 10)
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Specification