Gate pullback at ends of high-voltage vertical transistor structure
First Claim
1. A transistor comprising:
- a pillar of semiconductor material arranged in a racetrack-shaped layout having a substantially linear section that extends in a first lateral direction and rounded sections at each end of the substantially linear section of the racetrack-shaped layout, a source region of a first conductivity type being disposed at or near a top surface of the pillar, and a body region of a second conductivity type being disposed in the pillar beneath the source region;
first and second dielectric regions disposed on opposite sides of the pillar, respectively, the first dielectric region being laterally surrounded by the pillar, and the second dielectric region laterally surrounding the pillar;
first and second field plates respectively disposed in the first and second dielectric regions;
first and second gate members respectively disposed in the first and second dielectric regions at or near the top surface of the pillar adjacent the body region, the first and second gate members being separated from the body region by a gate oxide having a first thickness in the substantially linear section of the racetrack-shaped layout, the gate oxide having a second thickness at the rounded sections, the second thickness being substantially larger than the first thickness.
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Accused Products
Abstract
In one embodiment, a transistor includes a pillar of semiconductor material arranged in a racetrack-shaped layout having a substantially linear section that extends in a first lateral direction and rounded sections at each end of the substantially linear section. First and second dielectric regions are disposed on opposite sides of the pillar. First and second field plates are respectively disposed in the first and second dielectric regions. First and second gate members respectively disposed in the first and second dielectric regions are separated from the pillar by a gate oxide having a first thickness in the substantially linear section. The gate oxide being substantially thicker at the rounded sections. It is emphasized that this abstract is provided to comply with the rules requiring an abstract that will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure.
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Citations
15 Claims
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1. A transistor comprising:
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a pillar of semiconductor material arranged in a racetrack-shaped layout having a substantially linear section that extends in a first lateral direction and rounded sections at each end of the substantially linear section of the racetrack-shaped layout, a source region of a first conductivity type being disposed at or near a top surface of the pillar, and a body region of a second conductivity type being disposed in the pillar beneath the source region; first and second dielectric regions disposed on opposite sides of the pillar, respectively, the first dielectric region being laterally surrounded by the pillar, and the second dielectric region laterally surrounding the pillar; first and second field plates respectively disposed in the first and second dielectric regions; first and second gate members respectively disposed in the first and second dielectric regions at or near the top surface of the pillar adjacent the body region, the first and second gate members being separated from the body region by a gate oxide having a first thickness in the substantially linear section of the racetrack-shaped layout, the gate oxide having a second thickness at the rounded sections, the second thickness being substantially larger than the first thickness. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A transistor comprising:
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a pillar of semiconductor material arranged in a racetrack-shaped layout having a substantially linear section that extends in a first lateral direction and rounded sections at each end of the substantially linear section of the racetrack-shaped layout; first and second dielectric regions disposed on opposite sides of the pillar, respectively, the first dielectric region being laterally surrounded by the pillar, and the second dielectric region laterally surrounding the pillar; first and second field plates respectively disposed in the first and second dielectric regions; first and second gate members respectively disposed in the first and second dielectric regions at or near a top of the pillar, the first and second gate members being separated from the body region by a gate oxide having a first thickness in the substantially linear section of the racetrack-shaped layout, the gate oxide having a second thickness at the rounded sections, the second thickness being substantially larger than the first thickness. - View Dependent Claims (8, 9, 10, 11)
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12. A transistor comprising:
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a racetrack-shaped pillar of semiconductor material having spaced-apart first and second linear portions that each extend in a first lateral direction, a first rounded portion of the racetrack-shaped pillar joining respective first ends of the first and second linear portions, a second rounded portion of the racetrack-shaped pillar joining respective second ends of the first and second linear portions; first and second dielectric regions respectively disposed on opposite sides of the racetrack-shaped pillar, the first dielectric region being laterally surrounded by the pillar, and the second dielectric region laterally surrounding the pillar; first and second field plates respectively disposed in the first and second dielectric regions; first and second gate members respectively disposed in the first and second dielectric regions at or near a top of the first linear portion of the racetrack-shaped pillar; third and fourth gate members respectively disposed in the first and second dielectric regions at or near a top of the second linear portion of the racetrack-shaped pillar; and wherein the first, second, third and fourth gate members are each separated from the racetrack-shaped pillar by a gate oxide, opposite ends of the first, second, third and fourth gate members being terminated in the first lateral direction at or near the first and second rounded portions, respectively. - View Dependent Claims (13, 14, 15)
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Specification