Checkerboarded high-voltage vertical transistor layout
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Abstract
In one embodiment, a transistor fabricated on a semiconductor die includes a first section of transistor segments disposed in a first area of the semiconductor die, and a second section of transistor segments disposed in a second area of the semiconductor die adjacent the first area. Each of the transistor segments in the first and second sections includes a pillar of a semiconductor material that extends in a vertical direction. 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. Outer field plates of transistor segments adjoining first and second sections are either separated or partially merged.
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Citations
35 Claims
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1-22. -22. (canceled)
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23. A transistor comprising:
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a semiconductor die; a plurality of transistor segments organized into a plurality of sections, each transistor segment having a length and a width, the length being substantially greater than the width, the transistor segments of each section being arranged in a side-by-side relationship along the width, each transistor segment including; a pillar of a semiconductor material that extends in a vertical direction, the pillar having a source region disposed near a top surface of the semiconductor die, an extended drain region, and a body region that vertically separates the source and extended drain regions; 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, the first and second field plates being fully insulated from the extended drain region, the first field plate being laterally surrounded by the pillar, and the second field plate laterally surrounding the pillar; the sections being arranged in rows and columns substantially across the semiconductor die, adjacent sections in a row or a column being oriented such that the length of the transistor segments in a first one of the adjacent sections extends in a first direction, and the length of the transistor segments in a second one of the adjacent sections extends in a second direction, the first direction being substantially orthogonal to the second direction. - View Dependent Claims (24, 25, 26, 27, 28, 29)
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30. A high-voltage, field-effect transistor (HVFET) comprising:
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a plurality of transistor segments organized on a die into a plurality of sections, each transistor segment having a length elongated in a first lateral direction and a width in a second lateral direction, the transistor segments of each section being arranged in a side-by-side relationship along the width, each transistor segment including; a pillar of a semiconductor material of a first conductivity type, the pillar having a racetrack-shape in the first and second lateral directions, the pillar including a source region disposed near a top surface of the die, and an extended drain region that extends in a vertical direction through the die; 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, the first and second field plates being fully insulated from the extended drain region, the first field plate being laterally surrounded by the pillar, and the second field plate laterally surrounding the pillar; the sections being arranged in rows and columns substantially across the semiconductor die, adjacent sections in a row or a column being oriented such that the length of the transistor segments in a first one of the adjacent sections extends in a first direction, and the length of the transistor segments in a second one of the adjacent sections extends in a second direction, the first direction being substantially orthogonal to the second direction. - View Dependent Claims (31, 32, 33, 34, 35)
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Specification