Charge balance field effect transistor
First Claim
1. A method of forming a FET, comprising:
- providing a semiconductor region of a first conductivity type with an epitaxial layer of a second conductivity extending over the semiconductor region;
forming a trench extending through the epitaxial layer and terminating in the semiconductor region;
performing a two-pass angled implant of dopants of the first conductivity type to thereby form a region of first conductivity type along the trench sidewalls;
performing a threshold voltage adjust implant of dopants of the second conductivity type to thereby convert a conductivity type of a portion of the region of first conductivity type extending along upper sidewalls of the trench to the second conductivity type; and
forming source regions of the first conductivity type flanking each side of the trench.
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Accused Products
Abstract
A field effect transistor is formed as follows. A semiconductor region of a first conductivity type with an epitaxial layer of a second conductivity extending over the semiconductor region is provided. A trench extending through the epitaxial layer and terminating in the semiconductor region is formed. A two-pass angled implant of dopants of the first conductivity type is carried out to thereby form a region of first conductivity type along the trench sidewalls. A threshold voltage adjust implant of dopants of the second conductivity type is carried out to thereby convert a conductivity type of a portion of the region of first conductivity type extending along upper sidewalls of the trench to the second conductivity type. Source regions of the first conductivity type flanking each side of the trench are formed.
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Citations
15 Claims
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1. A method of forming a FET, comprising:
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providing a semiconductor region of a first conductivity type with an epitaxial layer of a second conductivity extending over the semiconductor region;
forming a trench extending through the epitaxial layer and terminating in the semiconductor region;
performing a two-pass angled implant of dopants of the first conductivity type to thereby form a region of first conductivity type along the trench sidewalls;
performing a threshold voltage adjust implant of dopants of the second conductivity type to thereby convert a conductivity type of a portion of the region of first conductivity type extending along upper sidewalls of the trench to the second conductivity type; and
forming source regions of the first conductivity type flanking each side of the trench. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of forming a MOSFET comprising:
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providing a substrate of a first conductivity type;
forming an epitaxial layer of a second conductivity over the substrate;
forming a trench extending through the epitaxial layer and terminating in the substrate;
performing a two-pass angled implant of dopants of the first conductivity type to thereby form a region of first conductivity type along the trench sidewalls;
forming a shield electrode in a lower portion of the trench such that an upper portion of the shield electrode extends in the epitaxial layer and a lower portion of the shield electrode extends in the substrate, the shield electrode being insulated from the epitaxial layer and the substrate by a shield dielectric;
forming a gate dielectric layer along upper sidewalls of the trench;
forming a gate electrode in the trench over but insulated from the shield electrode;
performing a threshold voltage adjust implant of dopants of the second conductivity type to thereby convert the conductivity type of a portion of the region of the first conductivity type extending along upper sidewalls of the trench to the second conductivity type; and
forming source regions of the first conductivity type flanking each side of the trench. - View Dependent Claims (8, 9, 10)
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11. A MOSFET comprising:
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a trench extending into a semiconductor region;
a shield electrode in a lower portion of the trench, the shield electrode being insulated from the semiconductor region by a shield dielectric;
a gate electrode in an upper portion of the trench, the gate electrode being over but insulated from the shield electrode;
wherein the semiconductor region comprises;
a substrate of a first conductivity type;
a first silicon region of a second conductivity type over the substrate, the first silicon region having a first portion extending to a depth intermediate a top surface and a bottom surface of the gate electrode, the first silicon region having a second portion extending to a depth intermediate a top surface and a bottom surface of the shield electrode;
a second silicon region of the first conductivity type between the trench and the second portion of the first silicon region, the second silicon region having a laterally-graded doping concentration decreasing in a direction away from the trench sidewalls; and
a source region of the first conductivity type in the first silicon region, the source region being adjacent the trench. - View Dependent Claims (12, 13, 14)
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15-154. -154. (canceled)
Specification