| CPC H10D 62/111 (2025.01) [H10D 30/668 (2025.01); H10D 64/513 (2025.01)] | 11 Claims |
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1. A trench-gate transistor device, comprising:
a substrate made of silicon carbide of a first doping type; and
a transistor structure including:
a plurality of superjunctions arranged in a first direction;
a rectifying area that has at least one Schottky-based diode;
at least one active unit that is located at a side of said rectifying area in a second direction that intersects with the first direction; and
an epitaxial body made of silicon carbide and having:
a first doped region of the first doping type having a doping concentration lower than that of said substrate;
a well region of a second doping type disposed above and adjoining said first doped region;
a second doped region of the first doping type separating from said well region and disposed above and adjoining said first doped region;
a plurality of third doped regions of the second doping type separately arranged in the first direction, and disposed above and adjoining said first doped region so as to form said plurality of superjunctions therebetween, each of said third doped regions extending in the second direction; and
a source region formed in said well region and located at a side of said second doped region in the second direction, said at least one active unit including said source region,
wherein said first doped region and said second doped region have the same doping concentrations, and said well region has a doping concentration greater than that of each of said third doped regions,
wherein said rectifying area includes said second doped region,
wherein said at least one active unit further includes a trench gate structure which is extended in said epitaxial body along the first direction and is disposed adjacent to and adjoins said source region in the second direction,
wherein said transistor structure includes a plurality of said active units that are disposed at two opposite sides of said rectifying area in the second direction,
wherein, for each of said active units, said trench gate structure includes:
a gate trench which is extended from a surface of said epitaxial body into said first doped region, and which has a depth greater than that of said well region in said epitaxial body;
an insulating layer formed on a trench-defining wall that defines said gate trench; and
a gate electrode which fills said gate trench to cover said insulating layer, and which is isolated from said well region and said source region by said insulating layer;
wherein said trench-gate transistor device further includes:
a dielectric layer which covers said transistor structure; and
a conductive unit which is disposed on said dielectric layer and includes a plurality of gate connecting parts, each of which is electrically connected to said gate electrode of a corresponding one of said active units,
wherein said gate connection parts are spaced apart from each other along the second direction,
wherein said transistor structure further includes a trench-contact electrode structure, said trench-contact electrode structure including:
a first trench which is formed in said epitaxial body from said surface and in said rectifying area, extends along the first direction, and has a depth smaller than that of said well region;
a first metal layer which fills said first trench and adjoins said second doped region to form a Schottky contact therebetween;
a plurality of second trenches which are formed in said epitaxial body from said surface and in said source regions of said active units, each of which extends along the first direction, and has a depth smaller than that of said well region in said epitaxial body; and
a plurality of second metal layers which respectively fills said second trenches to form ohmic contacts with said source regions;
wherein said conductive unit further includes a plurality of first contact electrode parts. each of which is electrically connected to a corresponding one of said first metal layer and said second metal layers and extends along the first direction,
wherein said gate connecting parts and said first contact electrode parts are arranged in an alternate manner along the second direction, and
wherein said transistor structure further includes a first peripheral area that extends in the second direction, and a second peripheral area that is connected to said first peripheral area and that extends in the first direction, said first peripheral area and said second peripheral area cooperatively surrounding said rectifying area and said active units.
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