MOS-gated transistor with reduced miller capacitance
First Claim
1. A trench MOS-gated transistor comprising:
- a first region of a first conductivity type;
a well region of a second conductivity type forming a pn junction with the first region, the well region having a flat bottom portion and a portion extending deeper than the flat bottom portion, wherein the deeper portion of the well region, at its deepest point, is about 0.2-0.4 μ
m deeper than the flat bottom portion;
a gate trench extending into the well region; and
channel regions in the well region along outer sidewalls of the gate trench, wherein a first bottom portion of the gate trench terminates within the first region and a second bottom portion of the gate trench terminates within the deeper portion of the well region such that when the transistor is in an on state the deeper portion of the well region prevents a current from flowing through those channel region portions located directly above the deeper portion of the well region.
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Accused Products
Abstract
In one embodiment of the present invention, a trench MOS-gated transistor includes a first region of a first conductivity type forming a pn junction with a well region of a second conductivity type. The well region has a flat bottom portion and a portion extending deeper than the flat bottom portion. A gate trench extends into the well region. Channel regions extend in the well region along outer sidewalls of the gate trench. The gate trench has a first bottom portion which terminates within the first region, and a second bottom portion which terminates within the deeper portion of the well region such that when the transistor is in an on state the deeper portion of the well region prevents a current from flowing through those channel region portions located directly above the deeper portion of the well region.
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Citations
23 Claims
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1. A trench MOS-gated transistor comprising:
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a first region of a first conductivity type; a well region of a second conductivity type forming a pn junction with the first region, the well region having a flat bottom portion and a portion extending deeper than the flat bottom portion, wherein the deeper portion of the well region, at its deepest point, is about 0.2-0.4 μ
m deeper than the flat bottom portion;a gate trench extending into the well region; and channel regions in the well region along outer sidewalls of the gate trench, wherein a first bottom portion of the gate trench terminates within the first region and a second bottom portion of the gate trench terminates within the deeper portion of the well region such that when the transistor is in an on state the deeper portion of the well region prevents a current from flowing through those channel region portions located directly above the deeper portion of the well region. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A trench MOS-gated transistor comprising:
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a substrate; an epitaxial layer of a first conductivity type extending over and in contact with the substrate; a well region of a second conductivity type formed in an upper portion of the epitaxial layer, the well region having a flat bottom portion and a plurality of portions extending deeper than the flat bottom portion, wherein the plurality of deeper portions of the well region, at their deepest point, are about 0.2-0.4 μ
m deeper than the flat bottom portion;a plurality of gate trenches extending into the well region; and source regions of the first conductivity type formed in an upper portion of the well region, the source regions flanking each side of the plurality of gate trenches so as to form channel regions in the well region along outer sidewalls of each of the plurality of gate trenches, each of the plurality of gate trenches having a first plurality of bottom portions which extend through the well region and terminate within the epitaxial layer and a second plurality of bottom portions each terminating within a corresponding one of the plurality of deeper portions of the well region such that when the transistor is in an on state the plurality of deeper portions of the well region prevent a current from flowing through those channel region portions located directly above the deeper portions of the well region. - View Dependent Claims (8, 9, 10)
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11. A trench MOS-gated transistor comprising:
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a substrate of silicon material; a layer of silicon material of a first conductivity type over the substrate; a well region of a second conductivity type formed in an upper portion of the layer of silicon material; a gate trench extending into the well region, the gate trench having a first bottom portion and a second bottom portion, the second bottom portion terminating within the layer of silicon material; a source region of the first conductivity type flanking each side of the gate trench so as to form channel regions in the well region along outer sidewalls of the gate trench, the gate trench being filled with a polysilicon material at least up to and partially overlapping with the source regions; and a region of silicon material of the second conductivity type surrounding only the first bottom portion of the gate trench such that a gap is formed between the region of silicon material and the well region through which gap a current flows when the transistor is in an on state, wherein the region of silicon material electrically floats. - View Dependent Claims (12, 13, 14, 15)
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16. A trench MOS-gated transistor comprising:
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a first region of a first conductivity type; a well region of a second conductivity type forming a pn junction with the first region, the well region having a flat bottom portion and a portion extending deeper than the flat bottom portion; a gate trench extending into the well region; channel regions in the well region along outer sidewalls of the gate trench, wherein a first bottom portion of the gate trench terminates within the first region and a second bottom portion of the gate trench terminates within the deeper portion of the well region such that when the transistor is in an on state the deeper portion of the well region prevents a current from flowing through those channel region portions located directly above the deeper portion of the well region; and a second region of the second conductivity type in the first region, a third bottom portion of the gate trench terminating within the second region, the second region being spaced from the well region to form a gap therebetween, wherein a current flows through the gap when the transistor is in an on state. - View Dependent Claims (17, 18, 19)
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20. A trench MOS-gated transistor comprising:
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a substrate of silicon material; a layer of silicon material of a first conductivity type over the substrate; a well region of a second conductivity type formed in an upper portion of the layer of silicon material; a gate trench extending into the well region; a source region of the first conductivity type flanking each side of the gate trench so as to form channel regions in the well region along outer sidewalls of the gate trench, the gate trench being filled with a polysilicon material at least up to and partially overlapping with the source regions; and a region of silicon material of the second conductivity type surrounding a bottom portion of the gate trench such that a gap is formed between the region of silicon material and the well region through which gap a current flows when the transistor is in an on state, wherein the region of silicon material has a thickness in the range of 0.1-0.3 μ
m. - View Dependent Claims (21)
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22. A trench MOS-gated transistor comprising:
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a substrate of silicon material; a layer of silicon material of a first conductivity type over the substrate; a well region of a second conductivity type formed in an upper portion of the layer of silicon material; a gate trench extending into the well region; a source region of the first conductivity type flanking each side of the gate trench so as to form channel regions in the well region along outer sidewalls of the gate trench, the gate trench being filled with a gate electrode at least up to and partially overlapping with the source regions; and a region of silicon material of the second conductivity type surrounding a bottom portion of the gate trench such that a gap is formed between the region of silicon material and the well region through which gap a current flows when the transistor is in an on state, wherein the gate trench is stripe shaped and the region of silicon material extends along an entire length of the striped gate trench, and wherein the region of silicon material is electrically connected to the well region.
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23. A trench MOS-gated transistor comprising:
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a substrate of silicon material; a layer of silicon material of a first conductivity type over the substrate; a well region of a second conductivity type formed in an upper portion of the layer of silicon material; a gate trench extending into the well region; a source region of the first conductivity type flanking each side of the gate trench so as to form channel regions in the well region along outer sidewalls of the gate trench, the gate trench being filled with a gate electrode at least up to and partially overlapping with the source regions; and a region of silicon material of the second conductivity type surrounding a bottom portion of the gate trench such that a gap is formed between the region of silicon material and the well region through which gap a current flows when the transistor is in an on state, wherein the well region has a flat bottom portion and a portion extending deeper than the flat bottom portion such that portions of the gate trench terminate within a middle region of the deeper portion of the well region, and wherein the region of silicon material electrically floats.
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Specification