Opposed dual-gate hybrid structure for three-dimensional integrated circuits
First Claim
1. A semiconductor integrated circuit device, comprising:
- an insulating substrate;
a first backgate electrode made of a layer of doped semiconductor material epitaxially related to said insulating substrate formed over a portion of said insulating substrate;
a second backgate electrode made of a layer of doped semiconductor material epitaxially related to said insulating substrate formed over another portion of said insulating substrate;
an insulating overlay made of nonconductive material overlying and epitaxially related to said first and second backgate electrodes;
a first gated semiconductor device including source, channel and drain regions overlying said insulating overlay and first backgate electrode wherein the extent of said first backgate electrode along said insulating overlay is greater than the lateral extent of the source, channel and drain regions of said first semiconductor device;
a second gated semiconductor device including source, channel and drain regions overlying said insulating overlay and second backgate electrode wherein the extent of said second backgate electrode along said insulating overlay is greater than the lateral extent of the source, channel and drain regions of said second semiconductor device; and
separate means for electrically biasing said first and second backgate electrodes independently.
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Accused Products
Abstract
A three-dimensional integrated circuit structure utilizing a hybridization of silicon-on-insulator and silicon-on-sapphire technologies is disclosed, wherein a buried doped epitaxial silicon layer, insulated from a gated semiconductor device by a buried insulating layer, biases the gate region of the overlying semiconductor device, thereby providing a second gate positionally opposed to the conventional first gate of the semiconductor device. The second gate (or backgate) is utilized to draw undesired charge carriers from its overlying insulating layer, thereby avoiding the undesirable effects of the presence of such excess charge carriers, which typically may be induced by external radiation. The selectable backgating feature is fully compatible with existing integrated circuit fabrication technology, and may be utilized to provide a single backgate for all overlying semiconductor devices, or individual backgates for one or groups of semiconductor devices in island-etched structures.
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Citations
11 Claims
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1. A semiconductor integrated circuit device, comprising:
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an insulating substrate; a first backgate electrode made of a layer of doped semiconductor material epitaxially related to said insulating substrate formed over a portion of said insulating substrate; a second backgate electrode made of a layer of doped semiconductor material epitaxially related to said insulating substrate formed over another portion of said insulating substrate; an insulating overlay made of nonconductive material overlying and epitaxially related to said first and second backgate electrodes; a first gated semiconductor device including source, channel and drain regions overlying said insulating overlay and first backgate electrode wherein the extent of said first backgate electrode along said insulating overlay is greater than the lateral extent of the source, channel and drain regions of said first semiconductor device; a second gated semiconductor device including source, channel and drain regions overlying said insulating overlay and second backgate electrode wherein the extent of said second backgate electrode along said insulating overlay is greater than the lateral extent of the source, channel and drain regions of said second semiconductor device; and separate means for electrically biasing said first and second backgate electrodes independently. - View Dependent Claims (2, 3, 4, 5, 6)
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7. An integrated semiconductor circuit device, comprising:
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an insulating substrate selected from the group consisting of sapphire and spinel; a first backgate electrode made of a layer of semiconductor material of N+ or P+ conductivity, overlying and epitaxially related to said insulating substrate; a second backgate electrode made of a layer of semiconductor material of N+ or P+ conductivity overlying and epitaxially related to said insulating substrate; a layer of insulating material overlying said first and second backgate electrodes; a first gated semiconductor device having source, drain and channel regions overlying said insulating layer and first backgate electrode, wherein the extent of said first backgate electrode along said insulating layer is greater than the width of said source, drain and channel regions of said first gated semiconductor device; a second gated semiconductor device having source, drain and channel regions overlying said insulating layer and second backgate electrode, wherein the extent of said second backgate electrode along said insulating layer is greater than the width of said source, drain and channel regions of said second gated semiconductor device; a first electrical backgate contact to said first backgate electrode, whereby said first backgate electrode may be electrically biased to act as a second gate for said first semiconductor gated device; and a second electrical backgate contact to said second backgate electrode, whereby said second backgate electrode may be electrically biased to act as a second gate for said second gated semiconductor device. - View Dependent Claims (8, 9, 10)
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11. An integrated semiconductor circuit device, comprising,
an insulating substrate; -
a plurality of backgate electrodes made of highly doped semiconductor material overlying and epitaxially related to said insulating substrate; a layer of insulating material overlying and epitaxially related to said plurality of backgate electrodes; a plurality of gated semiconductor devices having source, channel and drain regions overlying said insulating layer, respective one of said gated semiconductor devices overlying respective ones of said backgate electrodes, wherein the extent of respective backgate electrodes along said insulating layer is greater than the width of their respective overlying gated semiconductor device source, channel and drain regions; and separate means for biasing each backgate electrode independently.
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Specification