Field effect transistor with non-floating body and method for forming same on a bulk silicon wafer
First Claim
1. A field effect transistor formed on a semiconductor substrate comprising:
- a) an active region, including a central channel region and a source region and a drain region disposed on opposite sides of said central channel region;
b) an insulating buried oxide layer in said semiconductor substrate isolating at least a portion of the active region from the semiconductor substrate c) a conductive perforation in the buried oxide layer electrically coupling the channel region to the semiconductor substrate; and
d) an insulating trench extending around the perimeter of the active region to isolate the active region from other structures formed on said semiconductor substrate;
wherein the conductive perforation is narrower than the central channel region in a direction from the source region to the drain region.
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Accused Products
Abstract
A silicon on insulator (SOI) wafer is formed with an unoxidized perforation in the insulating silicon dioxide buried oxide layer. A field effect transistor (FET) structure on the SOI wafer is located above the unoxidized perforation such that the unoxidized perforation provides for electrical coupling between the channel region of the FET with the bulk silicon substrate to eliminate the floating body effect caused by charge accumulation in the channel regions due to historical operation of the FET. The method of forming the FET includes masking a silicon wafer prior to an oxygen implantation process to form the unoxidized perforated buried oxide layer in the wafer.
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Citations
12 Claims
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1. A field effect transistor formed on a semiconductor substrate comprising:
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a) an active region, including a central channel region and a source region and a drain region disposed on opposite sides of said central channel region;
b) an insulating buried oxide layer in said semiconductor substrate isolating at least a portion of the active region from the semiconductor substrate c) a conductive perforation in the buried oxide layer electrically coupling the channel region to the semiconductor substrate; and
d) an insulating trench extending around the perimeter of the active region to isolate the active region from other structures formed on said semiconductor substrate;
wherein the conductive perforation is narrower than the central channel region in a direction from the source region to the drain region. - View Dependent Claims (2, 5, 6, 7, 8)
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3. A semiconductor device including a plurality of field effect transistors formed on a semiconductor substrate, each transistor comprising:
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a) an active region, including a central channel region and a source region and a drain region each on opposing sides of the central channel region;
b) a bridge region, with a cross section area smaller than a cross section of the central channel region, conductively coupling the central channel region with said semiconductor substrate; and
c) an insulator isolating said active body region and said bridge region from at least one other of said plurality of transistors. - View Dependent Claims (4, 9, 10, 11, 12)
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Specification