Low threshold voltage MOS transistor and method of manufacture

A low threshold voltage MOS device on a semiconductor substrate is disclosed. The substrate has an upper surface, and a first well region is disposed in said semiconductor substrate extending downwardly from the semiconductor substrate upper surface. The first well region includes a dopant of a firs...

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1. Verfasser:	SELISKAR JOHN J
Format:	Patent
Sprache:	eng
Schlagworte:	BASIC ELECTRIC ELEMENTS ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY SEMICONDUCTOR DEVICES
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creator	SELISKAR JOHN J
description	A low threshold voltage MOS device on a semiconductor substrate is disclosed. The substrate has an upper surface, and a first well region is disposed in said semiconductor substrate extending downwardly from the semiconductor substrate upper surface. The first well region includes a dopant of a first conductivity type having a first average dopant concentration. Source and drain regions of a second conductivity type are laterally spaced from each other and are disposed in the first well region, the source and drain regions extending downwardly from the semiconductor substrate upper surface a predetermined distance. A channel region comprising the first well region of the first conductivity type is disposed between the source and drain regions. The channel region also extends at least the predetermined distance below the semiconductor substrate upper surface. A second well region is disposed in the semiconductor substrate below the channel region, the second well region being of the first conductivity type having a second average dopant concentration. A buried electrode region is disposed below the source and drain regions between the second well region and the channel region. The buried electrode region has a dopant of the first conductivity type at a concentration which is greater than both the first and second dopant concentrations of the channel region and the second well region, respectively. Finally, a gate is disposed over the channel region with the buried electrode creating a low gate threshold voltage with significantly reduced likelihood of punch through.
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The substrate has an upper surface, and a first well region is disposed in said semiconductor substrate extending downwardly from the semiconductor substrate upper surface. The first well region includes a dopant of a first conductivity type having a first average dopant concentration. Source and drain regions of a second conductivity type are laterally spaced from each other and are disposed in the first well region, the source and drain regions extending downwardly from the semiconductor substrate upper surface a predetermined distance. A channel region comprising the first well region of the first conductivity type is disposed between the source and drain regions. The channel region also extends at least the predetermined distance below the semiconductor substrate upper surface. A second well region is disposed in the semiconductor substrate below the channel region, the second well region being of the first conductivity type having a second average dopant concentration. A buried electrode region is disposed below the source and drain regions between the second well region and the channel region. The buried electrode region has a dopant of the first conductivity type at a concentration which is greater than both the first and second dopant concentrations of the channel region and the second well region, respectively. 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A buried electrode region is disposed below the source and drain regions between the second well region and the channel region. The buried electrode region has a dopant of the first conductivity type at a concentration which is greater than both the first and second dopant concentrations of the channel region and the second well region, respectively. 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The substrate has an upper surface, and a first well region is disposed in said semiconductor substrate extending downwardly from the semiconductor substrate upper surface. The first well region includes a dopant of a first conductivity type having a first average dopant concentration. Source and drain regions of a second conductivity type are laterally spaced from each other and are disposed in the first well region, the source and drain regions extending downwardly from the semiconductor substrate upper surface a predetermined distance. A channel region comprising the first well region of the first conductivity type is disposed between the source and drain regions. The channel region also extends at least the predetermined distance below the semiconductor substrate upper surface. A second well region is disposed in the semiconductor substrate below the channel region, the second well region being of the first conductivity type having a second average dopant concentration. A buried electrode region is disposed below the source and drain regions between the second well region and the channel region. The buried electrode region has a dopant of the first conductivity type at a concentration which is greater than both the first and second dopant concentrations of the channel region and the second well region, respectively. Finally, a gate is disposed over the channel region with the buried electrode creating a low gate threshold voltage with significantly reduced likelihood of punch through.</abstract><edition>7</edition><oa>free_for_read</oa></addata></record>
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subjects	BASIC ELECTRIC ELEMENTS ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY SEMICONDUCTOR DEVICES
title	Low threshold voltage MOS transistor and method of manufacture
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