摘要:
The invention relates to a method for selective etching of SiC, the etching being carried out by applying a positive potential to a layer (3; 8) of p-type SiC being in contact with an etching solution containing fluorine ions and having an oxidising effect on SiC. The invention also relates to a method for producing a SiC micro structure having free hanging parts (i.e. diaphragm, cantilever or beam) on a SiC-substrate, a method for producing a MEMS device of SiC having a free hanging structure, and a method for producing a piezo-resistive pressure sensor comprising the step of applying a positive potential to a layer (8) of p-type SiC being in contact with an etching solution containing fluorine ions and having an oxidising effect on SiC.
摘要:
A short gate high power metal oxide semiconductor field effect transistor formed in a trench includes a short gate having gate length defined by spacers within the trench. The transistor further includes a buried region that extends beneath the trench and beyond a corner of the trench, that effectively shields the gate from high drain voltage, to prevent short channel effects and resultantly improve device performance and reliability.
摘要:
The present invention relates to a method for producing a semiconductor device having a semiconductor layer of SiC. The method comprises the steps of a) applying a mask on at least a portion of the SiC layer to coat a first portion of the SiC layer leaving a second portion thereof uncoated, b) applying a heat treatment to the SiC layer, and c) supplying dopants to the SiC layer during the heat treatment for diffusion of the dopants into the SiC layer at the second portion thereof for doping the SiC layer. The mask is made of crystalline AIN as the only component or AIN as a major component of a crystalline alloy constituting the material.
摘要:
A self-aligned, silicon carbide power metal oxide semiconductor field effect transistor includes a trench formed in a first layer, with a base region and then a source region epitaxially regrown within the trench. A window is formed through the source region and into the base region within a middle area of the trench. A source contact is formed within the window in contact with a base and source regions. The gate oxide layer is formed on the source and base regions at a peripheral area of the trench and on a surface of the first layer. A gate electrode is formed on the gate oxide layer above the base region at the peripheral area of the trench, and a drain electrode is formed over a second surface of the first layer.
摘要:
A junction barrier Schottky diode is provided as having submicron channel width between implant regions by way of a process including the use of spacer technology. On-state resistance is lowered by providing the implant regions in a channel layer having increased dopant concentration.
摘要:
A lateral field effect transistor for high switching frequencies having a source region layer (4) and a drain region layer (5) laterally spaced and of highly doped first conductivity type, a first-conductivity-type channel layer (6) of lower doping concentration extending laterally and interconnecting the source region layer (4) and the drain region layer (5). The transistor has a gate electrode (7) arranged to control the properties of the channel layer (6), and a highly doped second-conductivity-type base layer (8) arranged under the channel layer (6) at least partially overlapping the gate electrode (7) and at a lateral distance to the drain region layer (5), the highly doped second-conductivity-type base layer (8) being shorted to the source region layer (4). The transistor also has at least one of the following: a) a spacer layer (10) having semiconductor material adjacent to the channel layer (6) and located between the channel layer (6) and gate electrode (7), at least in the vicinity of the gate electrode (7), and/or b) a spacer layer (9) having semiconductor material adjacent to the channel layer (6) and located between the channel layer (6) and the highly doped second-conductivity-type base layer (8).
摘要:
A lateral field effect transistor for high switching frequencies having a source region layer (4) and a drain region layer (5) laterally spaced and of highly doped first conductivity type, a first-conductivity-type channel layer (6) of lower doping concentration extending laterally and interconnecting the source region layer (4) and the drain region layer (5). The transistor has a gate electrode (7) arranged to control the properties of the channel layer (6), and a second-conductivity-type base layer (8) arranged under the channel layer (6) at least partially overlapping the gate electrode (7) and at a lateral distance to the drain region layer (5), the highly doped second-conductivity-type base layer (8) being shorted to the source region layer (4). The transistor also has at least one of the following: a) a spacer layer (10) having semiconductor material adjacent to the channel layer (6) and located between the channel layer (6) and gate electrode (7), at least in the vicinity of the gate electrode (7), and/or b) a spacer layer (9) having semiconductor material adjacent to the channel layer (6) and located between the channel layer (6) and the second-conductivity-type base layer (8).
摘要:
A short gate high power metal oxide semiconductor field effect transistor formed in a trench includes a short gate having gate length defined by spacers within the trench. The transistor further includes a buried region that extends beneath the trench and beyond a corner of the trench, that effectively shields the gate from high drain voltage, to prevent short channel effects and resultantly improve device performance and reliability.
摘要:
A vertical junction field effect transistor includes a trench formed in an epitaxial layer. The trench surrounds a channel region of the epitaxial layer. The channel region may have a graded or uniform dopant concentration profile. An epitaxial gate structure is formed within the trench by epitaxial regrowth. The epitaxial gate structure may include separate first and second epitaxial gate layers, and may have either a graded or uniform dopant concentration profile.
摘要:
A vertical junction field effect transistor includes a trench formed in an epitaxial layer. The trench surrounds a channel region of the epitaxial layer. The channel region may have a graded or uniform dopant concentration profile. An epitaxial gate structure is formed within the trench by epitaxial regrowth. The epitaxial gate structure may include separate first and second epitaxial gate layers, and may have either a graded or uniform dopant concentration profile.