摘要:
In a semiconductor device, a body thick film transistor and a body thin film transistor having a different body film thickness are formed on the same SOI substrate (silicon support substrate, buried oxide film and silicon layer). The body film is formed to be relatively thick in the body thick film transistor, which has a recess structure where the level of the surface of the source/drain regions is lower than the level of the surface of the body region, and thus, the SOI film in the source/drain regions is formed to be as thin as the SOI film in the body thin film transistor. On the other hand, the entirety of the SOI film is formed to have a relatively thin film thickness in the body thin film transistor. In addition, the source/drain regions are formed to penetrate through the silicon layer.
摘要:
In a semiconductor device, a gate electrode, an impurity diffused region, a body potential fixing region, a first insulator, and a dummy gate electrode are provided on top of an SOI substrate consisting of an underlying silicon substrate, a buried insulator, and a semiconductor layer. The impurity diffused region is a region formed by implanting an impurity of a first conductivity type into the semiconductor layer around the gate electrode. The body potential fixing region is a region provided in the direction of an extension line of the length of the gate electrode and implanted with an impurity of a second conductivity type. The first insulator is formed at least in the portion between the body potential fixing region and the gate electrode. The dummy gate electrode is provided on the first insulator between the body potential fixing region and the gate electrode.
摘要:
The invention relates to improvements in a method of manufacturing a semiconductor device in which deterioration in a transistor characteristic is avoided by preventing a channel stop implantation layer from being formed in an active region. After patterning a nitride film (22), the thickness of an SOI layer 3 is measured (S2) and, by using the result of measurement, etching conditions (etching time and the like) for SOI layer 3 are determined (S3). To measure the thickness of SOI layer 3, it is sufficient to use spectroscopic ellipsometry which irradiates the surface of a substance with linearly polarized light and observes elliptically polarized light reflected by the surface of a substance. The etching condition determined is used and a trench TR2 is formed by using patterned nitride film 22 as an etching mask (S4).
摘要:
In a semiconductor device, a body thick film transistor and a body thin film transistor having a different body film thickness are formed on the same SOI substrate (silicon support substrate, buried oxide film and silicon layer). The body film is formed to be relatively thick in the body thick film transistor, which has a recess structure where the level of the surface of the source/drain regions is lower than the level of the surface of the body region, and thus, the SOI film in the source/drain regions is formed to be as thin as the SOI film in the body thin film transistor. On the other hand, the entirety of the SOI film is formed to have a relatively thin film thickness in the body thin film transistor. In addition, the source/drain regions are formed to penetrate through the silicon layer.
摘要:
In a semiconductor device, a gate electrode, an impurity diffused region, a body potential fixing region, a first insulator, and a dummy gate electrode are provided on top of an SOI substrate consisting of an underlying silicon substrate, a buried insulator, and a semiconductor layer. The impurity diffused region is a region formed by implanting an impurity of a first conductivity type into the semiconductor layer around the gate electrode. The body potential fixing region is a region provided in the direction of an extension line of the length of the gate electrode and implanted with an impurity of a second conductivity type. The first insulator is formed at least in the portion between the body potential fixing region and the gate electrode. The dummy gate electrode is provided on the first insulator between the body potential fixing region and the gate electrode.
摘要:
A semiconductor device includes a plurality of circuit portions of different functions each constructed by including a MOS transistor on an SOI substrate obtained by sequentially stacking a semiconductor substrate, a buried insulating film and a semiconductor layer. The semiconductor device includes first and second portions. The first circuit portion is isolated by being surrounded with a first insulating film provided on an upper portion of the semiconductor layer and a second insulating film penetrating the semiconductor layer to reach the buried insulating film.
摘要:
The invention relates to improvements in a method of manufacturing a semiconductor device in which deterioration in a transistor characteristic is avoided by preventing a channel stop implantation layer from being formed in an active region. After patterning a nitride film (22), the thickness of an SOI layer 3 is measured (S2) and, by using the result of measurement, etching conditions (etching time and the like) for SOI layer 3 are determined (S3). To measure the thickness of SOI layer 3, it is sufficient to use spectroscopic ellipsometry which irradiates the surface of a substance with linearly polarized light and observes elliptically polarized light reflected by the surface of a substance. The etching condition determined is used and a trench TR2 is formed by using patterned nitride film 22 as an etching mask (S4).
摘要:
In a semiconductor device, a gate electrode, an impurity diffused region, a body potential fixing region, a first insulator, and a dummy gate electrode are provided on top of an SOI substrate consisting of an underlying silicon substrate, a buried insulator, and a semiconductor layer. The impurity diffused region is a region formed by implanting an impurity of a first conductivity type into the semiconductor layer around the gate electrode. The body potential fixing region is a region provided in the direction of an extension line of the length of the gate electrode and implanted with an impurity of a second conductivity type. The first insulator is formed at least in the portion between the body potential fixing region and the gate electrode. The dummy gate electrode is provided on the first insulator between the body potential fixing region and the gate electrode.
摘要:
The invention relates to improvements in a method of manufacturing a semiconductor device in which deterioration in a transistor characteristic is avoided by preventing a channel stop implantation layer from being formed in an active region. After patterning a nitride film (22), the thickness of an SOI layer 3 is measured (S2) and, by using the result of measurement, etching conditions (etching time and the like) for SOI layer 3 are determined (S3). To measure the thickness of SOI layer 3, it is sufficient to use spectroscopic ellipsometry which irradiates the surface of a substance with linearly polarized light and observes elliptically polarized light reflected by the surface of a substance. The etching condition determined is used and a trench TR2 is formed by using patterned nitride film 22 as an etching mask (S4).
摘要:
An isolation insulating film (5) of partial-trench type is selectively formed in an upper surface of a silicon layer (4). A power supply line (21) is formed above the isolation insulating film (5). Below the power supply line (21), a complete isolation portion (23) reaching an upper surface of an insulating film (3) is formed in the isolation insulating film (5). In other words, a semiconductor device comprises a complete-isolation insulating film which is so formed as to extend from the upper surface of the silicon layer (4) and reach the upper surface of insulating film (3) below the power supply line (21). With this structure, it is possible to obtain the semiconductor device capable of suppressing variation in potential of a body region caused by variation in potential of the power supply line.