摘要:
Within a semiconductor fabrication and a method for fabricating the semiconductor fabrication there is provided a series of field effect devices having in a first instance an optional pair of different gate dielectric layer thicknesses, and in a second instance different dopant distribution profiles with respect to a pair of gate electrodes formed upon a pair of gate dielectric layers of a single thickness. The method provides the semiconductor fabrication with multiple gate dielectric layer thicknesses, actual and effective, with enhanced manufacturability and reliability.
摘要:
An integrated circuit capacitor is disclosed which has improved leakage and storage characteristics. The dielectric material for the capacitor consists of a first layer of silicon nitride adjacent the lower plate, such as a silicon substrate, upon which a layer of silicon dioxide is formed. A second layer of silicon nitride is formed over the silicon dioxide layer, above which the second plate is formed. The layer of silicon dioxide may be formed by the partial oxidation of the first silicon nitride layer. The capacitor may be a planar capacitor, may be formed in a trench, or may be formed between two layers above the surface of the substrate.
摘要:
Sidewall spacers extending above a silicon gate with the distance between the spacers exceeding the length of the gate are used to confine selective silicon growth of the gate and subsequent self-aligned silicidation.
摘要:
A low power transistor (70, 70′) formed in a face of a semiconductor layer (86) of a first conductivity type. The transistor includes a source and drain regions (76, 78) of a second conductivity type formed in the face of the semiconductor layer, and a gate (72) insulatively disposed adjacent the face of the semiconductor layer and between the source and drain regions. A layer of counter doping (80, 80′) of the second conductivity type is formed adjacent to the face of the semiconductor layer generally between the source and drain regions. A first and second pockets (82, 84, 82′, 84′) of the first conductivity type may also be formed generally adjacent to the source and drain regions and the counter doped layer (80, 80′).
摘要:
A method of forming a field effect transistor with source and drain on an insulator includes forming a first void region (11) in the outer surface of a semiconductor body (10) and forming a second void region (11) in the outer surface of a semiconductor body. The first void region is separated from the second void region by a portion of the semiconductor body (10). The method further includes depositing a dielectric material in the first void region to form a first insulating region (16) and depositing a dielectric material in the second void region to form a second insulating region (16). The method further includes planarizing the first and second insulating regions to define a planar surface (17). The method also includes forming a conductive source region (34) overlying the first insulating region, forming a conductive drain region (36) overlying the second insulating region, and forming a conductive gate body (24) overlying the planar surface and spaced apart from the conductive source region and the conductive drain region.A field effect transistor device (50) having a substrate (10) is provided. The transistor (50) includes a conductive gate body (24) and a gate insulator layer (32) having a planar outer surface adjacent to the conductive gate body and a planar inner surface (39). The transistor further includes first and second insulating regions (16) formed on the substrate. The transistor (50) also includes a conductive drain region (36) formed on the second insulating region and a conductive source region (34) formed on the first insulating region and spaced apart from the conductive gate body (24) opposite the conductive drain region (36). The conductive drain region and conductive source region define a portion of the planar inner surface (39).
摘要:
A system for producing metal gate MOSFETs having relatively low threshold voltages is disclosed, comprising the steps of forming 200 a gate oxide layer on a semiconductor substrate, forming 210 a dummy gate on the substrate, removing 260 the dummy gate after further processing and depositing 270 a lower metallic gate material on said gate oxide; treating 280 the semiconductor device with a reducing gas immediately after deposition of the lower metallic gate material, and depositing 290 an upper gate metal over the lower gate material.
摘要:
An isolation trench (60) may comprise a trench (20) formed in a semiconductor layer (12). A barrier layer (22) may be formed along the trench (20). A protective liner (50) may be formed over the barrier layer (22). The protective liner (50) may comprise a chemically deposited oxide. A high density layer of insulation material (55) may be formed in the trench (20) over the protective liner (50).
摘要:
A method for forming a transistor (50) includes forming a first insulating region (16) in the outer surface of a semiconductor body (10) and forming a second insulating region (16) in the outer surface of the semiconductor body (10) and spaced apart from the first insulating region by a region of semiconductor material. The method further includes planarizing the first and second insulating regions and the region of semiconductor material to define a planar surface (17) and forming a conductive source region (34) overlying the first insulating region. The method further includes forming a conductive drain region (36) overlying the second insulating region and forming a conductive gate body (24) overlying the planar surface (17) and spaced apart from the conductive source region (34) and the conductive drain region (36).A field effect transistor device (50) having a substrate (10) is provided. The transistor (50) includes a conductive gate body (24) and a gate insulator layer (32) having a planar outer surface adjacent to the conductive gate body and a planar inner surface (39). The transistor further includes first and second insulating regions (16) formed in the substrate. The transistor (50) also includes a conductive drain region (36) formed on the second insulating region and a conductive source region (34) formed on the first insulating region and spaced apart from the conductive gate body (24) opposite the conductive drain region (36). The conductive drain region and conductive source region define a portion of the planar inner surface (39).
摘要:
A dynamic random access memory device (10) includes three separate sections--an input/output section (12), a peripheral transistor section (14), and a memory array section (16), all formed on a p- type substrate layer (18). The dynamic random access memory device (10) can employ separate substrate bias voltages for each section. The input/output section (12) has a p- type region (22) that is isolated from the p- type substrate layer (18) by an n-type well region (20). The peripheral transistor section (14) has a p- type region (36) that can be isolated from the p- type substrate layer (18) by an optional n- type well region (40) for those devices which require a different substrate bias voltage between the peripheral transistor section (14) and the memory array section (16).
摘要:
A field effect transistor with a dual-counterdoped channel is disclosed. The transistor features a channel comprising a first doped region (28) and a second doped region (26) underlying the first doped region. A source and drain (32) are formed adjacent to the channel. In one embodiment of the present invention, the first doped region (28) is doped with arsenic, while the second doped region (26) is doped with phosphorus. The high charge-carrier mobility of the subsurface channel layer (28) allowing a lower channel dopant concentration to be used, which in turn allows lower source/drain pocket doping. This reduces the capacitance and response time of the transistor.