摘要:
A field effect transistor and a method of manufacturing thereof are disclosed that is not reduced in the characteristic of withstanding voltage between multilayer interconnection layers even when scaled to a higher integration. This field effect transistor includes side walls 21a formed on both sides of a bit line 15 so that the bottom side end contacts the upper surface of side walls 20a of gate electrodes 4b and 4c. The thickness of an insulating film interposed between gate electrodes 4b and 4c and a base portion 11a forming a low electrode 11 of a capacitor is not reduced. The characteristic of withstanding voltage is not deteriorated between multilayer interconnection layers even when scaled to higher integration.
摘要:
A field effect transistor and a method of manufacturing thereof are disclosed that is not reduced in the characteristic of withstanding voltage between multilayer interconnection layers even when scaled to a higher integration. This field effect transistor includes side walls 21a formed on both sides of a bit line 15 so that the bottom side end contacts the upper surface of side walls 20a of gate electrodes 4b and 4c. The thickness of an insulating film interposed between gate electrodes 4b and 4c and a base portion 11a forming a low electrode 11 of a capacitor is not reduced. The characteristic of withstanding voltage is not deteriorated between multilayer interconnection layers even when scaled to higher integration.
摘要:
Disclosed is a semiconductor memory device in which defects in crystal in a junction region between a capacitor and a source/drain region, and a short channel effect of a transistor can be effectively reduced. The semiconductor memory device includes, on the side of a gate electrode at which the capacitor is connected, a sidewall formed to have a width larger than that of a sidewall on the side of a bit line, and a source/drain region to which the capacitor is connected and which is formed to have a diffusion depth larger than that of the opposite source/drain region. Therefore, the source/drain region effectively prevents defects in crystal from being produced in the junction region between the capacitor and the source/drain region connected to the capacitor and the sidewall effectively reduces the short channel effect.
摘要:
Disclosed is a semiconductor memory device in which defects in crystal in a junction region between a capacitor and a source/drain region, and a short channel effect of a transistor can be effectively reduced. The semiconductor memory device includes, on the side of a gate electrode at which the capacitor is connected, a sidewall formed to have a width larger than that of a sidewall on the side of a bit line, and a source/drain region to which the capacitor is connected and which is formed to have a diffusion depth larger than that of the opposite source/drain region. Therefore, the source/drain region effectively prevents defects in crystal from being produced in the junction region between the capacitor and the source/drain region connected to the capacitor and the sidewall effectively reduces the short channel effect.
摘要:
Disclosed is a semiconductor memory device in which defects in crystal in a junction region between a capacitor and a source/drain region, and a short channel effect of a transistor can be effectively reduced. The semiconductor memory device includes, on the side of a gate electrode at which the capacitor is connected, a sidewall formed to have a width larger than that of a sidewall on the side of a bit line, and a source/drain region to which the capacitor is connected and which is formed to have a diffusion depth larger than that of the opposite source/drain region. Therefore, the source/drain region effectively prevents defects in crystal from being produced in the junction region between the capacitor and the source/drain region connected to the capacitor and the sidewall effectively reduces the short channel effect.
摘要:
A method of making a semiconductor device including a plurality of gate electrodes (6a, 6b, 6c, 6d) arranged on the surface of a semiconductor substrate (1) with insulating layers (5, 8) covering the top and the side walls of the gate electrodes. The spaces between the opposing side walls of adjacent gate electrodes on the surface of the element isolation region (2) are smaller than twice the thickness of the thinnest insulating layer (8) among the insulating layers of the side walls of the gate electrodes on the surface of the active regions. The space (14) between the gate electrodes on the element isolation region is filled with the insulating isolation layer (8) so that unevenness in the underlying portion on the element isolation region on which the conductive interconnection layer (10) to be formed is reduced, preventing thinning of the conductive interconnection layer and disconnection due to excessive etching of a resist film in patterning the conductive interconnection layer.
摘要:
A semiconductor device includes a plurality of gate electrodes (6a, 6b, 6c, 6d) arranged on the surface of a semiconductor substrate (1) with insulating layers (5, 8) covering the top and the side walls of the gate electrodes. The spaces between the opposing side walls of adjacent gate electrodes on the surface of the element isolation region (2) re smaller than twice the thickness of the thinnest insulating layer (8) among the insulating layers of the side walls of the gate electrodes on the surface of the active regions. The space (14) between the gate electrodes on the element isolation region is filled with the insulating isolation layer (8) so that unevenness in the underlying portion on the element isolation region on which the conductive interconnection layer (10) to be formed is reduced, preventing thinning of the conductive interconnection layer and disconnection due to excessive etching of a resin film in patterning the conductive interconnection layer.
摘要:
A capacitor includes a polycrystalline silicon layer 1 as a lower electrode layer, a dielectric layer 112, and a polycrystalline silicon layer 113 as an upper electrode layer. The dielectric layer 112 is formed by an oxynitride film 2, a silicon nitride film 3 and a top oxide film 4. A film thickness t.sub.3 of the top oxide film 4 is controlled to be less than 20 .ANG.. Capacitance of the capacitor can be increased while improving the duration of life of the dielectric layer, resulting in a highly reliable capacitor.
摘要:
A capacitor includes a polycrystalline silicon layer 1 as a lower electrode layer, a dielectric layer 112, and a polycrystalline silicon layer 113 as an upper electrode layer. The dielectric layer 112 is formed by an oxynitride film 2, a silicon nitride film 3 and a top oxide film 4. A film thickness t.sub.3 of the top oxide film 4 is controlled to be less than 20 .ANG.. Capacitance of the capacitor can be increased while improving the duration of life of the dielectric layer, resulting in a highly reliable capacitor.
摘要:
Vehicle-mounted equipment includes a storage unit 12 for storing data for a plurality of destinations, a vehicle-mounted network connecting unit 11 for receiving destination data indicating a destination via a vehicle-mounted network, a destination determining unit 21 for determining the destination on the basis of destination data received by the vehicle-mounted network connecting unit, and a data deleting unit 22 for deleting data other than data for the destination determined by the destination determining unit from the storage unit.