摘要:
Peeling between a bonding pad and an insulating film which underlies the bonding pad is to be prevented. A laminate film constituted mainly by W which is higher in mechanical strength than a wiring layer using an Al alloy film as a main conductive layer and than a bonding pad, is formed within an aperture formed in silicon oxide films and is interposed between the wiring line and the bonding pad.
摘要:
In this invention, the film thicknesses of an upper barrier film of a lower electrode of a capacitive element and an upper barrier film of a metallic interconnect layer formed in the same layer as this is made thicker than the film thicknesses of upper barrier films of other metallic interconnect layers. Moreover, in this invention, the film thickness of the upper barrier film of the lower electrode of the capacitive element is controlled to be 110 nm or more, more preferably, 160 nm or more. A decrease in the dielectric voltage of the capacitive dielectric film due to cracks in the upper barrier film does not occur and the deposition temperature of the capacitive dielectric film can be made higher, so that a semiconductor device having a MIM capacitor with high performance and high capacitance can be achieved, where the dielectric voltage of the capacitive dielectric film is improved.
摘要:
In this invention, the film thicknesses of an upper barrier film of a lower electrode of a capacitive element and an upper barrier film of a metallic interconnect layer formed in the same layer as this is made thicker than the film thicknesses of upper barrier films of other metallic interconnect layers. Moreover, in this invention, the film thickness of the upper barrier film of the lower electrode of the capacitive element is controlled to be 110 nm or more, more preferably, 160 nm or more. A decrease in the dielectric voltage of the capacitive dielectric film due to cracks in the upper barrier film does not occur and the deposition temperature of the capacitive dielectric film can be made higher, so that a semiconductor device having a MIM capacitor with high performance and high capacitance can be achieved, where the dielectric voltage of the capacitive dielectric film is improved.
摘要:
Provided is a technology capable of reducing parasitic capacitance of a capacitor while reducing the space occupied by the capacitor. A stacked structure is obtained by forming, over a capacitor composed of a lower electrode, a capacitor insulating film and an intermediate electrode, another capacitor composed of the intermediate electrode, another capacitor insulating film and an upper electrode. Since the intermediate electrode has a step difference, each of the distance between the intermediate electrode and lower electrode and the distance between the intermediate electrode and upper electrode in a region other than the capacitor formation region becomes greater than that in the capacitor formation region. For example, the lower electrode is brought into direct contact with the capacitor insulating film in the capacitor formation region, while the lower electrode is not brought into direct contact with the capacitor insulating film in the region other than the capacitor formation region.
摘要:
A semiconductor device according to the present invention includes: a lower-surface oxidation preventing insulating film formed on a lower surface of a metal resistor element; an upper-surface oxidation preventing insulating film formed on an upper surface of the metal resistor element; and a side-surface oxidation preventing insulating film formed only near a side surface of the metal resistor element by performing anisotropic etching after being deposited on a whole surface of a wafer in a process separated from the lower-surface oxidation preventing insulating film and the upper-surface oxidation preventing insulating film. According to the present invention, it is possible to prevent the increase of the resistance value due to the oxidation of the metal resistor element and also to prevent the increase of the parasitic capacitance between metal wiring layers without complicating the fabrication process.
摘要:
A semiconductor device according to the present invention includes: a lower-surface oxidation preventing insulating film formed on a lower surface of a metal resistor element; an upper-surface oxidation preventing insulating film formed on an upper surface of the metal resistor element; and a side-surface oxidation preventing insulating film formed only near a side surface of the metal resistor element by performing anisotropic etching after being deposited on a whole surface of a wafer in a process separated from the lower-surface oxidation preventing insulating film and the upper-surface oxidation preventing insulating film. According to the present invention, it is possible to prevent the increase of the resistance value due to the oxidation of the metal resistor element and also to prevent the increase of the parasitic capacitance between metal wiring layers without complicating the fabrication process.
摘要:
An MIM capacitor using a high-permittivity dielectric film such as tantalum oxide. The MIM capacitor includes an upper electrode, a dielectric film, and a lower electrode. A second dielectric film and the dielectric film are formed between the upper electrode and the lower electrode, at the end of the MIM capacitor. The second dielectric film is formed to have an opening at the top of the lower electrode. The dielectric film abuts the lower electrode via the opening. The upper electrode is formed on the dielectric film. The upper electrode and the dielectric film are formed in such a manner as to embrace the opening entirely, and the second dielectric film and the lower electrode are formed so that the respective widths are the same as, or greater than, the widths of the upper electrode and the dielectric film.
摘要:
Disclosed is a method of manufacturing a semiconductor device which has reliable buried interconnects (wirings) and a reliable MIM capacitor. An interconnect and a capacitor bottom electrode are formed inside a hole made in six insulation films. Then a barrier insulation film is formed on the uppermost film (of the above six insulation films) including the interconnect and the top face of the bottom electrode. After two insulation films are formed above the barrier insulation film, a hole is made in the two insulation films and a capacitor top electrode is buried in that hole. The barrier insulation film also functions as a capacity insulation film for the capacitor. Then, after three other insulation films are formed on the upper film (of the above two insulation films) including the top face of the top electrode, a hole is made in the barrier insulation film, the two insulation films, and the three other insulation films, and another interconnect is buried in that hole.
摘要:
An MIM capacitor using a high-permittivity dielectric film such as tantalum oxide. The MIM capacitor includes an upper electrode, a dielectric film, and a lower electrode. A second dielectric film and the dielectric film are formed between the upper electrode and the lower electrode, at the end of the MIM capacitor. The second dielectric film is formed to have an opening at the top of the lower electrode. The dielectric film abuts the lower electrode via the opening. The upper electrode is formed on the dielectric film. The upper electrode and the dielectric film are formed in such a manner as to embrace the opening entirely, and the second dielectric film and the lower electrode are formed so that the respective widths are the same as, or greater than, the widths of the upper electrode and the dielectric film.
摘要:
Provided is a technology capable of reducing parasitic capacitance of a capacitor while reducing the space occupied by the capacitor. A stacked structure is obtained by forming, over a capacitor composed of a lower electrode, a capacitor insulating film and an intermediate electrode, another capacitor composed of the intermediate electrode, another capacitor insulating film and an upper electrode. Since the intermediate electrode has a step difference, each of the distance between the intermediate electrode and lower electrode and the distance between the intermediate electrode and upper electrode in a region other than the capacitor formation region becomes greater than that in the capacitor formation region. For example, the lower electrode is brought into direct contact with the capacitor insulating film in the capacitor formation region, while the lower electrode is not brought into direct contact with the capacitor insulating film in the region other than the capacitor formation region.