摘要:
A lower insulating film is formed so as to cover source/drain regions electrically connected to capacitors. Bit lines and upper insulating layers are formed on the lower insulating film. SCs opening to the lower insulating film are formed by an anisotropic etching process on process conditions for etching the upper insulating films at a high upper insulating film/lower insulating film selectivity. An insulating film of a quality equal to that of the lower insulating film is deposited so as to fill up the SCs and to cover the upper insulating film. The SCs is extended so as to open to the source/drain regions by an anisotropic etching process on process conditions for etching the lower insulating film at a high lower insulating film/silicon film selectivity.
摘要:
According to one embodiment, a semiconductor device includes a first and a second semiconductor layer of a first conductivity type, a third semiconductor layer of a second conductivity type, a source region of the first conductivity type, a first and a second main electrode, trench gates, a first and a second contact region. The third semiconductor layer is provided on the second semiconductor layer provided on the first semiconductor layer. The first main electrode is electrically connected to the first semiconductor layer. The second main electrode is electrically connected to the source region provided on the third semiconductor layer. The trench gates are provided from the third semiconductor layer to the second semiconductor layer. The first and second contact regions electrically connect the second main electrode and the third semiconductor layer. An opening area of the second contact hole is smaller than that of the first contact hole.
摘要:
A contact and a copper interconnect line as an uppermost interconnect layer are buried in an interlayer insulating film. A pad area including aluminum alloy (such as AlCu or AlSiCu) is buried in a predetermined area of the copper interconnect line. A gold wire is bonded to the pad area.
摘要:
To provide excellent reliability and high yield of a semiconductor device that has a multi-wiring structure by using a fluorine-containing silicon oxide film as an interlayer insulating film. A fluorine-containing silicon oxide film is formed so as to cover a lower layer metal wiring. A TEOS film is formed on the fluorine-containing silicon oxide film. After planarizing the TEOS film with the CMP method, an SiH4-based silicon oxide film that is suitable for capturing fluorine is formed on the TEOS film. Metal wirings are formed on the SiH4-based silicon oxide film. A predetermined heat treatment is performed to capture fluorine inside the SiH4-based silicon oxide film. The SiH4-based silicon oxide film is patterned to the same pattern as the metal wirings. After diffusing fluorine into the atmosphere from the exposed area of the TEOS film, a silicon nitride film is formed on the metal wirings.
摘要:
A semiconductor device includes a pad electrode and a main electrode layer of the pad electrode has a plan view shape of one selected from the group consisting of a near circle, a near ellipse, a near polygon with at least one internal angle larger than 90 degrees and a near polygon with at least one corner chamfered or rounded. The main electrode layer is connected to a lower electrode layer beneath the man electrode layer via a connection hole interposed therebetween and a lower protruding section is provided beneath the lower electrode layer. A stress buffer insulating partition and a stress buffer protruding section are more preferably provided at corners of the layers, connection hole and lower protruding section.
摘要:
According to one embodiment, a semiconductor device includes a first and a second semiconductor layer of a first conductivity type, a third semiconductor layer of a second conductivity type, a source region of the first conductivity type, a first and a second main electrode, trench gates, a first and a second contact region. The third semiconductor layer is provided on the second semiconductor layer provided on the first semiconductor layer. The first main electrode is electrically connected to the first semiconductor layer. The second main electrode is electrically connected to the source region provided on the third semiconductor layer. The trench gates are provided from the third semiconductor layer to the second semiconductor layer. The first and second contact regions electrically connect the second main electrode and the third semiconductor layer. An opening area of the second contact hole is smaller than that of the first contact hole.
摘要:
A method for manufacturing a semiconductor device wherein a contact hole formed in an interlayer insulating film on a semiconductor substrate is filled with a plug for electrically connecting an overlying conductor layer with an underlying conductor layer. The plug fills the contact hole, and comprised a tungsten film the upper end whereof is positioned below the upper surface of the interlayer insulating film, and a tungsten film which is filled on the tungsten film in the contact hole and the upper surface whereof is on substantially the same level as the upper surface of the interlayer insulating film.
摘要:
A semiconductor-device fabrication method includes a step of forming a contact hole in a semiconductor substrate 1 and a step of forming a conductive contact hole. The step of forming the contact hole is performed by repeating two times or more a burying step of depositing a conductive material 5 to bury the conductive material in the contact hole and an etch-back step of removing the conductive material around the contact hole by etch back.
摘要:
A gate insulating film and gate electrodes are formed on a substrate containing N-type impurities such as P or As. Under the gate insulating film is a gate region on both sides of which are a first and a second source drain region. The gate region is furnished in its central part with a high-concentration channel injection region containing N-type impurities at a concentration higher than that of the substrate. Between the high-concentration channel injection region on the one hand and the first and the second source drain region and on the other hand, there are formed a first and a second low-concentration channel injection region and having substantially the same impurity concentration as that of the substrate.
摘要:
According to one embodiment, a semiconductor device includes a semiconductor layer; a plurality of semiconductor regions; second semiconductor region; a first electrode being positioned between the plurality of first semiconductor regions, the first electrode contacting with the semiconductor layer, each of the plurality of first semiconductor regions, and the second semiconductor region via a first insulating film; a second electrode provided below the first electrode, and contacting with the semiconductor layer via a second insulating film; an insulating layer interposed between the first electrode and the second electrode; a third electrode electrically connected to the semiconductor layer; and a fourth electrode connected to the second semiconductor region. The first electrode has a first portion and a pair of second portions. And each of the pair of second portions is provided along the first insulating film.