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    • 4. 发明授权
    • Making coplanar layers of thin films
    • 制作共面层薄膜
    • US4035276A
    • 1977-07-12
    • US681380
    • 1976-04-29
    • Janos HavasJohn S. LechatonJoseph Skinner Logan
    • Janos HavasJohn S. LechatonJoseph Skinner Logan
    • H05K3/46H01L21/027H01L21/28H01L21/306H01L21/312H01L21/3205H01L21/768H01L21/84H01L23/522H05K3/14C23C15/00
    • H01L21/768H01L21/0272H01L21/312H01L21/7688H01L21/76885H01L21/84H01L23/522H01L2924/0002H05K3/143Y10S438/951Y10T428/24777
    • A method for forming coplanar thin films, particularly conductor-insulator patterns, on a substrate. A pattern which includes a first thin film and an expendable material deposited thereon is formed on the substrate. The expendable material is selected so that it can be selectively removed by an etchant which does not attack the first thin film or an insulator which is to be deposited. The second thin film is deposited by RF sputtering at a bias which is sufficiently high to cause substantial reemission of the second film. This results in the covering of the exposed substrate surfaces and the upper surface of the material with the second film but leaving the side surfaces of the material exposed. The expendable material is then chemically etched so as to lift-off both the material and the second film deposited thereon, thereby leaving a coplanar pattern of first and second thin films.In the preferred embodiment, the first thin film is a conductor and the RF sputtered second thin film is an insulator such as glass. Alternatively, the first thin film could be the insulator with the RF sputtered second film being the conductor, or both thin films could be dissimilar metals or insulators. Via hole studs, or feedthroughs, which are metallic interconnections between a first level conductive pattern (metallization) and a second level conductive pattern, may be formed by repeating substantially the same steps atop the first conductive pattern at desired locations. As many substantially coplanar levels as desired may be formed without the need for etching the second thin film.
    • 在基板上形成共面薄膜,特别是导体 - 绝缘体图案的方法。 在基板上形成包括第一薄膜和沉积在其上的消耗材料的图案。 选择消耗材料,使得其可以通过不侵蚀第一薄膜的蚀刻剂或要沉积的绝缘体来选择性地去除。 通过RF溅射以足够高的偏压沉积第二薄膜以引起第二膜的显着再次释放。 这导致用第二膜覆盖暴露的基板表面和材料的上表面,但是使材料的侧表面暴露。 然后对消耗材料进行化学蚀刻,以便剥离沉积在其上的材料和第二膜,由此留下第一和第二薄膜的共面图案。
    • 5. 发明授权
    • Apparatus and method for identifying musical chords
    • 用于识别音乐和弦的装置和方法
    • US5410940A
    • 1995-05-02
    • US961693
    • 1993-03-01
    • Janos Havas
    • Janos Havas
    • G10G1/02G09B15/02
    • G10G1/02
    • A music chord indicating calculator assists in determining finger placement to play musical chords on a multi-stringed musical instrument containing a finger board. The device has an outer slide member and an inner base member which slides through the outer slide member. The slide member contains a number of columns of spaced viewing ports on both side faces. The inner base member has a number of columns of spaced indicia which are coded to correspond to various chords. A chord selector has one of the indicia on a column of indicia on the base member and can be viewed through a viewing port which has a chord identifying name associated with it. By sliding the base member and slide member relative to each other such that chord selector is viewed through a viewing port which identifies a chord by name, the finger placement of that chord can be viewed through the viewing ports by coding of the indicia on the base member.
    • PCT No.PCT / AU91 / 00324 Sec。 371日期1993年3月1日 102(e)1993年3月1日PCT PCT 1991年7月23日PCT公布。 出版物WO91 / 02011 日期1992年2月6日。音乐和弦指示计算器协助确定手指放置以在包含指板的多弦乐器上播放音乐和弦。 该装置具有外滑动构件和滑动穿过外滑动构件的内基构件。 滑动构件在两个侧面上包含多个间隔的观察口列。 内部基座构件具有多个间隔标记的列,其被编码为对应于各种和弦。 和弦选择器具有在基座上的标记列上的标记之一,并且可以通过具有与其相关联的和弦识别名称的观看端口来观看。 通过使基部构件和滑动构件相对于彼此滑动,使得通过名称识别和弦的观察端口来观察和弦选择器,可以通过观察端口通过编码基座上的标记来观察该和弦的手指放置 会员。
    • 6. 发明授权
    • Method for forming patterned films utilizing a transparent lift-off mask
    • 利用透明剥离掩模形成图案化膜的方法
    • US4004044A
    • 1977-01-18
    • US576054
    • 1975-05-09
    • Jack R. FrancoJanos HavasLewis J. Rompala
    • Jack R. FrancoJanos HavasLewis J. Rompala
    • H01L21/302C23C14/04C23F4/00G03F7/09G03F7/095H01L21/027H01L21/28H01L21/3065H01L21/311H01L21/312H01L21/3205H05K3/02H05K3/04B05D5/12B05D1/32
    • G03F7/095G03F7/094H01L21/0272H01L21/31138H01L21/312H01L21/32051H05K3/048Y10S148/106Y10S148/118Y10S438/951
    • A lift-off method for use in depositing thin films in the fabrication of integrated circuits which avoids edge tearing of the films. The method involves depositing an organic polymeric first masking material on a substrate, and forming on said material a layer of a polydimethylsiloxane resin material. The material, in turn, is covered by a second masking layer, preferably an organic polymeric resist material into which openings are placed in a selected pattern utilizing lithographic techniques. Then, conforming openings are placed in the underlying polydimethylsiloxane resin material and the openings are extended through the underlying resist material by successive reactive sputter etching steps to expose the substrate surface in the aforesaid selected pattern. The thin film to be deposited is then applied over the resulting structure; it is, thereby, deposited on the substrate in said openings. The final reactive sputter etching step affords edges in the openings through the resin material layer which overhang the edges in the openings through the first masking layer affording easy lift-off of the unwanted areas of the deposited film when the first masking layer is totally removed by application of solvent.
    • 一种用于在制造集成电路中沉积薄膜的剥离方法,其避免了膜的边缘撕裂。 该方法包括在基底上沉积有机聚合物第一掩蔽材料,并在所述材料上形成一层聚二甲基硅氧烷树脂材料。 该材料又被第二掩蔽层覆盖,优选地是有机聚合抗蚀剂材料,利用光刻技术以选定的图案将孔放置在其中。 然后,将合适的开口放置在下面的聚二甲基硅氧烷树脂材料中,并且通过连续的反应性溅射蚀刻步骤将开口延伸通过下面的抗蚀剂材料,以以上述选择的图案露出衬底表面。 然后将沉积的薄膜施加到所得结构上; 从而沉积在所述开口中的基板上。 最终的反应性溅射蚀刻步骤通过树脂材料层在开口中提供边缘,该树脂材料层通过第一掩模层突出在开口中的边缘,当第一掩蔽层被完全去除时,沉积膜的不需要的区域容易剥离 溶剂的应用。
    • 7. 发明授权
    • Method of depositing thin films of small dimensions utilizing silicon
nitride lift-off mask
    • 使用氮化硅剥离掩模沉积小尺寸薄膜的方法
    • US4202914A
    • 1980-05-13
    • US974461
    • 1978-12-29
    • Janos HavasGabor Paal
    • Janos HavasGabor Paal
    • H01L21/3205H01L21/027H01L21/28H01L21/306B05D3/06
    • H01L21/0272
    • A method for depositing thin film patterns of very small and controllable dimensions in the fabrication of integrated circuits which avoids edge tearing of the films. A non-photosensitive organic polymeric first masking layer is deposited on the integrated circuit substrate. Upon this layer is deposited a layer of silicon nitride using plasma deposition techniques employing a gaseous source. The silicon nitride layer is covered by a second masking layer, preferably an organic polymeric resist material, through which apertures are formed in preselected patterns using standard lithographic masking and etching techniques. The silicon nitride layer is then reactive ion etched with CF.sub.4 through the apertures formed in the second masking layer. The first masking layer is then etched through the apertures in the second masking layer and silicon nitride layer using reactive ion etching techniques. The etching of the first masking layer continues until the first masking layer is undercut beyond the edges of the aperture in the silicon nitride layer so that the silicon nitride layer forms an overhang of the aperture in the first masking layer. The thin film to be deposited is then applied over the resulting structure including the surface of the silicon nitride layer and the substrate exposed through the apertures. Because of the overhang, a discontinuity is formed between the thin film deposited upon the exposed surface of the substrate and that formed upon the outer surface of the silicon nitride layer so that when the first masking layer is dissolved, the film deposited upon the substrate is left without any edge tearing between it and the removed portions of the film.
    • 一种在集成电路的制造中沉积非常小且可控尺寸的薄膜图案的方法,其避免了膜的边缘撕裂。 非感光性有机聚合物第一掩模层沉积在集成电路基板上。 在该层使用采用气态源的等离子体沉积技术沉积氮化硅层。 氮化硅层被第二掩蔽层覆盖,优选为有机聚合物抗蚀剂材料,通过标准光刻掩模和蚀刻技术,孔以预选图案形成。 氮化硅层然后通过形成在第二掩模层中的孔与CF4反应离子蚀刻。 然后通过使用反应离子蚀刻技术的第二掩模层和氮化硅层中的孔蚀刻第一掩模层。 第一掩模层的蚀刻继续进行,直到第一掩模层被蚀刻超过氮化硅层中的孔的边缘,使得氮化硅层形成第一掩模层中的孔的突出端。 然后将待沉积的薄膜施加到包括氮化硅层的表面和通过孔露出的衬底的所得结构上。 由于悬垂,在沉积在衬底的暴露表面上的薄膜和形成在氮化硅层的外表面上的薄膜之间形成不连续性,使得当第一掩模层溶解时,沉积在衬底上的膜是 左边没有任何边缘撕裂在它和膜的去除部分之间。
    • 8. 发明授权
    • Structure for making coplanar layers of thin films
    • 制造共面层薄膜的结构
    • US4090006A
    • 1978-05-16
    • US781246
    • 1977-03-25
    • Janos HavasJohn S. LechatonSkinner Logan
    • Janos HavasJohn S. LechatonSkinner Logan
    • H05K3/46H01L21/027H01L21/28H01L21/306H01L21/312H01L21/3205H01L21/768H01L21/84H01L23/522H05K3/14C23C15/00
    • H01L21/768H01L21/0272H01L21/312H01L21/7688H01L21/76885H01L21/84H01L23/522H01L2924/0002H05K3/143Y10S438/951Y10T428/24777
    • A method for forming coplanar thin films, particularly conductor-insulator patterns, on a substrate. A pattern which includes a first thin film and an expendable material deposited thereon is formed on the substrate. The expendable material is selected so that it can be selectively removed by an etchant which does not attack the first thin film or an insulator which is to be deposited. The second thin film is deposited by RF sputtering at a bias which is sufficiently high to cause substantial reemission of the second film. This results in the covering of the exposed substrate surfaces and the upper surface of the material with the second film but leaving the side surfaces of the material exposed. The expendable material is then chemically etched so as to lift-off both the material and the second film deposited thereon, thereby leaving a coplanar pattern of first and second thin films.In the preferred embodiment, the first thin film is a conductor and the RF sputtered second thin film is an insulator such as glass. Alternatively, the first thin film could be the insulator with the RF sputtered second film being the conductor, or both thin films could be dissimilar metals or insulators.
    • 在基板上形成共面薄膜,特别是导体 - 绝缘体图案的方法。 在基板上形成包括第一薄膜和沉积在其上的消耗材料的图案。 选择消耗材料,使得其可以通过不侵蚀第一薄膜的蚀刻剂或要沉积的绝缘体来选择性地去除。 通过RF溅射以足够高的偏压沉积第二薄膜以引起第二膜的显着再次释放。 这导致用第二膜覆盖暴露的基板表面和材料的上表面,但是使材料的侧表面暴露。 然后对消耗材料进行化学蚀刻,以便剥离沉积在其上的材料和第二膜,由此留下第一和第二薄膜的共面图案。