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    • 2. 发明公开
    • Method of making a MEMS device
    • Verfahren zur Herstellung einer MEMS-Vorrichtung
    • EP2476644A2
    • 2012-07-18
    • EP11184861.0
    • 2011-10-12
    • Freescale Semiconductor, Inc.
    • Karlin, Lisa HKierst, David W.Liu, LianjunLiu, WieMontez, Ruben B.Steimle, Robert F.
    • B81C1/00
    • B81C1/00801B81B2207/07B81C2201/053
    • A method of forming a MEMS device (10) includes forming a sacrificial layer (34) over a substrate (12). The method further includes forming a metal layer (42) over the sacrificial layer (34) and forming a protection layer (44) overlying the metal layer (42). The method further includes etching the protection layer (44) and the metal layer (42) to form a structure (56) having a remaining portion of the protection layer formed over a remaining portion of the metal layer. The method further includes etching the sacrificial layer (34) to form a movable portion of the MEMS device, wherein the remaining portion of the protection layer protects the remaining portion of the metal layer during the etching of the sacrificial layer (34) to form the movable portion of the MEMS device (10).
    • 形成MEMS器件(10)的方法包括在衬底(12)上形成牺牲层(34)。 该方法还包括在牺牲层(34)上方形成金属层(42),并形成覆盖在金属层(42)上的保护层(44)。 该方法还包括蚀刻保护层(44)和金属层(42)以形成在金属层的剩余部分上形成保护层的剩余部分的结构(56)。 该方法还包括蚀刻牺牲层(34)以形成MEMS器件的可移动部分,其中保护层的剩余部分在蚀刻牺牲层(34)期间保护金属层的剩余部分,以形成 MEMS器件(10)的可移动部分。
    • 4. 发明公开
    • Multi-layer substrate structure and manufacturing method for the same
    • Mehrschichtige Substratstruktur und Herstellungsverfahrendafür
    • EP2399863A1
    • 2011-12-28
    • EP10166782.2
    • 2010-06-22
    • VALTION TEKNILLINEN TUTKIMUSKESKUS
    • Puurunen, RiikkaHenttinen, KimmoKattelus, HannuSuni, Tommi
    • B81C1/00
    • H01L21/0228B81B2203/0118B81B2203/0315B81C1/00801B81C2201/014B81C2201/0167B81C2201/053B81C2203/0118H01L29/02
    • A method for manufacturing a multi-layer substrate structure comprising obtaining a first and second wafer, such as two silicon wafers, wherein at least one of the wafers may be optionally provided with a material layer such as an oxide layer (302, 404), forming a cavity on the bond side of the first wafer (306, 406), depositing, preferably by ALD (Atomic Layer Deposition), a material layer, such as alumina layer, on either wafer arranged so as to at least in places face the other wafer and cover at least portion of the cavity of the first wafer, such as bottom, wall and/or edge thereof, and enable stopping etching, such as plasma etching, into the underlying material (308, 408), and bonding the wafers provided with at least the aforesaid ALD layer as an intermediate layer together to form the multi-layer semiconductor substrate structure (310, 312). A related multi-layer substrate structure is presented.
    • 一种用于制造多层衬底结构的方法,包括获得第一和第二晶片,例如两个硅晶片,其中至少一个晶片可以可选地设置有诸如氧化物层(302,404)的材料层, 在第一晶片(306,406)的接合侧上形成空腔,优选地通过ALD(原子层沉积)沉积材料层,例如氧化铝层,在任一晶片上布置,至少在面向 其他晶片并且覆盖第一晶片的空腔的至少部分,例如其底部,壁和/或边缘,并且使得能够停止诸如等离子体蚀刻的蚀刻到下面的材料(308,408)中,并且将晶片 至少设置上述ALD层作为中间层,以形成多层半导体衬底结构(310,312)。 提出了相关的多层基板结构。
    • 9. 发明公开
    • A method for producing semiconductor device
    • 一种生产半导体器件的方法
    • EP0567075A3
    • 1997-09-24
    • EP93106391.1
    • 1993-04-20
    • NIPPONDENSO CO., LTD.
    • Fukada, TsuyoshiYoshino, YoshimiTanizawa, Yukihiko
    • H01L21/306H01L21/78H01L21/308
    • B81C1/00888B81B2201/0235B81C1/00158B81C2201/0114B81C2201/053G01L9/0055G01P15/0802G01P15/123H01L21/3063H01L21/78Y10S148/028Y10S148/159Y10S438/977
    • A method for producing a semiconductor device is capable of solving problems related to dicing a metal thin film used for electrochemical etching. According to the method, an n type epitaxial thin layer (36) is formed on a p type single-crystal silicon wafer (35). An n + type diffusion layer (38) is formed in a scribe line area on the epitaxial layer (36). An n + type diffusion layer (39) is formed in an area of the epitaxial layer (36) which corresponds to the predetermined part of the wafter (35). Aluminum film (40, 41) is formed over the diffusion layers (38, 39), respectively. The aluminum film (40) has a clearance (65) for passing a dicing blade (66). Predetermined parts of the wafer (35) are electrochemically etched by supplying electricity through the aluminum film (40), the diffusion layers (38) and (39), to leave predetermined parts of the epitaxial layer (36). The wafer (35) is diced into chips along the scribe line area. Each of the chips forms the semiconductor device. The electrochemical etching of the wafer (35) is carried out after the formation of the aluminum film (40, 41), by immersing the wafer (35) in a KOH aqueous solution (76) and by supplying electricity through the aluminum film (40). The electrochemical etching is terminated at an inflection point where an etching current inflects to a constant level from a peak level. During the electrochemical etching, the diffusion layer (39) reduces horizontal resistance in the epitaxial layer (36), so that the etched parts receive a sufficient potential to perform the etching.
    • 公开了一种用于制造半导体器件的方法和装置,该半导体器件具有薄膜形式的隔膜和在同一衬底上具有电极的集成电路部分,所述方法包括:形成第二导电半导体层的第一步骤 在第一导电类型的单晶半导体衬底上; 在半导体层上形成具有电极的集成电路部分的第二步骤; 在半导体层上的划线区域中形成电极并将划线区域中的电极与集成电路部分的电极电连接的第三步骤; 通过在划线区域中的电极传输用于电化学蚀刻的电力来电化学蚀刻基板的预定部分,从半导体层形成隔膜的第四步骤,以及沿着划线区域将基板切割成芯片的第五步骤 ,形成半导体器件的每个芯片。