会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明授权
    • Process for the double-side polishing of semiconductor wafers and carrier for carrying out the process
    • 用于半导体晶片和载体的双面抛光的工艺用于实施该工艺
    • US06514424B2
    • 2003-02-04
    • US09826135
    • 2001-04-04
    • Guido WenskiGerhard HeierWolfgang WinklerThomas Altmann
    • Guido WenskiGerhard HeierWolfgang WinklerThomas Altmann
    • H01L2100
    • B24B41/067B24B37/08H01L21/02024
    • A process for the double-side polishing of semiconductor wafers between two polishing plates which rotate in opposite directions and are covered with polishing cloth, so that at least 2 &mgr;m of semiconductor material is removed. The semiconductor wafers lay in plastic-lined cutouts in a set of a plurality of planar carriers which are made from steel and the mean thickness of which is 2 to 20 &mgr;m smaller than the mean thickness of the fully polished semiconductor wafers. The set comprises only those carriers whose difference in thickness is at most 5 &mgr;m, and each carrier belonging to the set has at least one unambiguous identification feature which assigns it to the set. An item of information contained in the identification feature is used in order for the plastic linings to be exchanged at fixed intervals and to ensure that the semiconductor wafers remain in the same order after the polishing as before the polishing. There is also a carrier which is suitable for carrying out the process.
    • 在两个抛光板之间进行双面抛光的方法,该两个抛光板以相反的方向旋转并被抛光布覆盖,以至于除去了至少2微米的半导体材料。 半导体晶片放置在由钢制成的多组平面载体的一组塑料衬里的切口中,其平均厚度比完全抛光的半导体晶片的平均厚度小2至20μm。 该集合仅包括厚度差为5mum以下的载波,属于该集合的每个载波具有至少一个明确的识别特征,将其分配给该集合。 使用包含在识别特征中的信息项目,以便以固定的间隔更换塑料衬里,并确保半导体晶片在抛光之后保持与抛光之前相同的顺序。 还有一个适用于执行该过程的载体。
    • 5. 发明授权
    • Epitaxially coated semiconductor wafer and process for producing it
    • 外延涂层半导体晶片及其制造方法
    • US06899762B2
    • 2005-05-31
    • US10402171
    • 2003-03-28
    • Guido WenskiWolfgang SiebertKlaus MessmannGerhard HeierThomas AltmannMartin Fürfanger
    • Guido WenskiWolfgang SiebertKlaus MessmannGerhard HeierThomas AltmannMartin Fürfanger
    • C30B29/06B24B37/04H01L21/02H01L21/205H01L21/304H01L21/306C30B25/14
    • B24B37/08B24B37/042H01L21/02024H01L21/30625Y10T428/24355
    • A semiconductor wafer with a front surface and a back surface and an epitaxial layer of semiconducting material deposited on the front surface. In the semiconductor wafer, the epitaxial layer has a maximum local flatness value SFQRmax of less than or equal to 0.13 μm and a maximum density of 0.14 scattered light centers per cm2. The front surface of the semiconductor wafer, prior to the deposition of the epitaxial layer, has a surface roughness of 0.05 to 0.29 nm RMS, measured by AFM on a 1 μm×1 μm reference area. Furthermore, there is a process for producing the semiconductor wafer. The process includes the following process steps: (a) as a single polishing step, simultaneous polishing of the front surface and of the back surface of the semiconductor wafer between rotating polishing plates while an alkaline polishing slurry is being supplied, the semiconductor wafer lying in a cutout of a carrier whose thickness is dimensioned to be 2 to 20 μm less than the thickness of the semiconductor wafer after the latter has been polished; (b) simultaneous treatment of the front surface and of the back surface of the semiconductor wafer between rotating polishing plates while a liquid containing at least one polyhydric alcohol having 2 to 6 carbon atoms is being supplied; (c) cleaning and drying of the semiconductor wafer; and (d) deposition of the epitaxial layer on the front surface of the semiconductor wafer produced in accordance with steps (a) to (c).
    • 具有前表面和后表面的半导体晶片和沉积在前表面上的半导体材料的外延层。 在半导体晶片中,外延层具有小于或等于0.13μm的最大局部平坦度值SFQR< SUB<< SUB< SUB>和最大密度为0.14散射光中心/ cm 2 。 在沉积外延层之前,半导体晶片的前表面在1mum×1mum参考区域上通过AFM测量的表面粗糙度为0.05至0.29nm RMS。 此外,存在制造半导体晶片的工艺。 该方法包括以下工艺步骤:(a)作为单个抛光步骤,在供应碱性抛光浆料的同时,在旋转的抛光板之间同时抛光半导体晶片的表面和背面,半导体晶片位于 载体的切口,其尺寸设定为比后半导体晶片抛光后的半导体晶片的厚度小2〜20μm; (b)在供给包含至少一种含有2〜6个碳原子的多元醇的液体的同时处理旋转研磨板之间的半导体晶片的前表面和后表面; (c)清洗和干燥半导体晶片; 以及(d)在根据步骤(a)至(c)制造的半导体晶片的前表面上沉积外延层。
    • 6. 发明授权
    • Double-side polishing process with reduced scratch rate and device for carrying out the process
    • 减少划伤率的双面抛光工艺和进行该工艺的装置
    • US06645862B2
    • 2003-11-11
    • US09989550
    • 2001-11-20
    • Guido WenskiJohann GlasThomas AltmannGerhard Heier
    • Guido WenskiJohann GlasThomas AltmannGerhard Heier
    • H01L21302
    • H01L21/02024B24B37/0056B24B37/08
    • A process for producing semiconductor wafers by double-sided polishing between two rotating, upper and lower polishing plates, which are covered with polishing cloth, while an alkaline polishing abrasive with colloidal solid fractions is being supplied, the semiconductor wafers being guided by carriers which have circumferential gear teeth and are set in rotation by complementary outer gear teeth and inner gear teeth of the polishing machine, which is distinguished by the following process steps: (a) at least one of the two sets of gear teeth of the polishing machine is at least from time to time sprayed with a liquid which substantially comprises water, (b) the alkaline polishing abrasive is fed continuously to the semiconductor wafers in a closed supply device. There is also a device which is suitable for carrying out the process.
    • 在提供具有胶体固体部分的碱性抛光磨料的同时,在被抛光布覆盖的两个旋转,上和下抛光板之间通过双面抛光来生产半导体晶片的方法,半导体晶片由具有 周向齿轮齿,并由抛光机的互补外齿轮齿和内齿轮齿旋转,其特征在于以下工艺步骤:(a)抛光机的两组齿轮齿中的至少一个处于 至少不时地用基本上包含水的液体喷雾,(b)碱性抛光磨料在封闭的供应装置中连续地供给到半导体晶片。 还有一种适用于执行该过程的装置。
    • 7. 发明授权
    • Method for machining a semiconductor wafer on both sides in a carrier, carrier, and a semiconductor wafer produced by the method
    • 在通过该方法制造的载体,载体和半导体晶片的两侧加工半导体晶片的方法
    • US07541287B2
    • 2009-06-02
    • US11487652
    • 2006-07-17
    • Ruediger SchmolkeThomas BuschhardtGerhard HeierGuido Wenski
    • Ruediger SchmolkeThomas BuschhardtGerhard HeierGuido Wenski
    • H01L21/302
    • B24B37/28Y10S438/959
    • A semiconductor wafer is guided in a cutout in a carrier while a thickness of the semiconductor wafer is reduced to a target thickness by material removal from the front and back surfaces simultaneously. The semiconductor wafer is machined until it is thinner than a carrier body and thicker than an inlay used to line the cutout in the carrier to protect the semiconductor wafer. The carrier is distinguished by the fact that the carrier body and the inlay have different thicknesses throughout the entire duration of the machining of the semiconductor wafer, the carrier body being thicker than the inlay, by from 20 to 70 μm. Themethod provides semiconductor wafers polished on both sides, having a front surface, a back surface and an edge, and a local flatness of the front surface, SFQRmax of less than 50 nm with an edge exclusion of R-2 mm and less than nm with an edge exclusion of R-1 mm, based on a site area of 26 by 8 mm.
    • 半导体晶片被引导在载体的切口中,同时通过从前表面和背面去除材料将半导体晶片的厚度减小到目标厚度。 半导体晶片被加工直到其比载体体薄并且比用于将载体上的切口对准的嵌体更厚以保护半导体晶片。 载体的特征在于,在半导体晶片的加工整个整个持续时间内,载体主体和嵌体具有不同的厚度,载体主体比镶嵌物厚20〜70μm。 该方法提供在两侧抛光的半导体晶片,具有前表面,后表面和边缘以及前表面的局部平坦度,SFQRmax小于50nm,边缘排除R-2mm和小于nm, 基于26×8mm的场地面积,R-1mm的边缘排除。
    • 8. 发明申请
    • Method for machining a semiconductor wafer on both sides in a carrier, carrier, and a semiconductor wafer produced by the method
    • 在通过该方法制造的载体,载体和半导体晶片的两侧加工半导体晶片的方法
    • US20070021042A1
    • 2007-01-25
    • US11487652
    • 2006-07-17
    • Ruediger SchmolkeThomas BuschhardtGerhard HeierGuido Wenski
    • Ruediger SchmolkeThomas BuschhardtGerhard HeierGuido Wenski
    • B24B7/00
    • B24B37/28Y10S438/959
    • A semiconductor wafer is guided in a cutout in a carrier while a thickness of the semiconductor wafer is reduced to a target thickness by material removal from the front and back surfaces simultaneously. The semiconductor wafer is machined until it is thinner than a carrier body and thicker than an inlay used to line the cutout in the carrier to protect the semiconductor wafer. The carrier is distinguished by the fact that the carrier body and the inlay have different thicknesses throughout the entire duration of the machining of the semiconductor wafer, the carrier body being thicker than the inlay, by from 20 to 70 μm. The method provides semiconductor wafers polished on both sides, having a front surface, a back surface and an edge, and a local flatness of the front surface, SFQRmax of less than 50 nm with an edge exclusion of R-2 mm and less than 115 nm with an edge exclusion of R-1 mm, based on a site area of 26 by 8 mm.
    • 半导体晶片被引导在载体的切口中,同时通过从前表面和背面去除材料将半导体晶片的厚度减小到目标厚度。 半导体晶片被加工直到其比载体体薄并且比用于将载体上的切口对准的嵌体更厚以保护半导体晶片。 载体的特征在于,在半导体晶片的加工整个整个持续时间内,载体主体和嵌体具有不同的厚度,载体主体比镶嵌物厚20〜70μm。 该方法提供在两侧抛光的半导体晶片,具有前表面,后表面和边缘以及前表面的局部平坦度,SFQR 小于50nm,边缘排除 R-2mm和小于115nm,边缘排除R-1mm,基于26×8mm的位置面积。