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    • 1. 发明申请
    • VACUUM EVAPORATION APPARATUS FOR SOLID MATERIALS
    • 真空蒸发器用于固体材料
    • US20090020070A1
    • 2009-01-22
    • US12172806
    • 2008-07-14
    • Michael SchaferBernd Meyer
    • Michael SchaferBernd Meyer
    • C23C14/00
    • C23C14/246C23C14/243C23C14/26
    • The invention relates to an apparatus for evaporating solid materials, for instance, selenium for coating a substrate. The solid material is brought into a first crucible via a feeding source. In this crucible the material melts at a temperature which is preferably slightly higher than its melting point. The molten material flows via a transporting device, for instance, a pipe into a second crucible, where the material evaporates at a temperature higher than its boiling point and is transported to a substrate. In order to stop the evaporation within a very short time preferably within only one to two minutes, a cooling device for cooling the material beyond its melting point is arranged at the transporting device. With this cooling device the material in the transporting device can be cooled down beyond its melting point in a very short time.
    • 本发明涉及用于蒸发固体材料的装置,例如用于涂覆基底的硒。 固体材料通过进料源进入第一坩埚。 在该坩埚中,材料在优选略高于其熔点的温度下熔化。 熔融材料通过输送装置例如管道流入第二坩埚,其中材料在高于其沸点的温度下蒸发并被输送到基底。 为了在非常短的时间内停止蒸发,优选仅在一到两分钟内,在输送装置处设置用于将材料冷却超过其熔点的冷却装置。 使用该冷却装置,输送装置中的材料可以在非常短的时间内被冷却到超过其熔点。
    • 3. 发明授权
    • Method and system for the accelerated decryption of cryptographically protected user data units
    • 加密解密密码保护用户数据单元的方法和系统
    • US09571273B2
    • 2017-02-14
    • US13508707
    • 2010-10-12
    • Michael BraunMarkus DichtlBernd Meyer
    • Michael BraunMarkus DichtlBernd Meyer
    • H04L29/06H04L9/08
    • H04L9/0825
    • A method and system for accelerated decryption of a cryptographically protected user data unit, wherein a transmitter initially generates a cryptographic key that is provided with a related key identification. The transmitter then performs asymmetrical encryption of the generated cryptographic key using a public cryptographic key and encryption of at least one user data unit using the generated cryptographic key. The encrypted user data unit, the asymmetrically encrypted cryptographic key and the related key identification of the cryptographic key are transported to a receiver that decrypts the received asymmetrically encrypted key using a private key, if verification of the received related key identification of the cryptographic key indicates the cryptographic key is not present in a decrypted state in the receiver. The receiver then decrypts the received cryptographically encrypted user data unit using the cryptographic key in the receiver or with the cryptographic key decrypted using the private key.
    • 一种用于加密解密密码保护的用户数据单元的方法和系统,其中发射机最初生成具有相关密钥标识的加密密钥。 然后,发射机使用公共加密密钥对所生成的加密密钥进行不对称加密,并使用生成的加密密钥对至少一个用户数据单元进行加密。 如果加密密钥的加密用户数据单元,非对称加密的加密密钥和密钥的相关密钥标识被传送到使用专用密钥对接收到的非对称加密密钥进行解密的接收机, 加密密钥在接收机中不存在于解密状态。 然后,接收机使用接收机中的加密密钥或使用私钥解密的加密密钥来解密所接收的密码加密的用户数据单元。
    • 4. 发明授权
    • Method and processor unit for implementing a characteristic-2-multiplication
    • 用于实现特征2乘法的方法和处理器单元
    • US08732227B2
    • 2014-05-20
    • US13055218
    • 2009-05-22
    • Jean GeorgiadesBernd Meyer
    • Jean GeorgiadesBernd Meyer
    • G06F7/52
    • G06F7/724G06F2207/3812
    • The method for implementing a characteristic-2-multiplication of at least two input bit strings each having a number N of bits by means of a processor unit suitable for carrying out an integer multiplication, having the following steps: a) generating at least one sequence of a number K of zero bits, using Kε{1, . . . , N}, by means of a first transformation of the respective input bit string to at least one predetermined position in the respective input bit string for generating at least one first intermediate bit string; b) linking the at least two first intermediate bit strings by means of the integer multiplication of the processor unit for generating at least one second intermediate bit string; and c) transforming the at least one second intermediate bit string by means of a second transformation for generating a result bit string.
    • 用于通过适于执行整数乘法的处理器单元来实现每个具有数目N个比特的至少两个输入比特串的特征2乘法的方法,具有以下步骤:a)产生至少一个序列 的零位K,使用K&egr; {1,。 。 。 ,N},通过相应输入位串的第一变换到相应输入位串中的至少一个预定位置,用于产生至少一个第一中间位串; b)借助于处理器单元的整数乘法来链接至少两个第一中间位串,用于产生至少一个第二中间位串; 以及c)通过用于生成结果位串的第二变换来变换所述至少一个第二中间位串。
    • 6. 发明授权
    • Apparatus and method for generating a random bit sequence
    • 用于产生随机比特序列的装置和方法
    • US08410857B2
    • 2013-04-02
    • US13119765
    • 2009-07-30
    • Markus DichtlBernd Meyer
    • Markus DichtlBernd Meyer
    • H03K3/03H03B29/00G06F7/58
    • G06F7/588H03K3/84H04L9/0861
    • An apparatus for generating a random bit sequence has a ring oscillator which includes inverting digital devices and on which an oscillator signal can be tapped. An intermediate storage element monitors and stores fluctuating levels of the oscillator signal. At least two controllable switch devices for simultaneously exciting at least two harmonic wave edges of the ring oscillator are provided in a signal path of the ring oscillator. The phasing of the two harmonic wave edges and a potential convergence thereof are subject to statistical fluctuations, which are used as a basis for the random bit generation. A corresponding random number generator can be used in particular as an FPGA for security applications, such as cryptographic methods. The apparatus has substantially digital components, which are easy to produce in a standardized manner. A dedicated regulating circuit is not necessary. The apparatus is also robust toward exterior influences.
    • 用于产生随机比特序列的装置具有环形振荡器,其包括倒相数字装置,并且可以在其上敲击振荡器信号。 中间存储元件监视和存储振荡器信号的波动电平。 在环形振荡器的信号路径中设置有用于同时激励环形振荡器的至少两个谐波边缘的至少两个可控开关装置。 两个谐波边缘的相位和其潜在的收敛受到统计波动的影响,这些波形被用作随机比特生成的基础。 相应的随机数发生器可以特别用作安全应用的FPGA,例如加密方法。 该装置具有基本上数字的部件,其易于以标准化的方式产生。 专用的调节电路不是必需的。 该装置对于外部影响也是坚固的。
    • 8. 发明申请
    • Method and System for Resolving a Naming Conflict
    • 解决命名冲突的方法和系统
    • US20120324219A1
    • 2012-12-20
    • US13508621
    • 2010-10-06
    • Michael BraunMarkus DichtlBernd Meyer
    • Michael BraunMarkus DichtlBernd Meyer
    • H04L9/00
    • G06F21/125G06F9/44552
    • A method and a system for naming-conflict-free integration of software components originating from software component manufacturers (OEM), comprising software development devices from different software component manufacturers (OEM) that manufacture and encrypt software components with the respective cryptographic key, wherein when a naming conflict occurs during the integration of encrypted software components, at least one of the encrypted software components in which the naming conflict occurred is expanded by a naming conflict resolution rule to thereby allows for the resolution of naming conflicts in encrypted software components that can originate from different software component manufacturers without the source code of the software components becoming visible to third parties.
    • 一种用于命名不受软件组件制造商(OEM)的软件组件进行命名冲突的集成的方法和系统,包括来自不同软件组件制造商(OEM)的软件开发设备,该软件组件制造商(OEM)使用相应的加密密钥来制造和加密软件组件,其中何时 在加密软件组件的集成期间发生命名冲突,通过命名冲突解决规则来扩展发生命名冲突的加密软件组件中的至少一个,从而允许解决可能发起的加密软件组件中的命名冲突 来自不同软件组件制造商的软件组件的源代码对第三方变得可见。