Boenisch
Andreas Boenisch, Schwarmstedt DE
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20120306483 | ELECTROMAGNET INSPECTION APPARATUS AND METHOD - A method and apparatus for the inspection of electrically conductive components is described. The described apparatus comprises a sensor module having a magnetiser unit suitable for generating a variable DC magnetic field within the test component and an eddy current probe. The variable DC magnetic field and eddy current probe are configured to perform a partial saturation eddy current test upon the test component. The eddy current probe further comprises a magnetic field sensor that provides a means for measuring the permeability within the test component. Employing the magnetic field sensor provides apparatus that is more accurate and flexible in its modes of operation since such sensors provide a means for the actual permeability of a material being tested to be measured. The described methods and apparatus find particular application in the inspection of tubular components used in the oil and gas exploration and production industries. | 12-06-2012 |
20130127452 | REMOTE ENVIRONMENT INSPECTION APPARATUS AND METHOD - An inspection tool for the non-destructive testing of a test component made of an electrically conductive material is described. The inspection tool employs movably mounted permanent magnets, which provides a means for generating a variable DC magnetic field within the test component, and eddy current probes so as to provide a means for performing a partial saturation eddy current test upon the test component. The eddy current probe preferably comprises an integrated magnetic field sensor which increases the accuracy and flexibility of the modes of operation of the described apparatus and methods. The described apparatus and methods are particularly suited for the inspection of tubular components that are often remotely located within the oil and gas exploration and production industries. | 05-23-2013 |
20130234701 | ELECTROMAGNET INSPECTION APPARATUS AND METHOD - A method and apparatus for the inspection of electrically conductive components is described. The described apparatus comprises a sensor module having a magnetiser unit suitable for generating a variable DC magnetic field within the test component and an eddy current probe. The variable DC magnetic field and eddy current probe are configured to perform a partial saturation eddy current test upon the test component. The eddy current probe further comprises a magnetic field sensor that provides a means for measuring the permeability within the test component. Employing the magnetic field sensor provides apparatus that is more accurate and flexible in its modes of operation since such sensors provide a means for the actual permeability of a material being tested to be measured. The described methods and apparatus find particular application in the inspection of tubular components used in the oil and gas exploration and production industries. | 09-12-2013 |
Andreas Boenisch, Schwamstedt DE
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20100102808 | METHOD AND APPARATUS FOR NON-DESTRUCTIVE TESTING - A method and apparatus in which at least two different test phases are performed on a test object, selected from: conventional eddy current testing, partial saturation eddy current testing, and ultrasonic testing. Measurement data sets are obtained from the at least two different test phases, with each measurement data set comprising measurement data corresponding to a plurality of test positions. The data sets are combined in a data processing means and the combined measurement data is processed to evaluate a damage condition of the test object. In a preferred embodiment, all of conventional eddy current testing, partial saturation eddy current testing, and ultrasonic testing are performed. The apparatus may be provided in two or more sub-assemblies, of which one may be an internal test tool and one may be an external tool. Alternatively, the apparatus may be capable of carrying out all three of the test phases. | 04-29-2010 |
20110191045 | INSPECTION APPARATUS AND METHOD - A method and apparatus for the non-destructive testing of electrically conductive components such as wellbore tubulars, which is suitable for testing the components in situ a wellbore installation. The method comprises the steps of performing a remote field eddy current test phase and at least one of a conventional direct-field eddy current test phase and a partial saturation eddy current test phase. A measurement data set from each of the test phases is obtained and the combined measurement data is processed to evaluate a condition of the test component. | 08-04-2011 |
Norbert Boenisch, Munich DE
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20160111609 | Conversion LED with High Color Rendition Index - Conversion LED emits primary radiation (peak wavelength 435 nm to 455 nm) and has a luminescent substance-containing layer positioned to intercept the primary radiation and convert it into secondary radiation. First and second luminescent substances are used. The first luminescent substance is a A | 04-21-2016 |
Norbert Boenisch, Munchen DE
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20120146078 | High Efficiency Conversion LED - A conversion LED with a chip which emits primary blue radiation, and a layer containing luminescent substance upstream of the chip which converts at least part of the primary radiation of the chip into secondary radiation, wherein a first garnet A3B5O12:Ce yellow-green emitting luminescent substance and a second nitride silicate M2X5Y8:D orange-red emitting luminescent substance is used, wherein the peak wavelength of the primary radiation is in the range of 430 to 450 nm, in particular of up to 445 nm, while the first luminescent substance is a garnet with the cation A=Lu or a mixture of Lu, Y with up a Y fraction of up to 30%, and wherein B has fractions of both Al and Ga, while the second luminescent substance is a nitride silicate which contains both Ba and Sr as cation M, and in which the doping consists of Eu, wherein the second luminescent substance contains 35 to 75 mol.-% Ba for the component M, remainder is Sr, where X=Si and Y=N. | 06-14-2012 |
20120146079 | Conversion LED with High Color Rendition Index - A conversion LED comprising a chip which emits primary radiation and, positioned upstream of the chip, a luminescent substance-containing layer which converts at least some of the primary radiation of the chip into secondary radiation, wherein a first yellow-green emitting luminescent substance of the A3B5O12:Ce garnet type and a second orange-red emitting luminescent substance of the MAlSiN3:Eu calsine type is used, wherein the peak wavelength of the primary radiation lies in the 435 to 455 nm range, the first luminescent substance being a garnet having essentially the cation A=Lu or Lu in combination with Y, and B simultaneously having fractions of Al and Ga, while the second luminescent substance is of the basic MAlSiN3:Eu type containing Ca as M with a fraction of at least 80%, in particular at least 90%, preferably at least 95%, where M is Ca alone or predominantly Ca and the remainder of M may be Sr, Ba, Mg, Li or Cu, in each case alone or in combination, and wherein some of the Al up to 20%, preferably at most 5%, can be replaced by B, O, F, Cl, alone or in combination. | 06-14-2012 |
Stefan Boenisch, Leipzig DE
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20130023398 | CENTRIFUGE ROTOR - The present invention relates to a centrifuge rotor, in particular a laboratory centrifuge rotor, including a rotor body, wherein the rotor body at least partially includes a porous metal or a porous metal alloy and an armoring located radially outside with respect to the rotation axis of said rotor body is provided. The centrifuge rotor allows centrifugation to be performed in a shorter time than previously and at a higher rotational speed. This results, inter alia, in higher RCA (relative centrifugal acceleration) values and thus in a very rapid separation of the constituents of the substances to be centrifuged. | 01-24-2013 |
Volker Boenisch, Boeblingen DE
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20150301803 | Extracting Entropy from the Vibration of Multiple Machines - Generating a pool of random numbers for use by computer applications. Vibration sensors are placed throughout a machine and collect entropy data from the measurements of the vibration sensors. The data is then filtered and sent via secure connection to a second machine to be added to the second machine's entropy pool. Applications needing a random number may acquire a number from the pool. A method, computer program product and system to generate the pool are provided. | 10-22-2015 |
20150304107 | Extracting Entropy from Machine Vibration - Generating a pool of random numbers for use by computer applications. Vibration sensors are placed throughout a machine and collects information theoretic entropy data from the measurement of the vibration sensors. The data is then filtered and added to an entropy pool. Applications needing a random number may acquire a number from the pool. A method, computer program product and system to generate the pool are provided. | 10-22-2015 |
20160077804 | Extracting Entropy From The Vibration Of Multiple Machines - Generating a pool of random numbers for use by computer applications. Vibration sensors are placed throughout a machine and collect entropy data from the measurements of the vibration sensors. The data is then filtered and sent via secure connection to a second machine to be added to the second machine's entropy pool. Applications needing a random number may acquire a number from the pool. A method, computer program product and system to generate the pool are provided. | 03-17-2016 |
20160077805 | Extracting Entropy From Machine Vibration - Generating a pool of random numbers for use by computer applications. Vibration sensors are placed throughout a machine and collects information theoretic entropy data from the measurement of the vibration sensors. The data is then filtered and added to an entropy pool. Applications needing a random number may acquire a number from the pool. A method, computer program product and system to generate the pool are provided. | 03-17-2016 |
Volker M. Boenisch, Boeblingen DE
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20150331717 | TASK GROUPING BY CONTEXT - In an approach to grouping tasks initialized by a first user, one or more computer processors receive a first task initialization by a first user. The one or more computer processors determine whether one or more additional tasks contained in one or more task groups are in use by the first user. Responsive to determining one or more additional tasks contained in one or more task groups are in use, the one or more computer processors determine whether the first task is related to at least one task of the one or more additional tasks. Responsive to determining the first task is related to at least one task of the one or more additional tasks, the one or more computer processors add the first task to the task group containing the at least one related task of the one or more additional tasks. | 11-19-2015 |
20160055039 | TASK GROUPING BY CONTEXT - In an approach to grouping tasks initialized by a first user, one or more computer processors receive a first task initialization by a first user. The one or more computer processors determine whether one or more additional tasks contained in one or more task groups are in use by the first user. Responsive to determining one or more additional tasks contained in one or more task groups are in use, the one or more computer processors determine whether the first task is related to at least one task of the one or more additional tasks. Responsive to determining the first task is related to at least one task of the one or more additional tasks, the one or more computer processors add the first task to the task group containing the at least one related task of the one or more additional tasks. | 02-25-2016 |
Volker M.m. Boenisch, Boeblingen DE
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20160105429 | CONTROLLED USE OF A HARDWARE SECURITY MODULE - Methods are provided for using a hardware module connectable to multiple computer systems, where the multiple computer systems are connectable to a server within a common network. The method includes: providing a network address of the server in persistent memory of the hardware security module; providing an encrypted secret entity in the persistent memory of the hardware security module; providing a private key in the persistent memory of the hardware security module; and based on the hardware security module being connectable to one of the computer systems, the method includes: establishing a secure connection between the hardware security module and the server; retrieving, via the secure connection, a wrapping key from the server and storing it in volatile memory of the hardware security module; and decrypting the encrypted secret entity with the wrapping key and storing the decrypted secret entity in the volatile memory of the hardware security module. | 04-14-2016 |
Volker M. M. Boenisch, Boeblingen DE
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20160092243 | HARDWARE SECURITY MODULE ACCESS MANAGEMENT IN A CLOUD COMPUTING ENVIRONMENT - Trusted firmware on a host server is used for managing access to a hardware security module (HSM) connected to the host server. The HSM stores confidential information associated with an operating system. As part of access management, the firmware detects a boot device identifier associated with a boot device configured to boot the operating system on the host server. The firmware then receives a second boot device identifier from the HSM. The boot device identifier and the second boot device identifier are then compared by the firmware. Based on the comparison, the firmware determines that the boot device identifier matches with the second boot device identifier. Based on this determination, the firmware grants the operating system access to the HSM. | 03-31-2016 |
20160092687 | HARDWARE SECURITY MODULE ACCESS MANAGEMENT IN A CLOUD COMPUTING ENVIRONMENT - Trusted firmware on a host server is used for managing access to a hardware security module (HSM) connected to the host server. The HSM stores confidential information associated with an operating system. As part of access management, the firmware detects a boot device identifier associated with a boot device configured to boot the operating system on the host server. The firmware then receives a second boot device identifier from the HSM. The boot device identifier and the second boot device identifier are then compared by the firmware. Based on the comparison, the firmware determines that the boot device identifier matches with the second boot device identifier. Based on this determination, the firmware grants the operating system access to the HSM. | 03-31-2016 |