Patent application number | Description | Published |
20100091463 | COOLING BODY - The invention relates to a cooling body for power electronic modules or for semiconductor elements having a flat metal heat dissipation plate, wherein the heat dissipation plate on the side facing the power electronic module or the semiconductor element comprises a surface structured in the manner of a matrix and having protruding elevations, wherein the heat dissipation plate and surface structured in the manner of a matrix are made out of one piece. | 04-15-2010 |
20110203831 | METAL/CNT AND/OR FULLERENE COMPOSITE COATING ON STRIP MATERIALS - A composite coating on metal strips or prestamped metal strips with an improved friction coefficient and/or good contact resistance and/or good friction corrosion resistance and/or good wear resistance and/or good formability includes carbon nanotubes and/or fullerenes and a metal. A method for producing a metal strip coated according to the invention with carbon nanotubes and/or fullerenes and a metal is also disclosed. | 08-25-2011 |
20110206946 | METHOD FOR PRODUCING A CARBON NANOTUBE-, FULLERENE- AND/OR GRAPHENE-CONTAINING COATING - A method for producing a carbon nanotube-, fullerene- and/or graphene-containing coating on a substrate includes the steps of applying carbon nanotubes, fullerenes and/or graphenes onto a tin-containing coating and introducing carbon nanotubes, fullerenes and/or graphenes into the coating by mechanical and/or thermal treatment. A coated substrate produced by this method and the use of the coated substrate as an electromechanical component or lead frame are also described. | 08-25-2011 |
20120077017 | PROCESS FOR PRODUCING A METAL MATRIX COMPOSITE MATERIAL - The invention proposes a process for producing a metal matrix composite material composed of a metal matrix having at least one metal component and at least one reinforcing component arranged in the metal matrix, in which at least one of the components is sprayed onto a substrate by means of a thermal spraying process, use being made of at least one reinforcing component comprising carbon in the form of nano tubes, nano fibers, graphenes, fullerenes, flakes or diamond. Also proposed is a corresponding material, in particular in the form of a coating, and the use of such a material. | 03-29-2012 |
20120298183 | PHOTOVOLTAIC MODULE HAVING A PHOTOACTIVE LAYER OR SOLAR COLLECTOR HAVING AN SOLAR ABSORBER - The invention relates to a photovoltaic module on the basis of a metal strip substrate, which allows a monolithic interconnection via the layer structure, wherein the substrate surface is structured in such a manner that an increase in efficiency of up to 20 percent is achieved by increasing the surface and reducing the reflection or a targeted reflection. The invention further relates to a solar absorber module on the basis of a metal strip substrate, where the light-optical effect is utilized in the same manner and the efficiency is increased accordingly. | 11-29-2012 |
20120301740 | ELECTRO-OPTICAL OR ELECTROMECHANICAL STRUCTURAL ELEMENT OR SLIDING ELEMENT - The invention relates to an electro-optical or electromechanical structural component, in particular LED, connector or also stamped grid, or sliding element, consisting of a rolled metal substrate of a metal strip or a sheet produced therefrom and made of Cu or a Cu alloy strip, Al or an Al alloy strip, Fe or a Fe alloy strip, Ti or a Ti alloy strip, Ni or a Ni alloy strip or a stainless steel strip, which has a specially structured surface. The structure of the surface allows joining using optical methods even in the case of highly reflective surface coatings and simultaneously improves the functional properties of the components used. | 11-29-2012 |
20130004752 | METHOD FOR APPLYING CARBON/TIN MIXTURES TO METAL OR ALLOY LAYERS - The invention relates to a method for applying to a substrate a coating composition containing carbon in the form of carbon nanotubes, graphenes, fullerenes, or mixtures thereof and metal particles. The invention further relates to the coated substrate produced by the method according to the invention and to the use of the coated substrate as an electromechanical component. | 01-03-2013 |
Patent application number | Description | Published |
20100169703 | SYSTEM AND METHOD FOR DETERMINING AVAILABILITY PARAMETERS OF RESOURCE IN HETEROGENEOUS COMPUTING ENVIRONMENT - A system and associated method for determining an incident of a resource in a computing environment. An event pertaining to the resource is processed by a system automation module. The event is represented as an associated event data having parameters of a target state, a target state prior to the event, a current state, and a current state prior to the event. First, the target state is compared to the target state prior to the event to assure that the target state is steady. Wherein a determination that the event is an incident cannot be made after comparing the target state and the current state, the system automation module compares the current state to the current state prior to the event. Upon determining that the event is an incident, the event data is marked and stored in a repository. | 07-01-2010 |
20100169720 | SYSTEM AND METHOD FOR DETERMINING RECOVERY TIME FOR INTERDEPENDENT RESOURCES IN HETEROGENEOUS COMPUTING ENVIRONMENT - A system and associated method for determining a recovery time for a resource in a heterogeneous computing environment comprising interdependent resources. A graph for the resource representing all sequence dependencies and all group relations are created. The recovery time may be a cumulative startup time or a cumulative shutdown time of the resource considering interdependencies of the resource to other resources. The recovery time for all support resources having sequence dependencies with the resource is calculated and each node representing the support resources are removed from the graph. Then the recovery time for all member resources left in the graph that have group relations with the resource is calculated per a group type of the resource. The recovery time for the resource is a sum of the recovery time of all support resources, the recovery time of all member resources, and a unit recovery time of the resource. | 07-01-2010 |
20110270802 | METHOD FOR CONTROLLING CHANGES OF REPLICATION DIRECTIONS IN A MULTI-SITE DISASTER RECOVERY ENVIRONMENT FOR HIGH AVAILABLE APPLICATION - The invention relates to a method of controlling the replication status and direction of a storage device in accordance to its availability state. This overall situation of the storage device is being related to the availability state of applications which have a viable dependency to the storage device | 11-03-2011 |
20120089862 | DETERMINING RECOVERY TIME FOR INTERDEPENDENT RESOURCES IN HETEROGENEOUS COMPUTING ENVIRONMENT - Provided are techniques for determining a recovery time for a resource in a heterogeneous computing environment comprising interdependent resources. A graph for the resource representing all sequence dependencies and all group relations are created. The recovery time may be a cumulative startup time or a cumulative shutdown time of the resource considering interdependencies of the resource to other resources. The recovery time for all support resources having sequence dependencies with the resource is calculated and each node representing the support resources are removed from the graph. Then the recovery time for all member resources left in the graph that have group relations with the resource is calculated per a group type of the resource. The recovery time for the resource is a sum of the recovery time of all support resources, the recovery time of all member resources, and a unit recovery time of the resource. | 04-12-2012 |
20120260128 | METHOD FOR CONTROLLING CHANGES OF REPLICATION DIRECTIONS IN A MULTI-SITE DISASTER RECOVERY ENVIRONMENT FOR HIGH AVAILABLE APPLICATION - A running of an application resource of a first site of at least two sites is stopped from accessing a storage device of the first site. A running of a replication resource is brought to a stop. The replication resource is configured to control a replication of data between the storage device on the first site on which data from the running application resource on the first site are stored to the storage device on the second site. A replication request is submitted to the automation engine for changing a replication direction to run from the second site to the first site. The application resource is started on the second site only after changing the replication direction to start from the storage device on the second site instead of from the storage device of the first site. | 10-11-2012 |
20140006626 | ALLOCATING INSTANTIATED RESOURCES TO AN IT-SERVICE | 01-02-2014 |
20140006627 | INSTANTIATING RESOURCES OF AN IT-SERVICE | 01-02-2014 |
20140095720 | ALLOCATING INSTANTIATED RESOURCES TO AN IT-SERVICE - Allocating an instance of a resource to an IT-service includes: analyzing a service model specifying the structure of an IT-service and comprising nodes and resource management rules specifying the management of said node's resource. For each node, the method includes: determining a resource type indicated by said node; determining one or more resource management rules assigned to said node; evaluating the resource management rules assigned to said node on a resource instance catalog and the determined resource type for computing selection criteria; applying the selection criteria on a service provider catalog for selecting one of the one or more resource managers, the service provider catalog being indicative of one or more of the resource managers respectively being operable to provide a resource instance of a given resource type to the IT-service; creating an instance of the resource provided by the selected resource manager; and allocating said instance to the IT-service. | 04-03-2014 |
20140095721 | INSTANTIATING RESOURCES OF AN IT-SERVICE - Instantiating a resource of an IT-service includes: analyzing a service model including nodes representing resources and being indicative of a resource type, each node comprising a generic API providing at least one abstract method for instantiating the resource represented by the respective node. For each node, determining the resource type indicated by the node; evaluating a service provider catalog indicative of a resource manager operable to provide a resource of a given resource type and determining an address of the resource manager; selecting a resource manager; sending a request to the address of the selected resource manager for a description of a resource-manager-specific API of the resource manager; receiving the requested description from the selected resource manager; overriding the abstract method by a resource-manager specific method of the resource-manager-specific API for instantiating the resource; and executing the overridden abstract method for instantiating the resource represented by the node. | 04-03-2014 |
20160072661 | INSTANTIATING RESOURCES OF AN IT-SERVICE - Instantiating a resource of an IT-service includes: analyzing a service model including nodes representing resources and being indicative of a resource type, each node comprising a generic API providing at least one abstract method for instantiating the resource represented by the respective node. For each node, determining the resource type indicated by the node; evaluating a service provider catalog indicative of a resource manager operable to provide a resource of a given resource type and determining an address of the resource manager; selecting a resource manager; sending a request to the address of the selected resource manager for a description of a resource-manager-specific API of the resource manager; receiving the requested description from the selected resource manager; overriding the abstract method by a resource-manager specific method of the resource-manager-specific API for instantiating the resource; and executing the overridden abstract method for instantiating the resource represented by the node. | 03-10-2016 |