Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Bingel
Gert Bingel, Dresden DE
| Patent application number | Description | Published |
|---|---|---|
| 20080299336 | Calcinated or Sintered Hollow Body Comprising a Spherically Curved Surface - A method is for producing calcinated or sintered hollow bodies comprising a spherical surface, to hollow bodies produced using the method, and to the uses thereof. Calcinated or sintered hollow bodies comprising a spherically curved surface, an enlarged, freely accessible surface and/or a structured surface. An organic spherical carrier is coated with a powder which forms the shell of a hollow body, and a binding agent, both contained in suspension. A heat treatment is then carried out, leading to the expulsion of organic constituents and to the sintering process. At least one elevation is arranged on the surface of the carrier or embodied thereon, the projection past the surface corresponding at least to the thickness of the shell of the finished sintered hollow body, taking into account the degree of shrinkage of the powder material during the sintering process. The elevation(s) is/are then removed by conversion into the gas phase of the respective material from which they are formed and/or mechanically, during the heat treatment. | 12-04-2008 |
Thomas Bingel, Indian Rocks Beach, FL US
| Patent application number | Description | Published |
|---|---|---|
| 20100027180 | ELECTRONIC CIRCUIT BREAKER APPARATUS AND SYSTEMS - Electronic circuit breakers and systems for isolating a load from a power-supply unit are provided. One electronic circuit breaker includes a current sensor, a switching element coupled to the current sensor, and a switch controller coupled to the current sensor and the switching element. The switch controller is powered by the power-supply unit and is configured to switch OFF the switching element when the current sensor detects an amount of current from the power-supply unit greater than a predetermined amount. An electronic system includes a power-supply unit, a load, and the above-referenced electronic circuit breaker coupled to the power-supply unit and the load. | 02-04-2010 |
Thomas Jeffrey Bingel, Belleair Beach, FL US
| Patent application number | Description | Published |
|---|---|---|
| 20100194434 | SYSTEMS AND METHODS OF INTEGRATED CIRCUIT CLOCKING - Various systems and methods are provided for integrated circuit clocking. In one embodiment, an integrated circuit system includes a plurality of combinational logic groups, each combinational logic group having a propagation time; and means for delaying a synchronizing clock signal supplied to at least one of the plurality of combinational logic groups based upon a period of the synchronizing clock signal and the propagation time of the at least one combinational logic group. In another embodiment, a method includes delaying a clock signal to produce a delayed clock signal and communicating the clock signal and the delayed clock signal to separate groups of the combinational logic circuit during a clock cycle that results in a reduction in power consumption by the combinational logic circuit. | 08-05-2010 |
Ulrich Bingel, Michelfeld DE
| Patent application number | Description | Published |
|---|---|---|
| 20080204689 | Optical module with minimized overrun of the optical element - There is provided an optical module for microlithography. The optical module includes an optical element and a retaining device for holding the optical element. The optical element has (a) a main extension plane, in which it defines a radial direction R and a circumferential direction U, and (b) a free optical diameter and an overrun in the region of its outer periphery. The retaining device contacts the optical element in the region of the overrun, and is formed and/or contacts the optical element in such a manner that the overrun ratio, calculated from the overrun related to a minimum overrun necessary for the production of the optical element, is at most 1.5. | 08-28-2008 |
| 20090244508 | METHOD AND DEVICE FOR CONNECTING AN OPTICAL ELEMENT TO A FRAME - A method and a device for the material-fit connection of an optical element to a frame are disclosed. | 10-01-2009 |
| 20100182710 | METHOD FOR PRODUCING AN OPTICAL ELEMENT THROUGH A MOLDING PROCESS, OPTICAL ELEMENT PRODUCED ACCORDING TO THE METHOD, COLLECTOR, AND LIGHTING SYSTEM - A method for producing an optical element or part of an optical element having a base body, including:—providing a mold body ( | 07-22-2010 |
Ulrich Bingel, Lauterburg DE
| Patent application number | Description | Published |
|---|---|---|
| 20080225247 | OPTICAL ELEMENT UNIT FOR EXPOSURE PROCESSES - An optical element unit including a first optical element module and a sealing arrangement is disclosed. The first optical element module occupies a first module space and includes a first module component of a first component type and an associated second module component of a second component type. The first component type is optical elements and the second component type being different from the first component type. The sealing arrangement separates the first module space into a first space and a second space and substantially prevents, at least in a first direction, the intrusion of substances from one of the first space and the second space into the other one of the first space and the second space. The first module component at least partially contacts the first space and, at least in its area optically used, not contacting the second space. The second module component at least partially contacts the second space. | 09-18-2008 |
| 20090021950 | Optical Component Having an Improved Transient Thermal Behavior and Method for Improving the Transient Thermal Behavior of an Optical Component - An optical component comprises at least one optically effective optical element which heats up when irradiated with light, and at least one holding element for the at least one optical element for holding the at least one optical element in a carrier structure, wherein the at least one optical element is connected to the at least one holding element in heat conducting fashion, and wherein the at least one holding element is at least partially provided with an active cooling system for carrying off heat from the at least one optical element. Additionally or alternatively, a temperature control device is provided which controls the temperature of at least a part of the mount of the optical element. | 01-22-2009 |