Schnick
Gary B. Schnick, Granite Falls, NC US
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20100092146 | Optical Fiber Management Shelf for Optical Connection Terminals - A shelf for a fiber optic network device is disclosed. The shelf comprises a platform having a top side and a bottom side. The platform is adapted to removably affix to a base of an optical connection terminal having a port disposed through the base such that the platform positions above the port. The shelf includes an access opening extending through the platform from the top side to the bottom side. The access opening provides access to the port from the top side. A transition area extends from the access opening. The transition area is adapted for routing optical fibers disposed in the optical connection terminal between a space under the platform and the top side. A component area is located on the top side, and adapted for mounting a component. At least one of the optical fibers disposed in the optical connection terminal extends from the component. | 04-15-2010 |
20100092169 | Multi-Level Distributed Fiber Optic Architectures - A fiber optic network having a multi-level architecture is disclosed. A first level of the fiber optic network comprises a first branch. The first branch comprises a plurality of first branch optical fibers optically coupled to a distribution cable and a first branch fiber optic network device. The first branch fiber optic network device is configured to optically couple a first predetermined one of the plurality of first branch optical fibers to a respective first predetermined sub-branch optical fiber, and a second predetermined one of the plurality of first branch optical fibers to a second predetermined sub-branch optical fiber. A second level of the fiber optic network comprises a sub-branch. The sub-branch comprises a first sub-branch fiber optic network device and a second sub-branch fiber optic network device. The first sub-branch fiber optic network device is configured to optically couple a first drop cable with the respective first predetermined sub-branch optical fiber and thereby to the distribution cable. The second sub-branch fiber optic network device is configured to optically couple a second drop cable with the respective second predetermined sub-branch optical fiber and thereby to the distribution cable. | 04-15-2010 |
Gary Bruce Schnick, Granite Falls, NC US
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20110211799 | VARIABLY CONFIGURABLE AND MODULAR LOCAL CONVERGENCE POINT - A variably configurable fiber optic terminal as a local convergence point in a fiber optic network is disclosed. The fiber optic terminal has an enclosure having a base and a cover which define an interior space. A feeder cable having at least one optical fiber and a distribution cable having at least one optical fiber are received into the interior space through a feeder cable port and a distribution cable port, respectively. A movable chassis positions in the interior space and is movable between a first position, a second position and third position. The movable chassis has a splitter holder area, a cassette area and a parking area. A cassette movably positions in the cassette area. A splitter module holder having a splitter module movably positioned therein movably positions in the splitter holder area. The optical fiber of the feeder cable and the optical fiber of the distribution cable are optically connected through the cassette, which also may be through the splitter module. In such case, the optical fiber of the feeder cable optically connects to an input optical fiber to the slitter module, where the optical signal is split into a plurality of output optical fibers. One of the plurality of output optical fibers connects to the optical fiber of the distribution cable for distribution towards a subscriber premises. The interior space is variably configurable by changeably positioning the cassette and splitter modules in the movable chassis. | 09-01-2011 |
20140105539 | PORT MAPPING IN FIBER OPTIC NETWORK DEVICES - A fiber optic network device comprising an input port adapted to receive a multi-fiber cable having active optical fibers designated in a consecutive sequence is disclosed. A first plurality and a second plurality of optical fibers are disposed within the fiber optic network device. The first plurality of optical fibers aligns to a first section of the consecutive sequence and a second plurality of optical fibers aligns to a second section of the consecutive sequence. A plurality of drop ports in the fiber optic network device are adapted to optically couple ones of the first plurality of optical fibers to at least one drop cable. A pass-through port is adapted to optically couple the second plurality of optical fibers to a second fiber optic network device through a multi-fiber adapter in a central alignment at the pass-through port. | 04-17-2014 |
Guilherme Augusto Kusano Schnick, Campinas-Sp BR
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20130174210 | SYSTEM FOR DATA FLOW PROTECTION AND USE CONTROL OF APPLICATIONS AND PORTABLE DEVICES CONFIGURED BY LOCATION - The present invention relates to a system for implementing a firewall service on portable devices such as mobile phones, tablets or notebooks, which has changed their security settings depending on the location where they are. More specifically, the invention relates to a method of protecting data flow and control of use of devices and functional applications present in a portable device and configured from their location. | 07-04-2013 |
Wolfgang Schnick, Gauting DE
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20080231171 | Illumination System Comprising a Radiation Source and Fluorescent Material - The invention concerns an illumination system comprising a radiation source and a fluorescent material comprising at least one phosphor capable of absorbing part of the light emitted by the radiation source and emitting light of a wavelength different from that of the absorbed light; wherein said at least one phosphor is a yellow to red-emitting europium(II) activated halogeno-oxonitridosilicate of the general formula Ea | 09-25-2008 |
20100001303 | RED EMITTING OXYNITRIDE LUMINESCENT MATERIALS - The invention relates to an improved red light emitting material of the formula M | 01-07-2010 |
20100244076 | LIGHT EMITTING DEVICE COMPRISING A GREEN EMITTING SIALON-BASED MATERIAL - The invention relates to a light emitting device, especially a LED comprising a green emitting material of the composition Sr | 09-30-2010 |
20120037941 | Red Emitting Luminescent Materials - The invention relates to an improved red light emitting material of the formula ML | 02-16-2012 |
20120194060 | Red Emitting Luminescent Materials - The invention relates to an improved red light emitting material of the formula M | 08-02-2012 |
Wolfgang Schnick, Eindhoven NL
Patent application number | Description | Published |
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20100133469 | RED EMITTING LUMINESCENT MATERIALS - The invention relates to an improved red light emitting material of the formula M | 06-03-2010 |
20140320788 | MN-ACTIVATED HEXAFLUOROSILICATES FOR LED APPLICATIONS - The invention provides a lighting unit comprising a light source, configured to generate light source light and a luminescent material, configured to convert at least part of the light source light into luminescent material light, wherein the light source comprises a light emitting diode (LED) and wherein the luminescent material comprises a phosphor comprising M | 10-30-2014 |