Class / Patent application number | Description | Number of patent applications / Date published |
385022000 | Single pole multiple throw (relay switch) | 13 |
20080267558 | OPTICAL SWITCH - An optical switch including an alignment head, a first fiber, a second fiber, a third fiber, a wedge, and a displacing means is provided. The alignment head has a base and a cover. The base has a first V-groove, a second V-groove, and a trench linked to the first and the second V-grooves. An end of the first fiber and that of the second fiber are mounted in the first and the second V-grooves, respectively. The cover is mounted on the base to secure the ends of the first and the second V-grooves. An end of the third fiber located in the trench is aligned to that of the first fiber. The wedge located beside the base has an incline. The displacing means set under the wedge is capable of aligning the end of the third fiber to that of the second fiber by moving the wedge. | 10-30-2008 |
20090148097 | Plasmon router - A variety of structures, methods, systems, and configurations can support plasmons for routing. | 06-11-2009 |
20090154874 | OPTICAL DEVICE WITH NON-EQUALLY SPACED OUTPUT PORTS - The invention relates to multiport routing devices for routing optical signals which also provide beam attenuation by imparting a controllable offset between an optical beam and a selected optical port. A multiport optical routing device of the present invention has a plurality of non-equally spaced optical ports disposed in a row to enable beam offset for attenuation without substantially increasing optical crosstalk between adjacent ports in a compact port arrangement. | 06-18-2009 |
20090208169 | OPTICAL SWITCHING DEVICE WITH RECONFIGURABLE CHANNEL SPACING - An optical switching device includes an array of liquid crystal macropixels, wherein each macropixel includes at least two liquid crystal subpixels. The subpixels may be controlled together to act as a single polarizing pixel, or independently to act as multiple polarizing pixels. When the switching device processes a WDM having a wide channel spacing, the subpixels are controlled together, and when the switching device processes a WDM having a narrow channel spacing, each subpixel is controlled independently. | 08-20-2009 |
20090214161 | Multimode Interference Waveguide Type Optical Switch - It is an object of the present invention to provide a multimode interference waveguide type optical switch that has a wide tolerance and that digitally performs switching with respect to a change in an applied voltage or injected current. The multimode interference waveguide type optical switch of the present invention includes an input single-mode waveguide ( | 08-27-2009 |
20100046885 | METHOD AND APPARATUS FOR PROVIDING AN AUTOMATED PATCH PANEL - An approach is provided for an automated patch panel. A command is received to change a connection state of an optic patch cord. A robotic arm is controlled to change the connection state of the optic patch cord with respect to a particular port of a plurality of ports disposed about a disk-shaped face of a docking panel. | 02-25-2010 |
20110103740 | OPTICAL FIBER SWITCH INCLUDING AN INDEX MATCHING ELASTOMERIC SOLID LAYER AND RELATED METHODS - An optical fiber switch which may include first and second angled optical fibers having respective first and second end faces. Each of the first and second angled optical fibers may include a core having a core index of refraction, and a cladding surrounding the core and having a cladding index of refraction less than the core index of refraction. The optical fiber switch may further include a first index matching elastomeric solid layer having a proximal face coupled to the first end face, and a distal face opposite the proximal face to be repeatably optically coupled to the second end face. The first index matching elastomeric solid layer may have an index of refraction matching at least the index of refraction of the core. The optical fiber switch may also include at least one actuator for relatively moving the first and second angled optical fibers between a coupled position and an uncoupled position. | 05-05-2011 |
20110103741 | OPTICAL FIBER SWITCH INCLUDING AN INDEX MATCHING ELASTOMERIC SOLID LAYER PROVIDING CORE AND CLADDING INDEX OF REFRACTION MATCHING AND RELATED METHODS - An optical fiber switch which may include first and second angled optical fibers having respective first and second end faces. Each of the first and second angled optical fibers may include a core having a core index of refraction, and a cladding surrounding the core and having a cladding index of refraction different than the core index of refraction. The optical fiber switch may further include a first index matching elastomeric solid layer having a proximal face coupled to the first end face and a distal face opposite the proximal face to be repeatably optically coupled to the second end face. The first index matching elastomeric solid layer may have an index of refraction profile matching an index of refraction of the core and the cladding. The optical fiber switch may also include at least one actuator for relatively moving the first and second angled optical fibers between a coupled position and an uncoupled position. | 05-05-2011 |
20120189247 | METHOD AND APPARATUS FOR PROVIDING AN AUTOMATED PATCH PANEL - An approach is provided for an automated patch panel. A command is received to change a connection state of an optic patch cord. A robotic arm is controlled to change the connection state of the optic patch cord with respect to a particular port of a plurality of ports disposed about a disk-shaped face of a docking panel. | 07-26-2012 |
20120251043 | OPTICAL DEVICE HAVING AN ELASTOMERIC WAVEGUIDE SWITCH BODY AND RELATED METHODS - An optical device may include a substrate and an optical waveguide carried by the substrate and having a notch therein defining a feed optical waveguide and a longitudinal optical waveguide section on opposite longitudinal sides of the notch. The optical device may also include a transverse optical waveguide section carried by the substrate and transversely aligned with the feed optical waveguide adjacent the notch. The optical device may further include an elastomeric waveguide switch body configured to be moved between a first position within the notch and operative to switch light from the feed optical waveguide to the longitudinal optical waveguide section, and a second position removed from the notch and operative to switch light from the optical waveguide to the transverse optical waveguide section. | 10-04-2012 |
20150316725 | LIGHT INPUT/OUTPUT DEVICE - An optical input/output device includes a phase modulator element and an optical element. The phase modulator element includes a plurality of pixels arranged in a matrix and is configured to change an optical phase of signal light by applying a driving signal corresponding to a phase pattern. The optical element is configured to convert a direction of exit of the signal light so as to irradiate each pixel with the signal light from the input port. A pattern generator unit includes superimposing means for superimposing a periodic phase pattern having a predetermined period in at least one direction in a plane of the phase modulator element, and means for controlling an amplitude of the periodic phase pattern. The signal light is diffracted to a position according to the period of the superimposed periodic phase pattern, so that light intensity of the signal light is dispersed. | 11-05-2015 |
20160070071 | OPTOELECTRONIC COMPONENT - An optoelectronic component for receiving light. A housing including an axially extending cavity is arranged to receive an incoming beam. At least one adjustable arrangement includes at least one lens and a first adjustment module configured to adjust a focal point of the lens relative to an end surface of an optical fiber connectable to the housing. A first body is arranged to influence a position of the lens. A second body contacting the first body is journalled in the housing. The first adjustment module is arranged to act on the first body to rotate the first body spherically around a distant point and to alter the position of the lens, in order to locate a focal point of the lens on an end surface of the optical fiber. | 03-10-2016 |
20160170150 | OPTICAL FIBER CORE BUTTING APPARATUS | 06-16-2016 |