Class / Patent application number | Description | Number of patent applications / Date published |
398088000 | Lens | 7 |
20110110666 | OPTICAL COMMUNICATION MODULE FOR OPTICAL WAVELENGTH DIVISION MULTIPLEXING - An optical communication module for optical wavelength division multiplexing includes a plurality of light devices emitting or receiving light beams having different wavelengths, a single optical fiber, and an optical elements arranged between the plurality of light devices and the single optical fiber and having a plurality of lens areas to converge a light beam starting from a single point at a plurality of points or light beams starting from a plurality of points at a single point. In the optical communication module, the plurality of lens areas are arranged such that the center points of the plurality of lens areas are located at the same distance from a point, and the single point and the plurality of points are located at the opposite sides with respect to the optical element. | 05-12-2011 |
20110182586 | WAVELENGTH DIVISION MULTIPLEXING - Technologies relating to wavelength division multiplexing are provided. In one implementation, a wavelength division multiplexing (WDM) coupler is provided. The WDM coupler includes an input block including a first tube, the first tube holding an input dual fiber pigtailed capillary, the capillary holding an input fiber and a reflection fiber, a center block including a center tube holding a first inner tube and a second inner tube, the first inner tube holding a first lens within the first inner tube and the second inner tube holding a second lens within the second inner tube, the center block further including a WDM filter positioned between the first lens and the second lens and secured to the end surface of the first inner tube, and an output block including a second tube holding an output single fiber pigtailed capillary, the capillary holding a transmission fiber. | 07-28-2011 |
20140003818 | EXTERNAL CAVITY LASER USING MULTILAYERED THIN FILM FILTER AND OPTICAL TRANSMITTER HAVING THE SAME | 01-02-2014 |
20150110493 | DEMULTIPLEXING DEVICE FOR OPTO-ELECTRONIC TRANSCEIVER - An optical demultiplexing device includes an optics body, a minor, optical filters, and opto-electronic detectors. The optics body has a fiber port configured to receive an end of an optical fiber, a reflective surface aligned with the fiber port, a substantially planar filter mounting surface, and a substantially planar mirror mounting surface. The filter mounting surface and the minor mounting surface are parallel to one another and formed on the same side of the optics body as each other. The minor is mounted on the minor mounting surface, and the filters are mounted on the filter mounting surface. Each filter is transparent to a different wavelength and is interposed in an optical path between one of the opto-electronic detectors and the reflector. | 04-23-2015 |
20150346432 | Optical Communication Module - An optical communication module includes a plurality of semiconductor lasers that emit optical signals with different wavelengths, a multiplexing optical system including a plurality of optical filters used for multiplexing the optical signals, each of which has been emitted from a corresponding one of the plurality of semiconductor lasers, and a substrate on which the optical filters are provided, and a plurality of lenses, each of the lenses being joined to a corresponding one of the plurality of optical filters to condense or collimate an optical signal emitted from a corresponding one of the semiconductor lasers and thereby enable the light signal to enter the optical filter. The plurality of lenses are independent from one another and have a different linear expansion ratio from that of the substrate. Furthermore, the plurality of lenses are not in contact with a second mount on which the substrate is mounted. | 12-03-2015 |
20150372759 | BIDIRECTIONAL OPTICAL TRANSCEIVER MODULE AND METHOD OF ALIGNING THE SAME - Disclosed are a bidirectional optical transceiver module and a method of aligning the same. The bidirectional optical transceiver module includes: a package having on one side a cavity; a platform mounted on the package; a transmitter which generates output light; a holder which includes the horizontal portion having the through-hole and disposed on the package to cover the cavity, and the vertical portion which has the inclined surface on one side and the connection hole connected to the through-hole; a receiver which generates an electric signal that corresponds to input light incident into the cavity; and a WDM filter that delivers the output light and the input light. | 12-24-2015 |
20160119074 | OPTICAL TRANSCEIVER HAVING OPTICS WITH ROTATED OPTICAL PATH - An optical communications module includes first and second opto-electronic devices and an optics device, in which a common beam path axis is oriented in a rotated direction about the axis at which a fiber is coupleable to the optics device barrel. The optics device includes a TIR lens aligned with the barrel axis. The TIR lens reflects optical signals between the barrel axis and a common beam path axis oriented in a direction having X-axis and Y-axis components offset by non-zero amounts from the barrel axis. The common beam path axis intersects first and second reflective interfaces of the device. The first opto-electronic device is aligned along a first beam path axis that intersects the first reflective interface and the common beam path axis. The second opto-electronic device is aligned along a second beam path axis that intersects the second reflective interface and the common beam path. | 04-28-2016 |