Class / Patent application number | Description | Number of patent applications / Date published |
398137000 | Including feedback | 13 |
20080304834 | SYSTEM AND METHOD FOR REGISTRATION OF NETWORK UNITS - A system and method for registration of network units is disclosed. A system that incorporates teachings of the present disclosure may include, for example, an optical network unit (ONU) in a passive optical network (PON) that can have a controller element to receive a registration code, send the registration code and a serial number of the ONU to an optical line terminal (OLT) that configures the ONU for temporary connectivity with the PON, and upon an expiration of the registration code or a termination of the temporary connectivity, re-send the serial number to the OLT to re-configure the connectivity with the PON. Additional embodiments are disclosed. | 12-11-2008 |
20090016731 | Apparatus and method of signal detection in an optical transceiver - The present invention includes an optical transceiver having a fiber module with an optical data input and an electrical data output. The fiber module further includes a signal detect output that indicates the receipt of valid optical data. A physical layer device having a receive input is coupled to the electrical data output through a switch that is controlled by the signal detect output. The switch passes electrical data from the electrical data output of the fiber module to the receive input when the signal detect output indicates the receipt of valid optical data, and does not pass the electrical data when the signal detect output indicates invalid optical data. By using this configuration, the signal detects pins of the physical layer device are eliminated. In another embodiment, the switch is not utilized, and the electrical data output of the transceiver is ac-coupled to the differential receive input of the physical layer device. In this embodiment, the transceiver does not output electrical data when the optical data signal is invalid. Therefore, electrical data is identified at the receive input by the detection of a voltage variation on the differential receive input. | 01-15-2009 |
20090041468 | METHOD FOR RECOVERING DISTORTED OPTICAL SIGNAL BY EQUALIZING UNIT - A method for appropriately equalizing a distorted optical signal due to the dispersion of the optical fiber is disclosed. The equalizer unit in an optical transceiver firstly equalizes a test signal with clock period longer than an original clock period to determine a set of tap coefficients. Secondly, the equalizer unit sets thus obtained tap coefficients as the initial condition thereof, and lastly receives the original transmitting signal with distortions to equalize and to adjust the tap coefficients such that the original data contained in the transmitting signal may recover. | 02-12-2009 |
20090116847 | OPTICAL TRANSCEIVER WITH IN-BAND MANAGEMENT CHANNEL - A supervisory signal is superimposed onto a high-speed data stream so that the number of optical transceivers needed by an optical network is reduced. The supervisory signal is superimposed onto the high-speed data stream as an in-band modulation of the data stream. To improve signal-to-noise ratio of the in-band supervisory signal, the supervisory signal is first modulated to a higher frequency before it is superimposed onto the high-speed data stream. | 05-07-2009 |
20090279897 | TRANSMISSION METHOD, TRANSMITTER-RECEIVER, AND TRANSMITTING-RECEIVING SYSTEM - A transmitter-receiver having a means for automatically determining the status of transmission medium such as optical fiber, and a means for automatically setting and resetting the transmission rate and/or output power according to the status of the transmission medium, a transmission loss and gain measurement method, and a transmitting-receiving system. A transmitter-receiver comprises at least: an output power controller for controlling the output power of a transmitter; an input power measuring section for measuring the strength of input signals; and an information processor for deriving the loss or gain of a path to change the output power of the transmitter and/or the rate of data transmission according to the derived loss or gain of the path. A transmission loss and gain measurement method applied to a system comprising transmission media and a plurality of the transmitter-receivers connected via the transmission media, comprises the steps of: transmitting information on the output power of a first transmitter-receiver from the first transmitter-receiver to a second transmitter-receiver; measuring reception strength by the second transmitter-receiver when the second transmitter-receiver receives the output power information; reading the output power information by the second transmitter-receiver; and comparing the reception strength with the output power information to calculate a transmission loss or gain by the second transmitter-receiver. | 11-12-2009 |
20100054751 | QUAD-PORT OPTICAL MODULE WITH PASS-THROUGH AND ADD/DROP CONFIGURATION - Techniques are disclosed for providing bi-directional data services involving a plurality of wavelengths. The data services may be hybrid in nature, including both digital and analog data signals. The techniques may be implemented, for instance, in an optical module, and allow one or more wavelengths to pass-through while other wavelengths are terminated or otherwise diverted. In one example embodiment, the techniques are embodied in a quad-port optical module having two input/output (I/O) ports and pass-through capability for at least one of the wavelengths, add capability for at least one wavelength, and drop capability for at least one wavelength. The module may further include transmit and/or receive capability for one or more signal types. The module can be operatively coupled with a bidi device or other suitable transceiver, to provide modular transmit-receive capability for a desired signal type. | 03-04-2010 |
20100150567 | OPTICAL TRANSCEIVER - An optical transceiver performs an optical transmitting and receiving operation, and has a first memory and an external interface. The external interface receives information from a host device and writes the received information in the first memory. The external interface reads the information from the first memory in response to an external command and transfers externally the read information. The information includes at least one of an operation start date, when the optical transceiver starts the optical transmitting and receiving operation, and an operation termination dates when the optical transceiver terminates the optical transmitting and receiving operation. | 06-17-2010 |
20100150568 | OPTICAL TRANSCEIVER OPTIMIZING TRANSFER CHARACTERISTIC OF OPTICAL INTERFEROMETER AND METHOD OF OPTIMIZING TRANSFER CHARACTERISTIC OF OPTICAL INTERFEROMETER OF OPTICAL TRANSCEIVER - An optical transceiver for optimizing transfer characteristic of an optical interferometer and a method of optimizing transfer characteristic of an optical interferometer of an optical transceiver are provided. It is possible to improve the transmission performance of the optical transceiver by optimizing the transfer characteristic of the optical interferometer included in an optical receiver of the optical transceiver which transmits and receives an optical signal in a phase modulation scheme. | 06-17-2010 |
20110129229 | OPTICAL RECEIVER DEVICE - In a receiver suitable for an optical fiber link and comprising an optical receiver unit ( | 06-02-2011 |
20110188863 | OPTICAL TRANSCEIVER WITH POLARITY INVERSION - An optical transceiver that includes a modification that prevents interoperability with standard transceivers, while enabling them to work in the same slots and equipment as standard transceivers, provided that they are interoperating with a similarly modified transceiver on the other end of the optical link. Ideally, the polarity of the data in both the transmit and receive direction is inverted resulting in valid data for a link when a pair of modified modules are used and invalid data when a modified module is used with a standard fiber optic transceiver. The function is otherwise transparent to the host equipment. | 08-04-2011 |
20130287405 | DISTRIBUTED FEEDBACK LASER HAVING ENHANCED ETCH STOP FEATURES - In one example embodiment, a DFB laser includes a substrate; an active region positioned above the substrate; a grating layer positioned above the active region, the grating layer including a portion that serves as a primary etch stop layer; a secondary etch stop layer positioned above the grating layer; and a spacer layer interposed between the grating layer and the secondary etch stop layer. | 10-31-2013 |
20140212148 | LED LIGHT DONGLE COMMUNICATION SYSTEM - A Universal Serial Bus (USB) dongle may include an optical transceiver having a USB interface for engagement to an electronic device such as a laptop computer or other USB-configured device. The USB dongle may include a converter or buffering, isolation, modulation or amplification circuitry. The USB dongle sends and receives data signals which may be carried upon an optical transmission as generated by an LED light source which in turn is in communication with a host device such as a network processor. The USB dongle may also include operational amplifiers (op-amps) and transistor amplifiers. | 07-31-2014 |
20150365172 | Upstream Optical Transmission Assignment Based on Transmission Power - An apparatus comprises a receiver configured to receive first messages, a processor coupled to the receiver and configured to process the first messages, determine transmission powers associated with the first messages, and generate a transmission scheme based on the transmission powers, and a transmitter coupled to the processor and configured to transmit a second message comprising the transmission scheme. An apparatus comprises a transmitter configured to transmit a first message indicating a transmission power of the apparatus, a receiver configured to receive a second message, wherein the second message assigns to the apparatus a wavelength based on the transmission power, and a processor coupled to the transmitter and the receiver and configured to process the second message, and instruct the transmitter to transmit a third message at the wavelength. | 12-17-2015 |