| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 398020000 | Optical fiber | 50 |
| 20090016714 | SYSTEM AND METHOD FOR PERFORMING IN-SERVICE FIBER OPTIC NETWORK CERTIFICATION - A system and method for embedding or multiplexing an in-service optical time domain reflectometry (ISOTDR) or in-service insertion loss (ISIL) session. A preferred embodiment embeds the sessions using the same wavelength as the data traffic for point-to-point or point-to-multipoint optical fiber networks without interrupting or affecting the primary data transmission process. | 01-15-2009 |
| 20090097846 | RFID Systems and Methods for Optical Fiber Network Deployment and Maintenance - An optical-fiber-network (OFN) radio-frequency identification (RFID) system for deploying and/or maintaining and/or provisioning service and/or locating faults in an OFN. The system includes a plurality of OFN components, and at least one RFID tag that includes RFID tag data that has at least one property of the OFN component associated with the RFID tag. The RFID tag data is written to and read from the RFID tags using one or more mobile RFID readers either prior to, during or after deploying the OFN components. An OFN-component-data database unit is used to store and process the RFID tag data and is automatically updated by the one or more mobile RFID readers. This allows for different maps of the OFN to be made, such as an inventory map and a maintenance map, and for the maps to be automatically updated. The OFN-RFID system allows for mobile automated operations and management of OFN components by service personnel, and provides for faster and more accurate OFN system deployment and maintenance. | 04-16-2009 |
| 20090274455 | APPARATUS AND METHOD FOR PERFORMING LINE ANALYSIS OF CONTINUOUS DATA SIGNALS - An apparatus for performing an optical line analysis of continuous data signals. The apparatus comprise a phase position processor for computing a phase early/late indicator; a phase control code processor for computing a difference phase indicator; a frequency extractor for computing a low frequency jitter indicator; and a statistical calculator for computing a plurality of statistical measures regarding frequency and amplitude components of a jitter of an input continuous data signal, wherein the statistical measures are computed based on one of the phase early/late information indicator, the difference phase indicator, or the low frequency jitter indicator. | 11-05-2009 |
| 20090317074 | METHOD AND APPARATUS FOR CONFIRMING OPTICAL FIBERS CONNECTION IN OPTICAL CONNECTOR - Provided is a method for confirming optical fibers connection in a connection part in an optical connector, including: allowing light to pass through a first optical fiber and allowing cladding mode light to disappear; and detecting a difference in light intensity in the connection part between before and after the light from the first optical fiber enters a second optical fiber disposed in the optical connector. | 12-24-2009 |
| 20100067901 | Passive optical network system and fault determination method - In a passive optical network system, a parent station includes a reception circuit that receives an optical signal from each of child stations using a threshold used to identify if the optical signal is 0 or 1; a bandwidth setting unit that determines a time at which each child station sends an optical signal; a storage unit that stores thresholds and intensities of optical signals received from the child stations; and a control unit that sets a threshold, stored corresponding to a sending time, in,the reception circuit to control a reception of an optical signal. The control unit has a function that compares an intensity of a signal received from each child station at an optical signal reception time with information stored in the storage unit to detect and determine a fault in the child station or in the optical fiber connected to the child station. | 03-18-2010 |
| 20100080554 | Fiber Optic Cable Diagnostics Using Digital Modulation - Embodiments are directed to fiber optic cable diagnostics using digital modulation. A contact of a RFID (radio frequency identification) device located in a cable is connected with a contact of an optical transceiver. Data through the cable is using digital modulation and monitored to determine if the fiber optic cable and the optical transceiver are properly functioning. | 04-01-2010 |
| 20110081144 | OPTICAL ELEMENT MODULE, OPTICAL NODE,OPTICAL DISTRIBUTION SYSTEM, AND MANAGEMENT METHOD - An optical element module, an optical node, an optical distribution system, and a management method are disclosed. The optical element module includes: at least one passive optical element, at least one fiber adapter, a power interface, and a state detecting unit, where the passive optical element is configured to distribute and/or process an optical signal that can proceed even without power supply; the fiber adapter is configured to connect a fiber connector and provide a fiber port to couple a fiber; the power interface is connected to a power cable or a power bus and configured to feed power from the power cable or power bus to the state detecting unit; and the state detecting unit, if powered, is configured to respond to a connection state change of the fiber in the fiber adapter and output a state indication that indicates the state of the fiber port. | 04-07-2011 |
| 20110311220 | OPTICAL LINE MONITORING APPARATUS AND OPTICAL LINE MONITORING METHOD - An optical line monitoring apparatus, including: a group information recording portion which records group information about to which splitter respective terminators are connected; a normal information recording portion which records intensities of reflected lights from a plurality of terminators in a state in which a failure is not occurring in optical lines; a monitored information recording portion which records intensities of reflected lights from the plurality of terminators in failure monitoring time; an attenuation amount determination portion which determines a terminator the reflected light intensity of which is attenuated compared with the corresponding reflected light intensity in normal information; and a control portion which determines, if the intensities of the reflected lights of all the terminators connected to the same splitter are attenuated by the same value, that a failure has occurred between the test apparatus and the splitter to which all the terminators are connected. | 12-22-2011 |
| 20110317996 | SYSTEMS, DEVICES, AND METHODS FOR EVALUATING A LINK STATUS OF A FIBER-OPTIC COMMUNICATION SYSTEM - Exemplary systems, devices, and methods for evaluating a link status of a fiber-optic communication system are disclosed. An exemplary transceiver device includes a transmitter configured to transmit an optical signal having a first wavelength to an additional transceiver device by way of a single optical fiber, a receiver configured to receive an optical signal having a second wavelength from the additional transceiver device by way of the single optical fiber, and a link status facility communicatively coupled to the transmitter and the receiver and configured to provide one or more visual indications of a link status between the transceiver device and the additional transceiver device. Corresponding systems, devices, and methods are also disclosed. | 12-29-2011 |
| 20110317997 | METHOD OF ASSESSING FAILURE IN TRANSMISSION PATH OPTICAL FIBER, AND APPARATUS OF SAME - An apparatus for assessing a failure in a transmission path optical fiber includes: a detection unit which detects information on wavelength discontinuity of a signal wavelength and wavelength discontinuity of an SV wavelength of an own station; a transmission unit which periodically transmits the information detected by the detection unit to other stations; a collection unit which periodically receives and collects, in the own station, information on wavelength discontinuity and wavelength discontinuity of an SV wavelength detected by other stations; and an assessment unit which assesses a failure in a transmission path optical fiber based on the information detected by the detection unit and the information collected by the collection unit. | 12-29-2011 |
| 20120063766 | TRANSMISSION DEVICE, CONTROL DEVICE, AND METHOD OF DETECTING ERRONEOUS CONNECTION OF SIGNAL LINE - A transmission device includes a transponder including an oscillator configured to oscillate a local optical laser, a wavelength controller configured to control an oscillation wavelength of the local optical laser to receive desired input signal light, and a coherent receiver configured to combine and detect the local optical laser and input signal light. A controller is configured to control the oscillation wavelength using a wavelength of the input signal light detected by the coherent receiver, to determine an erroneous connection of a signal line related to the input signal light, when the wavelength of the input signal light is not an expected wavelength. | 03-15-2012 |
| 20120063767 | METHOD, APPARATUS AND SYSTEM FOR DETECTING CONNECTION STATUS OF OPTICAL FIBER JUMPER - A method, an apparatus and a system for detecting a connection status of an optical fiber jumper are provided in the embodiments of the present invention. The method for detecting a connection status of an optical fiber jumper includes: judging a connection status of a second port and a first port according to whether an optical signal sent by the first port to the second port through a first optical fiber is received, wherein the first optical fiber is connected to two ends of an optical fiber jumper, and the two ends of the optical fiber jumper are connected to the first port and the second port respectively; and obtaining a port identification corresponding to the first port according to the optical signal if the optical signal is received. | 03-15-2012 |
| 20120093499 | APPARATUS AND METHOD FOR PERFORMING LINE ANALYSIS OF CONTINUOUS DATA SIGNALS - A method for performing an optical line analysis of continuous data signals transmitted in a passive optical network (PON). The method comprises determining, from an optical signal of the optical line, at least one of a phase early/late indicator based on a phase position of an input continuous data signal relative to sampling clock signals, a difference phase indicator based on an input phase control code, and a low frequency jitter indicator based on an input phase control code; computing a plurality of statistical measures regarding frequency and amplitude components of a jitter of the input continuous data signal, wherein the statistical measures are computed based on one of the phase early/late information indicator, the difference phase indicator, and the low frequency jitter indicator; and analyzing the plurality of statistical measures to detect optical failures in the PON and determining a root cause of each of the detected failures. | 04-19-2012 |
| 20120106949 | Optical Transceiver Module, Optical Transmission Device, and Optical Transmission Method - An optical transceiver module adapted to a link device includes a connection unit, a driving unit and optical transmitting and receiving units. The connection unit, to be coupled with the link device, includes an indicating element for generating an indicating signal when the connection unit is coupled with the link device. The driving unit, coupled with the connection unit, receives the indicating signal and outputs a control signal according to the indicating signal. The optical transmitting unit, coupled with the driving unit, receives the control signal for driving the optical transmitting unit to output a first optical signal. The optical receiving unit, coupled with the driving unit, transmits a received second optical signal to the driving unit. An optical transmission device using the optical transceiver module, and an optical transmission method are also disclosed. A link training sequence can be initiated after the connection unit is actually coupled with the link device. Thus, a host cannot enter a disable mode due to error connection. | 05-03-2012 |
| 20120170927 | Circuits, Architectures, Apparatuses, Systems, and Methods for Merging of Management and Data Signals, and for Recovery of a Management Signal - An optical and/or optoelectrical transceiver and system are disclosed that enable parallel transmission of data and management signals via an optical fiber without affecting data signal transmissions transmitted on the optical fiber. Furthermore, the present transceiver and system provide a fault diagnosis function for an optical fiber link. The transceiver and system generally comprise an interface, an intersecting transmission management unit, a driver, a management signal driving unit, an optical transmitter, an optical receiver, an amplifier, a management signal recovery unit, a management unit, and optionally, a power supply unit. | 07-05-2012 |
| 20120224848 | OPTICAL FIBER TRANSMISSION SYSTEM AND POWER CONTROL METHOD OF THE SAME - An optical transmission system includes a first node and a second node, the first node includes a first optical amplifier which outputs a signal to the second node through a first transmission line and a first monitoring unit, the second node includes a monitor which monitors a signal from the first transmission line, a second optical amplifier which outputs a signal to the first node through a second transmission line and a second monitoring unit, upon detecting disconnection from the first transmission line, the second monitoring unit transmits a notification for making power of the first optical amplifier reduced, upon receipt of the notification, the first monitoring unit reduces power of the first optical amplifier, and transmits a completion notification to the second monitoring unit, and upon not receiving the completion notification even after expiration of an allowed time, the second monitoring unit reduces power of the second optical amplifier. | 09-06-2012 |
| 20120237203 | OPTICAL TRANSMISSION SYSTEM - There is provided an optical transmission system including: an optical transmitting apparatus including: a first processing circuit configured to process a transmission signal to be transmitted, a second processing circuit configured to process overhead data, the processed overhead data being multiplexed to the transmission signal, a retaining circuit configured to retain the overhead data, the retained overhead data being multiplexed to the transmission signal; and an insertion circuit configured to generate an identifier to be inserted into the retained overhead data; and an optical receiving apparatus including a detecting circuit configured to receive the transmission signal transmitted from the optical transmitting apparatus, and detect the identifier, wherein, when the overhead data is a predetermined state, the first processing circuit multiplexes the retained overhead data into which the identifier is inserted and the detecting circuit detects the identifier. | 09-20-2012 |
| 20130129344 | APPARATUS, SYSTEM AND METHOD FOR NETWORK MONITORING - Systems, methods, and devices are disclosed for monitoring optical communications between a managed location and a remote location. In particular, an optical signal is transmitted over an optical fiber and passed-through a test device. A portion of the optical signal is filtered from the original optical signal and passed to a monitoring unit. The monitoring unit may instruct one or more switches in the test device to loop the optical signal back toward the managed location. Subsequently, testing and monitoring may be performed at the managed location. The device may provide a test output or may transmit the information to the managed location. | 05-23-2013 |
| 20140029934 | DISTINGUISHING LIGHT IN SINGLE FIBER TRANSCEIVERS - An optical transceiver may include logic configured to incorporate a first identifier into a first optical signal and transmit the first optical signal on an optical link. The logic may be further configured to receive a second optical signal via the optical link; retrieve a second identifier from the received second optical signal; determine whether the first identifier matches the second identifier; and report that the optical link is associated with a faulty connection, when the first identifier matches the second identifier. | 01-30-2014 |
| 20140050473 | SAGNAC INTERFEROMETER EVENT SENSING AND LOCATING DEVICE - A Sagnac interferometer event sensing device is disclosed herein. The device includes a first light source operable to emit a first light beam. The device also includes a second light source operable to emit a second light beam. The device also includes an optical fiber path including a first portion along which only the first light beam travels, a second portion along which only the second light beam from the second light source travels, and a third portion along which both of the first and second light beams travel. The device also includes a first detector disposed at an end of the first portion of the optical fiber path to receive the first light beam. The device also includes a second detector disposed at an end of the second portion of the optical fiber path to receive the second light beam. The device also includes a first plurality of depolarizers disposed along the first portion of the optical fiber path. The device also includes a second plurality of depolarizers disposed along the second portion of the optical fiber path. The first and second light beams are at first and second, different characteristic wavelengths. | 02-20-2014 |
| 20140056582 | DETECTING AND COMMUNICATING POTENTIAL OPTICAL FIBER ISSUES IN OPTICAL NETWORKS - In general, techniques are described to detect potential issues with optical fibers. The techniques may be implemented using various optical network hardware. An example optical network unit (ONU) includes a network interface coupled to an optical fiber through which the ONU communicates with an optical line terminal (OLT). The ONU further includes a control unit that determines at least a first signal strength and a second signal strength of a signal received via the optical fiber, determines a rate of signal strength degradation based on the first signal strength and the second signal strength, compares the rate of signal strength degradation to a rate threshold so as to determine a potential issue with the optical fiber, and based on the comparison, causes the network interface to send a message to the OLT indicating a potential issue with the optical fiber to which the ONU connects to communicate with the OLT. | 02-27-2014 |
| 20140147109 | PON SUPERVISION USING OTDR MEASUREMENTS - A Wavelength Adaptation Module and a method therein for adapting an Optical Time Domain Reflectometry, OTDR, signal for supervision of Optical Network Terminals, ONTs, in a Passive Optical Network, PON, are provided. The wavelength of the OTDR signal is adapted to have a pre-selected wavelength to enable a splitter in a remote node to forward the OTDR signal to a dedicated group of ONTs in the PON, thereby supervising the fibre links between the remote node and the dedicated group of ONTs. Likewise, a remote node and a method therein for receiving an OTDR signal having a pre-selected wavelength from the Wavelength Adaptation Module and for outputting the OTDR signal to a dedicated group of ONTs with regards to the pre-selected wavelength of the received OTDR signal are provided. | 05-29-2014 |
| 20140161441 | SYSTEM FOR THE CERTIFICATION OF A PASSIVE OPTICAL NETWORK AND FOR THE DETECTION OF PROBLEMS AND FAULTS IN THE LAST FIBRE LEGS - The invention relates to a system for the certification of a passive optical network and for the detection of problems and faults in the last fibre legs, which is suitable for use in passive optical networks which, between the OLT device housed in a telephone central office and the user device of ONT, includes optical dividers or splitters which, in the downward direction, distribute the optical signal to all of the users within a tree-and-branch architecture, and in the upward direction, combine the optical signals from all of the ONTs. The system is based on the incorporation of a group of devices known as an OLT emulator and a remote testing unit which are joined to the corresponding wall socket of the telephone central office and user, such that the remote testing unit is positioned facing an OLT in operation, allowing the certification of the last leg of the optical network and the detection of problems and faults in a PON network in operation. | 06-12-2014 |
| 20140314403 | COMMUNICATION LIGHT DETECTING STRUCTURE, COMMUNICATION LIGHT DETECTING OPTICAL CONNECTOR INCLUDING THE COMMUNICATION LIGHT DETECTING STRUCTURE, AND COMMUNICATION LIGHT DETECTING OPTICAL CABLE INCLUDING THE COMMUNICATION LIGHT DETECTING STRUCTURE - A communication light detecting structure includes a communication optical fiber configured to transmit communication light; a leakage optical fiber optically connected to the middle of the communication optical fiber via optical connection portions, the leakage optical fiber being different in core refractive index from the communication optical fiber; and a light detecting unit configured to detect part of the communication light leaking from the optical connection portions as leakage light. A communication light detecting optical connector includes the communication light detecting structure. A communication light detecting optical cable includes the communication light detecting structure. The communication optical fiber and the leakage optical fiber may have the same core diameter. The communication optical fiber and the leakage optical fiber may have the same cladding refractive index. | 10-23-2014 |
| 20150117853 | METHOD AND APPARATUS FOR CALCULATING NONLINEAR TRANSMISSION IMPAIRMENT OF OPTICAL FIBER LINK - The present invention relates to the field of network communications and discloses a method for calculating a nonlinear transmission impairment, including: determining that no pump channel exists in an optical fiber link, obtaining a factor of intra-band nonlinear noise that does not pass through an optical filter, and obtaining integral power in signal light bandwidth of a span; correcting the factor of intra-band nonlinear noise that does not pass through an optical filter, to obtain a factor of intra-band nonlinear noise of the span that passes through an optical filter; calculating nonlinear noise of the span; and obtaining total nonlinear noise of the optical fiber link according to the nonlinear noise of the span, and obtaining a nonlinear transmission impairment of the optical fiber link. Embodiments of the present invention further provide an apparatus for calculating a nonlinear transmission impairment of an optical fiber link. | 04-30-2015 |
| 20160127036 | INDEPENDENT FIBER-OPTIC REFERENCE APPARATUSES AND METHODS THEREOF - A reference management apparatus includes a reference signal housing, a fixed length propagation device, an oscillator device, and a reference management computing device. The reference signal housing having a propagation signal output and a propagation signal input. The fixed length propagation device is coupled between the propagation signal output and the propagation signal input. The reference signal management computing device is coupled to the oscillator device and the propagation signal input. The reference signal management computing device also comprises at least one of configurable hardware logic configured to implement or a memory coupled to the processor which is configured to be capable of executing programmed instructions comprising and stored in the memory to: detect a start and an end of a transmission of at least one pulse signal through the fixed length propagation device; measure propagation time of the at least one pulse signal through the fixed length propagation device; and utilize the measured propagation time for managing a reference signal. | 05-05-2016 |
| 20160164598 | Apparatus and Method for Inline Monitoring of Transmission Signals - An apparatus for inline monitoring of transmit signals is disclosed. The apparatus includes a processor, and one or more fiber optic lines for supplying a transmit signal to/from a remote transmission station. The processor is configured to receive input for selecting one or more fiber optic lines for examination, determine at least one property of the transmit signal to be monitored, and retrieve information corresponding to the at least one property for a predetermined period of time. The processor is further configured to output a visual representation of the retrieved information, perform an analysis of the retrieved information and the visual representation, and facilitate identification of at least one status associated with the transmit signal based, at least in part, on the analysis. | 06-09-2016 |
| 20160254860 | TRANSMTTING COMMUNICATIONS TRAFFIC ACROSS AN OPTICAL COMMUNICATION NETWORK | 09-01-2016 |
| 20160380695 | OPTICAL TEST DEVICE AND SYSTEMS - Systems, methods, and devices are disclosed for monitoring optical communications between a managed location and a remote location. In particular, an optical signal is transmitted over an optical fiber and passed-through a test device. A portion of the optical signal is filtered from the original optical signal and passed to a monitoring unit. The monitoring unit may instruct one or more switches in the test device to loop the optical signal back toward the managed location. Subsequently, testing and monitoring may be performed at the managed location. The device may provide a test output or may transmit the information to the managed location. | 12-29-2016 |
| 398021000 | Determined by reflection from break in fiber | 21 |
| 20080260379 | Transceiver optical subassembly - The subassembly includes a laser for emitting signals towards fibers to be monitored, a passive alignment carrier, a first photodetector for monitoring reflected laser signals from the fibers, a second photodetector for monitoring laser output power, and an optical fiber. The laser is disposed within the passive alignment carrier. The optical fiber is embedded in the passive alignment carrier, and has an angled fiber facet. The laser emits signals toward and through the angled fiber facet, whereby a portion of the laser signal illuminates the second photodetector, and another portion illuminates the fibers that are being monitored and reflects back to the first photodetector such that faults on the fibers can be detected. | 10-23-2008 |
| 20090257743 | Monitoring of optical transmission systems based on cross-correlation operation - In optical communication systems, an optical signal which is modulated with a data signal is transmitted from an optical transmitter, and is launched into a fiber-optic transmission link. The present invention provides a method and an apparatus for the measurement of the distribution of the reflectivity along an optical transmission line implemented by using the signal processing based on the cross-correlation function between the data signal with which the optical transmitter is modulated and the back-reflected signal returned to the optical transmitter to provide the in-service monitoring of the fiber-optic transmission link. | 10-15-2009 |
| 20110013905 | ACTIVE OPTICAL CABLE APPARATUS AND METHOD FOR DETECTING OPTICAL FIBER BREAKAGE - Embodiments of the invention include an active optical cable and method for controlling the operation of the active optical cable based on the detection of signal loss, e.g., due to fiber breakage, within the active optical cable. The active optical cable includes first and second optical transceivers, each with an open fiber control module coupled between the transmission side and the receiver side of the respective optical transceiver. The transmission side of each optical transceiver is coupled to the receiver side of the other optical transceiver via a plurality of transmission channels, such as a plurality of optical fibers. Each open fiber control module is configured to detect an optical power level of an optical signal received by the receiver side of the optical transceiver within which the open fiber control module resides and, based on such detection, control the operation of the corresponding transmission side of the optical transceiver. | 01-20-2011 |
| 20110116791 | INSTANTANEOUS INTERRUPTION MONITORING SYSTEM AND INSTANTANEOUS INTERRUPTION MONITORING PROGRAM - Provided are an instantaneous interruption monitoring system and an instantaneous interruption monitoring program for a computer incorporating a non-real time operating system (OS). Measurement results acquired from optical time domain reflectometers (OTDR) can be continuously stored and the occurrence of an instantaneous interruption can be reported in real time. The system includes an instantaneous interruption monitoring program that determines the occurrence of an instantaneous interruption on a communication line, records instantaneous interruption information, and reports the occurrence of an instantaneous interruption. | 05-19-2011 |
| 20130202290 | Optical Line Terminal (OLT) And Method Therefore For Performing In-Band And Out-Band OTDR Measurements - An OLT operable in a PON and structured to perform OTDR measurements. The OLT comprises an electrical module for generating continuous downstream signals and processing received upstream burst signals according to a communication protocol of the PON; an optical module for transmitting continuous optical signals over a first wavelength, receiving optical upstream burst signals over a second wavelength, and transmitting optical upstream burst signals over a third wavelength, wherein the optical module further includes an ONU traffic processing module being electrically coupled to the optical module and the electrical module, wherein the ONU traffic processing module is configured to emulate one of a plurality of ONUs of the PON, to generate an analysis pattern to be transmitted as an optical upstream burst signal over a third wavelength, and analyze an analysis pattern received in an optical upstream burst signal for the purpose of performing the OTDR measurements. | 08-08-2013 |
| 20130272694 | OPTICAL COMMUNICATION DEVICES HAVING OPTICAL TIME DOMAIN REFLECTOMETERS - A small form factor pluggable (SFP) device has an embedded optical time domain reflectometer (OTDR) for detecting anomalies along an optical fiber. The SFP device has a plurality of optical subassemblies (OSAs) that are used to transmit an optical data signal at a first wavelength, transmit an optical OTDR signal at a second wavelength, and receive an optical data signal at a third wavelength. The OTDR signal is effectively isolated from the data signals based on wavelength, and samples of returns of the OTDR signal are analyzed to detect at least one anomaly along the optical fiber. | 10-17-2013 |
| 20140003806 | Supervision of Wavelength Division Multiplexed Optical Networks | 01-02-2014 |
| 20140037285 | MULTIPLE-ACQUISITION OTDR METHOD AND DEVICE - An OTDR device and method for characterizing one or more events in an optical fiber link are provided. A plurality of light acquisitions is performed. For each light acquisition, test light pulses are propagated in the optical fiber link and the corresponding return light signals from the optical fiber link are detected. The light acquisitions are performed under different acquisition conditions, for example using different pulsewidths or wavelengths. Parameters characterizing the event are derived using the detected return signal from at least two of the plurality of light acquisitions. | 02-06-2014 |
| 20140119724 | Active Network Monitoring System and Method Thereof - An active network monitoring system for detecting an abnormality at a position between a communication office and a client includes a first monitoring module disposed on the communication office, a second monitoring module disposed on the client and an optical splitter. The first monitoring module has a first processor and a first laser diode. The second monitoring module has a second processor and a second laser diode. The first processor sends a digital signal to the first laser diode. The first laser diode modulates the digital signal into an optical signal and sends the optical signal to the second monitoring module via the optical splitter. The second laser diode converts the optical signal back to the digital signal, and sends the digital signal to the second processor to generate an identification signal of the client. The identification signal is transmitted to the communication office via the second laser diode. | 05-01-2014 |
| 20140133847 | DEVICE, REMOTE NODE AND METHODS FOR PON SUPERVISION - A wavelength shifter module and a method therein for tuning an OTDR signal to at least one pre-selected wavelength in a passive optical network (PON). The wavelength of the OTDR signal is shifted to a pre-selected wavelength to enable a remote node in the optical distribution network ODN of the PON to forward the OTDR signal to a specific drop section in the ODN. The invention also includes a remote node and a method in a remote node for receiving a wavelength shifted OTDR signal having a preselected wavelength and outputting the wavelength shifted OTDR signal to a specific drop section. Furthermore, the invention involves a method for determining the location of a fault section in a drop section. | 05-15-2014 |
| 20140140691 | FIBER OPTIC NETWORK INTERROGATION TOOL FOR COMBINED SWEPT-HETERODYNE OPTICAL SPECTRUM ANALYSIS AND OPTICAL FREQUENCY-DOMAIN REFLECTOMETRY - A multi-function optical tool may be used for example for built-in fault detection and transceiver source characterization in local optical communication networks. A single device provides swept-heterodyne optical spectrum analysis (SHOSA) and optical frequency-domain reflectometry (OFDR) in an efficient, low-cost package by utilizing a common interrogation laser source, common optical components, and common, low-bandwidth acquisition hardware. The technology provides significant cost, space, and labor savings for network maintainers and technicians. | 05-22-2014 |
| 20140205279 | DEVICE FOR MONITORING OPTICAL LINK FAULT AND METHOD THEREOF - There are provided a device for monitoring an optical link fault and a method thereof. According to an embodiment of the invention, the device for monitoring an optical link fault and the method thereof apply an optical link fault monitoring signal to an optical link and precisely identify a type of the fault using waveforms of a reflected signal returned from the optical link or a wavelength dependence of reflected signal intensity. | 07-24-2014 |
| 20140255023 | DISTRIBUTED OPTICAL FIBER SOUND WAVE DETECTION DEVICE - A distributed optical fiber sound wave detection device is provided with an optical pulse emission unit that causes an optical pulse to be incident into the optical fiber, and a Rayleigh scattered light reception unit that receives Rayleigh scattered light produced inside the optical fiber. The optical pulse emission unit outputs the optical pulse that is modulated using a code sequence which has a predetermined length and by which the optical pulse is divided into a plurality of cells. The Rayleigh scattered light reception unit includes a phase variation derivation unit that performs demodulation corresponding to the modulation in the optical pulse emission unit on the Rayleigh scattered light and determines a phase variation thereof from the demodulated Rayleigh scattered light, and a sound wave detection unit that determines a sound wave that has struck the optical fiber from the phase variation determined by the phase variation derivation unit. | 09-11-2014 |
| 20150023658 | SYSTEM, A WAVELENGTH ISOLATOR AND METHODS THEREIN FOR SUPERVISION OF A PASSIVE OPTICAL NETWORK - A system for supervision of a passive optical network includes an OTDR device, generating N+1 OTDR signals of wavelengths λ | 01-22-2015 |
| 20150381270 | METHOD AND DEVICE FOR CONFIGURING OTDR TEST PARAMETER SET - Provided are a method and device for configuring an OTDR test parameter set. The above-mentioned method comprises: an FMS acquiring related information about an ODN according to a test result fed back by an OTDR; and the FMS configuring a test parameter set required for one or more subsequent OTDR tests according to the related information. According to the technical solution provided in the disclosure, the test parameter set required for initiating an OTDR test can be accurately acquired. | 12-31-2015 |
| 20150381271 | Optical Transceiving Device and Method - Provided are an optical transceiving device and method. This device includes: an OTDR transmitter, an OTDR receiver, an input optical interface, an output optical interface, a housing, a splitter, and a sideband filter, and by means of a technical scheme of the present disclosure, this device has a function of sending and receiving OTDR detection optical signals, supports a function of wave multiplexing/de-multiplexing of detection optical signals and service optical signals, guarantees that transmission of the service optical signals and the detection optical signals on a main optical path do not influence each other, and may be taken as an important part of an optical module and be integrated into an optical transmission system device, enables an OTDR detection function to be set inside a system, and reduces an operation and maintenance cost of optical fibre failure detection. | 12-31-2015 |
| 20160020851 | INTELLIGENT TRACES AND CONNECTIONS IN ELECTRONIC SYSTEMS - All electronic systems, viewed from a macro-environment perspective, to a network perspective, to devices dependent upon circuit boards and the internal workings of chips, are critically dependent upon simple point to point connections in order to function properly. Connections are represented by cords, ribbons, traces and cat whiskers, to name a few. With this invention, intelligent but independent electronics are added to the connection to uniquely identify the instance of the connection, allowing the electronic system in question to self map down to the least common denominator, the actual connecting means. Using this technique, a system can report its complete topologic map which may then be stored and retrieved or accessed in real time for purpose of repair and reconstruction and most importantly, as a security enhancement. | 01-21-2016 |
| 20160036523 | METHOD, APPARATUS AND SYSTEM FOR DETECTING OPTICAL NETWORKCORSS REFERENCE - Embodiments of the present invention disclose a method, an apparatus, and a system for detecting an optical network. The method comprises: receiving, by a management device, a reflection peak power reported by a testing device, where the reflection peak power is a reflection peak power of an optical splitter that is obtained by the testing device according to a reflected optical signal, the reflected optical signal is an optical signal obtained by reflecting, by the optical splitter, a testing optical signal that is sent by the testing device and is transmitted to the optical splitter through an optical cable, and the optical splitter reflects the testing optical signal by using a reflective film disposed on an end surface of one optical output port. a detector does not need to carry a testing device to a site, to perform detection, efficiency of detecting performance of an optical network is improved. | 02-04-2016 |
| 20160043798 | OTDR FAULT TRACING IN OPTICAL NETWORKS - A first optical time domain reflectometer (OTDR) connects at a first location along an optical path between multiple optical transmitters and multiple optical receivers in an optical network. An optical filter, connects along the optical path, and includes multiple selectable optical wavelength blockers. A set of different length optical fibers is installed in multiple last fiber legs in the optical path. A controller selects ones of the multiple selectable wavelength blockers of the optical filter for insertion in the optical path; instructs the first OTDR to inject a first OTDR signal at the first location; receive, from the first OTDR, indications of whether a reflection of the first OTDR signal was received from each of the multiple optical receivers; and identifies faults in the optical network based on the received indications whether the reflection of the first OTDR signal was received from each of the multiple OTDR reflectors. | 02-11-2016 |
| 20160112119 | NETWORK UNIT AND METHOD FOR MONITORING A FIBER LINE - Embodiments herein relate to a method in a network unit for monitoring a fiber line between a radio base station and a radio head in a Fiber to the Radio Head communications network. The Fiber to the Radio Head communications network comprises a ring architecture or a tree architecture of fiber, with Subcarrier Multiplexing, SCM, downstream transmissions and Wavelength Division Multiplexing, WDM, upstream transmissions. The monitoring comprises that the network unit detects an indication of a fault along the fiber line based on monitoring power. The network unit initiates, in response to detect the indication, an Optical x Domain Reflectometry, OxDR, measurement over the fiber line. Additionally, the network unit analyses a trace from the OxDR measurement for localizing the fault or for deciding that the indicated fault is not a fault along the fiber line. | 04-21-2016 |
| 20160173194 | Fiber Link Recognition Method, Device, and System | 06-16-2016 |
