Class / Patent application number | Description | Number of patent applications / Date published |
370507000 | Mutual (reciprocal) synchronization | 10 |
20120155497 | APPARATUS AND METHOD FOR ESTIMATING TIME STAMP - An apparatus includes a difference extraction unit to extract a difference between a second time stamp value, which is obtained by adjusting a first time stamp value that is measured at a time of arrival of a synchronization message transmitted by the master at a Layer 3 to be synchronized in frequency with a clock of the master, and a third time stamp value, which is measured at a time of departure of the synchronization message from the master; a minimum filter to select a minimum from one or more difference values extracted by the difference extraction unit; and a delay variation calculation unit to estimate a time of arrival of a current synchronization message at the Layer 3 based on the selected minimum and calculate a delay variation. | 06-21-2012 |
20140098827 | Externally Connected Time Port Changeover Method and Device - Disclosed are externally connected time port changeover method and device. The method includes: a node serving as a GM node transmitting time information via a first externally connected time port of the node; if the first externally connected time port fails, the node updating current node priority and GM node priority of the node as preset node priority which is node priority configured for the node when the node is activated; and the node judging whether a second externally connected time port of the node is up and the priority of the second externally connected time port is higher than the current GM node priority, if so, activating the second externally connected time port to transmit the time information. The problem that when the currently selected time access port has failed, changeover among ports cannot be completed in time is solved, thus improving the stability of the time synchronization network. | 04-10-2014 |
20140198810 | METHODS AND APPARATUS FOR ALIGNING CLOCK SIGNALS ON AN INTEGRATED CIRCUIT - A method of aligning clock signals in multiple transceiver channels on an integrated circuit may include adjusting a slave clock signal at a slave transceiver channel based on a master clock signal received from a master transceiver channel. A clock generation circuit and/or a delay circuit in the slave transceiver channel may be used to adjust the slave clock signal to produce an intermediate slave clock signal. The master clock signal may be adjusted based on the intermediate slave clock signal received at the master transceiver channel to obtain a total adjustment value. The phase of the intermediate slave clock signal may further be adjusted at the slave transceiver channel based on the total adjustment made at the master transceiver channel. | 07-17-2014 |
20140362872 | METHOD AND DEVICE FOR RESIDENT TIME CALCULATION AND SYNCHRONIZATION - The embodiments herein relate to a method in a communications network comprising a communications link connecting a first device to a second device. The communications link comprises an upper layer having a variable delay and a lower layer having a constant delay. The first device comprises a first clock and the second device comprises a second clock. The communications network synchronizes the first clock via the lower layer of the communications link with the second clock. The communications network determines, at the second device, a residence time for a first message when transmitted from the first device to the second device via the upper layer of the communications link. | 12-11-2014 |
20150124842 | Lossless Time Based Data Acquisition and Control in a Distributed System - Systems and methods for mapping an iterative time-based data acquisition (DAQ) operation to an isochronous data transfer channel of a network. A time-sensitive buffer (TSB) associated with the isochronous data transfer channel of the network may be configured. A data rate clock may and a local buffer may be configured. A functional unit may be configured to initiate continuous performance of the iterative time-based DAQ operation, transfer data to the local buffer, initiate transfer of the data between the local buffer and the TSB at a configured start time, and repeat the transferring and initiating transfer in an iterative manner, thereby transferring data between the local buffer and the TSB. The TSB may be configured to communicate data over the isochronous data transfer channel of the network, thereby mapping the iterative time-based DAQ operation to the isochronous data transfer channel of the network. | 05-07-2015 |
20160087737 | A NETWORK RECEIVER FOR A NETWORK USING DISTRIBUTED CLOCK SYNCHRONIZATION AND A METHOD OF SAMPLING A SIGNAL RECEIVED FROM THE NETWORK - A network receiver receives from a network an input signal which is sampled by a data sampler of the network receiver at sampling moments. Sampling moments have a relative position in time within a period of time of a single bit. The network receiver further includes a clock bit comparator and a sampling moment adaptor. The clock bit comparator compares lengths of a first time period lapsed while receiving at least five consecutive bits of the signal and of an internal clock time interval representing the same number of bits as a number of bits of the first time period. The sampling moment adaptor adapts the relative position of the sampling moment in dependence of a result of the comparison of the lengths to reduce a difference between the lengths. | 03-24-2016 |
370508000 | Transmission time into time slots adjusted based upon propagation delay time | 4 |
20090010283 | Synchronization method of electronic apparatuses - A synchronization method is cooperated with a master apparatus and a plurality of slave apparatuses. The synchronization method includes at least a transmitting process, at least a responding process, at least a receiving process, a calculating process and a time-adjusting process. The transmitting process is for transmitting a synchronization message to at least one of the slave apparatuses through a network and recording a transmitting time by the master apparatus. The responding process is for transmitting a responding message to the master apparatus through the network and record a responding time after the slave apparatus receives the synchronization message. The receiving process is for receiving the responding message and recording a receiving time by the master apparatus. The calculating process is for calculating a time-adjusted amount by the master apparatus according to at least one set of the transmitting time, the responding time and the receiving time derived from the transmitting process, the responding process and the receiving process. The time-adjusting process is for transmitting the time-adjusted amount to the slave apparatus by the master apparatus and adjusting the time clock according to the time-adjusted amount by the slave apparatus. | 01-08-2009 |
20130272322 | PRECISION TIMING USING A MODIFIED SYNCHRONIZATION OPERATION - A master node is configured to receive, from a slave node, a request to perform a modified two-step synchronization (sync) operation in a manner that precludes transmitting a follow-up packet; generate a sync packet in a manner that includes information associated with a previous time that a prior sync packet was transmitted to the slave node; transmit the sync packet to the slave node; receive, from the slave node, a delay request packet; transmit, to the slave node, a delay response packet, where the delay response packet stores information associated with another time at which the delay request packet was received, and where transmitting the delay response packet enables the slave node to calibrate a clock, hosted by the slave node, to a master clock, hosted by the master node, based on the previous time and the other time. | 10-17-2013 |
20140241381 | TIME CONTROL DEVICE, TIME CONTROL METHOD, AND PROGRAM - The present disclosure relates to a time control device, a time control method, and a program that can synchronize time information with a master device in a network with high precision. | 08-28-2014 |
20140348186 | TIME SYNCHRONIZATION SYSTEM, MANAGEMENT NODE, AND TIME SYNCHRONIZATION METHOD - A time synchronization system comprises a time master, a time slave, and a management node which are coupled to one another via a plurality of networks. The time master transmits to the time slave a time packet at a given timing through at least one of the plurality of networks. The time slave has a time correcting part for receiving the time packet transmitted from the time master and for correcting time based on the received time packet. The management node has: a network switching determining part for determining whether to switch the network for transmitting a time packet to another of the plurality of networks; and a network switching notifying part for notifying, in a case where it is determined that the network for transmitting the time packet is to be switched, information for identifying the switched-to network to the time slave. | 11-27-2014 |