Bit synchronization circuit and central terminal for PON systems
First Claim
1. A bit synchronization circuit for synchronizing, with an internal reference clock, burst data sets received in time series order, the circuit comprising:
- a multiphase data sampling unit for converting each of the received burst data sets to multiphase data trains having phases different from each other;
a phase determination unit for detecting, from among said multiphase data trains, an optimum phase data train having the highest phase margin over the reference clock and generating a control signal indicating the optimum phase data train;
an output data selector for selectively passing, of the multiphase data trains outputted from said data sampling portion, the optimum phase data train indicated by said control signal;
a data synchronization unit for converting the data train passed through said output data selector to a data train in synchronization with said reference clock and outputting the resulting data train;
wherein said phase determination unit repeatedly performs the operation of detecting said optimum phase data train during a period during which the same burst data set is received and, if an optimum phase varies, said output data selector dynamically switches the optimum phase data to be supplied to said data synchronization unit in response to the control signal outputted from said phase determination unit; and
means for generating a missing data supplying data train from the most-delayed-phase data train outputted from said multiphase data sampling unit and supplying, to said data synchronization unit, said missing data supplying data train in parallel relation with said optimum phase data train, wherein;
said phase determination unit has means for detecting a phase variation under a specified condition which disturbs continuity of the optimum phase data and generating a data train correction signal, andsaid data synchronization unit is provided with data transfer control means for selecting, in response to said data train correction signal, data to be transferred as the output data train from between said optimum phase data train and said missing data supplying data train.
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Abstract
A bit synchronization circuit composed of a multiphase data sampling unit for converting each received burst data sets to multiphase data trains, a phase determination unit for generating a control signal indicating an optimum phase data train, an output data selector for selectively passing optimum phase data train indicated by the control signal, and a data synchronization unit for converting the optimum phase data train to a data train in synchronization with a reference clock. The phase determination unit repeatedly detecting the optimum phase data train during the same burst data set is received. When optimum phase varies, the output data selector dynamically switches the optimum phase data train to be supplied to the data synchronization unit.
26 Citations
4 Claims
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1. A bit synchronization circuit for synchronizing, with an internal reference clock, burst data sets received in time series order, the circuit comprising:
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a multiphase data sampling unit for converting each of the received burst data sets to multiphase data trains having phases different from each other; a phase determination unit for detecting, from among said multiphase data trains, an optimum phase data train having the highest phase margin over the reference clock and generating a control signal indicating the optimum phase data train; an output data selector for selectively passing, of the multiphase data trains outputted from said data sampling portion, the optimum phase data train indicated by said control signal; a data synchronization unit for converting the data train passed through said output data selector to a data train in synchronization with said reference clock and outputting the resulting data train; wherein said phase determination unit repeatedly performs the operation of detecting said optimum phase data train during a period during which the same burst data set is received and, if an optimum phase varies, said output data selector dynamically switches the optimum phase data to be supplied to said data synchronization unit in response to the control signal outputted from said phase determination unit; and means for generating a missing data supplying data train from the most-delayed-phase data train outputted from said multiphase data sampling unit and supplying, to said data synchronization unit, said missing data supplying data train in parallel relation with said optimum phase data train, wherein; said phase determination unit has means for detecting a phase variation under a specified condition which disturbs continuity of the optimum phase data and generating a data train correction signal, and said data synchronization unit is provided with data transfer control means for selecting, in response to said data train correction signal, data to be transferred as the output data train from between said optimum phase data train and said missing data supplying data train. - View Dependent Claims (2, 3)
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4. A central terminal for an optical transmission system for communicating with a plurality of remote terminals, said central terminal having at least one subscriber line interface connected to an optical fiber for receiving burst data sets in time series order transmitted from the remote terminals in time division multiplex, said optical fiber accommodating the plurality of remote terminals via a plurality of tributary optical fibers branched from the optical fiber with an optical coupler,
said subscriber line interface including an optical/electric signal converter for converting an optical signal received from said optical fiber to an electric signal, and a bit synchronization circuit connected to said optical/electric signal converter for synchronizing, with an internal reference clock, burst data sets supplied in an electric signal outputted from said optical/electric signal converter in time series order, said bit synchronization circuit comprising: -
a multiphase data sampling unit for converting each of the received burst data sets to multiphase data trains having phases different from each other; a phase determination unit for detecting, from among said multiphase data trains, an optimum phase data train having the highest phase margin over the reference clock and generating a control signal indicating the optimum phase data train; an output data selector for selectively passing, of the multiphase data trains outputted from said data sampling portion, the optimum phase data train indicated by said control signal; and a data synchronization unit for converting the data train passed through said output data selector to a data train in synchronization with said reference clock and outputting the resulting data train, wherein; said phase determination unit repeatedly performs the operation of detecting said optimum phase data train during a period during which the same burst data set is received and, if an optimum phase varies, said output data selector dynamically switches the optimum phase data to be supplied to said data synchronization unit in response to the control signal outputted from said phase determination unit, said optical/electric signal converter has an automatic threshold control (ATC) function of setting a variable threshold for identifying the optical signal for each of received burst data sets, resetting said threshold to an offset value within a no-signal segment generated between the individual burst data sets, and awaiting the optical signal for the subsequent burst data set, said bit synchronization circuit has means for generating a mask signal for initiating a mask period in response to a threshold reset signal supplied from said optical/electric signal converter and terminating the mask period after the variable threshold for identifying the optical signal for the subsequent burst data set is determined, and said phase determination unit has first means for detecting the optimum phase data train in each cycle of said reference clock, and second means for cumulatively summing the number of times the optimum phase data train is detected by said first means for each of the different phases and generating, regarding the phase for which the cumulative sum reaches a reference value as the optimum phase, a control signal indicating said optimum phase data train, said second means clearing the number of detections for each of the different phases on every determination of the optimum phase, repeating the cumulative summation of the number of detections for each of the different phases, and maintaining, during the mask period indicated by said mask signal, a state in which the number of detections is cleared while halting the operation of cumulative summation of the number of detections.
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Specification