KR0176081B1 - Apparatus for absorbing the jiter of a video data and transmitting a video signal in distributive switching network of an optic cable television - Google Patents

Abstract

The present invention relates to an apparatus for transmitting a video signal by absorbing phase jitter of digital video data input through an optical transmission device of a distribution switch network that distributes and switches a subscriber's desired digital video signal in an optical cable TV system. A B3ZS decoding means (11) for converting the video signal inputted through the optical transmission device into an NRZ form by line coding with B3ZS, and extracting and outputting a clock synchronized with each video signal; Clock distributing means (12) for generating and outputting a reference clock using a synchronous clock used for the entire optical CATV system; The B3ZS decoding means 11 uses NRZ video data converted to NRZ, an extraction clock synchronized with each video data, and a reference clock inputted from the clock distribution means 12 to generate NRZ video data having different phase characteristics from each other. Phase alignment means (13) for phase-aligning and outputting the reference clock; Video signal transmission means (14) for receiving and outputting NRZ video data that is phase-aligned and output to one reference clock of the phase aligning means (13); And alarm processing means (15) for detecting the presence or absence of an input B3ZS video signal and outputting an error signal (FAULT) when an error occurs to absorb jitter of video data input to the distribution switch network through the optical transmission device. Therefore, there is an effect that can eliminate the loss of the digital video signal distributed to the subscriber.

Description

Jitter absorption and video signal transmission of video data in distribution switch network of optical cable TV system

1 is a block diagram of an optical CATV system to which the present invention is applied.

2 is a block diagram of a distributed switch network to which the present invention is applied.

3 is a block diagram of an embodiment of a jitter absorption and video signal transmission apparatus according to the present invention.

4 is a configuration diagram of an embodiment of a phase alignment unit according to the present invention.

* Explanation of symbols for main parts of the drawings

11: B3ZS decoder 12: clock divider

13 phase alignment unit 14 video signal transmission unit

15: alarm processing unit

The present invention relates to an apparatus for transmitting a video signal by absorbing phase jitter of digital video data input through an optical transmission device to a distribution switch network for distributing and switching a subscriber's desired digital video signal in an optical cable TV system. .

Conventionally, since distributed switching is performed without a device for absorbing phase jitter, there is a problem in that a loss of a signal due to this jitter cannot be eliminated because a plurality of input digital video signals are distributed to a desired subscriber.

In general, jitter is defined as a short-term change in which the digital signal is not in the ideal position in time, but changes in position during significant time, and in a synchronous optical transmission system, pointer processing for multiplexing and demultiplexing functions, and reading and writing to an elastic buffer. Or the like.

In the optical CATV system of the present invention, when 32 45 Mbps video data is transmitted from a central station to a distribution center having a distribution switch network, a phase difference exists between the 32 45 Mbps video signals because the transmission device includes multiple and demultiplexing. This phase difference causes video signal loss in an optical CATV system requiring clock synchronization.

Accordingly, the present invention has been made to solve the above-mentioned problems of the prior art, the apparatus for absorbing jitter of the video data input to the distribution switch network through the optical transmission device is located in the distribution switch input terminal and distributed to the subscriber An object of the present invention is to provide a jitter absorption and video signal transmission apparatus of video data which can eliminate the loss of a digital video signal.

The present invention for achieving the above object is, B3ZS decoding means for converting the video signal is line-coded to B3ZS input via the optical transmission device in the form of NRZ, extracting and outputting a clock synchronized with each video signal; Clock distribution means for generating and outputting a reference clock by using a synchronous clock used in the entire optical CATV system; Phase-aligned NRZ video data having different phase characteristics to one reference clock using video data converted into NRZ by the B3ZS decoding means, an extraction clock synchronized with each video data, and a reference clock input from the clock distribution means. Output phase alignment means; Video signal transmission means for receiving and outputting NRZ video data that is phase-aligned and output to one reference clock of the phase alignment means; And an alarm processing means for detecting the presence or absence of an input B3ZS video signal and outputting an error signal FAULT when an error occurs.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

1 shows an overall configuration diagram of an optical CATV system to which the present invention is applied.

The head end 1 digitally encodes the video signal and transmits it to the central station 2, which transmits the digital video signal to several distribution centers 3.

In addition, the distribution center 3 switches the channel requested by the subscriber to transmit only the channel requested by the subscriber to the subscriber 4.

Therefore, when 32 45 Mbps video data is transmitted from the central station 2 to the distribution center 3 with the distribution switch network, a phase difference exists between the 32 45 Mbps video signals as it passes through a transmission device including multiple and demultiplex. This phase difference causes video signal loss in an optical CATV system requiring clock synchronization.

Therefore, a device for absorbing jitter of video data input to the distribution switch network through the optical transmission device between the central station 2 and the distribution center 3 must be in the distribution center to prevent loss of the video signal.

2 is a block diagram of a distribution switch network located in the distribution center 3 to which the present invention is applied and performing a function of distributing 32 video signals to 1024 subscribers according to a subscriber's service request.

Looking at the configuration of the distribution switch network, a jitter absorption and video signal transmission device for supplying 8 space division switch circuit packs 30 having 32 × 128 switching capacity and 32 video signals to each space division switch circuit pack 30 ( 10) and a switch control device 20 for controlling the distribution switch network according to the service request of the subscriber.

Since the distribution switch network is composed of eight space division switch circuit packs 30, the total switching capacity is 32 × 1024, and the actual switching of the distribution switch is achieved by controlling 32 input highways and 1024 output highways.

2 shows that the jitter absorbing and video signal transmitting device 10 is located at the dispensing switch input stage to absorb jitter of the 32 video signals before switching, that is, before the 32 video signals are distributedly switched to 1024. .

3 is a block diagram of the jitter absorption and video signal transmission apparatus 10 according to an embodiment of the present invention. In FIG. 11, B3ZS decoding unit, 12 clock distribution unit, 13 phase alignment unit, and 14 video signal transmitter And 15 denote alarm processing units, respectively.

First, the B3ZS decoder 11 converts a video signal input through B3ZS into an NRZ form, and extracts a clock synchronized with each video signal.

The clock distributor 12 generates and outputs a reference clock using a synchronous clock used for the entire optical CATV system.

The phase aligner 13 converts the 32 video data converted into NRZ by the B3ZS decoder 11, the 32 extracted clocks synchronized with each video data, and the 44.736 MHz reference clock provided by the clock distributor 12. 32 NRZ video data having different phase characteristics from each other are phase-aligned and output on one reference clock.

The 32 NRZ video data which are phase-aligned and output on one reference clock are transmitted to be distributedly switched to the eight switch circuit packs 30 of FIG. 2 through the video signal transmitter 14.

The alarm processor 15 detects the presence or absence of 32 input B3ZS video signals and outputs an error signal FAULT when an error occurs.

4 is a configuration diagram of an embodiment of the phase alignment unit 13 according to the present invention.

The phase aligning unit 13 receives the NRZ video serial data inputted from the B3ZS decoding unit 11 and the extracted clock, converts them into parallel data, and outputs the parallel / parallel converter 100. The B3ZS decoding unit 11 Phase signal detection and control signal generator 101 for generating a control signal by detecting a phase signal and receiving a reference clock from the clock distribution unit 12. The clock distribution unit 12 receives the latch 102 and the output of the latch 102 to latch and output parallel data of the parallel converter 100 by the phase signal detection and control signal generator 101. And serial-to-serial converter 103, which are converted into serial data in synchronism with the reference clock and output to the video signal transmitter 14, respectively.

The serial / parallel converter 100 converts the input data input from the B3ZS decoder 11 into an extracted clock (input clock) of the B3ZS decoder 11 and converts the serial data into parallel data and outputs the result to the latch 102. do.

In other words, the NRZ video signal output from the B3ZS decoding unit 11 is converted into parallel data by a clock extracted in the process of B3ZS decoding and output.

The phase signal detection and control signal generator 101 receives the extracted clock (input clock) of the B3ZS decoder 11 and the reference clock of the clock divider 12, detects a phase signal, generates a control signal, and generates a latch ( Output to 102).

The latch 102 latches the video data parallelized by the extracted clock of the serial / parallel converter 100 into the control signal of the reference clock of the phase signal detection and control signal generator 101 to synchronize and synchronize the reference clock. It outputs to the serial converter 103.

The parallel / serial converter 103 converts the parallel latched video data inputted from the latch 102 into serial data as a reference clock of the clock distribution unit 12 and outputs the serial data to the video signal transmitter 14.

Due to the time margin of serial / parallel conversion of video data, phase jitter of 32 video signals is absorbed, and video data phase-aligned to a reference clock is output.

As described above, the jitter absorber of the B3ZS video signal input through the optical transmission system may be positioned at the distribution switch input to absorb jitter due to the phase difference of the 32 video signals.

The present invention is configured and operated in the optical CATV system 32 32 Mbps video signal is transmitted through a transmission device including multiple and demultiplex when 32 45 Mbps video data is transmitted from the central station to the distribution center with the distribution switch network There is a phase difference between them, and this phase difference causes video signal loss in an optical CATV system requiring clock synchronization. When the jitter absorber described in the present invention is used at a distribution switch input, a distribution switch is provided through an optical transmission device. Since the jitter of the video data input to the network can be absorbed, there is an effect of eliminating the loss of the digital video signal distributed to the subscriber.

Claims (2)

B3ZS decoding means (11) for converting video signals inputted through the optical transmission device into lines in NRZ form by B3ZS, and extracting and outputting a clock synchronized with each video signal; Clock distributing means (12) for generating and outputting a reference clock using a synchronous clock used for the entire optical CATV system; The B3ZS decoding means 11 uses NRZ video data converted to NRZ, an extraction clock synchronized with each video data, and a reference clock inputted from the clock distribution means 12 to generate NRZ video data having different phase characteristics from each other. Phase alignment means (13) for phase-aligning and outputting the reference clock; Video signal transmission means (14) for receiving and outputting NRZ video data that is phase-aligned and output to one reference clock of the phase aligning means (13); And alarm processing means (15) for detecting the presence or absence of an input B3ZS video signal and outputting an error signal (FAULT) when an error occurs. The apparatus of claim 1, wherein the phase aligning means (13) comprises: serial / parallel converting means for receiving the NRZ video serial data inputted from the B3ZS decoding means (11) and the extracted clock, converting them into parallel data, and outputting the parallel data; 100); Phase signal detection and control signal generation means for receiving a clock extracted from the B3ZS decoding means 11, receiving a reference clock from the clock distribution means 12, detecting a phase signal, and generating and outputting a control signal. 101; Latch means (102) for latching and outputting parallel data of the serial / parallel conversion means (100) by the control signal of the phase signal detection and control signal generation means (101); And parallel / serial conversion means 103 which receives the output of the latch means 102 and converts it into serial data in synchronization with the reference clock of the clock distribution means 12 and outputs it to the video signal transmission means 14. Jitter absorption and video signal transmission device, characterized in that provided.