KR970704301A - Synchronization of Packetized Digital Data Streams to Output Processors in Television Signal Processing Systems - Google Patents

Abstract

In a system for processing digital data streams divided into packet units representing MPEG coded image information, the encoder executes a transport encoder 20 for forming a data packet and various signal processing functions such as error correction processing and modulation, for example. And an output processor 40,48. Request / acquire data packets from transport encoders for processing during the acquisition interval. The system also includes a device 25, 30 that ensures that the reference (sync) bytes of the initial data packet are automatically aligned with the beginning of the acquisition interval, even when any system reset occurs. In the described embodiment, the alignment of the first data packet following a system reset is a common occurrence of the Start Of Packet (SOP) flag that occurs concurrently with the logical networks 32, 36, 38 that control data passing in response to the reference bytes and flags. It is facilitated by the work.

Description

Synchronization of Packetized Digital Data Streams to Output Processors in Television Signal Processing Systems

Since this is an open matter, no full text was included.

1 is a block diagram showing a portion of a video signal processor and encoder comprising an apparatus according to the invention.

2 is a timing diagram for signals related to the operation of the system shown in FIG.

3 shows a detail of a part of the apparatus of FIG. 1;

4 shows another embodiment of the device shown in FIG.

5 is a timing diagram for signals associated with the apparatus of FIG.

Claims (16)

A system for processing a packetized digital data stream containing video information, the system comprising: transport processing means (20, 25) responsive to input data (10) for generating a data packet; Means 400 for processing said data packet generated by said processing means obtaining said data packet during an acquisition interval and processing said data packet during said processing interval between said acquisition intervals and sending said data packet to said processing means. Means for forwarding (25, 30, 32, 34), said transport processing means and said means for processing said data packet, said data packets being initiated with the start of respective acquisition intervals under normal operating conditions of said system. Facilitating automatic alignment of reference data components (synchronous bytes) and normal data from the transport processing means For the interruption of the stream is lost, an abnormal condition processing system characterized in that it comprises synchronization means (32,36,38,312,314,318) responsive to the state of the data stream from the processing means the transport to facilitate the automatic alignment. 2. The processing system of claim 1, further comprising means for generating a signal (fullness flag) indicating a memory occupancy state of the transport processing means, wherein the synchronization means is responsive to the occupancy state signal. 3. The processing system according to claim 2, wherein said transport processing means is reset in response to said abnormal condition. 2. A processing system according to claim 1, comprising means for providing a signal SPO indicative of a packet boundary and means (36, 38, 318) for adjusting the operation of the synchronization means as a function of the boundary indication signal. . 2. The processing system of claim 1, wherein the data packet refers to MPEG coded information, and wherein the reference data component is a synchronous component prefacing the data packet. The processing system according to claim 1, wherein the acquisition interval actually represents a fixed period, and the processing interval represents a variable period. The processing system according to claim 1, wherein said processing means includes means for performing an error correction processing and a modulation function. 2. The processing system of claim 1, further comprising means for generating a flag (SOP) that occurs simultaneously with the reference data component at the start of a data packet. 9. The control means (32, 34) according to claim 8, wherein said synchronizing means responds to said data packet and said flag (SOP) to reset said synchronizing means to indicate the passage of data to said processing means during said processing interval. , 36, 38). 10. The apparatus of claim 9, further comprising: means for providing a periodic window signal comprising an enable interval associated with said acquisition interval and interposing in a disable interval associated with said processing interval; Means (42) for providing a timing signal (start, stop) coincident with the start of an enable interval and the end of the enable interval, respectively, and the control of the window signal to control acquisition of data to be processed by the processor. Means 44 for providing an acquisition signal corresponding to said acquisition interval of said processing means, having a periodic acquisition interval related to an enable interval, and a data enable interval (transport enable) to said control means, Providing an enable signal normally interposed in an interval associated with the enable and disable intervals of the window signal, respectively; Stage further comprises a (38) and the enable signal processing system, characterized in that indicating the first and the second state associated with the passage and the prohibition of the data in response to the flag. 2. The apparatus of claim 1, wherein the reference data component is a synchronous component, the transport means generates an alignment flag that occurs simultaneously with each one of each of the synchronous components in addition to the data packet, and the forwarding means is adapted to the alignment. Responsively removed to prevent the passage of data to the processing means. 12. The apparatus of claim 11, wherein the synchronization means comprises storage means (32, 34) which are restrained (enable inputs by 36, 38) in order to prevent data from passing through to the processing means in response to the alignment flag. Processing system, characterized in that. The first clock as claimed in claim 1, further comprising: a means for providing a first click signal (modulator clock) to said processing means and said transport means (25,310, 312) and data from said transport means (transport data). Means for transmitting a copy of the signal (transport clock) to said transfer means. 2. The apparatus of claim 1, further comprising: means for providing a first clock signal (modulator clock) to said processing means and said transport means (25,310, 312) and deriving a second clock signal (transport clock) from said first clock signal. Means (314) connected to said transport means and means for providing said second clock signal to a clock input of said transfer means. 15. The processing system of claim 14, wherein said second clock signal is an inverted version of said first clock signal. A system for processing a packetized digital data stream containing video information, the system comprising: transport processing means responsive to input data 10 for generating a data packet, wherein said transport processing means is unexpectedly reset and The data stream of the data packet from the transport processing means is thereby interrupted, means 25 and 30 for delivering the data packet to the processing means, and the means for processing the transport processing means and the data packet. And synchronization means (32, 36, 38, 312, 314, 318) for automatically aligning the data components of the data packet appearing at the beginning of the acquisition interval and after the reset of the transport processing means.