KR20040010954A - Transport Demultiplexor - Google Patents

Abstract

PURPOSE: A transport demultiplexer is provided to freely realize a wanted application by freely mapping an input source and an output port with each channel. CONSTITUTION: A transport demultiplexer includes a plurality of input and output ports for processing a plurality of channels. A single input interface block receives a plurality of input sources for selecting two input sources and outputting the corresponding stream. Two input buffers receive two streams from the single input interface block respectively and download the corresponding stream to a storage medium. Two system decoders decode the inputted stream of each channel to output the decoded stream. A single output interface block outputs the data inputted from the system decoders according to decision of a user.

Description

Transport Demultiplexor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transport demultiplexor (hereinafter referred to as TP), and in particular, has a plurality of input and output ports and processes a plurality of channels while adding a personal video recorder (hereinafter referred to as a PVR) function. It relates to a transport demultiplexer that can handle functions.

The general structure of a TP that processes two or more channels among the TPs developed so far is shown in FIG. 1.

Since the conventional TP processes two channels, it has two pairs of registers, one for each channel (for channel A and one for channel B), and one input and output port is allocated to each of channels A and B. In other words, the input and output ports are fixed for channel A and channel B.

The operation of the conventional TP will be described taking the following application as an example.

First, configure the set so that the user can select two of DSS (Digital Satellite System), ATSC, DVD, VCD, and PVR to play or download to HDD. It is assumed that of the five input sources, DSS, ATSC, and VCD come through the channel A input port or the channel B input port, PVR enters through the HDD interface, and DVD enters through the host interface as a DVD-ROM.

To freely select an input source, DSS, ATSC, and VCD must be connected to both input ports. Therefore, two pultiplexers must be attached to the outside of the TP chip to select one of three inputs. In addition, the input interface block that stores the input source in the input buffer must be designed to have interfaces for each of them to handle all five types of input sources, with the same two blocks for channel A and channel B. do.

Looking at the output, it is assumed that the video decoder_0 is connected to the channel A output port, the video decoder_1 is connected to the channel B output port, and the video decoder_0 and the video decoder_1 have no difference in performance and function. do.

Set the ATSC source and DSS source to the video decoder _0 and the DVD source to the video decoder _1.

If you want to play and download ATSC sor as channel A while you are playing and downloading, but you want to stop playing ATSC (continue downloading), you must assign DSS to channel B because ATSC downloads should not be interrupted. However, this problem occurs because the video decoder _0 is connected to the channel A output port. At this time, to solve this problem, the channel A and B outputs must be connected to both the video decoder _0 and the video decoder _1, and two more multiplexers are added.

As such, the conventional TP has the following two problems.

First, for a free application, multiplexers must be added outside the chip, which leads to complex input and output connections.

Secondly, the input interface block must contain two identical blocks for channel A and channel B, which wastes gate size.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and each user receives each type of input source through each path. The purpose is to make it possible.

Another object of the present invention is to provide a TP that allows a user to freely assign and output the output of each channel to multiple output ports.

1 is a view showing a general structure of a conventional transport demultiplexer.

2 illustrates a transport demultiplexer structure of the present invention.

The transport demultiplexer according to the present invention for achieving the above object is characterized in that the input interface block and the output interface block is composed of only a single input and output interface block, rather than the number of decoding channels.

Another feature of the present invention is that the input interface block has only one interface logic for each input source and adds only logic for storing the selected stream among them in the desired input channel buffer.

Another feature of the present invention is to perform the sync detection and PCR extraction in the input interface block, the sync detection is performed in the interface logic of each input source, PCR extraction is performed in the logic after allocating a stream for each channel.

According to the present invention, a transport demultiplexer having a plurality of input / output ports and processing a plurality of channels includes a single input interface block for receiving a plurality of input sources, selecting two of them, and outputting a corresponding stream; Two input buffers, each receiving two streams from the input interface block and downloading the streams to a storage medium, two system decoders for decoding and outputting the input streams of the respective channels, and data received from each system decoder. Characterized in that it consists of a single output interface block that outputs according to the rules set by the user.

Hereinafter, the operation of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing the structure of another TP in the present invention.

The input sources are input_0, input_1, VCD input, host play input (DVD-ROM), PVR upload, and there are 5 kinds of inputs. You can select two of them to decode (download and display) two channels at the same time. (The number of output channels can vary depending on the desired characteristics). The two channels the user selects are channel A and channel B, respectively.

The user sets the information about channel A and channel B selected by the user in the channel A related register and the channel B related register, respectively. Next, the register setting determines which of the five input sources is assigned to channel A, and similarly, the register setting determines which input source to assign to channel B.

The input interface block has interface blocks for each of the five input sources, and selects two of the five sources according to the information set by the user and inserts the streams into the input buffer A and the input buffer B.

The input interface block can perform sink detection and PCR extraction as needed. In this case, the sink detection is included in the interface logic of each input port, and the PCR extraction is performed in the logic after the stream is allocated to channels A and B. It is more efficient in design.

The output interface block, like the input interface, determines by the register setting whether the user sends the outputs of channel A and channel B to output _0 or output _1.

The output interface block connects the output data received from the system decoders A and B to the output _0 port and the output _1 port as the user specified.

By doing the above, users who use the TP chip can apply free applications while minimizing the number of multiplexers, and the gate size is increased because only one input block and one output interface block need to be configured. Can be reduced.

As described above, the TP proposed by the present invention allows a user to freely map an input source and an output port to each channel, without using a multiplexer on the outside of the chip. Application can be performed. In addition, the TP proposed by the present invention has an effect of reducing the gate size by designing only one input interface block and one output interface block for each channel.

Claims (6)

In a transport demultiplexer having multiple input / output ports and processing multiple channels, A single input interface block that receives multiple input sources and selects two of them to output the stream; Two input buffers each receiving two streams from the single input interface block and downloading the streams to a storage medium; Two system decoders for decoding and outputting an input stream of each corresponding channel; A transport demultiplexer comprising a single output interface block for outputting data received from each system decoder according to a user's decision. The method of claim 1, The input sources are two digital broadcast sources, a VCD input, a host play input, and a PVR upload input, and two of them are decoded. The method of claim 1, A transport demultiplexer that determines which input source to assign to each channel by the user's register settings. The method of claim 1, The single input interface block has interface logic for each of the five input sources, and selects two streams according to the information set by the user and outputs them to a corresponding input buffer. The method of claim 1, The single history interface block performs sync detection and PCR extraction as needed, sync detection is performed at the interface logic of each input port, and PCR extraction is performed at the logic after the stream is allocated to the corresponding channel. Transport demultiplexer. The method of claim 1, Transport demultiplexer, characterized in that it is determined by user's register setting to which output port each channel output.