KR100499455B1 - Decoder in digital broadcasting system - Google Patents

Abstract

A decoder device for a digital broadcasting receiver, the method comprising: an analog / digital converter for converting a received signal into a digital signal, and performing error correction after performing timing recovery and carrier recovery of the digital signal converted by the analog / digital converter; A link unit, a selection unit for selecting and outputting a signal output from the link unit or an external input signal, and a transport decoder for demultiplexing a signal output from the selection unit to extract an audio signal, a video signal, and various additional information Is integrally formed, and the cost and size can be greatly reduced. In addition, the interface can be simplified, the limited reception system can be easily used, and the connection with digital storage media can be easily achieved.

Description

Decoder device of digital broadcasting receiver {Decoder in Digital Broadcasting System}

The present invention relates to a digital broadcast receiving system, and more particularly, to a decoder device of a digital broadcast receiver for downsizing the decoder.

A general digital broadcast reception system will be described with reference to the accompanying drawings as follows.

FIG. 1 is a block diagram for explaining a configuration of a general digital broadcasting reception system, and includes a tuner 11, an ADC (Digital / Analog Converter) 12, a link unit 13, and a transport decoder unit 14. And a microcomputer 17, a video decoder unit 15 and an audio decoder unit 16. As shown in FIG.

The operation of the general digital broadcasting reception system configured as described above will be briefly described. First, the digital broadcasting signal received by the antenna is converted into a frequency of a local oscillation frequency of a low noise block (LNB).

The microcomputer 17 of the receiver transmits a repeater preset value having a different value for each repeater to a phase locked loop (PLL) (not shown) inside the tuner 11, so that the repeater corresponding to the channel to be tuned by the user is selected. Switch to the intermediate frequency, which is a constant frequency.

The signal converted to the intermediate frequency is converted into a digital signal by the ADC 12 and input to the link unit 13, and the link unit 13 performs error correction after performing timing recovery and carrier recovery.

The original source data is restored by the error correction and input to the transport decoder unit 14 to demultiplex only desired channel data under the control of the microcomputer 17 to extract an audio signal, a video signal, and various additional information.

The video decoder unit 15 receives the video signal output from the transport decoder unit 14, restores it, and displays it on the screen, and the audio decoder unit 16 inputs the audio signal output from the transport decoder unit 14. After receiving and restoring, it is converted into an analog signal and output through a speaker as a voice signal.

In addition, the microcomputer 17 controls the respective parts or provides a user interface.

Such a conventional digital broadcasting reception system has a problem in that the size of the hardware is increased and the cost rises because several ICs such as the link unit 13 and the transport decoder unit 14 must be configured in one system. .

The present invention has been made to solve the problems of the prior art, and an object thereof is to provide a decoder device of a digital broadcast receiver for cost reduction and miniaturization.

A decoder device of a digital broadcast receiver according to the present invention for achieving the above object is characterized by reducing the number of connection pins between ICs by integrating the link unit and the transport decoder.

Hereinafter, a decoder device of a digital broadcast receiver according to the present invention will be described with reference to the accompanying drawings.

2 is a block diagram illustrating a configuration of a decoder device of a digital broadcast receiver according to an embodiment of the present invention, and FIG. 3 is a block diagram illustrating a detailed configuration of a link unit of FIG. 2.

The decoder device of the digital broadcast receiver of the present invention is an ADC 21 for converting a signal output from the tuner 11 of FIG. 1 into a digital signal, and controls each part of the entire system or provides a user interface. The microcomputer 26, the link unit 22 which performs error correction after performing timing recovery and carrier recovery of the digital signal converted by the ADC 21, and decodes and outputs an scrambled signal of an external signal or another receiver. Only the desired channel data under the control of the descrambler 25, the MUX 23 for selectively outputting the signal output from the link unit 22, or the signal output from the descrambler 25, and the microcomputer 26. And a transport decoder 24 which multiplexes and extracts audio and video signals and various additional information.

The ADC 21, the link unit 22, the mux 23, and the transport decoder 24 are composed of integrated ICs.

In this case, the link unit 22 corrects the error of the demodulator 221 which performs timing recovery and carrier recovery of the signal converted by the ADC 21 and the demodulated signal of the demodulator 221 as shown in FIG. And an FEC unit 222 for outputting.

Referring to the operation of the decoder device of the digital broadcast receiver according to the present invention configured as described above, first, the microcomputer 26 sets a repeater tuned value having a different value for each repeater to the PLL (Phase Locked Loop) in the tuner 11 ( (Not shown) so that the repeater corresponding to the channel that the user wants to tune to is switched to the intermediate frequency.

The signal converted to the intermediate frequency is converted into a digital signal by the ADC 21 and input to the link unit 22. The link unit 22 performs the timing recovery and the carrier recovery in the demodulator 221, and then the FEC 222. Error correction is performed through) and output to the mux (23).

When the demodulator 221 is used in a domestic satellite broadcasting system, a QPSK demodulator is used.

The mux 23 selects a signal output from the link unit 22 and a signal input from another external receiver and outputs the signal to the transport decoder 24.

In the case of using the descrambler 25 used in the limited reception system, the signal restored by the link unit 22 is descrambled by the external descrambler 25, and the signal is again passed through the mux 23 and the transport decoder ( Output to 24).

In addition to the descrambler 25, the MUX 23 receives the output of another receiver such as a DVCR and outputs the same to the transport decoder 24, thereby facilitating an interface with future storage media as well as a broadcast having a different demodulation system. It can also be mounted on the receiver.

That is, when the other link unit 22 is connected to the outside, the transport decoder 24 can decode the signal resulting therefrom.

The signal output from the FEC 222 may be output to the transport decoder 24 through the mux 23 and may be exported to the outside.

The transport decoder 24 receives the output signal of the link unit 22 input from the mux 23 or the signal input from the outside, and demultiplexes only the desired channel data under the control of the microcomputer 26 to perform audio signal and The video signal and various additional information are output to the video / audio decoders 15 and 16, respectively.

The ADC 21, the link unit 22, the mux 23, and the transport decoder 24 are composed of integrated ICs, and the microcomputer 26 interface is linked with the integrated ADC 21 using one port. It may be connected to the unit 22, the mux 23, the transport decoder 24, and the like to perform read / write.

The decoder device of the digital broadcast receiver according to the present invention has the effect of greatly reducing the cost and size by configuring the ADC, the link unit, the mux and the transport decoder as integrated ICs.

In addition, the interface can be simplified, the limited reception system can be easily used, and the connection with digital storage media can be easily achieved.

1 is a block diagram illustrating a configuration of a general digital broadcast receiving system.

2 is a block diagram illustrating a configuration of a decoder device of a digital broadcast receiver according to an embodiment of the present invention.

3 is a block diagram illustrating a detailed configuration of a link unit of FIG. 2.

Explanation of symbols for main parts of the drawings

21: ADC 22: link portion

23: mux 24: transport decoder

25: Descrambler 26: Micom

Claims (2)

In the digital broadcast reception system, An analog / digital converter for converting a received signal into a digital signal, A link unit for performing error correction after performing timing recovery and carrier recovery of the digital signal converted by the analog / digital converter; A selection unit for selectively outputting a signal output from the link unit or an externally input signal; And a transport decoder for demultiplexing the signal output from the selecting unit and extracting an audio signal, a video signal, and various additional information. The method of claim 1, And a microcomputer connected to a single port connected to an integrated IC consisting of the analog / digital conversion unit, a link unit, a mux, and a transport decoder to control the building blocks.

Images