KR101092535B1 - a digital multimedia signal receiver for processing a single carrier modulated signal and a multi carrier modulated signal and a receiving method thereof - Google Patents

Abstract

The present invention relates to a digital multimedia signal receiver and a method of receiving the same. The digital multimedia signal receiver according to the present invention includes an analog-to-digital converter for converting a received signal, which is one of a single carrier modulated signal and a multicarrier modulated signal, from an analog signal to a digital signal, and a single carrier signal processor for processing a single carrier modulated signal. And a multicarrier signal processor for processing a multicarrier modulated signal, and a controller for determining a modulation mode of the digital signal, the controller determining a modulation mode of the digital signal, wherein the modulation mode of the digital signal is a single carrier modulation mode. In this case, the MPEG stream is received and output from the single carrier signal processor, and when the digital signal modulation mode is the multicarrier modulation mode, the MPEG stream is received and output from the multicarrier signal processor. Thus, one of the single carrier modulated signal and the multicarrier modulated signal can be automatically processed according to the modulation mode of the received signal.

Digital, multimedia, broadcasting, single, multi, modulation

Description

Digital multimedia signal receiver for processing a single carrier modulated signal and a multi carrier modulated signal and a receiving method

1 is a block diagram showing a multi-carrier digital broadcast receiver according to the prior art;

2 is a block diagram showing a single carrier digital broadcast receiver according to the prior art;

3 is a block diagram of a digital multimedia signal receiver according to an embodiment of the present invention, and

4 is a flowchart illustrating a method of receiving a digital multimedia signal receiver according to an embodiment of the present invention.

The present invention relates to a digital multimedia signal receiver and a receiving method thereof, and more particularly, to a digital multimedia signal receiver capable of automatically processing one of a single carrier modulated signal and a multicarrier modulated signal according to a modulation mode of a received signal. It is about.

With the advent of the multimedia communication and broadcasting era, countries around the world are digitizing analog broadcasts. In particular, digital broadcasting systems have already been developed and put into practical use in developed countries such as the United States, Europe, and Japan. Due to this rapid development, different standards for digital broadcasting have been proposed in each country.

On December 24, 1996, the US Federal Communications Commission (ATC) approved the Advanced Television Systems Committee (ATSC) digital TV standard as the next generation TV broadcast standard. Terrestrial broadcasters shall comply with the ATSC standard for video / audio compression protocols, packet data transmission structures, and modulation and transmission systems. However, the protocol for the video format was not specified and was reserved by the industry.

The ATSC digital TV standard is intended for high-quality video, audio, and additional data transmission in the 6 MHz band using single carrier VSB, supporting both terrestrial broadcast mode and high-speed cable broadcast mode. At the heart of this approach is the 8-VSB approach, which modulates the digital signal by complementing the existing analog BSB approach.

In Europe, a coded orthogonal frequency division multiplexing (COFDM) system has been adopted as the DVB-T (Digital Video Broadcasting Terrestrial) standard, which has advantages in high frequency efficiency and interference prevention.

In addition, a digital multimedia broadcasting technique using various modulation methods has been proposed, and these techniques can be classified into a multicarrier technique and a single carrier technique. Thus, conventional digital multimedia receivers are classified into multi-carrier digital receivers and single-carrier digital receivers.

1 is a block diagram showing a multi-carrier digital broadcast receiver according to the prior art.

The conventional multi-carrier digital broadcast receiver includes a tuner 110 for receiving a multi-carrier modulated digital multimedia signal, an A / D converter 120 for converting a signal output from the tuner 110 into a digital signal, and an A / D converter ( Demodulator 130 for demodulating the multi-carrier modulated signal output from 120, FFT unit 140, fast demodulating the Fast Fourier Transform (FFT) for the signal output from the demodulator 130, demodulator 130 or the synchronization unit 150 for synchronizing the demodulator 130 using the signal output from the FFT unit 140, the equalizer 160 for equalizing the signal output from the FFT unit 140, the equalizer A descrambler 180 that outputs an MPEG stream by descrambling the signal output from the FEC unit 170 and the FEC unit 170 that performs forward error correction (FEC) on the signal output from the 160. ).

2 is a block diagram illustrating a single carrier digital broadcast receiver according to the prior art.

A conventional single carrier digital broadcast receiver includes a tuner 210 for receiving a single carrier modulated digital multimedia signal, an A / D converter 220 for converting a signal output from the tuner 210 into a digital signal, and an A / D converter ( In the demodulator 230 for demodulating the single carrier modulated signal output from the 220, the synchronization unit 240 and the demodulator 230 for synchronizing the demodulator 230 using the signal output from the demodulator 230 An equalizer 250 for equalizing the output signal, an FEC unit 260 for performing FEC on the signal output from the equalizer 250, and a signal output from the FEC unit 260 to descramble the outputted MPEG stream. The descrambler 270 is included.

As is known, a receiver according to the prior art cannot simultaneously process a multicarrier modulated signal and a single carrier modulated signal, and a conventional receiver cannot operate in a different digital broadcasting system.

Accordingly, an object of the present invention is to provide a digital multimedia signal receiver capable of automatically processing one of a single carrier modulated signal and a multicarrier modulated signal according to a modulation mode of a received signal, and a method of receiving the same.

According to an aspect of the present invention, there is provided a digital multimedia receiver comprising an analog-to-digital converter for converting a received signal, which is one of a single carrier modulated signal and a multicarrier modulated signal, from an analog signal to a digital signal, and the single carrier modulated signal. A single carrier signal processor for processing, a multicarrier signal processor for processing the multicarrier modulated signal, and a controller for determining a modulation mode of the digital signal, wherein the controller includes the single carrier signal processor and the multicarrier signal processor Detecting at least one test signal from at least one of the at least one test signal, determining a modulation mode of the digital signal according to the detected test signal, and if the modulation mode of the digital signal is a single carrier modulation mode, If the output receives the emitter MPEG stream, and the modulation mode is a multi-carrier modulation mode of the digital signal, and outputs the MPEG stream received from the multi-carrier signal processor.

The single carrier signal processor may be configured to receive a demodulated signal from the single carrier demodulator, a single carrier demodulator for demodulating the digital signal output from the analog-to-digital converter, and generate a synchronization signal. A single carrier synchronizer for transmitting a signal to the single carrier demodulator, a single carrier equalizer for equalizing the signal demodulated from the single carrier demodulator, and a single carrier for performing transmission error correction for the equalized signal from the equalizer. And a single carrier descrambler that descrambles the transmission error corrected signal from the transmission error compensator to generate an MPEG stream.

Here, the multi-carrier signal processing unit, a multi-carrier demodulation unit for demodulating the digital signal output from the analog-to-digital converter, and receiving the demodulated signal from the multi-carrier demodulator to generate a synchronization signal, the generated synchronization A multicarrier synchronization unit for transmitting a signal to the multicarrier demodulator, a multicarrier equalizer for equalizing a signal demodulated from the multicarrier demodulator, and a transmission error correction for the equalized signal from the multicarrier equalizer And a multicarrier descrambler for descrambling a signal corrected for transmission error from the multicarrier transmission error compensator to generate an MPEG stream.

Here, the controller detects at least one error signal of the MPEG stream as the test signal from at least one of the single carrier descrambler and the multicarrier descrambler, and the digital signal according to the detected error signal of the MPEG stream. It is desirable to determine the modulation mode of.

A method for receiving a digital multimedia receiver according to the present invention for achieving the above object includes the steps of (a) converting a received analog signal into a digital signal, and (b) the single carrier signal processor and the multicarrier signal processor. Outputting the MPEG stream by processing the converted digital signal, and (c) detecting at least one test signal from at least one of the single carrier signal processor and the multicarrier signal processor, and according to the detected test signal, Determining a modulation mode of the digital signal, (d) if the modulation mode of the digital signal is a single carrier modulation mode, receiving and outputting the MPEG stream from the single carrier signal processing unit, and (e) the digital signal If the modulation mode of the multi-carrier modulation mode, the multi-carrier signal processing unit And a step for outputting to receive the MPEG stream.

In the step (c), the test signal is preferably an error signal of the MPEG stream output from the step (b).

Hereinafter, the present invention will be described with reference to the accompanying drawings.

3 is a block diagram of a digital multimedia signal receiver according to an embodiment of the present invention.

Referring to FIG. 3, the digital multimedia signal receiver includes an antenna 305, a tuner 307, an analog-to-digital converter (hereinafter referred to as an 'A / D converter': 310), a controller 320, and a single carrier signal processing unit ( 330 and a multi-carrier signal processor 340.

The single carrier signal processor 330 includes a single carrier demodulator (hereinafter referred to as an 'SC-demodulator': 3301), a single carrier equalizer (hereinafter referred to as an 'SC-equalizer': 3302) and a single carrier FEC unit 3303, a single carrier descrambler (hereinafter referred to as 'SC-descrambler': 3304) and a single carrier synchronizer (hereinafter referred to as 'SC-synch': 3305). The multicarrier signal processor 340 is a multicarrier demodulator (hereinafter referred to as 'MC-demodulator': 3401), a multicarrier equalizer (hereinafter referred to as 'MC-equalizer': 3402), and a multicarrier FEC unit (Hereinafter referred to as 'MC-FEC section': 3403), MC-descrambler (hereinafter referred to as 'MC-descrambler': 3404) and MC-sync section (hereinafter referred to as 'MC-sync section': 3405) It includes.

When the operation of the digital multimedia receiver according to an embodiment of the present invention is started, the tuner unit 307 receives an analog signal from the air through the antenna 305. The A / D converter 310 converts an analog signal received from the tuner unit 307 into a digital signal. The single carrier signal processor 330 processes the digital signal output from the A / D converter 310.

In more detail, the SC-demodulator 3301 demodulates the digital signal output from the A / D converter 310. SC-equalizer 3302 equalizes the demodulated signal from SC-demodulator 3301. The SC-FEC unit 3303 performs transmission error correction (FEC) on the signal output from the SC-equalizer 3302. The SC-descrambler 3304 descrambles the transmission error corrected signal to generate an MPEG stream and provides it to the controller 320.

The multicarrier signal processor 340 processes the digital signal output from the A / D converter 310. In more detail, the MC-demodulator 3401 demodulates the A / D converted signal output from the A / D converter 310. The MC-synchronization unit 3405 receives the demodulated signal, generates a synchronization signal, and transmits the synchronization signal to the MC-demodulation unit 3401. The MC-equalizer 3402 equalizes the demodulated signal from the MC-demodulator 3401. The MC-FEC unit 3403 performs transmission error correction on the signal equalized by the MC-equalizer 3402. The MC-descrambler 3404 descrambles the transmission error corrected signal from the MC-FEC unit 3403, generates an MPEG stream, and provides the MPEG stream to the controller 320.

The controller 320 detects an error signal (ES) of the MPEG stream as at least one test signal from at least one of the single carrier signal processor 330 and the multicarrier signal processor 340, and detects an error of the detected MPEC stream. The modulation mode of the received signal is determined based on the signal.

The controller 320 receives the MPEG stream from one of the single carrier signal processor 330 and the multicarrier signal processor 340 according to the detected modulation mode of the received signal. That is, if the detected modulation mode indicates a single carrier modulation mode, the MPEG stream output from the single carrier signal processing unit 330 is transmitted to the controller 320 for output, and if the detected modulation mode indicates the multicarrier modulation mode, The MPEG stream output from the carrier signal processor 340 is delivered to the controller 320 and output.

After determining the modulation mode of the received signal, in the single carrier modulation mode, the controller 320 selects the single carrier signal processor 330 and receives and outputs an MPEG stream from the single carrier signal processor 330. The SC-demodulation unit 3301 demodulates the A / D converted signal output from the A / D converter 310. The SC-synchronization unit 3305 receives the demodulation signal to generate a synchronization signal, and transmits the synchronization signal to the SC-demodulation unit 3301. SC-equalizer 3302 equalizes the demodulated signal from SC-demodulator 3301. The SC-FEC unit 3303 performs transmission error correction on the signal equalized by the SC-equalizer 3302. The SC-descrambler 3304 descrambles the transmission error corrected signal from the SC-FEC unit 3303 to generate an MPEG stream.

Similarly, in the multi-carrier modulation mode, the controller 320 selects the multi-carrier signal processor 340 and receives and outputs an MPEG stream from the multi-carrier signal processor 340.

In this way, the digital multimedia signal receiver according to the present invention can process single carrier modulated signals and multicarrier modulated signals.

4 is a flowchart illustrating a method of receiving a digital multimedia signal receiver according to an embodiment of the present invention.

First, the A / D converter 310 converts an analog signal received from the tuner 307 into a digital signal (S410). Next, the single carrier signal processing unit 330 processes the digital signal output from the A / D converter 310 to generate an MPEG stream, and the multicarrier signal processing unit outputs the digital signal output from the A / D converter 310. Processing generates an MPEG stream (S420).

Thereafter, the controller 320 determines the modulation mode of the received signal according to the error signal of the MPEG stream (S430).

Next, if the detected modulation mode is the single carrier modulation mode (S440), the controller 320 selects the single carrier signal processing unit 330, whereby the MPEG stream output from the single carrier signal processing unit 330 is the controller. It is delivered to 320 and output (S450). On the other hand, if the detected modulation mode is the multi-carrier modulation mode (S440), the controller 320 selects the multi-carrier signal processor 340, whereby the MPEG stream output from the multi-carrier signal processor 340 is the controller It is delivered to 320 and output (S460).

More specifically, in step S420, the SC-demodulator 3301 demodulates the A / D converted signal output from the A / D converter 310. SC-equalizer 3302 equalizes the demodulated signal from SC-demodulator 3301. The SC-FEC unit 3303 performs transmission error correction on the equalized signal from the SC-equalizer 3302. The SC-descrambler 3304 descrambles the transmission error corrected signal to generate an MPEG stream. The MC-demodulator 3401 demodulates the A / D converted signal output from the A / D converter 310. MC-equalizer 3402 equalizes the demodulated signal from MC-demodulator 3401. The MC-FEC unit 3403 performs transmission error correction for the signal equalized by the MC-equalizer 3402. The MC-descrambler 3404 descrambles the transmission error corrected signal to generate an MPEG stream.

In step S430, the controller 320 detects at least one error signal of the MPEG stream output from at least one of the SC-descrambler 3304 and the MC-descrambler 3404, and in step S440, the error signal of the MPEG stream. The modulation mode of the received signal is determined based on.

In operation S450, when the determination result is the single carrier modulation mode, the controller 320 selects the single carrier signal processor 330 and receives and outputs an MPEG stream from the single carrier signal processor 330. The SC-demodulation unit 3301 demodulates the A / D converted signal output from the A / D converter 310. The SC-synchronization unit 3305 receives the demodulation signal to generate a synchronization signal, and transmits the synchronization signal to the SC-demodulation unit 3301. The SC-equalizer 3302 equalizes the demodulated signal output from the SC-demodulator 3301. The SC-FEC unit 3303 performs transmission error correction on the signal equalized from the SC-equalizer 3302. Next, the SC-descrambler 3304 descrambles the transmission error corrected signal from the SC-FEC unit 3303 to generate an MPEG stream.

In step S460, in the multi-carrier modulation mode, the controller 320 selects the multi-carrier signal processor 340 and receives and outputs an MPEG stream from the multi-carrier signal processor 340. The MC-demodulator 3401 demodulates the A / D converted signal output from the A / D converter 310 to generate a demodulated signal. The MC-synchronization unit 3405 receives the demodulation signal to generate a synchronization signal, and transfers the generated synchronization signal to the MC-demodulation unit 3401. The MC-equalizer 3402 equalizes the demodulated signal from the MC-demodulator 3401. The MC-FEC unit 3403 performs transmission error correction for the signal equalized by the MC-equalizer 3402. Next, the MC-descrambler 3404 descrambles the transmission error corrected signal from the MC-FEC unit 3403 to generate an MPEG stream.

According to the digital multimedia receiver and the reception method according to the present invention, one of the single carrier modulated signal and the multicarrier modulated signal can be automatically processed according to the modulation mode of the received signal.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the present invention is not limited to the specific embodiments of the present invention without departing from the spirit of the present invention as claimed in the claims. Anyone skilled in the art can make various modifications, as well as such modifications are within the scope of the claims.

Claims (7)

An analog-to-digital converter for converting a received signal, which is one of a single carrier modulated signal and a multicarrier modulated signal, from an analog signal to a digital signal; A single carrier signal processor configured to process the single carrier modulated signal; A multicarrier signal processor for processing the multicarrier modulated signal; And, A controller for determining a modulation mode of the digital signal; Including, The controller detects at least one test signal from at least one of the single carrier signal processor and the multicarrier signal processor, and determines a modulation mode of the digital signal according to the detected test signal. In the single carrier modulation mode, it receives and outputs an MPEG stream from the single carrier signal processor, and when the modulation mode of the digital signal is a multicarrier modulation mode, receives and outputs the MPEG stream from the multicarrier signal processor. Digital multimedia signal receiver. The method of claim 1, wherein the single carrier signal processing unit, A single carrier demodulator for demodulating the digital signal output from the analog to digital converter; A single carrier synchronization unit configured to receive a demodulated signal from the single carrier demodulator, generate a synchronization signal, and transfer the generated synchronization signal to the single carrier demodulator; A single carrier equalizer for equalizing the demodulated signal from the single carrier demodulator; A single carrier transmission error correction unit for performing transmission error correction on the equalized signal from the equalizer; And, A single carrier descrambler for descrambling the transmission error corrected signal from the transmission error correction unit to generate an MPEG stream; Digital multimedia receiver including a. The method of claim 1, wherein the multi-carrier signal processing unit, A multi-carrier demodulator for demodulating the digital signal output from the analog-to-digital converter; A multicarrier synchronization unit configured to receive a demodulated signal from the multicarrier demodulator, generate a synchronization signal, and transfer the generated synchronization signal to the multicarrier demodulator; A multicarrier equalizer for equalizing the demodulated signal from the multicarrier demodulator; A multicarrier transmission error correction unit for performing transmission error correction on the equalized signal from the multicarrier equalizer; And, A multicarrier descrambler configured to descramble a transmission error corrected signal from the multicarrier transmission error correction unit to generate an MPEG stream; Digital multimedia receiver including a. The method according to claim 2 or 3, The controller detects at least one error signal of the MPEG stream as the test signal from at least one of the single carrier descrambler and the multicarrier descrambler, and modulates the digital signal according to the detected error signal of the MPEG stream. And determining the mode. A reception method of a digital multimedia receiver for processing a single carrier modulated signal and a multicarrier modulated signal, (a) converting the received analog signal into a digital signal; (b) processing the converted digital signal by a single carrier signal processor and a multicarrier signal processor to output MPEG streams, respectively; (c) detecting at least one test signal from at least one of the single carrier signal processor and the multicarrier signal processor, and determining a modulation mode of the digital signal according to the detected test signal; (d) receiving and outputting the MPEG stream from the single carrier signal processor if the modulation mode of the digital signal is a single carrier modulation mode; And, (e) receiving and outputting the MPEG stream from the multicarrier signal processor if the modulation mode of the digital signal is a multicarrier modulation mode; Receiving method of a digital multimedia receiver comprising a. The method of claim 5, In the step (c), The test signal is a reception method of a digital multimedia receiver, characterized in that the error signal of the MPEG stream output from the step (b). An analog-digital converting unit for converting a received signal, which is one of a single carrier modulated signal and a multicarrier modulated signal, from an analog signal to a digital signal; A single carrier signal processing unit for processing the single carrier modulated signal; A multi-carrier signal processing unit for processing the multi-carrier modulated signal; And, A control unit for determining a modulation mode of the digital signal; Including, The control unit detects at least one test signal from at least one of the single carrier signal processing unit and the multicarrier signal processing unit, determines a modulation mode of the digital signal according to the detected test signal, Receives and outputs an MPEG stream from the single carrier signal processing unit when the modulation mode is single carrier modulation mode, and receives an MPEG stream from the multicarrier signal processing unit when the modulation mode of the digital signal is multicarrier modulation mode. Digital multimedia signal receiving module characterized in that for outputting.

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