KR101092545B1 - A digital multimedia signal receiver for processing the multi-carrier modulated signal and the signle-carrier modulated signal and receiving method thereof - Google Patents

Abstract

A digital multimedia signal receiver is disclosed. A digital multimedia signal receiver for processing a single carrier modulated signal and a multiple carrier modulated signal includes an A / D converter for converting a received single carrier modulated signal or a multiple carrier modulated signal into a digital signal, and an A / D converter according to a modulation mode of the digital signal. Processes the digital signal converted by the D converter, and if it is determined that the modulation mode is a single carrier modulation mode, processes the digital signal output from the A / D converter according to the single carrier modulation mode, and the modulation mode is a multiple carrier modulation mode. And a signal processor for processing a digital signal output from the A / D converter according to the multi-carrier modulation mode when determined. The digital multimedia signal receiver includes a modulation mode of the digital signal according to at least one reference signal generated by the signal processor. The reference signal is the modulation itself represents. Modulated according to the mode. Accordingly, it is possible to provide an efficient digital multimedia signal receiver.

Multimedia signal receiver, single carrier modulated signal, multiple carrier modulated signal

Description

 A digital multimedia signal receiver for processing the multi-carrier modulated signal and the signle-carrier modulated signal and receiving method

The present invention relates to a digital multimedia signal receiver and a reception method, and more particularly, to a digital multimedia signal receiver capable of receiving single and multiple carrier modulated signals.

 In the age of multimedia communication and broadcasting, countries around the world are doing digital analogue broadcasting. Especially in developed countries such as the United States, Europe and Japan, digital broadcasting systems have already been developed and put into practical use. With the rapid development of technology, standards for digital broadcasting have been proposed separately in individual countries.

On December 24, 1996, the Federal Communications Commission (FCC) of the United States approved the Digital Television Standard of the Advanced Television System Committee (ATSC) as the next generation television broadcast standard. All terrestrial broadcast operators must follow the ATSC standard in video / audio compression, packet data transmission structure and modulation and transmission system specifications (not specifically mentioned in the video format specifications, but leave it to the industrial world). I put it.)

The ATSC digital TV standard is for the transmission of high-quality video, audio, and additional data over a 6 MHz bandwidth using a single carrier VSB scheme. It supports simultaneous terrestrial and high-speed cable broadcast modes. The main aspect of this approach is the 8-VSB modulation method. This is a variation of the current analog BSB scheme for the modulation of digital signals. In Europe, a coded orthogonal frequency division multiplexing (COFDM) system has been adopted for European terrestrial digital video broadcasting (DVB-T) because of its advantages in high frequency efficiency and interference prevention.

Other digital multimedia broadcasting methods using various modulation methods have been proposed, and all the proposed plans can be divided into a multi-carrier method and a single broadcast method. Therefore, the traditional digital multimedia receiver may be divided into a multi-carrier type and a single broadcast type.

1 is a schematic block diagram illustrating a multi-carrier digital broadcast receiver according to the prior art. Traditional multi-carrier digital broadcast receivers include a tuner 110 for receiving a multi-carrier modulated digital multimedia signal, and an analog to digital converter (ADC) 120 for converting an output signal from the tuner 110 into a digital signal; A demodulator 130 for demodulating a multi-carrier modulated signal from the analog to digital converter 120; A Fast Fourier Transform (FFT) 140 for fast transforming the output signal from the demodulator 130; A synchronizing (SYNC) device 150 for synchronizing the demodulator 130 using the output signal from the fast Fourier transformer 140; An equalizer 160 for equalizing the output signal from the fast Fourier transformer 140; A Forward Error Correction (FEC) device 170 for performing forward error correction on the output signal from the equalizer 160; And a descrambler 180 that descrambles the output signal from the forward error corrector 170 to obtain the MPEG stream.

2 is a schematic block diagram illustrating a single carrier digital broadcast receiver according to the prior art. Traditional single carrier digital broadcast receivers include a tuner 210 for receiving a single carrier modulated digital multimedia signal; An analog to digital converter 220 for converting an output signal from the tuner 210 into a digital signal; A demodulator 230 for demodulating a single carrier modulated signal from the analog to digital converter 220; A synchronizer (SYNC) 240 for synchronizing the demodulator 230 using the output signal from the demodulator 230; An equalizer 250 that equalizes the output signal from the demodulator 230; Forward error corrector 260 for performing forward error correction on the output signal from equalizer 250; And a descrambler 270 that descrambles the output signal from forward error corrector 260 to obtain an MPEG stream.

As is well known, in the prior art, the receiver is not intended for processing both multi-carrier modulated signals and single carrier modulated signals. That is, traditional receivers cannot work in other digital broadcast systems.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a digital multimedia signal receiver and a reception method capable of receiving single and multiple carrier modulated signals.

A digital multimedia signal receiver for processing a single carrier modulated signal and a multiple carrier modulated signal according to an embodiment of the present invention for achieving the above object, A for converting a received single carrier modulated signal or a multi-carrier modulated signal into a digital signal And a digital signal converted by an A / D converter according to the modulation mode of the digital signal, and the A / D according to the single carrier modulation mode when the modulation mode is determined to be a single carrier modulation mode. A signal processor for processing a digital signal output from the converter and processing a digital signal output from the A / D converter according to the multi-carrier modulation mode when the modulation mode is determined to be a multi-carrier modulation mode. The multimedia signal receiver is written in the signal processor The modulation mode of the digital signal is determined according to one reference signal, and the reference signal is modulated according to the modulation mode indicated by the reference signal.

In this case, the signal processor may include a demodulator for demodulating the A / D converted signal output from the A / D converter, a synchronizer for receiving the demodulated signal output from the demodulator and generating a synchronization signal; An equalizer for equalizing the demodulated signal output from the demodulator, a forward error correction (FEC) unit for error correcting the equalized signal output from the equalizer, and the error corrected signal output from the FEC It may include a descrambler that descrambles and generates multimedia data.

The demodulator, the synchronizer, the equalizer, the FEC unit, and the descrambler may output the at least one reference signal.

Here, the at least one reference signal may be a transmission parameter signal (TPS).

In addition, the TPS may include transmission mode information including information such as a code rate and a modulation mode.

The equalizer may output the TPS of the equalized signal as the reference signal.

Meanwhile, according to another embodiment of the present invention, a digital multimedia signal receiver for processing a single carrier modulated signal and a multiple carrier modulated signal includes an A / D converter for converting a received single carrier modulated signal or a multiple carrier modulated signal into a digital signal; A single carrier signal processor for processing the single carrier modulated signal according to the modulation mode of the digital signal, and a multicarrier signal processor for processing the multicarrier modulated signal according to the modulation mode of the digital signal, and including at least one reference A signal is provided from one of the single carrier signal processor and the multiple carrier signal processor, wherein the modulation mode of the digital signal is determined according to the at least one reference signal, and the modulation mode of the digital signal indicates the single carrier modulation mode. If the A / D converter Is supplied to the single carrier signal processor, and if the modulation mode of the digital signal indicates a multicarrier modulation mode, the digital signal from the A / D converter is provided to the multicarrier signal processor, and the reference signal Can be modulated according to the modulation mode indicated by itself.

In this case, the single carrier signal processing unit, an SC- demodulation unit for demodulating the A / D converted signal output from the A / D converter, receives the demodulated signal output from the SC-demodulation unit, the synchronization signal A SC-synchronizer for providing the synchronization signal to the SC-demodulator, an SC-equalizer for equalizing the demodulated signal output from the SC-demodulator, and the equalizer output from the SC-equalizer And a SC-FEC unit for error correction of the corrected signal, a SC-descrambler for descrambling the error corrected signal output from the SC-FEC unit, and generating an MPEG stream. An MC-demodulator for demodulating an A / D converted signal output from an A / D converter, receiving the demodulated signal output from the MC-demodulator, generating a synchronization signal, and converting the synchronization signal to the MC- Demodulator An MC-sync unit for providing the MC-equalizer to equalize the demodulated signal output from the MC-demodulator, an MC-FEC unit for error correction of the equalized signal output from the MC-equalizer, And an MC-descrambler for descrambling the error corrected signal output from the MC-FEC unit and generating an MPEG stream.

Further, the SC-demodulator, the SC-synchronizer, the SC-equalizer, the SC-FEC unit and the SC-descrambler, the MC-demodulator, the MC-synchronizer, the MC-equalizer, At least one of the MC-FEC unit and the MC-descrambler may output at least one reference signal.

Here, the at least one reference signal may be a transmission parameter signal (TPS).

In addition, the TPS may include transmission mode information including information such as a code rate and a modulation mode.

The SC-equalizer or the MC-equalizer may output the TPS of the equalized signal as the reference signal.

On the other hand, the receiving method of the digital multimedia signal receiver for processing a single carrier modulated signal and a multi-carrier modulated signal according to an embodiment of the present invention, converting the received single carrier modulated signal or multi-carrier modulated signal into a digital signal, Determining the modulation mode of the digital signal according to at least one reference signal and determining the modulation mode of the digital signal as the single carrier modulation mode, and converting the digital signal to the digital signal according to the single carrier modulation mode. Processing the converted signal and processing the signal converted into the digital signal according to the multi-carrier modulation mode if the result of the step of determining the modulation mode of the digital signal is determined as the multi-carrier modulation mode. And the reference signal depends on the modulation mode indicated by itself. Is modulated.

In this case, in the determining of the modulation mode of the digital signal, the at least one reference signal may be a transmission parameter signal (TPS).

In addition, the TPS may include transmission mode information including information such as a code rate and a modulation mode.
On the other hand, the digital multimedia signal receiving module for processing a single carrier modulated signal and a multi-carrier modulated signal according to an embodiment of the present invention, A / D converting converts the received single carrier modulated signal or multi-carrier modulated signal into a digital signal A unit and a digital signal converted by an A / D converting unit according to the modulation mode of the digital signal, and the A / D converting according to the single carrier modulation mode when the modulation mode is determined to be a single carrier modulation mode. A signal processing unit for processing a digital signal output from the unit and processing a digital signal output from the A / D converting unit according to the multi-carrier modulation mode when the modulation mode is determined to be a multi-carrier modulation mode, The digital multimedia signal receiving module is connected to the signal processing unit. Determining a modulation mode of said digital signal in accordance with at least one reference signal is generated, and the reference signal is modulated according to a modulation mode indicated by itself.
In addition, the digital multimedia signal receiving module for processing a single carrier modulated signal and a multi-carrier modulated signal according to another embodiment of the present invention, A for converting the received single carrier modulated signal or multi-carrier modulated signal into a digital signal A single carrier signal processing unit for processing said single carrier modulated signal in accordance with a modulation mode of said digital signal, and a multiple carrier signal processing unit for processing said multiple carrier modulated signal in accordance with a modulation mode of said digital signal. At least one reference signal is provided from one of the single carrier signal processing unit and the multiple carrier signal processing unit, the modulation mode of the digital signal is determined according to the at least one reference signal, Modulation mode indicates single carrier modulation mode When the digital signal from the A / D converting unit is provided to the single carrier signal processing unit, and if the modulation mode of the digital signal indicates a multi-carrier modulation mode, the digital signal from the A / D converting unit is the multiple signal. Provided to the carrier signal processing unit, the reference signal is modulated according to the modulation mode indicated by itself.

Accordingly, it is possible to provide an efficient digital multimedia signal receiver.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

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

As shown in FIG. 3, the digital multimedia signal receiver includes an antenna 305, a tuner, an analog digital converter (ADC) 310, a controller 320, a single carrier signal processor 330, and a multiple carrier signal processor 340. ). The single carrier signal processor 330 includes a single carrier (SC) demodulator 3301, an SC-equalizer 3302, an SC-FEC unit 3303, an SC-descrambler 3304, and an SC-dong. Base 3305.

In addition, the multi-carrier signal processor 340 includes a multi-carrier (MC) demodulator 3401, an MC-equalizer 3402, an MC-FEC unit 3403, an MC-descrambler 3404, and an MC. A synchronization unit 3405. When the digital multimedia signal receiver of the present invention starts to operate, the tuner receives an analog modulated multimedia signal. The analog-to-digital converter 310 converts the signal received from the tuner into a digital signal. The controller 320 transmits the digital signal to the single carrier signal processor 330.

 The single carrier signal processor 330 processes the A / D converted signal transmitted through the controller 320. More specifically, the SC-demodulator 3301 demodulates the A / D converted signal transmitted through the controller, and generates a demodulated signal. The SC-synchronizer 3305 generates a locking indication signal according to an error rate (ER) of the demodulated signal from the SC-demodulator 3301. The SC-synchronous unit 3305 transmits the above-described lock generation signal to the control unit 320.

The controller 320 detects a modulation mode of the digital signal based on the received lock generation signal. The controller 320 transmits the digital signal from the analog-to-digital converter 310 to one of the single carrier signal processor 330 and the multiple carrier signal processor 340 according to the detected modulation mode of the received digital signal.

In other words, if the detected modulation mode indicates a single carrier modulation mode, the digital signal output from the analog-to-digital converter 310 is transmitted to the single carrier signal processor 330. If the detected modulation mode indicates the multi-carrier modulation mode, the digital signal output from the analog-to-digital converter 310 is transmitted to the multi-carrier signal processor 340.

In the single carrier modulation mode, the controller 320 processes the single carrier signal processor 330 and transmits the A / D converted signal output from the analog-to-digital converter 310 to the single carrier signal processor 330. . The SC-demodulator 3301 demodulates the A / D converted signal output through the controller 320.

The SC-synchronizer 3305 receives a demodulated signal, generates a synchronization signal, and transmits a synchronization signal to the SC-demodulator 3301. SC-equalizer 3302 equalizes the demodulated signal from SC-demodulator 3301. The Forward Error Correction (FEC) section 3303 corrects forward errors of the equalization signal from the SC-equalizer 3302. The SC-descrambler 3304 then descrambles the forward error correction signal from the SC-error corrector 3303.

Similarly, in the multi-carrier modulation mode, the control unit 320 selects the multi-carrier signal processing unit 340 and converts the A / D converted signal output from the analog-to-digital converter 340 into the multi-carrier signal processing unit 340. To send). The MC-demodulator 3401 demodulates the A / D converted signal output through the controller 320.

The MC-sync unit 3405 receives a demodulation signal and generates a synchronization signal. Then, the synchronization signal is transmitted to the MC demodulator 3401. The MC-equalizer 3402 equalizes the demodulated signal from the MC-demodulator 3401. MC-error corrector 3403 corrects forward errors in the equalization signal from MC-equalizer 3402.

The MC-descrambler 3404 then descrambles the forward error correction signal from the MC-error corrector 3403. The MC-descrambler 3404 then generates an MPEG stream. In this case, the signal received by the tuner is a multiple carrier modulated signal. In this way, the digital multimedia signal receiver according to the present invention is capable of processing both single carrier and multiple carrier modulated signals.

The structure of the digital multimedia signal receiver according to the second, third and fourth embodiments of the present invention is similar to that of the first embodiment of the present invention.

The only difference is how the control unit 320 determines the modulation mode of the received signal. Therefore, detailed drawings showing the digital multimedia signal receivers of the second, third and fourth embodiments of the present invention are omitted. In the digital multimedia signal receiver according to the second embodiment of the present invention, the controller 320 determines the modulation mode of the received signal according to the transmission parameter signal (TPS) of the equalization signal from the SC-equalizer 3302. .

More specifically, the SC-demodulation unit 3301 demodulates the A / D converted signal transmitted through the control unit 320 and generates a demodulated signal. SC-equalizer 3302 equalizes the demodulated signal from SC-demodulator 3301. The SC-equalizer 3302 transmits an equalization signal to the controller 320. The controller 320 detects a TPS of the equalization signal. The controller 320 determines the modulation mode of the received signal according to the TPS of the equalization signal.

The controller 320 transmits the digital signal output from the analog-to-digital converter to one of the single carrier signal processor 330 and the multiple carrier signal processor 340 according to the detected modulation mode of the received signal. In other words, if the detected modulation mode indicates a single carrier modulation mode, the digital signal output from the analog-to-digital converter 310 is transmitted to the single carrier signal processor 330. If the detected modulation mode indicates the multi-carrier modulation mode, the digital signal output from the analog-to-digital converter is transmitted to the multi-carrier signal processor 340.

According to a third embodiment of the present invention, in the digital multimedia signal receiver, the control unit 320 determines the modulation mode of the signal according to the bit error rate (BER) of the forward error correction signal from the SC-error correction unit 3303. Decide

More specifically, the SC-demodulator 3301 demodulates an output signal from the controller 320 and generates a demodulated signal. The SC-equalizer 3302 equalizes the demodulated signal from the SC-demodulator 3301. SC-error corrector 3303 corrects forward errors of equalization signals from SC-equalizer 3302. Then, the forward error correction signal is transmitted to the control unit 320.

The controller 320 detects a bit error rate (BER) of the forward error correction signal output from the SC-error corrector 3303, and determines a modulation mode of the received signal based on the BER. The controller 320 transmits the digital signal from the analog-to-digital converter 320 to one of the single carrier signal processor 330 and the multiple carrier signal processor 340 according to the detected modulation mode of the received signal.

In other words, if the detected modulation mode indicates a single broadcast wave modulation mode, the digital signal output from the analog-to-digital converter 310 is transmitted to the single carrier signal processor 330. If the detected modulation mode indicates the multi-carrier modulation mode, the digital signal output from the analog-to-digital converter 310 is transmitted to the multi-carrier signal processor 340.

In the digital multimedia signal receiver according to the fourth embodiment of the present invention, the controller 320 determines a modulation mode of a signal according to an error signal (ES) of an MPEG stream from the SC-descrambler 3304.

More specifically, the SC-demodulation unit 3301 demodulates an output signal from the control unit 320 and generates a demodulation signal. SC-equalizer 3302 equalizes the demodulated signal from SC-demodulator 3301. SC-error corrector 3303 corrects forward errors in the equalization signal from SC-equalizer 3302. The SC-descrambler 3304 descrambles the forward error correction signal and generates an MPEG stream. Then, the MPEG stream is transmitted to the control unit 320. The control unit 320 detects the ES of the MPEG stream and transmits the digital signal from the digital converter 310 to the single carrier signal processor 330 and the multiple carrier signal processor according to the detected modulation mode of the received signal. 340).

In other words, if the detected modulation mode indicates a single single carrier modulation mode, the digital signal output from the analog-to-digital converter 310 is transmitted to the single carrier signal processor 330. If the detected modulation mode indicates the multi-carrier modulation mode, the digital signal output from the analog-to-digital converter is transmitted to the multi-carrier signal processor 340.

As already seen above, the modulation mode of the received signal is determined by testing the signal from the single carrier signal processor 330. However, the modulation mode of the received signal is determined by testing the signal from the multiple carrier signal processing section. The process of determining the modulation mode is similar to that described above. Therefore, detailed description thereof will be omitted.

The operation of the other components of the digital multimedia signal receiver according to the second, third and fourth embodiments is the same as that of the digital multimedia signal receiver according to the first embodiment. Therefore, detailed description of the operation principle of these components is omitted.

In the individual embodiments of the present invention, the controller 320 independently uses the testing signal from the single carrier modulated signal processor 330 or the multiple carrier modulated signal processor 340. However, the controller may use several testing signals from the single carrier modulated signal processor 330 or the multiple carrier modulated signal processor 340 when determining the mode of the received signal.

4 is a flowchart illustrating a method of receiving a digital multimedia signal receiver according to a first embodiment of the present invention. The analog to digital converter 310 converts an analog signal from the tuner into a digital signal (S410). The single carrier signal processor 330 processes the digital signal and generates a testing signal and an MPEG stream (S420).

Next, the controller 320 detects a modulation mode of the received signal according to the testing signal (S430). As a result of checking whether the detected modulation mode is the single carrier modulation mode (S440), in the case of the single carrier modulation mode, the controller S320 selects the single carrier signal processor S330. As a result, the digital signal output from the analog-to-digital converter 310 is transmitted to the single carrier signal processor 330 (S450).

If the detected modulation mode indicates the multi-carrier modulation mode, the controller 320 selects the multi-carrier signal processor 340. As a result, the digital signal output from the analog-to-digital converter 310 is transmitted to the multi-carrier signal processor 340 (S460). More specifically, the SC-demodulation unit 3301 demodulates the A / D converted signal output through the control unit 320 (S420). The SC-synchronizer 3305 generates a lock generation signal as a testing signal in accordance with an error rate (ER) of the demodulated signal from the SC-demodulator 3301.

In other words, the testing signal becomes a lock generation signal. The controller 320 receives the lock generation signal output from the SC-synchronous unit 3305 and detects a modulation mode of the received signal based on the lock generation signal (S430). The control unit 320 selects the single carrier signal processing unit 330 and transmits a digital signal from the analog-to-digital converter to the SC-demodulation unit 3301 (S450). The SC-demodulator 3301 demodulates the digital signal. The SC-synchronizer 3305 receives a demodulated signal, generates a sync signal, and transmits a sync signal to the SC- demodulator 3301.

The SC-equalizer 3302 equalizes the demodulated signal from the SC-demodulator 3301. The SC-error corrector 3303 corrects forward errors of the equalization signal from the SC-equalizer 3302. The SC-descrambler 3304 then descrambles the forward error correction signal from the SC-error corrector 3303. The controller 320 selects the multiple carrier signal processor and transmits a digital signal from the analog-to-digital converter to the MC-demodulator 3401 (S460). The MC demodulator 3401 demodulates the digital signal.

The MC-synchronizer 3405 receives a demodulated signal, generates a synchronous signal, and transmits a synchronous signal to the MC-demodulated unit 3401. The MC-equalizer 3402 equalizes the demodulated signal from the MC-demodulator 3401. The MC-error corrector 3403 corrects forward errors of the equalization signal from the MC-equalizer 3402. The MC-descrambler 3404 then descrambles the forward error correction signal from the MC-error corrector 3403 and generates an MPEG stream.

The receiving method of the digital multimedia signal receiver according to the second, third and fourth embodiments of the present invention is similar to the receiving method of the first embodiment of the present invention, and the only difference is how the control unit 320 receives the received signal. Whether to determine the modulation mode. In the receiving method of the digital multimedia signal receiver according to the second embodiment of the present invention, the only difference is that the control unit 320 determines the modulation mode of the received signal according to the TPS of the equalizing signal from the SC-equalizer 3302. Is the point. In this case, the testing signal is a TPS.

More specifically, the SC-demodulation unit 3301 demodulates an output signal from the control unit 320 and generates a demodulation signal (S420). The SC-equalizer 3302 equalizes the demodulated signal from the SC-demodulator and transmits the equalized signal to the controller 320. The controller 320 detects a TPS of the output signal from the SC-equalizer 3302 and determines a modulation mode of the received signal based on the TPS (S430). In the receiving method of the digital multimedia signal receiver according to the third embodiment of the present invention, the only difference is that the control unit 320 determines the modulation mode of the signal according to the BER of the forward error correction signal in the SC-error correction unit 3303. Is that. In this case, the testing signal is BER.

More specifically, the SC-demodulation unit 3301 demodulates the output signal from the control unit 320 (S420). The SC-equalizer 3302 equalizes the demodulated signal from the SC-demodulator, and the SC-error corrector 3303 corrects the forward error of the equalized signal from the SC-equalizer 3302.

The control unit 320 detects the BER of the output signal from the SC-error correction unit 3303, and determines the modulation mode of the received signal based on the BER (S430).

In the receiving method of the digital multimedia signal receiver according to the fourth embodiment of the present invention, the only difference is that the control unit 320 determines the modulation mode of the signal according to the ES of the MPEG stream output from the SC-descrambler 3304. Is that. In this case the testing signal would be ES. In more detail, the SC-demodulation unit 3301 demodulates the A / D converted signal through the control unit 320 (S420).

The SC-equalizer 3302 equalizes the demodulated signal from the SC-demodulator 3301, and the SC-error corrector 3303 corrects forward errors of the equalized signal from the SC-equalizer 3302. SC-descrambler 3304 descrambles the forward error correction signal and generates an MPEG stream. The controller 320 detects the ES of the MPEG stream output from the SC-descrambler 3304 and determines the modulation mode of the received signal based on the ES of the MPEG stream (S430).

As described above, according to the present invention, the digital multimedia signal receiver and the receiving method having the above-described structure can automatically process any one of a single carrier modulated signal and a multiple carrier modulated signal according to the modulation mode of the received signal.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

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

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

3 is a block diagram illustrating a digital multimedia signal receiver according to a first embodiment of the present invention; and

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

Claims (17)

A digital multimedia signal receiver for receiving and processing a single carrier modulated signal or a multiple carrier modulated signal, An A / D converter converting the received single carrier modulated signal or multiple carrier modulated signal into a digital signal; And Processes the digital signal converted by the A / D converter according to the modulation mode of the digital signal, and if the modulation mode is determined to be a single carrier modulation mode, the digital output from the A / D converter according to the single carrier modulation mode A signal processor for processing a signal and processing a digital signal output from the A / D converter according to the multi-carrier modulation mode when the modulation mode is determined to be a multi-carrier modulation mode. The digital multimedia signal receiver, And a modulation mode of the digital signal according to at least one reference signal generated by the signal processor, wherein the reference signal is modulated according to a modulation mode indicated by the signal. The method of claim 1, The signal processing unit, A demodulator for demodulating the A / D converted signal output from the A / D converter; A synchronization unit for receiving the demodulated signal output from the demodulator and generating a synchronization signal; An equalizer which equalizes the demodulated signal output from the demodulator; A forward error correction (FEC) unit for error correcting the equalized signal output from the equalizer; And a descrambler configured to descramble the error corrected signal outputted from the FEC unit and to generate multimedia data. 3. The method of claim 2, And at least one of the demodulator, the synchronizer, the equalizer, the FEC unit, and the descrambler outputs the at least one reference signal. The method of claim 1, The at least one reference signal is a digital multimedia signal receiver, characterized in that the transmission parameter signal (TPS). 5. The method of claim 4, And the TPS includes transmission mode information including information such as a code rate and a modulation mode. The method of claim 3, And the equalizer outputs the TPS of the equalized signal as the reference signal. A digital multimedia signal receiver for receiving and processing a single carrier modulated signal or a multiple carrier modulated signal, An A / D converter converting the received single carrier modulated signal or multiple carrier modulated signal into a digital signal; A single carrier signal processor for processing the single carrier modulated signal according to the modulation mode of the digital signal; And And a multi-carrier signal processor configured to process the multi-carrier modulated signal according to the modulation mode of the digital signal. At least one reference signal is provided from one of the single carrier signal processor and the multiple carrier signal processor, the modulation mode of the digital signal is determined according to the at least one reference signal, When the modulation mode of the digital signal indicates a single carrier modulation mode, the digital signal from the A / D converter is provided to the single carrier signal processor, When the modulation mode of the digital signal indicates a multi-carrier modulation mode, the digital signal from the A / D converter is provided to the multi-carrier signal processing unit, And the reference signal is modulated according to a modulation mode indicated by the reference signal. The method of claim 7, wherein The single carrier signal processing unit, An SC-demodulator for demodulating the A / D converted signal output from the A / D converter; An SC-synchronizer for receiving the demodulated signal output from the SC-demodulator, generating a synchronization signal, and providing the synchronization signal to the SC-demodulator; An SC-equalizer for equalizing the demodulated signal output from the SC-demodulator; An SC-FEC unit for error correcting the equalized signal output from the SC-equalizer; And an SC-descrambler for descrambling the error corrected signal output from the SC-FEC unit and generating an MPEG stream. The multi-carrier signal processing unit, An MC-demodulation unit for demodulating the A / D converted signal output from the A / D converter; An MC-synchronizer for receiving the demodulated signal output from the MC-demodulator, generating a synchronization signal, and providing the synchronization signal to the MC demodulator; An MC-equalizer which equalizes the demodulated signal output from the MC-demodulator; An MC-FEC unit for error correction of the equalized signal output from the MC-equalizer; And a MC-descrambler for descrambling the error corrected signal output from the MC-FEC unit and generating an MPEG stream. The method of claim 8, The SC-demodulator, the SC-synchronizer, the SC-equalizer, the SC-FEC unit and the SC-descrambler, the MC-demodulator, the MC-synchronizer, the MC-equalizer, and the MC At least one of the FEC unit and the MC-descrambler outputs at least one reference signal. The method of claim 7, wherein The at least one reference signal is a digital multimedia signal receiver, characterized in that the transmission parameter signal (TPS). The method of claim 10, And the TPS has transmission mode information including information such as a code rate and a modulation mode. 10. The method of claim 9, The SC-equalizer or the MC-equalizer outputs the TPS of the equalized signal as the reference signal. A reception method of a digital multimedia signal receiver for receiving and processing a single carrier modulated signal or a multiple carrier modulated signal, Converting the received single carrier modulated signal or multiple carrier modulated signal into a digital signal; Determining a modulation mode of the digital signal according to at least one reference signal; If the result of the step of determining the modulation mode of the digital signal is determined to be a single carrier modulation mode, processing the signal converted into the digital signal according to the single carrier modulation mode; And If the result of the step of determining the modulation mode of the digital signal is determined to be a multi-carrier modulation mode, processing the signal converted into the digital signal according to the multi-carrier modulation mode; And the reference signal is modulated according to a modulation mode indicated by the reference signal. The method of claim 13, And in the determining of the modulation mode of the digital signal, the at least one reference signal is a transmission parameter signal (TPS). The method of claim 14, And the TPS includes transmission mode information including information such as a code rate and a modulation mode. A digital multimedia signal receiving module for receiving and processing a single carrier modulated signal or a multiple carrier modulated signal, An A / D converting unit for converting the received single carrier modulated signal or multiple carrier modulated signal into a digital signal; And Process the digital signal converted by the A / D converting unit according to the modulation mode of the digital signal, and output from the A / D converting unit according to the single carrier modulation mode when the modulation mode is determined to be a single carrier modulation mode. A signal processing unit for processing a digital signal, and for processing a digital signal output from the A / D converting unit according to the multi-carrier modulation mode when the modulation mode is determined to be a multi-carrier modulation mode. The digital multimedia signal receiving module, And determining a modulation mode of the digital signal according to at least one reference signal generated by the signal processing unit, wherein the reference signal is modulated according to a modulation mode indicated by the signal. A digital multimedia signal receiving module for receiving and processing a single carrier modulated signal or a multiple carrier modulated signal, An A / D converting unit for converting the received single carrier modulated signal or multiple carrier modulated signal into a digital signal; A single carrier signal processing unit for processing the single carrier modulated signal according to the modulation mode of the digital signal; And A multiple carrier signal processing unit configured to process the multiple carrier modulated signal according to a modulation mode of the digital signal, At least one reference signal is provided from one of the single carrier signal processing unit and the multiple carrier signal processing unit, the modulation mode of the digital signal is determined according to the at least one reference signal, The digital signal from the A / D converting unit is provided to the single carrier signal processing unit when the modulation mode of the digital signal indicates a single carrier modulation mode, The digital signal from the A / D converting unit is provided to the multi-carrier signal processing unit when the modulation mode of the digital signal indicates a multi-carrier modulation mode, And the reference signal is modulated according to a modulation mode indicated by the reference signal.

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