CN101383800A - Digital multimedia receiver and digital multimedia receiving method thereof - Google Patents

Abstract

The invention provides a digital multimedia receiver for processing digital multimedia signals modulated by multi-carrier and digital multimedia signals modulated by single-carrier, and the digital multimedia receiving method thereof. The digital multimedia receiver comprises a radio-frequency head for receiving modulated digital multimedia signals, an analog-digital converter (ADC) for converting the signals outputted from the high-frequency head into digital signals, a mode tester for testing whether the signals outputted from the ADC are digital multi-carrier-modulated signals or are digital signal-carrier-modulated singles according to identification information which is read out from singles outputted by the ADC, and a demodulation unit for demodulating the digital multi-carrier-modulated signals and the digital signal-carrier-modulated singles which are outputted from the ADC according to the test result outputted from the mode tester. The identification information comprises a PN sequence or at least one pilot, or the both.

Description

Digital multimedia receiver and digital multimedia method of reseptance thereof

The application is to be that December 17, application number in 2004 are 200410098816.9, are entitled as the dividing an application of patent application of " digital multimedia receiver and digital multimedia method of reseptance thereof " applying date.

Technical field

The present invention relates to a kind of digital multimedia receiver and a kind of digital multimedia method of reseptance, relate in particular to the digital multimedia receiver and the digital multimedia method of reseptance thereof of the digital multimedia signal of a kind of digital multimedia signal of handling multi-carrier modulation and single-carrier modulated.

Background technology

In the epoch of multimedia communication and broadcasting, the digitlization to the broadcasting of simulation class is carried out in countries in the world.Especially in the picture U.S., Europe and Japanese developed country, developed digit broadcasting system and entered practicality.According to development so fast, in each country, various criterion has been proposed in digital broadcasting.

On December 24th, 1996, FCC (FCC) has proposed Advanced Television Systems Committee (ATSC) digital television standard as television broadcasting standard of future generation.All terrestrial broadcasting operators must abide by the ATSC standard about the standard of video/audio compression, packet data transmission structure and modulation and transmission system.Only about the standard of video format not by concrete regulation, but leave the industry decision for.

ATSC numeral TV standard utilizes single carrier VSB mode to transmit high-quality video, audio frequency and additional data on the bandwidth of 6MHz, and supports terrestrial broadcasting pattern and high data rate cablecast pattern simultaneously.The main aspect of this mode is to be used for the 8-VSB modulator approach of improved form of the existing BSB mode of conduct of digital modulation.

In Europe, for its high frequency efficiency and antijamming capability and with COFDM (Coded Orthogonal Frequency Division Multiplexing (COFDM)) system applies in DVB-T (digital video broadcast-terrestrial).

Other uses the DMB scheme of multiple modulator approach to be suggested, and all schemes can be divided into multi-carrier scheme and single-carrier scheme.Therefore, the conventional digital multi-media receiver is divided into multi-carrier digital multi-media receiver and single carrier digital multimedia receiver.

Fig. 1 is the schematic block diagram that illustrates according to the multi-carrier digital multi-media receiver of prior art.

Traditional multi-carrier digital multi-media receiver comprises: tuner 110 is used to receive the digital multimedia signal of multi-carrier modulation; Analog to digital converter (ADC) 120, being used for the conversion of signals from tuner 110 outputs is digital signal; Demodulator 130 is used for the signal of demodulation from the multi-carrier modulation of ADC 120 outputs; Fast Fourier transform (FFT) unit 140 is used for carrying out fast fourier transform from the signal of demodulator 130 outputs; (SYNC) unit 150 is used for by using from the signal of demodulator 130 outputs or the signal of 140 outputs from the FFT unit to come demodulator 130 is carried out synchronously synchronously; Balanced unit 160 is used for the signal of 140 outputs from the FFT unit is carried out equilibrium; Forward error correction (FEC) unit 170 is used for carrying out forward error correction from the signal of balanced unit 160 outputs; And descrambler 180, be used for the signal of 170 outputs from the FEC unit is carried out descrambling code to obtain mpeg stream.

Fig. 2 is the schematic block diagram that illustrates according to the single carrier digital multimedia receiver of prior art.

Traditional single carrier digital multimedia receiver comprises: tuner 210 is used to receive the digital multimedia signal of single-carrier modulated; Analog to digital converter (ADC) 220, being used for the conversion of signals from tuner 210 outputs is digital signal; Demodulator 230 is used for the single-carrier modulated signals of demodulation from ADC 220 outputs; (SYNC) unit 240 is used for by using from the signal of demodulator 230 outputs to come demodulator 230 is carried out synchronously synchronously; Balanced unit 250 is used for the signal from demodulator 230 outputs is carried out equilibrium; Forward error correction (FEC) unit 260 is used for carrying out forward error correction from the signal of balanced unit 250 outputs; And descrambler 270, be used for the signal of 260 outputs from the FEC unit is carried out descrambling code to obtain mpeg stream.

As everyone knows, in prior art, do not have a kind of digital multimedia receiver handle the digital multimedia signal of multi-carrier modulation and single-carrier modulated digital multimedia signal the two, that is, traditional digital multimedia receiver can not be operated in the multiple digital multimedia broadcasting system.

Summary of the invention

In order to solve above-mentioned shortcoming and the other problem in the traditional scheme, exploitation the present invention.

According to an aspect of the present invention, the digital multimedia receiver of the digital multimedia signal of a kind of digital multimedia signal that is used to handle multi-carrier modulation and single-carrier modulated comprises: tuner is used to receive the modulated digital multi-media signal; Analog to digital converter (ADC), being used for the conversion of signals from tuner output is digital signal; Mode detector, being used for detecting from the signal of ADC output according to the identifying information that the signal from ADC output reads is the signal or the digital single-carrier modulated signals of the multi-carrier modulation of numeral; And demodulating unit, be used for according to come demodulation from the testing result of mode detector output from the signal of the multi-carrier modulation of the numeral of ADC output and the single-carrier modulated signals of numeral.

According to an aspect of the present invention, the demodulating unit of digital multimedia receiver comprises: switch is used for according to switching from the signal of ADC output from the result of mode detector output; The multicarrier demodulator is used to separate the signal of menstruation regulating switch from the multi-carrier modulation of the numeral of ADC output; And the single carrier demodulation device, be used to separate the single-carrier modulated signals of menstruation regulating switch from the numeral of ADC output.

According to an aspect of the present invention, the demodulating unit of digital multimedia receiver comprises: wherein be preset with the demodulator of multicarrier and single carrier demodulation parameter, be used for coming demodulation from one of the signal of the multi-carrier modulation of the numeral of ADC output and single-carrier modulated signals of numeral according to the result from mode detector output; And switch, be used for switching from the signal of demodulator output according to signal from mode detector output.

According to digital multimedia receiver of the present invention, the identifying information that is detected by mode detector is PN (pseudorandom noise) sequence that is inserted in the head of Frame of digital multimedia signal.

According to digital multimedia receiver of the present invention, the identifying information that is detected by mode detector is that at least one is inserted into the pilot tone in the modulated digital multi-media signal.

According to digital multimedia receiver of the present invention, the identifying information that is detected by mode detector is to be inserted into PN sequence in the head of Frame of digital multimedia signal and at least one to be inserted into pilot tone in the modulated digital multi-media signal.

According to a further aspect in the invention, the digital multimedia method of reseptance of the digital multimedia signal of a kind of digital multimedia signal that is used to handle multi-carrier modulation and single-carrier modulated may further comprise the steps: a) receive the modulated digital multi-media signal; B) conversion of signals that will export from step a) is a digital signal; C) detect signal or the digital single-carrier modulated signals that the signal of exporting is the multi-carrier modulation of numeral according to the identifying information that reads in the signal of from step b), exporting from step b); And d) comes the signal of multi-carrier modulation of the numeral that demodulation exports and the single-carrier modulated signals of numeral according to the testing result from step c), exported from step b).

According to digital multimedia method of reseptance of the present invention, in step c), identifying information is PN (pseudorandom noise) sequence that is inserted in the head of Frame of digital multimedia signal.

According to digital multimedia method of reseptance of the present invention, in step c), identifying information is that at least one is inserted into the pilot tone in the modulated digital multi-media signal.

According to digital multimedia method of reseptance of the present invention, in step c), identifying information is to be inserted into PN sequence in the head of Frame of digital multimedia signal and at least one to be inserted into pilot tone in the modulated digital multi-media signal.

Therefore, the identifying information that PN sequence in the head of the Frame that is inserted into digital multimedia signal and at least one are inserted into the pilot tone in the modulated digital multi-media signal is detected, thereby this receiver can determine that the signal when pre-treatment is the signal or the single-carrier modulated signals of multi-carrier modulation.

Description of drawings

By the detailed description of carrying out below in conjunction with accompanying drawing, above-mentioned aspect of the present invention and other characteristics and advantage will become apparent, wherein:

Fig. 1 is the schematic block diagram that illustrates according to the multi-carrier digital multi-media receiver of prior art;

Fig. 2 is the schematic block diagram that illustrates according to the single carrier digital multimedia receiver of prior art;

Fig. 3 is the example block diagram that the digital multimedia transmitter that is used to send the digital multimedia signal that has wherein inserted identifying information is shown;

Fig. 4 is the example block diagram of digital multimedia receiver of digital multimedia signal that is used to handle the digital multimedia signal of multi-carrier modulation and single-carrier modulated that illustrates according to first embodiment of the invention;

Fig. 5 is the example block diagram of digital multimedia receiver of digital multimedia signal that is used to handle the digital multimedia signal of multi-carrier modulation and single-carrier modulated that illustrates according to second embodiment of the invention;

Fig. 6 a is the schematic diagram that illustrates according to the structure of the demodulating unit of the digital multimedia receiver of second embodiment of the invention;

Fig. 6 b is the schematic diagram that illustrates according to the demodulation parameter of signal of storing in the register array in the demodulator of the demodulating unit of second embodiment of the invention that is used for multi-carrier modulation and single-carrier modulated signals;

Fig. 7 illustrates based on the mode detection principle of PN sequence and has wherein inserted the Frame of signal of multi-carrier modulation of PN sequence and the schematic diagram of the structure of the Frame of single-carrier modulated signals;

Fig. 8 illustrates based on the mode detection principle of pilot tone and is inserted into the schematic diagram of the pilot tone in the signal of modulation; And

Fig. 9 is the flow chart that is used to handle the digital multimedia method of reseptance of the signal of multi-carrier modulation and single-carrier modulated signals according to the present invention.

Embodiment

Describe the present invention in detail with reference to accompanying drawing.Identical label refers to identical parts in the accompanying drawing.

Fig. 3 is the example block diagram that the digital multimedia transmitter that is used to send the digital multimedia signal that has wherein inserted identifying information is shown.

The transmitter that has wherein inserted identifying information in the digital multimedia signal that will be launched comprises: scrambler 310 is used for mpeg stream is carried out scrambler; FEC (forward error correction) unit 320 is used for the signal from scrambler 310 outputs is carried out forward error correction; Modulation/IDFT (inverse discrete Fourier transformer inverse-discrete) unit 330 is used for the signal of 320 outputs from the FEC unit is modulated or inverse discrete Fourier transformer inverse-discrete; The PN sequence is inserted unit 340, is used for the PN sequence is inserted the head of the Frame of the signal of 330 outputs from modulation/IDFT unit; Pilot plug-in unit 350 is used at least one pilot tone is inserted into the signal that inserts unit 340 outputs from the PN sequence; And RF unit 360, being used for the conversion of signals from pilot plug-in unit 350 outputs is the RF signal.

In traditional multicarrier and single carrier digital multimedia system, PN sequence and at least one pilot tone of being inserted in transmitter in the signal are used as in receiver synchronously and channel estimating.Yet in the present invention, PN sequence and pilot tone can be used as and be used for the identifying information that signal and single-carrier modulated signals with multi-carrier modulation differentiate.

Be that only a kind of identifying information such as PN sequence or at least one pilot tone or this two kinds of identifying informations are inserted into and depend on transmitter in the signal.If the structure of modulating mode or Frame is changed, then other identifying information corresponding to this transmission mode can be inserted in the signal in transmitter.

Fig. 4 is the example block diagram of digital multimedia receiver of digital multimedia signal that is used to handle the digital multimedia signal of multi-carrier modulation and single-carrier modulated that illustrates according to first embodiment of the invention.

Be used to handle the signal of multi-carrier modulation and the digital multimedia receiver of single-carrier modulated signals comprises: tuner 410; ADC (analog to digital converter) 420; Mode detector 430, being used for detecting from the signal of ADC 420 outputs according to the identifying information that the signal from ADC420 output reads is the signal or the digital single-carrier modulated signals of the multi-carrier modulation of numeral; Demodulating unit 440 is used for according to come demodulation from the signal of the multi-carrier modulation of the numeral of ADC 420 outputs and the single-carrier modulated signals of numeral from the testing result of mode detector 430 outputs; And multicarrier after demodulating unit 440 and single carrier processing unit.Except mode detector 430 and demodulating unit 440, work in the mode identical with those unit in traditional receiver according to whole unit of digital multimedia receiver of the present invention.Therefore, the work of those unit will be described in detail.

Demodulating unit 440 comprises switch 441, multicarrier demodulator 442 and single carrier demodulation device 443.

As shown in Figure 4, mode detector 430 detects specific PN sequence in being inserted into signal and the identifying information at least one special pilot from the signal of ADC 420 output, thereby can determine that from the signal of ADC 420 outputs be the signal or the single-carrier modulated signals of multi-carrier modulation.Thereafter, mode detector 430 outputs to switch 441 with testing result.Corresponding to the testing result from mode detector 430 outputs, switch 441 switches, and correspondingly handles from the signal or the single-carrier modulated signals of the multi-carrier modulation of ADC 420 outputs to allow multicarrier demodulator 442 or single carrier demodulation device 443.After this, multicarrier demodulator 442 or single carrier demodulation device 443 correspondingly send to corresponding subsequent multicarrier or single carrier processing unit with the signal of demodulation.

Next, be described in the processing that detects identifying information in the mode detector 430 with reference to Fig. 7 and 8.

Fig. 7 illustrates based on the mode detection principle of PN sequence and has wherein inserted the Frame of signal of multi-carrier modulation of PN sequence and the schematic diagram of the structure of the Frame of single-carrier modulated signals.

Describe with reference to Fig. 3 as above, the identifying information such as PN sequence and at least one pilot tone is inserted in the signal at the digital multimedia transmitter.After receiving the digital multimedia transmission signals from transmitter, digital multimedia receiver is handled the signal that receives.

When according to PN Sequence Detection multi-carrier mode or single carrier mode, mode detector 430 reads the PN sequence from the head from the Frame of the signal of ADC 420 output.Thereafter, the PN sequence that mode detector 430 will read from the head from the Frame of the signal of ADC 420 output be stored in comparing the mode detector 430 corresponding to the signal of multi-carrier modulation and the PN sequence of single-carrier modulated signals, thereby determine that the PN sequence that reads is corresponding with the PN sequence of presetting which is stored in the mode detector 430.From comparison, mode detector 430 determines that the transmission mode of digital multimedia signal (promptly from wherein reading the signal of PN sequence) is multi-carrier mode or single carrier mode.Thereafter, mode detector 430 outputs to switch 441 with testing result.

Fig. 8 illustrates based on the mode detection principle of pilot tone and is inserted into the schematic diagram of the pilot tone in the signal of modulation.

When according at least one pilot detection multi-carrier mode or single carrier mode, mode detector 430 is from detecting at least one pilot tone from the signal of ADC 420 outputs.Thereafter, mode detector 430 calculate pilot tones power peak value and from the difference power between the average power content of the signal of ADC 420 outputs.If in the scope of detected difference power default value that is used for multi-carrier signal in mode detector 430, determine that then the pilot tone corresponding to Pm is the pilot tone that is used for the signal of multi-carrier modulation, described Pm is the difference power between the average power content of the signal of the peak value of the power of the pilot tone of the signal that is used for multi-carrier modulation and this multi-carrier modulation.In other words, the modulation signal that inserts corresponding to the pilot tone of Pm is the signal of multi-carrier modulation.Similarly, if the pilot tone that is detected is corresponding to Ps, determine that then the modulation signal that pilot tone is inserted is a single-carrier modulated signals, described Ps is the difference power between the average power content of the peak value of the power of the pilot tone that is used for single-carrier modulated signals and this single-carrier modulated signals.

Those skilled in the art are readily appreciated that these two kinds of identifying informations can be used alone or be used in combination.

Fig. 5 is the example block diagram of digital multimedia receiver of digital multimedia signal that is used to handle the digital multimedia signal of multi-carrier modulation and single-carrier modulated that illustrates according to second embodiment of the invention.

Except comprising the demodulating unit 540 of demodulator 541, switch 542, whole processing units of the digital multimedia receiver shown in Fig. 5 are identical with those processing units shown in Fig. 4.Therefore, the operational processes that is used to detect the identifying information such as PN sequence and at least one pilot tone is in this embodiment handled identical with the detecting operation of the embodiment shown in Fig. 4.Yet, according to different with demodulation process the embodiment shown in Fig. 4 from the demodulation process of the testing result of mode detector 430 output.

As shown in Figure 5, in the register array of demodulator 541, stored a plurality of multicarriers and single carrier demodulation parameter, thereby demodulator 541 can be according to the signal and the single-carrier modulated signals of these parameters difference demodulation multi-carrier modulation.

Afterwards, will this operational processes be described in conjunction with Fig. 6 a and 6b.

Fig. 6 a is the schematic diagram that illustrates according to the structure of the demodulating unit of the digital multimedia receiver of second embodiment of the invention.

Fig. 6 b is the schematic diagram that illustrates according to the demodulation parameter of signal of storing in the register array in the demodulator of the demodulating unit of second embodiment of the invention that is used for multi-carrier modulation and single-carrier modulated signals.

Shown in Fig. 6 a, demodulator 541 comprises a plurality of be used to carry out demodulation multiplication unit M1 to M4 that calculates and the register arrays that store multicarrier and single carrier demodulation parameter.These multiplication units M1 to M4 correspondingly carries out multicarrier demodulation calculating or single carrier demodulation calculating by the demodulation parameter that uses the demodulation parameter that is used for multi-carrier mode as Fig. 6 b as shown in or be used for single carrier mode.According to testing result from mode detector 430 outputs, multiplication unit M1 to M4 reads the demodulation parameter C11 to C14 that is used for multi-carrier mode respectively and calculates to carry out the multicarrier demodulation, perhaps reads the demodulation parameter C21 to C24 that is used for single carrier mode respectively and calculates with fill order's carrier wave demodulation.The signal of multicarrier demodulation or the signal of single carrier demodulation like this, have just been obtained.

If it is signals of multi-carrier modulation that mode detector 430 detects from the signal of ADC 420 outputs, then switch 542 switches to allow the signal of follow-up multicarrier processing unit processes from the demodulation of demodulator 541 outputs according to this testing result.Similarly, are single-carrier modulated signals if mode detector 430 detects from the signal of ADC 420 outputs, then switch 542 switches to allow the signal of follow-up single carrier processing unit processes from the demodulation of demodulator 541 outputs according to this testing result.

Fig. 9 is the flow chart that is used to handle the digital multimedia method of reseptance of the signal of multi-carrier modulation and single-carrier modulated signals according to the present invention.

In step S910, receiver receives the digital multimedia signal of multi-carrier modulation or the digital multimedia signal of single-carrier modulated.In step S920, ADC will be a digital signal from the conversion of signals of step S910 output.In step S930, whether be the signal of multi-carrier modulation according to be inserted into identifying information in the signal in transmitter if detecting this signal for mode detector 430.If detected signal is the signal of multi-carrier modulation, then demodulating unit in step S950, is carried out multicarrier demodulation processing afterwards thereafter with this signal of multicarrier demodulation modes demodulation in receiver in step S940.If detected signal is not the signal of multi-carrier modulation, then in step S960 demodulating unit with this signal of single carrier demodulation pattern demodulation, thereafter in step S970, the processing in receiver after fill order's carrier wave demodulation.

Thereby the detailed process in step S930 is similar in the above and will be omitted with reference to the described corresponding contents about mode detector 430 of Fig. 4.

The aforesaid identifying information that is inserted in the digital multimedia signal comprise PN sequence, at least one pilot tone or they the two.Those skilled in the art are readily appreciated that corresponding to any other identifying information of transmission mode and can be used to discern the signal or the single-carrier modulated signals of multi-carrier modulation.

As mentioned above, according to digital multimedia receiver of the present invention and digital multimedia method of reseptance, by detecting the identifying information in transmitter, be inserted in the signal, not only can handle the digital multimedia signal of multi-carrier modulation but also digital multimedia signal that can processing single-carrier modulated.That is, can be operated in the multiple digital multimedia broadcasting system according to digital multimedia receiver of the present invention.

Although embodiments of the invention are shown and described, it will be understood to those of skill in the art that and in the scope that does not break away from principle of the present invention and essence, to make any change and adjustment that its scope is limited by claims and equivalent thereof.

Claims (6)

1, a kind of digital broadcasting transmitter comprises:

Tuner is used to receive the signal that comprises a plurality of pilot tones;

Analog to digital converter (ADC), being used for the conversion of signals from tuner output is digital signal;

Demodulating unit is used for the signal of demodulation from ADC output;

Lock unit is used to use the signal from demodulating unit output that demodulating unit is carried out synchronously;

Balanced unit is used for the signal from demodulating unit output is carried out equilibrium;

Forward error correction unit is used for carrying out forward error correction from the signal of balanced unit output; And

Descrambler is used for the signal from the output of forward direction error correction unit is carried out descrambling code.

2, receiver as claimed in claim 1, wherein, lock unit uses the described a plurality of pilot signals from the signal of demodulating unit output that demodulating unit is carried out synchronously.

3, receiver as claimed in claim 1 also comprises:

The fast Fourier transform (FFT) unit is used for carrying out fast fourier transform from the signal of demodulating unit output.

4, a kind of method that is used for receiving digital broadcast comprises:

Reception comprises the signal of a plurality of pilot tones;

With the conversion of signals that receives is digital signal;

Signal to conversion carries out demodulation;

Use the signal of demodulation that the demodulating unit that is used for restituted signal is carried out synchronously;

Signal to demodulation carries out equilibrium;

Signal to equilibrium is carried out forward error correction; And

Signal to error correction carries out descrambling code.

5, method as claimed in claim 4, wherein, synchronous step comprises:

Described a plurality of pilot tones in the signal of use demodulation are carried out demodulating unit synchronously.

6, method as claimed in claim 4 also comprises:

Signal to demodulation is carried out fast fourier transform.

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