KR100906339B1 - Single Carrier Transmitter capable of inserting field-synch. of variable symbols into a field - Google Patents

Abstract

A single carrier transmission system is disclosed which can vary the length of field synchronization. In a single carrier transmission system, a channel coding unit for performing channel coding for correction of channel errors occurring on a transmission for a broadcast signal, and a mode for providing service mode information determined according to a transmission rate required for transmitting a broadcast signal The information providing unit inserts a segment sync for each segment of the broadcast signal on which channel coding is performed and broadcasts a variable number of symbols for each field of the broadcast signal on which channel coding is performed based on service mode information. A multi-switching unit for inserting field synchronization having a field synchronization, a pilot inserting unit for inserting a pilot in a broadcast signal including field synchronization and segment synchronization, a modulation unit for modulating the broadcast signal in which the pilot is inserted according to a set modulation method, and According to a modulation method, an RF amplifier for amplifying a broadcast signal subjected to modulation in high frequency. On the receiving side, field synchronization consisting of a plurality of segments enables more accurate estimation of the transmission channel.

Frame, Segment, Field Sync, Segment Sync, Service Mode

Description

Single carrier transmission system capable of varying the length of the field synchronization. of variable symbols into a field}

1 is a view showing the structure of a data frame of a VSB broadcast signal transmitted through a conventional VSB transmitter;

2 is a diagram showing the structure of field synchronization information of 8 VSB among VSB broadcast signals;

3 is a view showing a data segment structure of 8 VSB among VSB broadcast signals;

4 is a block diagram showing a preferred embodiment of a single carrier transmission system according to the present invention;

5 is a diagram illustrating an example of a structure of a data frame in which field synchronization is inserted into a broadcast signal in a multi-switching unit according to service mode information provided by the mode information providing unit of FIG. 4;

FIG. 6 is a diagram illustrating a segment structure of field synchronization inserted through the multi-switching unit of FIG. 4; and

7 is a flowchart illustrating a preferred embodiment of a broadcast signal transmission method using a single carrier transmission system according to the present invention.

Explanation of symbols on the main parts of the drawings                 

100: data insertion unit 120: channel coding unit

140: mode information providing unit 160: multi-switching unit

180: pilot insertion unit 200: modulator

220: RF amplifier 240: antenna

The present invention relates to a single carrier transmission system. More specifically, the present invention relates to data field synchronization including synchronization information for each data field of a VSB broadcast signal and synchronization information of each data segment of the data field. The present invention relates to a single carrier transmission system for inserting and including segment synchronization into a VSB broadcast signal.

Broadcast signal transmission methods for digital broadcasting include residual sideband (VSB) modulation and coded orthogonal frequency division multiplexing (COFDM) modulation.

The VSB modulation method is a modulation method for transmitting a broadcast signal for transmitting a broadcast signal on a single carrier. The COFDM modulation method is a modulation method for broadcasting signal transmission in which a broadcast signal is multi-divided and transmitted through multiple transmission channels.

Residual sideband modulation is a digital broadcasting transmission system adopted by Korea and the United States, and coded orthogonal frequency division multiple modulation is a European digital broadcasting transmission system.

1 is a diagram showing the structure of a data frame of a VSB broadcast signal transmitted through a conventional VSB transmitter. The figure shows one data frame of the data frames of the VSB broadcast signal. Therefore, one data frame is composed of a first field (filed) and a second field, that is, two fields. Each field consists of 313 segments. Since the first field and the second field have the same kind of information, the first field will be described as an example.

The first field includes data including first field synchronization information (F1), segment synchronization information (S), and FEC (Forward Error Correction), which is encrypted error check information for error correction occurring during transmission of a VSB broadcast signal. It consists of. In this case, the first field synchronization information F1 includes synchronization information for notifying the start of the input of the first field, and includes 828 symbols. Segment synchronization information includes synchronization information indicating the start of every segment, and consists of 313 segments, each of which consists of four symbols. The repetition period per segment is 77.3 ms, and the repetition period per field is 24.2 ms. Therefore, the repetition period of one data frame is 48.4 ms.

Therefore, like the data frame of the conventional VSB broadcast signal, the field synchronization information F1, F2 inserted into each field is inserted into one segment of 828 symbols.

2 is a diagram showing the structure of field synchronization information of 8 VSB among VSB broadcast signals. Note that the field synchronization information shown is the level value before inserting the pilot. The field synchronization information includes field start information (FS), which is start information on the field synchronization information, PN511 and three PN63s used as field start information, mode information indicating a VSB mode, reserved areas that are not used, and Contains precode information (PC). PN511 and PN63 are information coded in a pseudo-random sequence. At this time, the field start information (FS) is segment synchronization information for the field synchronization information of the segment synchronization information (S).

The field start information FS is composed of the same four symbols as each segment synchronization information, and the PN511 is composed of 511 symbols. The three PN63s each consist of 63 symbols, and the mode information consists of 24 symbols. The reserved is composed of 104 symbols, and the precode information PC is included in the reserved area and is composed of 12 symbols.

3 is a diagram illustrating a data segment structure of 8 VSBs of a VSB broadcast signal. For reference, the illustrated data segment is a level value before inserting the pilot. The data segment is composed of segment synchronization information and data including the FEC. Segment synchronization information is start information of a data segment and consists of four symbols. Data is the actual data for servicing the VSB receiver and consists of 828 symbols per segment. Therefore, one data segment consists of 832 symbols.

On the other hand, in the data frame of the VSB broadcast signal, each field synchronization is used for estimating a transmission channel when restoring a signal at the receiving side. However, the field synchronization inserted into each field substantially corresponds to the corresponding field 1/313. That is, one field synchronization is inserted per 312 data segments. Since the period of this field synchronization is 77.3 ms and the period of this field is 24.2 ms, too little time is allocated to the receiver to estimate the transmission channel. Therefore, there is a problem that the receiving side cannot accurately estimate the transmission channel of the VSB broadcast signal.

In addition, PN511, that is, 511 symbols are used as the symbols used for the transport channel estimation substantially during field synchronization. Therefore, there is a problem in that the transmission channel estimation cannot be made more accurate at the receiving side. Accordingly, there is a problem that the receiver cannot accurately recover the VBS broadcast signal due to incorrect estimation of the transmission channel.

An object of the present invention for solving the above problems is to estimate and estimate the transmission channel more accurately at the receiving side by variably determining and inserting the symbol of the field synchronization to be inserted into the insertion area of the field synchronization allocated to each field. The present invention provides a single carrier transmission system capable of more accurately performing signal recovery through a transport channel.

According to the present invention, in the single carrier transmission system using a single carrier for transmitting a broadcast signal, a channel coding unit for performing channel coding for correction of channel errors occurring on a transmission for the broadcast signal A mode information providing unit providing service mode information determined according to a transmission rate required for transmitting a broadcast signal, and segment synchronization for each segment of a broadcast signal on which channel coding is performed, into a broadcast signal on which channel coding is performed. It is achieved by a single carrier transmission system including a multi-switching unit for inserting field synchronization having a variable number of symbols for each field of the broadcast signal on which channel coding is performed based on service mode information.

Preferably, the multiswitching unit inserts the number of symbols of field synchronization into an integer multiple of the number of symbols per segment in the broadcast signal on which channel coding is performed, according to the service mode information.

Examples of the service mode information include HDTV mode information and SDTV mode information. Accordingly, when the service mode information is HDTV mode information, the multi-switching unit inserts the number of symbols of the field information into the same number of symbols per segment in the broadcast signal on which channel coding is performed. In addition, when the service mode information is SDTV mode information, the multi-switching unit inserts the number of symbols of the field information into a plurality of times the number of symbols per segment in the broadcast signal on which channel coding is performed.

The field synchronization includes a PN sequence and a prefix code. At this time, the number of symbols of the field synchronization is 828 symbols. Accordingly, the number of symbols in the PN sequence is 812 symbols, and the number of symbols in the prefix code is 16 symbols.

Preferably, when the multi-switching unit inserts a field synchronization of a multiple times the number of symbols per segment into a broadcast signal on which channel coding is performed, the multi-switching unit inserts the field synchronization so as to be adjacent to the field synchronization previously inserted for the corresponding field. In addition, the multi-switching unit preferably inserts the service mode information provided from the mode information providing unit into the PN sequence using a predetermined symbol of the PN sequence.

In the single carrier transmission system of the present embodiment, a pilot insertion unit for inserting a pilot into a broadcast signal including field synchronization and segment synchronization, a modulation unit for performing modulation according to a set modulation method, and a broadcast signal into which the pilot is inserted, The apparatus further includes an RF amplifier configured to amplify a high frequency amplified broadcast signal according to a modulation scheme.

On the other hand, the above object is, according to the present invention, in the broadcast signal transmission method using a single carrier transmission system using a single broadcast wave for transmitting a broadcast signal, the correction of the channel error occurring on the transmission for the broadcast signal Performing channel coding for the mobile terminal; providing service mode information determined according to a transmission rate required for transmitting the broadcast signal; and segment synchronization for each segment of the broadcast signal in which channel coding is performed on the broadcast signal on which channel coding is performed. And inserting field synchronization having a variable number of symbols for each field of the broadcast signal on which channel coding is performed based on service mode information, and broadcasting signal including field synchronization and segment synchronization consisting of a variable number of symbols. Inserting a pilot into the broadcast signal according to a set modulation scheme; It is achieved by performing the action, and a method of transmitting broadcasting signals using a single carrier transmission system comprising the step of high-frequency amplifying the broadcast signal the modulation is performed according to the set modulation scheme.

Preferably, in the inserting step, the number of symbols of field synchronization is inserted as an integer multiple of the number of symbols per segment in the broadcast signal on which channel coding is performed, according to the service mode information.

Preferably, the number of symbols in each field synchronization is 828 symbols. The number of symbols in the PN sequence is 812 symbols, and the number of symbols in the prefix code is 16 symbols.

According to the present invention, since the 828 symbols formed using the PN511 symbol as the PN sequence are used for the transmission channel estimation at the reception side, the reception side can more accurately estimate the transmission channel through field synchronization consisting of a plurality of segments. In addition, the receiving side can perform a more accurate signal recovery through the transmission channel estimated through the field synchronization consisting of a plurality of segments.

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

4 is a block diagram showing a preferred embodiment of a single carrier transmission system according to the present invention. As shown, this embodiment shows a VSB transmitter which is an example of a single carrier transmission system.

The VSB transmitter includes a data inserting unit 100, a channel coding unit 120, a mode information providing unit 140, a multi-switching unit 160, a pilot inserting unit 180, a modulator 200, and an RF amplifier unit. Has 220.

The data inserting unit 100 performs an interleaving operation of dividing and inserting a broadcast signal for transmission to a receiver according to a set conversion method. The channel coder 120 encrypts the broadcast signal interleaved by the data inserter 100. In this case, a trellis encoding method is generally used as the encryption method used in the channel coding unit 120.

The multi-switching unit 160 inserts the segment synchronization S and the field synchronization F for each data frame of the broadcast signal output from the channel coding unit 120.

The mode information providing unit 140 provides the multi-switching unit 160 with service mode information determined according to the transmission speed of the broadcast signal required according to the format of the broadcast signal for transmission. In this case, the service mode information may include, for example, HDTV mode information indicating that the broadcast signal is a broadcast signal for HDTV, and SDTV mode information indicating that the broadcast signal is a broadcast signal for SDTV.

Accordingly, the multi-switching unit 160 segments sync by data frame of the broadcast signal output from the channel coding unit 120 based on the service mode information of the broadcast signal provided by the mode information providing unit 140. F) and Segment synch information (S) are variably inserted.

Preferably, the multi-switching unit 160 inserts a segment synchronization for each segment of the broadcast signal output from the channel coding unit 120 regardless of the service mode information of the broadcast signal provided from the mode information providing unit 140. do.

In addition, the multi-switching unit 160 of the present embodiment, field synchronization, for each field of the broadcast signal output from the channel coding unit 120 based on the service mode information of the broadcast signal provided from the mode information providing unit 140 Insert a variable number of symbols.

Preferably, if the service mode information of the broadcast signal provided by the mode information providing unit 140 is HDTV mode information, the multi-switching unit 160 is one for each field of the broadcast signal output from the channel coding unit 120 Inserts a field sync consisting of 828 symbols corresponding to the segment. In addition, if the service mode information of the broadcast signal provided by the mode information providing unit 140 is SDTV mode information, the multi-switching unit 160 is divided into a plurality of segments for each field of the broadcast signal output from the channel coding unit 120. Inserts a field synchronization consisting of integer multiples of the corresponding 828 symbols.

Accordingly, the receiver can estimate a more accurate transport channel using field synchronization composed of a plurality of segments for each field. Therefore, the receiver can perform more accurate signal recovery through the estimated transport channel.

The pilot inserter 180 inserts a pilot into a broadcast signal including a field synchronizer F made of a variable symbol according to the segment synchronizer S and the service mode information output from the multi-switching unit 160. In this case, the pilot performs a function of raising the level of the broadcast signal output from the multi-switching unit 160. Commonly used pilots use a DC voltage value.

The modulator 200 performs VSB modulation on the broadcast signal including the pilot according to a set transmission scheme. The RF amplifier 220 modulates the high frequency modulation of the VSB modulated broadcast signal and transmits the same to the receiver through the antenna 240.

5 is a diagram illustrating an example of a structure of a data frame in which field synchronization is inserted into a broadcast signal in the multi-switching unit 160 according to the service mode information provided by the mode information providing unit 140 of FIG. 4.

When the service mode information is the SDTV mode information, the multi-switching unit 160 according to the present embodiment copies and inserts field synchronizations at the front and rear ends of the data area including the FEC, respectively. Accordingly, in estimating a transmission channel for recovering data included in each field, the receiving side can more accurately estimate the transmission channel through field synchronization consisting of a plurality of segments.

6 is a diagram illustrating a segment structure of field synchronization inserted through the multi-switching unit 160 of FIG. 4. According to the present exemplary embodiment, the segment structure of the field sync inserted into the broadcast signal output from the channel coding unit 120 includes a segment sync and a field sync. At this time, the segment synchronization is composed of four symbols.

The field synchronization has a PN sequence and a transcode consisting of 828 symbols in a form including symbols in which PN511 and predetermined areas of PN511 are copied. At this time, the transposition code is composed of 16 symbols.

The PN sequence of field synchronization according to the present embodiment has a form in which a predetermined region of the PN511 symbol is copied. That is, the PN sequence is composed of 828 symbols formed by copying 100 symbols arranged at the front end of the PN511 symbol and attaching them to the rear end of the PN511 symbol, and copying 201 symbols arranged at the rear end of the PN511 symbol and pasting the front end of the PN511 symbol.

Preferably, the multi-switching unit 160 may insert mode information of data inserted into a corresponding field by using a predetermined symbol among 100 symbols added to the rear end of the PN511 symbol. In this case, the mode information is service mode information provided from the mode information providing unit 140. At this time, the symbol used for the mode information is preferably seven symbols. Accordingly, the receiving side can know the type of data inserted into the corresponding field through the mode information inserted into the PN sequence.

Therefore, the 828 symbols formed using the PN511 symbol as the PN sequence are used for the estimation of the transmission channel at the receiving side, whereby the receiving side can obtain more accurate estimation of the transmission channel.

7 is a flowchart illustrating a preferred embodiment of a broadcast signal transmission method using a single carrier transmission system according to the present invention.                     

First, the data inserting unit 100 performs an interleaving operation of dividing and inserting a broadcast signal for transmission to a receiving side according to a set conversion method (S100). The channel coder 120 performs trellis encoding on the broadcast signal interleaved by the data inserter 100 (S120). The mode information providing unit 140 provides the multi-switching unit 160 with service mode information determined according to the transmission speed of the broadcast signal required according to the format of the broadcast signal for transmission (S140). In this case, the service mode information includes HDTV mode information and SDTV mode information.

The multi-switching unit 160 inserts a segment synchronization (S) and a field synchronization (F) having a variable number of symbols in each field of the broadcast signal subjected to trellis encoding in the channel coding unit 120 (S160). ). The multi-switching unit 160 has a field number, variable number of symbols for each field of the broadcast signal output from the channel coding unit 120 based on the service mode information of the broadcast signal provided from the mode information providing unit 140 Set and insert. For example, if the service mode information of the broadcast signal provided by the mode information providing unit 140 is HDTV mode information, the multi-switching unit 160 has one for each field of the broadcast signal output from the channel coding unit 120. Inserts a field sync consisting of 828 symbols corresponding to the segment. In addition, if the service mode information of the broadcast signal provided by the mode information providing unit 140 is SDTV mode information, the multi-switching unit 160 is divided into a plurality of segments for each field of the broadcast signal output from the channel coding unit 120. Inserts a field synchronization consisting of integer multiples of the corresponding 828 symbols.

The pilot inserting unit 180 inserts a pilot into a broadcast signal including a field sync F made of a variable symbol according to the segment sync S and the service mode information output from the multi-switching unit 160 (S180). . The modulator 200 performs VSB modulation on the broadcast signal including the pilot according to the set transmission scheme (S200). The RF amplifier 220 modulates the high frequency modulation of the VSB modulated broadcast signal and transmits the received signal through the antenna 240 (S220).

Accordingly, the receiver can estimate a more accurate transmission channel using field synchronization composed of a plurality of segments for each field. Therefore, the receiver can perform more accurate signal recovery through the estimated transport channel.

According to the present invention, since the 828 symbols formed using the PN511 symbol as the PN sequence are used for the transmission channel estimation at the reception side, the reception side can more accurately estimate the transmission channel through field synchronization consisting of a plurality of segments.

In addition, the receiving side can perform a more accurate signal recovery through the transmission channel estimated through the field synchronization consisting of a plurality of segments.

In the above described and illustrated with respect to the preferred embodiment of the present invention, the present invention is not limited to the specific preferred embodiment described above, without departing from the gist of the invention claimed in the claims in the art Various modifications can be made by those skilled in the art, and such changes are within the scope of the claims.

Claims (48)

In a single carrier transmission system using a single carrier to transmit a broadcast signal, A channel coding unit for performing channel coding on the broadcast signal to correct channel errors occurring on transmission; A mode information providing unit for providing service mode information determined according to a transmission rate required for transmitting the broadcast signal; And In the broadcast signal on which the channel coding has been performed, segment synchronization is inserted for each segment of the broadcast signal on which the channel coding has been performed, and the number of variables is variable for each field of the broadcast signal on which the channel coding is performed based on the service mode information. A single carrier transmission system comprising a; multi-switching unit for inserting field synchronization having a symbol of. The method of claim 1, The multi-switching unit, And inserting the number of symbols of the field synchronization into an integer multiple of the number of symbols per segment in the broadcast signal on which the channel coding is performed, according to the service mode information. The method of claim 2, Wherein the service mode information is any one of HDTV mode information and SDTV mode information. The method of claim 3, wherein The multi-switching unit, when the service mode information is the HDTV mode information, And inserting the number of symbols of the field information into the broadcast signal on which the channel coding is performed equal to the number of symbols per segment. The method of claim 4, wherein The multi-switching unit, when the service mode information is the SDTV mode information, And inserting the number of symbols of the field information into a plurality of times the number of symbols per segment in the broadcast signal on which the channel coding is performed. The method of claim 5, The field synchronization includes a PN sequence and a prefix code. The method of claim 6, And the number of symbols of the field synchronization is 828 symbols. The method of claim 7, wherein Wherein the number of symbols in the PN sequence is 812 symbols, and the number of symbols in the precode is 16 symbols. The method of claim 8, The multi-switching unit inserts the field synchronization adjacent to the field synchronization pre-inserted for the corresponding field when inserting the field synchronization multiple times the number of symbols per segment into the broadcast signal on which the channel coding is performed. Single carrier transmission system, characterized in that. The method of claim 9, And the multi-switching unit inserts the service mode information provided from the mode information providing unit into the PN sequence using a predetermined symbol of the PN sequence. The method of claim 10, A pilot insertion unit for inserting a pilot into a broadcast signal including the field synchronization and the segment synchronization; A modulator for modulating the pilot-inserted broadcast signal according to a set modulation scheme; And And an RF amplifier configured to amplify a high frequency amplified broadcast signal according to the set modulation method. In the method of transmitting a broadcast signal using a single carrier transmission system using a single carrier to transmit a broadcast signal, Performing channel coding on the broadcast signal to correct channel errors occurring on transmission; Providing service mode information determined according to a transmission rate required for transmitting the broadcast signal; In the broadcast signal on which the channel coding is performed, a segment synchronization is inserted for each segment of the broadcast signal on which the channel coding is performed, and a variable number of fields is provided for each field of the broadcast signal on which the channel coding is performed based on the service mode information. Inserting field synchronization with a symbol; Inserting a pilot into a broadcast signal including the field synchronization and the segment synchronization consisting of the variable number of symbols; Performing modulation on the pilot-inserted broadcast signal according to a set modulation scheme; And And a step of amplifying a high frequency amplified broadcast signal according to the set modulation method. The method of claim 12, In the field synchronization insertion step, And the number of symbols of the field synchronization is an integer multiple of the number of symbols per segment in the broadcast signal on which the channel coding is performed, according to the service mode information. The method of claim 13, The service mode information includes at least one of the HDTV mode information and SDTV mode information transmission method of a broadcast signal using a single carrier transmission system. The method of claim 14, The field synchronization is a method of transmitting a broadcast signal using a single carrier transmission system, characterized in that it comprises a PN sequence and a prefix code. The method of claim 15, And the number of symbols of each of the field synchronizations is 828 symbols. The method of claim 16, And the number of symbols in the PN sequence is 812 symbols, and the number of symbols in the precode is 16 symbols. In the transmitter for transmitting a broadcast signal, A channel encoder for performing channel encoding on the broadcast signal to correct channel errors occurring on a signal transmission; And And a multi-switching unit for inserting synchronization information into the encoded data. The synchronization information includes a symbol in the PN sequence whose length is variable according to PN sequence and service mode information. The method of claim 18, And a pilot inserter for inserting a pilot into the encoded data including synchronization information. The method of claim 18, The synchronization information has a form that copies a predetermined region of the PN sequence. The method of claim 18, And a service mode information provider for providing the service mode information to the multiple switching unit. The method according to any one of claims 18 to 21, The service mode information is a transmitter, characterized in that any one of HDTV mode information and SDTV mode information. The method of claim 22, The multiple switching unit, And inserting service mode information determined based on an input data rate into the PN sequence by using a predetermined symbol of the PN sequence. A channel encoding unit for performing channel encoding on a broadcast signal to correct channel errors occurring on a signal transmission; And And a multi-switching unit for inserting synchronization information into the channel-encoded broadcast signal according to service mode information corresponding to data to be transmitted. And the synchronization information includes a symbol in the PN sequence whose length is variable according to PN sequence and service mode information. The method of claim 24, And the synchronization information has a form of copying a predetermined region of the PN sequence. The method of claim 24, The service mode information is a frame forming apparatus for a transmitter, characterized in that any one of HDTV mode information and SDTV mode information. The method of claim 24, The multiple switching unit, And inserting service mode information determined based on an input data rate into the PN sequence using a predetermined symbol of the PN sequence. In the method for transmitting a broadcast signal using a transmitter, Performing channel encoding on the broadcast signal to correct channel errors occurring during signal transmission; And Inserting synchronization information into the channel encoded broadcast signal; The synchronization information includes a symbol in the PN sequence whose length is variable according to a service mode information determined according to a PN sequence and a transmission rate required for the broadcast signal to be transmitted. The method of claim 28, And inserting a pilot into the encoded data including synchronization information including a PN sequence having the variable number of symbols. The method of claim 28, The synchronization information has a form of copying a predetermined region of the PN sequence. The method of claim 28, The service mode information is one of the HDTV mode information and SDTV mode information, characterized in that the broadcast signal transmission method. The method of claim 31, wherein The service mode information, And is determined based on an input data rate and is inserted into the PN sequence using a predetermined symbol of the PN sequence. A receiving unit for receiving a broadcast signal, A demodulator for demodulating the received broadcast signal; Channel estimation means for estimating a transmission channel by using synchronization information inserted into the broadcast signal according to a service mode at a transmitter; And, And a channel decoder to decode the signal of the estimated transmission channel. And the received broadcast signal has the synchronization information, and the synchronization information includes a symbol in the PN sequence whose length is variable according to a PN sequence and service mode information. The method of claim 33, wherein And the synchronization information is in the form of copying a predetermined region of a main PN sequence. The method of claim 33, wherein And the service mode information is any one of HDTV mode information and SDTV mode information. 36. The method of claim 35 wherein And the PN sequence has service mode information inserted using a predetermined symbol of the PN sequence. In the broadcast signal receiving method for receiving a broadcast signal, Performing demodulation on the received broadcast signal; Estimating a transmission channel using synchronization information inserted into the broadcast signal according to a service mode at a transmitter; And, Decoding the signal of the estimated transport channel; The received broadcast signal has the synchronization information, and the synchronization information includes a symbol in the PN sequence whose length is variable according to a PN sequence and service mode information. The method of claim 37, The synchronization information is a form of copying a predetermined region of a main PN sequence. The method of claim 37, The service mode information is one of the HDTV mode information and SDTV mode information, characterized in that the broadcast signal receiving method. The method of claim 37, And the PN sequence has service mode information inserted using a predetermined symbol of the PN sequence. delete delete delete delete delete delete delete delete

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