KR20220077825A - Apparatus for receiving multiple frequency channel using single radio frequency receiving device and method thereof - Google Patents

Abstract

Disclosed are a multi-frequency channel receiving apparatus using a single RF receiving apparatus and a method therefor.
In this device, the output channel selector obtains desired service information for each of a plurality of frequency channels from a user, and generates a channel selection signal for receiving a desired service for each of the plurality of frequency channels. The RF unit selects and outputs one frequency channel signal from among a plurality of frequency channel signals received through the antenna according to the channel selection signal. The demodulator configures service information for a plurality of frequency channels through a plurality of frequency channel signals received from the RF unit, and uses the desired service information for each frequency channel and service information for each frequency channel obtained from the output channel selector Provides multiple receivable information of the frequency channel signal of the output channel selector, and demodulates the frequency channel signal output from the RF unit to output a corresponding demodulated signal. Here, the output channel selection unit generates a channel selection signal enabling multiple reception of a plurality of frequency channel signals by using the multi-receivable information provided by the demodulator.

Description

Apparatus for receiving multiple frequency channel using single radio frequency receiving device and method thereof

The present invention relates to a multi-frequency channel receiving apparatus and method using a single RF receiving apparatus.

A digital audio broadcasting (DAB) device is one of the devices that receive frequency channels, and it is an audio broadcasting device that can transmit high-quality sound and text graphic moving images of the same level as compact discs using terrestrial waves.

In the case of the conventional digital audio broadcasting apparatus 10, as shown in FIG. 1, in order to receive two frequency channels, for example, frequency channel 1 and frequency channel 2, an antenna 11 for receiving each frequency channel. , 21), radio frequency (RF) units 13 and 23 and demodulation units 15 and 25 are required. In this way, after receiving and demodulating the two frequency channels, the multiplexer 31 of the output unit 30 selects one demodulated signal from among the two demodulated signals according to the user's output channel selection 33 and corresponding output as audio.

As described above, in the related art, in order to receive two or more multi-frequency channels, an RF unit and a demodulator having a similar configuration for receiving each frequency channel are required as much as the number of receiving frequency channels, so the need to save similar configuration resources is not has been raised

Accordingly, an object of the present invention is to provide a multi-frequency channel receiving apparatus and method using a single RF receiving apparatus capable of receiving multiple frequency channels that do not overlap on a time axis using one RF receiving apparatus.

The characteristic configuration of the present invention for achieving the object of the present invention as described above and for realizing the characteristic effects of the present invention to be described later is as follows.

According to one aspect of the present invention, there is provided an apparatus for receiving multiple frequency channels, the apparatus comprising:

An output channel selector for obtaining desired service information for each of a plurality of frequency channels from a user and generating a channel selection signal for receiving a desired service for each of the plurality of frequency channels, the channel from among the plurality of frequency channel signals received through an antenna A radio frequency (RF) unit that selects and outputs one frequency channel signal according to a selection signal, and configures service information for each frequency channel through a plurality of frequency channel signals received from the RF unit, and selects the output channel By using the desired service information for each frequency channel obtained in the unit and the service information for each of the plurality of frequency channels, multiplex receivable information of the plurality of frequency channel signals is provided to the output channel selection unit, and the frequency channel output from the RF unit and a demodulator that demodulates a signal and outputs a corresponding demodulated signal, wherein the output channel selector uses the multi-receivable information provided by the demodulator to enable multiple reception of the plurality of frequency channel signals. to create

Here, the RF unit, a plurality of frequency generators for generating frequencies corresponding to each of the plurality of frequency channels, a multiplexer for selecting one frequency corresponding to the channel selection signal from a plurality of frequencies generated by the plurality of frequency generators and a signal processing unit that performs signal processing on a frequency channel signal corresponding to a frequency selected by the multiplexer among a plurality of frequency channel signals received through the antenna, and outputs the corresponding digital audio signal to the demodulator.

In addition, the demodulator may include a signal decoder for decoding and outputting the digital audio signal output from the RF unit, an audio decoder for performing audio decoding on the digital audio signal decoded by the signal decoder and outputting a corresponding demodulated signal; And, by using the digital audio signal decoded by the signal decoder, the service information for each frequency channel is configured, and the desired service information for each frequency channel obtained from the output channel selection unit and the service information for each frequency channel are used. and a valid signal determining unit for providing multiple receivable information of the plurality of frequency channel signals to the output channel selection unit.

In addition, the effective signal determining unit determines whether multiple reception of a desired service for each frequency channel is possible based on the service information for each frequency channel, and it is determined that multiple reception of a desired service for each frequency channel is possible In this case, multiple receivable information for multiple reception of a desired service for each frequency channel is provided to the output channel selector, and the output channel selector uses the multiple receivable information provided by the effective signal determining unit for each frequency channel. A channel selection signal for multiple reception of a desired service is generated and provided to the RF unit and the signal decoder.

In addition, when it is determined that multiple reception of the desired service for each frequency channel is impossible, the valid signal determination unit provides single reception possible information for reception of only one frequency channel among the plurality of channels to the output channel selection unit, , the output channel selector generates a channel selection signal for single reception of one frequency channel indicated by the single receivable information using the single receivable information provided by the valid signal determination unit, and the RF unit and the It is provided as a signal decoder.

The valid signal determining unit includes a plurality of service information acquisition units for acquiring service information for the plurality of frequency channels from the digital audio signal output from the signal decoder, and the plurality of frequency channels acquired from the plurality of service information acquisition units A service information configuration unit configuring service information for each time-division frequency channel using specific service information, and multiple reception for each of the plurality of frequency channels using the service information for each time-division frequency channel configured by the service information configuration unit Configure information, and generate the multiple receivable information or the single receivable information according to whether multiple reception of a desired service for each frequency channel is possible based on the multiple receivable information and provide it to the output channel selector and a reception service determination unit.

In addition, the multiple reception service determining unit determines that multiple reception is possible when the desired services for each frequency channel do not overlap on a time axis based on the multiple reception information.

According to another aspect of the present invention, there is provided a method for receiving multiple frequency channels, the method comprising:

A method for a multi-frequency channel receiving apparatus to receive a plurality of frequency channels multiplex, the method comprising: constructing time-divided service information for a plurality of frequency channels by using signals for a plurality of frequency channels received through an antenna; the time-divided plurality determining whether multiple reception of a desired service for each frequency channel obtained from the user is possible based on service information for each frequency channel of generating a channel selection signal for multiple reception of , and receiving signals for a plurality of frequency channels through the antenna according to the channel selection signal.

Here, in the step of determining whether multiple reception is possible, if it is determined that multiple reception of a desired service for each frequency channel is impossible, receive one preset frequency channel signal from among the plurality of frequency channels, The channel reception method further includes, after determining whether multiple reception is possible, generating a channel selection signal for reception of the one preset frequency channel signal.

In addition, the step of configuring the time-division service information for each of the plurality of frequency channels includes initially generating the channel signal so that all of the signals for each of the plurality of frequency channels can be selectively received, and receiving through the channel signal. and configuring service information for each of the plurality of time-divided frequency channels using the signals for each of the plurality of frequency channels.

In the determining whether multiple reception is possible, it is determined that multiple reception is possible when the desired service for each frequency channel does not overlap on a time axis based on the time-divided service information for a plurality of frequency channels.

According to the present invention, multiple frequency channels that do not overlap on the time axis can be received using one RF receiving device.

Due to this, it is possible to reduce the components of the multi-frequency channel receiving apparatus for receiving the multi-frequency channel.

1 is a schematic block diagram of a digital audio broadcasting apparatus according to the related art.
2 is a schematic block diagram of a multi-frequency channel receiving apparatus according to an embodiment of the present invention.
FIG. 3 is a detailed block diagram of the valid signal determining unit shown in FIG. 2 .
4 is a diagram schematically illustrating a transmission frame of a general digital audio broadcasting.
5 is a diagram illustrating an example of a transmission frame configured by time division with respect to two frequency channels in general digital audio broadcasting.
6 is a diagram illustrating an example of a channel signal for multi-frequency channel reception in an apparatus for multi-frequency channel reception according to an embodiment of the present invention.
7 is a schematic flowchart of a multi-frequency channel reception method according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

In order to clearly explain the present invention, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification.

In addition, throughout the specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated.

Hereinafter, a multi-frequency channel receiving apparatus according to an embodiment of the present invention will be described with reference to the drawings.

2 is a schematic block diagram of a multi-frequency channel receiving apparatus according to an embodiment of the present invention.

As shown in FIG. 2 , the multi-frequency channel receiving apparatus 100 according to an embodiment of the present invention includes an RF unit 110 , a demodulator 120 , an output channel selector 130 , and an output unit 140 . include

The RF unit 110 receives a frequency channel corresponding to a digital audio broadcast signal respectively transmitted from two or more broadcasters through the antenna 101, selects one of the received two or more frequency channels, and a corresponding digital audio signal output as Here, for convenience of description, it is assumed that the RF unit 110 receives two frequency channels transmitted from two broadcasters through the antenna 101 , for example, frequency channel 1 and frequency channel 2 .

In addition, the RF unit 110 selects a corresponding one of the two frequency channels according to the channel selection signal output from the output channel selector 130 and transmits it to the demodulator 120 .

Specifically, the RF unit 110 includes a frequency 1 generator 111 , a frequency 2 generator 112 , a multiplexer 113 , and a signal processing unit 114 .

The frequency 1 generator 111 generates a frequency corresponding to frequency channel 1, that is, frequency 1.

The frequency 2 generator 112 generates a frequency corresponding to frequency channel 2, that is, frequency 2.

The multiplexer 113 selects one of the frequency 1 and the frequency 2 according to the channel selection signal output from the output channel selection unit 130 and outputs it to the signal processing unit 114 .

The signal processing unit 114 corresponds to the frequency output from the multiplexer 113 among the analog frequency channel signal received through the antenna 101, that is, the frequency channel 1 signal and the frequency channel 2 signal, that is, frequency 1 or frequency 2 The frequency channel signal is selected, converted into a corresponding digital audio signal, and output to the demodulator 120 .

For example, when a channel selection signal for selecting frequency channel 1 is received by the output channel selection unit 130 , the signal processing unit 114 corresponds to frequency channel 1 among two frequency channel signals received through the antenna 101 . The signal of frequency channel 1 is processed and output to the demodulator 120 .

Next, the demodulator 120 decodes the digital audio signal output from the RF unit 110 and demodulates the digital audio signal of the frequency channel according to the channel selection signal output from the output channel selector 130 . It is output to the output unit 140 as a signal.

Specifically, the demodulator 120 includes a DAB signal decoder 121 , an audio decoder 122 , and a valid signal determiner 123 .

The DAB signal decoder 121 decodes the digital audio signal output from the RF unit 110 to output a decoded digital audio signal corresponding to the channel selection signal output from the output channel selection unit 130 .

For example, when the channel selection signal output from the output channel selection unit 130 is a signal for selecting the frequency channel 1, the DAB signal decoder 121 transmits the signal to the frequency channel 1 among the digital audio signals output from the RF unit 110 . Only the corresponding signal is decoded and output to the audio decoder 122 .

The audio decoder 122 performs audio decoding on the digital audio signal output from the DAB signal decoder 121 and outputs it to the output unit 140 as a demodulated signal.

The valid signal determination unit 123 uses the digital audio signal decoded by the DAB signal decoder 121 to configure service information for all frequency channel signals, and all the service information provided by the configured service information and the output channel selection unit 130 . The multi-receivable information for receiving the desired service of all frequency channels by using the desired service information in the frequency channel is transmitted to the output channel selector 130 . At this time, the effective signal determination unit 123 first determines whether multiple reception is possible using service information for all frequency channel signals and desired service information in all frequency channels provided by the output channel selection unit 130, Only when multiple reception is possible, the multiple reception possibility information is transmitted to the output channel selection unit 130 . If it is determined that multiple reception is not possible, the effective signal determination unit 123 receives single receivable information for selecting a specific frequency channel, for example, frequency channel 1 or continuously receiving a previously selected frequency channel. It is transmitted to the output channel selector 130 . The operation of the valid signal determining unit 123 will be described in detail later.

Next, the output channel selection unit 130 provides the desired service information for each frequency channel selected by the user, for example, the desired service information on the frequency channel 1 and the desired service information on the frequency channel 2 to the effective signal determination unit 123 and , receives multiple receivable information or single receivable information transmitted from the valid signal determination unit 123 to configure a corresponding channel selection signal to the DAB signal decoder 121 of the RF unit 110 and the demodulator 120 . print out

The output unit 140 outputs the demodulated signal output from the demodulator 120 as corresponding audio audible to the listener.

Hereinafter, the above-described valid signal determination unit 123 will be described in detail with reference to the drawings.

FIG. 3 is a detailed block diagram of the valid signal determining unit 123 shown in FIG. 2 .

As shown in FIG. 3 , the valid signal determination unit 123 includes service information acquisition units 1231 and 1232 , a service information configuration unit 1233 , and a multiple reception service determination unit 1234 .

The service information acquisition unit 1231 acquires service information for frequency channel 1, ie, service information 1, from the digital audio signal output from the DAB signal decoder 121 .

The service information acquisition unit 1232 acquires service information for frequency channel 2, ie, service information 2, from the digital audio signal output from the DAB signal decoder 121 .

When the service information acquisition unit 1231 and the service information acquisition unit 1232 are respectively selected and received in the RF unit 110 by the output channel selection unit 130 at the beginning of the service, the signals of the frequency channel 1 and the frequency channel 2 are received. The aforementioned service information 1 and service information 2 may be acquired, respectively.

The service information configuration unit 1233 uses time information included in the system clock or service information and the service information 1 and service information 2 acquired by the service information acquisition units 1231 and 1232 according to time, that is, time division 2 Configures service information of two frequency channels.

For example, in the case of a digital audio broadcast signal received through the antenna 101, as shown in FIG. 4, it can be seen that the audio service is time-divided.

4 is a diagram schematically illustrating a transmission frame of a general digital audio broadcasting. Referring to FIG. 4 , NULL is a section in which data is not transmitted, PRS is a preamble symbol for synchronization, FIC is a fast information channel storing service information, and MSC is a main service channel including actual services. . As shown in FIG. 4 , the audio service for the corresponding frequency channel is time-divided in the MSC. That is, all services in the MSC are time-divided and transmitted.

Meanwhile, since broadcasters transmit digital audio broadcasting signals through different frequency channels, for example, frequency channel 1 and frequency channel 2, as shown in FIG. 5 , a time difference between signals may occur.

Referring to FIG. 5 , frequency channel 1 and frequency channel 2 are respectively allocated to different broadcasters, and the signal transmission times for each broadcaster are not synchronized. Accordingly, signals transmitted from broadcasters using different frequency channels may be time-divided and configured.

In FIG. 5 , it can be seen that the signal of frequency channel 2 is received with a temporal delay compared to the signal of frequency channel 1 .

The service information configuration unit 1233 may configure service information for each frequency channel as shown in FIG. 5 . Such service information may be configured as service information listed on a time basis for each frequency channel.

The multiple reception service determining unit 1234 configures service information that can be received multiple times for the services of the two frequency channels that are time-divided in the service information configuration unit 1233 . For example, in FIG. 5, service 0 of frequency channel 1 and service 3 of frequency channel 2 can receive multiple receptions, and service 0 of frequency channel 1 and service 0 of frequency channel 2 cannot receive multiple receptions. will make up

In addition, the multiple reception service determining unit 1234 determines whether multiple reception of desired service information is possible in all frequency channels provided by the output channel selection unit 130 based on the configured multiple reception possible service information. If it is determined that multiple reception of desired service information is possible on all frequency channels provided by the output channel selection unit 130 , the multiple reception possible information is transmitted to the output channel selection unit 130 , but otherwise, multiple reception is impossible. and transmits single receivable information indicating that only single reception is possible to the output channel selector 130 .

For example, in the state in which signals of two frequency channels, that is, frequency channel 1 and frequency channel 2, are being received as shown in FIG. 5, and the multiple reception service determination unit 1234 configures multiple reception possible service information according to the reception information. , when the output channel selector 130 receives service request information that the user wants to receive service 0 for frequency channel 1 and service 3 for frequency channel 2, in frequency channel 1 Since service 0 of frequency channel 2 and service 3 of frequency channel 2 are not serviced in the same time zone, the multiple reception service determining unit 1234 determines that multiple reception is possible, so that service 0 of frequency channel 1 and service 3 of frequency channel 2 are received. It is possible to provide multiple receivable information for the output channel selection unit 130 .

Accordingly, the output channel selection unit 130 is a channel selection signal capable of receiving multiple reception service 0 of frequency channel 1 and service 3 of frequency channel 2 using the multiple reception capability information provided from the multiple reception service determination unit 1234 . is generated and provided to the DAB signal decoder 121 of the RF unit 110 and the demodulator 120 . An example of a channel selection signal generated by the output channel selection unit 130 to provide the above service is illustrated in FIG. 6 .

However, in the above example, if service request information for requesting service 0 on frequency channel 1 and service 0 on frequency channel 2 is received from the output channel selector 130, since these services overlap on the time axis, multiple reception Since it is determined that multiple reception is impossible through the available service information, the multiple reception service determining unit 1234 in this case determines single reception possible information for receiving only a service of a specific frequency channel, for example, frequency channel 1 or frequency channel 2 The output channel selection unit 130 provides a channel selection signal for selecting only one frequency channel according to the single receivable information of the RF unit 110 and the demodulator 120 . It is provided to the DAB signal decoder 121 .

As described above, according to an embodiment of the present invention, one RF unit 110 and one demodulator ( 120) can be used to receive it. Accordingly, it is possible to reduce the components of the multi-frequency channel receiving apparatus 100 for receiving the multi-frequency channel.

Hereinafter, a multi-frequency channel reception method according to an embodiment of the present invention will be described with reference to the drawings.

7 is a schematic flowchart of a multi-frequency channel reception method according to an embodiment of the present invention. The multi-frequency channel reception method according to the embodiment of the present invention shown in FIG. 7 may be performed by the multi-frequency channel reception apparatus described with reference to FIGS. 2 to 6 described above. Also, for convenience of description, it is assumed that two broadcasters receive two digital audio broadcasting signals transmitted through frequency channel 1 and frequency channel 2, respectively.

Referring to FIG. 7 , first, two frequency channels, ie, frequency channel 1 and frequency channel 2, are respectively received (S100).

Thereafter, service information for each received two frequency channels is configured (S110). That is, the frequency includes service information for channel 1 and service information for frequency channel 2, respectively.

Next, multiple receivable service information is configured through the configured service information for each frequency channel (S120). That is, since the frequency channel 1 and the frequency channel 2 do not overlap each other, multiplex receivable service information is configured.

Subsequently, it is determined whether multiple reception is possible according to the service request for each frequency included in the service information for each frequency desired by the user, that is, the service request information for each frequency channel, using the multiple receivable service information configured in step S120. (S130).

If it is determined that multiple reception is possible (S140), multiple reception capability information for receiving a service requested for each frequency channel in multiple ways is generated (S150).

Thereafter, a channel selection signal for multi-reception is generated according to the multi-receivable information, and services of two frequency channels are multiplexed using the generated channel selection signal (S160).

Then, the multi-received channel service for each frequency is demodulated and output as a corresponding audio signal (S170).

However, if it is determined that multiple reception is impossible in step S140, single reception enable information for receiving a single preset frequency channel is generated (S180).

Then, a channel selection signal for selecting a preset frequency channel is generated according to single receivable information, and a service of a preset frequency channel is received using the generated channel selection signal ( S190 ). In this way, the service of the preset frequency channel received according to the single receivable information is demodulated and output as a corresponding audio signal (S200).

The embodiment of the present invention described above is not implemented only through the apparatus and method, and may be implemented through a program for realizing a function corresponding to the configuration of the embodiment of the present invention or a recording medium in which the program is recorded.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto. is within the scope of the right.

Claims (11)

A multi-frequency channel receiving device comprising:
an output channel selector for obtaining desired service information for each of a plurality of frequency channels from a user and generating a channel selection signal for receiving a desired service for each of the plurality of frequency channels;
a radio frequency (RF) unit for selecting and outputting one frequency channel signal according to the channel selection signal from among a plurality of frequency channel signals received through the antenna; and
Service information for each frequency channel is configured through a plurality of frequency channel signals received from the RF unit, and desired service information for each frequency channel obtained from the output channel selector and service information for each frequency channel are used. a demodulator for providing multiple receivable information of the plurality of frequency channel signals to the output channel selection unit, and demodulating the frequency channel signal output from the RF unit to output a corresponding demodulated signal;
includes,
The output channel selection unit generates a channel selection signal enabling multiple reception of the plurality of frequency channel signals by using the multiple receivable information provided by the demodulator.
Multi-frequency channel receiving device. According to claim 1,
The RF unit,
a plurality of frequency generators for generating frequencies corresponding to each of the plurality of frequency channels;
a multiplexer for selecting one frequency corresponding to the channel selection signal from a plurality of frequencies generated by the plurality of frequency generators; and
A signal processing unit that performs signal processing on a frequency channel signal corresponding to a frequency selected by the multiplexer among a plurality of frequency channel signals received through the antenna and outputs the corresponding digital audio signal to the demodulator
Including, a multi-frequency channel receiving device. According to claim 1,
The demodulator is
a signal decoder for decoding and outputting the digital audio signal output from the RF unit;
an audio decoder that performs audio decoding on the digital audio signal decoded by the signal decoder and outputs a corresponding demodulated signal; and
By using the digital audio signal decoded by the signal decoder, the service information for each frequency channel is configured, and the desired service information for each frequency channel obtained from the output channel selection unit and the service information for each frequency channel are used. A valid signal determination unit for providing information that can be received multiple times of the plurality of frequency channel signals to the output channel selection unit
Including, a multi-frequency channel receiving device. 4. The method of claim 3,
The valid signal determination unit,
It is determined whether multiple reception of the desired service for each frequency channel is possible based on the service information for each frequency channel, and when it is determined that multiple reception of the desired service for each frequency channel is possible, the desired service for each frequency channel Provides multiple receivable information for multiple reception of the output channel selector,
The output channel selection unit generates a channel selection signal for multiple reception of a desired service for each frequency channel by using the multiple reception enable information provided by the effective signal determination unit and provides it to the RF unit and the signal decoder,
Multi-frequency channel receiving device. 5. The method of claim 4,
The valid signal determination unit,
If it is determined that multiple reception of a desired service for each frequency channel is impossible, providing single receivable information for reception of only one frequency channel among the plurality of channels to the output channel selection unit,
The output channel selector generates a channel selection signal for single reception of one frequency channel indicated by the single receivable information using the single receivable information provided by the valid signal determination unit, and generates the RF unit and the signal provided by the decoder,
Multi-frequency channel receiving device. 6. The method of claim 5,
The valid signal determination unit,
a plurality of service information acquisition units for acquiring service information for the plurality of frequency channels from the digital audio signal output from the signal decoder;
a service information constructing unit configured to construct time-divided service information for each frequency channel using the plurality of service information for each frequency channel acquired by the plurality of service information acquisition units; and
Multiple receivable information for each of the plurality of frequency channels is configured using the time-division service information for each frequency channel configured by the service information configuration unit, and multiple reception of a desired service for each frequency channel based on the multi-receivable information Multiple reception service determining unit for generating the multiple reception possibility information or the single reception possibility information according to whether this is possible and providing it to the output channel selection unit
Including, a multi-frequency channel receiving device. 7. The method of claim 6,
The multiple reception service determination unit,
Determining that multiple reception is possible when the desired service for each frequency channel does not overlap on a time axis based on the multiple reception information,
Multi-frequency channel receiving device. A method for a multi-frequency channel receiving apparatus to receive a plurality of frequency channels multiplex,
Constructing time-divided service information for a plurality of frequency channels by using signals for each frequency channel received through an antenna;
determining whether multiple reception of a desired service is possible for each frequency channel acquired from a user based on the time-division service information for a plurality of frequency channels;
generating a channel selection signal for multiple reception of a desired service for each frequency channel when it is determined that multiple reception of a desired service is possible for each frequency channel; and
Receiving signals for a plurality of frequency channels through the antenna according to the channel selection signal
A multi-frequency channel reception method comprising a. 9. The method of claim 8,
In the step of determining whether the multiple reception is possible,
If it is determined that multiple reception of a desired service for each frequency channel is impossible, receive one preset frequency channel signal from among the plurality of frequency channels;
The multi-frequency channel reception method,
After determining whether the multiple reception is possible,
generating a channel selection signal for receiving the preset one frequency channel signal
Further comprising, a multi-frequency channel receiving method. 9. The method of claim 8,
The step of configuring the service information for each of the plurality of time-divided frequency channels comprises:
initially generating the channel signal so as to selectively receive all of the signals for each of the plurality of frequency channels; and
constructing the service information for each of the plurality of time-divided frequency channels by using the signals for each of the plurality of frequency channels received through the channel signal
Including, a multi-frequency channel receiving method. 9. The method of claim 8,
In the step of determining whether the multiple reception is possible,
Determining that multiple reception is possible when the desired service for each frequency channel does not overlap on the time axis based on the time-division service information for a plurality of frequency channels,
How to receive multiple frequency channels.

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