KR20130129733A - Receiver and reception method for digial audio broadcasting - Google Patents

Abstract

Disclosed are a DAB broadcast receiver and a method for receiving DAB broadcasts. The DAB broadcast receiver according to one aspect of the present invention includes the following parts: a first broadcast reception part which receives DAB broadcasts by being tuned to a current area digital audio broadcasting (DAB) frequency, which corresponds to a preset channel, and outputs audio from the DAB broadcasts; a second broadcast reception part which is operated in frequency scan mode, which scans DAB frequencies of neighboring areas in preparation for a handover from the current area to another area, in service following mode, which receives DAB broadcasts of the preset channel by being tuned to a DAB frequency of another area on behalf of the first broadcast reception part when the handover is made, and in TPEG mode which receives TPEG information; and a main processor which checks the transmission cycle of the TPEG information, and selectively controls the operating mode of the second broadcast reception part with the frequency scan mode, service following mode, and TPEG mode by considering the transmission cycle. When the handover is made, the first broadcast reception part is operated in the frequency scan mode, service following mode, and TPEG mode on behalf of the second broadcast reception part according to the control of the main processor. [Reference numerals] (AA) Transmission period

Description

DAB broadcast receiver and reception method {Receiver and Reception Method for Digial Audio Broadcasting}

The present invention relates to a DAB broadcast receiver, and more particularly, to a DAB broadcast receiver and a reception method capable of controlling an operation mode of a DAB broadcast tuner in software.

In general, the European DAB broadcasting terminal provides a service following function, a channel scanning function (Auto-station update), and a transport protocol expert group (TPEG) function to provide seamless DAB broadcasting. Should be. In this case, two tuners are needed for service tracking and channel scan.

In addition, the TPEG service requires two additional tuners for providing TPEG service and tracking TPEG service.

As such, the conventional DAB broadcasting terminal requires four tuners in order to provide the three functions described above. Therefore, the implementation was expensive and inefficient.

The present invention has been made in the technical background as described above, and can control the operation mode of the two tuners by software to provide DAB broadcast reception, TPEG information reception, frequency scan and service tracking function by the two tuners It is an object of the present invention to provide a DAB broadcast receiver and a reception method.

The present invention provides a DAB broadcast receiver and a reception method capable of increasing the efficiency of the tuner by receiving the TPEG information only when the signal-to-noise ratio of the tuner for receiving TPEG is greater than or equal to a preset threshold, and for frequency scanning and tracking services when the threshold is less than the threshold. For other purposes.

According to an aspect of the present invention, a DAB broadcast receiver includes: a first broadcast receiver configured to receive a DAB broadcast in synchronization with a digital audio broadcasting (DAB) broadcasting frequency of a current region corresponding to a set channel, and to output audio from the DAB broadcast; A frequency scan mode that scans the DAB broadcasting frequency of a neighboring region in case of handover from the current region to another region, and when the handover occurs, the DAB broadcasting frequency of the other region instead of the first broadcasting receiver. A second broadcast receiver operating in a service following mode for receiving DAB broadcast of the set channel and a TPEG mode for receiving TPEG information in synchronization with the second broadcast receiver; And a main processor that checks a transmission period of the TPEG information and selectively controls an operation mode of the second broadcast receiver to the frequency scan mode, the service tracking mode, and the TPEG mode in consideration of the transmission period. The first broadcast receiver, when handed over, operates in the frequency scan mode, the service tracking mode, and the TPEG mode on behalf of the second broadcast receiver under control of the main processor.

A first tuner for receiving DAB broadcast and a second tuner for frequency scan, service tracking and TPEG reception according to another aspect of the present invention, wherein the function of the first tuner and the second tuner in the service tracking In the DAB broadcast reception method of the DAB broadcast receiver for switching between two or more, if the signal-to-noise ratio of the second tuner is greater than or equal to a predetermined threshold, the plurality of blocks of the TPEG information consisting of a plurality of blocks to receive the transmission period of the TPEG information Confirming; And controlling the second tuner to arrive at the transmission period, using the second tuner for a predetermined time for receiving the plurality of blocks one by one, and using the second tuner for the frequency scan and the service tracking function after the predetermined time. It is characterized by including.

According to the present invention, two tuners can provide DAB broadcast reception, TPEG information reception, frequency scan and service tracking, thereby reducing the number of parts and production cost, and receiving TPEG information in consideration of signal-to-noise ratio. Therefore, the reception error can be reduced.

In addition, the present invention can reduce the pop noise of the digital audio broadcasting by continuously monitoring the frequency of the set channel corresponding to the current position to provide a handover (service tracking).

1 is a diagram showing a transmission characteristic of TPEG information.
2 is a block diagram illustrating a DAB broadcast receiver according to an embodiment of the present invention.
3A illustrates a TPEG reception tuner operation according to an embodiment of the present invention.
3b illustrates a tuner operation for TPEG reception according to the prior art;
4 is a flowchart illustrating a DAB broadcast receiving method according to an embodiment of the present invention.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. As used herein, the terms " comprises, " and / or "comprising" refer to the presence or absence of one or more other components, steps, operations, and / Or additions.

Hereinafter, the characteristics of the TPEG service will be described with reference to FIG. 1. 1 is a diagram illustrating a transmission characteristic of TPEG information.

As illustrated in FIG. 1, the TPEG service repeatedly transmits data having the same content in block units (A, B, C, D, E, and F blocks) at predetermined transmission periods Δt. That is, the TPEG service has a feature of repeatedly transmitting the same data in order to improve the reception rate of the TPEG information in consideration of the fact that the data transmission rate may vary according to the reception rate of the TPEG information.

Hereinafter, a DAB broadcast receiver according to an embodiment of the present invention will be described with reference to FIG. 2. 2 is a block diagram illustrating a DAB broadcast receiver according to an embodiment of the present invention.

As shown in FIG. 2, the DAB broadcast receiver 20 according to an embodiment of the present invention includes a first tuner 210, a first baseband unit 220, a second tuner 230, and a second baseband unit 240. ) And a main processor 250.

When the first tuner 210 is used for audio reception, the first tuner 210 receives a DAB broadcast by synchronizing with a digital audio broadcasting (DAB) broadcasting frequency of a current region corresponding to a set channel, and shifts down a frequency to receive a DAB signal of an intermediate frequency band. Output

The first baseband unit 220 converts the DAB signal of the intermediate frequency band into DAB data of the baseband. At this time, the DAB data includes audio data used for audio output, information on a currently received channel, information on a current transmitting station that has transmitted a current DAB signal, identification information of a neighboring transmitting station, and the like.

When used for data processing, the second tuner 230 alternates between service tracking (Service Following or Link service) mode, frequency scan (Auto Station Update) mode, and TPEG mode.

In each operation mode (service tracking, frequency scan, or TPEG mode), the second tuner 230 receives a DAB signal by tuning to a tuning frequency under the control of the main processor 250 and converts the DAB signal into a signal of an intermediate frequency band.

The second baseband unit 240 converts the output signal of the second tuner 230 into a baseband signal and transmits the signal to the main processor 250.

Hereinafter, each operation mode will be described in detail, and specific operations of the second tuner 230 and the second baseband unit 240 in each operation mode will be described.

First, the frequency scan mode is a mode for searching whether there is a valid DAB broadcast that can be received among DAB broadcasts in the surrounding area in case the DAB broadcast receiver 20 is handed over from the current area to another area.

The second tuner 230 receives the signal corresponding to the set tuning frequency and shifts the frequency down to the intermediate frequency band by changing and setting the tuning frequency according to the DAB broadcasting frequency band under the control of the main processor 250 and causing the second base to shift. Transfer to the band unit 240.

The second baseband unit 240 converts the signal from the second tuner 230 into a baseband signal and transmits the signal to the main processor 250.

Secondly, the service tracking mode is a mode for handover from the current region to another region, and functions of the second tuner 230 and the second baseband unit 240, the first tuner 210 and the first baseband unit 220. This mode is to change the function of).

Finally, the TPEG mode is a mode for receiving TPEG information. In the TPEG mode, the second tuner 230 receives the TPEG information under the control of the main processor 250.

Since the above three modes are switched under the control of the main processor 250, specific functions and mode switching of the main processor 250 will be described below.

When the signal-to-noise ratio of the first tuner 210 is greater than or equal to a preset threshold, the main processor 250 checks the transmission period of the TPEG information, and considers the transmission period in consideration of the transmission period and the operation mode of the second tuner 230 in the frequency scan mode, Optionally change to either the service tracking mode or the TPEG mode.

In this case, when the channel is changed according to the user's manipulation, the main processor 250 receives at least two frames of TPEG information at least once at a moment when the signal-to-noise ratio is greater than or equal to a preset threshold to check the transmission period of the TPEG information.

The main processor 250 switches the second tuner 230 to the TPEG mode in a transmission cycle to sequentially receive TPEG information consisting of a plurality of blocks, one block at a time, and after receiving one block, the second tuner ( 230 to operate in the frequency scan mode and the service tracking mode. When the main processor 250 receives all of the plurality of blocks, the main processor 250 combines the plurality of blocks to configure TPEG information. In this case, if the signal-to-noise ratio is less than the preset threshold, the main processor 250 may not execute the TPEG mode at all, or may further increase the execution period of the frequency scan mode and the service tracking mode without receiving the TPEG information.

Specifically, when the TPEG information is composed of blocks of A, B, C, D, E, and F as shown in FIG. 1, the main processor 250 sets the second tuner 230 in the TPEG mode in the first transmission period. After switching, after receiving the A block, the second tuner 230 operates in the service tracking mode to perform service tracking as needed, and operates in the frequency scan mode, and the second tuner 230 in the second transmission period. To the TPEG mode, after receiving the B block, the second tuner 230 operates in the service tracking mode to track the service as needed, and operates in the frequency scan mode, and the second tuner (in the third transmission period) After switching 230 to TPEG mode, after receiving the C block, the second tuner 230 is operated in the service tracking mode to track the service as necessary, and operates in the frequency scan mode, and the second tuner in the fourth transmission period. A second tuner after receiving the D block by switching 230 to TPEG mode Operation 230 in the service tracking mode to track the service as needed, operating in the frequency scan mode, the second tuner 230 to the TPEG mode in the fifth transmission period, and receives the E block after receiving the second block Operate tuner 230 in service tracking mode to track service as needed, operate in frequency scan mode, and switch second tuner 230 to TPEG mode in the sixth transmission period to receive F blocks The two tuners 230 are operated in the service tracking mode to track the services as needed, and operate in the frequency scan mode. When the main processor 250 receives all of A, B, C, D, E, and F, the main processor 250 combines the TPEG information.

On the other hand, while receiving the TPEG information, the reception sensitivity (signal-to-noise ratio) is not good enough to receive one of the blocks A, B, C, D, E, F (hereinafter assumed to be "C block"). Cases may occur. At this time, the main processor 250 receives the C block in the fourth transmission period by switching the second tuner 230 to the TPEG mode by a predetermined time (a) before the fourth transmission period, Blocks may be received.

3A and 3B, the technique of the present invention will be described in comparison with the prior art. 3A is a diagram illustrating a TPEG reception tuner operation according to an embodiment of the present invention, and FIG. 3B is a diagram illustrating a TPEG reception tuner operation according to the prior art.

As shown in FIG. 3A, the TPEG reception tuner of the present invention receives TPEG information for a predetermined time in a predetermined transmission period, and selectively performs service tracking and frequency scanning after a predetermined time.

On the other hand, as shown in Figure 3b, the conventional TPEG reception tuner is used only for the reception of the TPEG information, it requires a tuner for TPEG service tracking as well as a tuner for service tracking and frequency scan.

Hereinafter, a DAB broadcast reception method according to an embodiment of the present invention will be described with reference to FIG. 4. 4 is a flowchart illustrating a DAB broadcast reception method according to an embodiment of the present invention.

Referring to FIG. 4, when the set channel is changed (S410), the main processor 250 checks whether the signal-to-noise ratio of the second tuner 230 configured for data processing is greater than or equal to a preset threshold (S420). In this case, the main processor 250 receives and provides the DAB broadcast by the first tuner 210 by allowing the first tuner 210 set for audio reception to tune to the broadcast frequency of the current region corresponding to the set channel.

In this case, if the signal-to-noise ratio of the second tuner 230 is less than the threshold, the main processor 250 does not receive the TPEG information by the second tuner 230 for a predetermined period of time, and uses the service trace and frequency scan only. Thereafter, after a certain period of time, the second tuner 230 reconfirms whether the signal-to-noise ratio of the second tuner 230 is greater than or equal to the threshold in order to confirm whether or not the TPEG information may be received.

On the other hand, if the signal-to-noise ratio of the second tuner 230 is greater than or equal to the threshold, the main processor 250 operates the second tuner 230 in a TPEG mode that tunes to the TPEG frequency to receive at least two frames of TPEG information. Confirm and store the transmission cycle of (S430). In this case, the main processor 250 may check the transmission period of the TPEG information by checking a block that overlaps with the blocks of the already received TPEG information. Thereafter, the main processor 250 operates the second tuner 230 in the TPEG mode, the service tracking mode, and the frequency scan mode in consideration of the transmission period of the TPEG information.

The main processor 250 scans the service and scans the frequency by the second tuner 230, and checks whether the main processor 250 arrives at the confirmed transmission period (S440).

When the main processor 250 arrives at the transmission period, the tuning frequency of the second tuner 230 is changed for the TPEG service, and one block of TPEG information is received and stored (S450).

The main processor 250 checks the signal-to-noise ratios of the first tuner 210 and the second tuner 230 to determine whether service tracking is necessary (S460). At this time, the main processor 250, if the signal-to-noise ratio of the second tuner 230 is greater than or equal to a predetermined threshold, and the signal-to-noise ratio of the first tuner 210 is less than or equal to the threshold, service tracking is required. You can check it.

If service tracking is required, the main processor 250 changes the function of the second tuner 230 and the function of the first tuner 210 (S470). Specifically, the main processor 250 locks the second tuner 230 to the tuning frequency corresponding to the set channel, receives the DAB broadcast, scans the first tuner 210 with the frequency scan, receives the TPEG, and services. Used for tracking.

If the service tracking is not required, the main processor 250 scans the frequency DAB broadcasting frequency of the surrounding area while varying the tuning frequency of the second tuner 230 to cover the DAB broadcasting frequency band for frequency scanning. Save (S490).

Thereafter, the main processor 250 compares the received and stored TPEG blocks with the currently received TPEG blocks to determine whether all of the plurality of blocks constituting the TPEG information have been received (S500).

After receiving the plurality of blocks, the main processor 250 configures and provides the TPEG information by combining the plurality of blocks (S510).

As such, the present invention can provide DAB broadcast reception, TPEG information reception, frequency scan and service tracking by two tuners, which can reduce the number of parts and production cost, and receive TPEG information in consideration of signal-to-noise ratio. The reception error can be reduced accordingly.

In addition, the present invention can reduce the pop noise of the digital audio broadcasting by continuously monitoring the frequency of the set channel corresponding to the current position to provide a handover (service tracking).

While the present invention has been described in detail with reference to the accompanying drawings, it is to be understood that the invention is not limited to the above-described embodiments. Those skilled in the art will appreciate that various modifications, Of course, this is possible. Accordingly, the scope of protection of the present invention should not be limited to the above-described embodiments, but should be determined by the description of the following claims.

Claims (10)

A first broadcast receiver configured to receive a DAB broadcast in synchronization with a digital audio broadcasting (DAB) broadcasting frequency of a current region corresponding to a set channel and to output audio from the DAB broadcast;
A frequency scan mode that scans the DAB broadcasting frequency of a neighboring region in case of handover from the current region to another region, and when the handover occurs, the DAB broadcasting frequency of the other region instead of the first broadcasting receiver. A second broadcast receiver operating in a service following mode for receiving DAB broadcast of the set channel and a TPEG mode for receiving TPEG information in synchronization with the second broadcast receiver; And
A main processor for checking a transmission period of the TPEG information and selectively controlling an operation mode of the second broadcast receiver to the frequency scan mode, the service tracking mode, and the TPEG mode in consideration of the transmission period,
And the first broadcast receiver is operated in the frequency scan mode, the service tracking mode, and the TPEG mode on behalf of the second broadcast receiver under control of the main processor when the handover is over. The method of claim 1, wherein the main processor,
And the signal-to-noise ratio of the second broadcast receiver in the TPEG mode is less than a preset threshold, and operates only in the service tracking mode and the frequency scan mode without receiving the TPEG information. The method of claim 1, wherein the main processor,
When the set channel is changed, the signal to noise ratio of the second broadcast receiver is determined to be equal to or greater than a preset threshold. DAB broadcast receiver. The method of claim 1, wherein the main processor,
By switching the second broadcast receiver to the TPEG mode in the transmission period to receive the TPEG information consisting of a plurality of blocks sequentially one block per transmission period, after receiving the one block, the service tracking mode or And operating in the frequency scan mode and, upon receiving all of the plurality of blocks, configures the TPEG information. The method of claim 4, wherein the main processor,
And if the block is not received in the current transmission period, receiving the one block in the next transmission period. The apparatus of claim 1, wherein the second broadcast receiver comprises a tuner and a baseband unit.
The main processor variably controls the tuning frequency of the tuner to operate the second broadcast receiver in the frequency scan mode, and fixes the tuner at a specific frequency to operate the second broadcast receiver in the service tracking mode and the TPEG mode. DAB broadcast receiver. A first tuner for receiving DAB broadcasts and a second tuner for frequency scanning, service tracking and TPEG reception, the DAB broadcasting receiver switching between functions of the first tuner and the second tuner at the time of service tracking; As a DAB broadcast receiving method,
If the signal-to-noise ratio of the second tuner is greater than or equal to a preset threshold, checking the transmission period of the TPEG information by receiving the plurality of blocks of TPEG information consisting of a plurality of blocks; And
Controlling the second tuner to arrive at the transmission period, using the second tuner for a predetermined time for receiving the plurality of blocks one by one, and using the second tuner for the frequency scan and the service tracking function after the predetermined time.
DAB broadcast receiving method comprising a. The method of claim 7, wherein the checking step,
When the set channel is changed, checking the transmission period of the TPEG information by receiving at least two frames of the TPEG information at least once
DAB broadcast receiving method comprising a. The method of claim 7, wherein the checking step,
If the signal-to-noise ratio of the second tuner is less than the threshold, not using the second tuner to receive the TPEG information, but using the service for tracing and the frequency scan only for a predetermined period of time; And
Reconfirming whether the signal-to-noise ratio of the second tuner is greater than or equal to the threshold after the predetermined period of time
DAB broadcast receiving method further comprising. The method of claim 7, wherein the controlling step,
Controlling the second tuner to sequentially receive the plurality of blocks by one block for each transmission period;
After receiving the block, controlling the second tuner to perform the frequency scan and the service tracking; And
When all of the plurality of blocks are received, configuring the TPEG information
DAB broadcast receiving method comprising a.

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