JP2006254288A - Television broadcasting receiver - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a television broadcasting receiver that can shorten the time for search scanning receivable channels which is performed in the beginning stage of use. <P>SOLUTION: Considering that signals for CATV broadcasting and ground digital retransmission are not transmitted in the same frequency in a CATV distributed transmission channel when scanning each receivable frequency, a transmission channel frequency is stored which is determined that either of the broadcasting signals is receivable. When searching the other broadcasting signal, the stored transmission channel frequency is excluded. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a receiving apparatus equipped with a channel selection search function of a broadcast receiver typified by a set-top box or a television set compatible with CATV broadcasting and terrestrial digital broadcasting.

In a conventional television broadcast receiver, by scanning the transmission channel distributed by CATV, the frequency information included in the program arrangement information and the carrier frequency selected by the selected tuner for each transmission channel of the terrestrial retransmission signal are selected. There is a digital television receiver including a control unit that acquires correspondence information and registers it as a frequency information conversion table (see, for example, Patent Document 1).
Japanese Patent No. 3338810 (page 3-4, FIG. 2)

  In the conventional television broadcast receiver having the frequency conversion data acquisition method, it is necessary to scan all the transmission channels distributed by CATV in order to acquire all the frequency information included in the program arrangement information for each transmission channel. In this case, each transmission channel must be selected and the receiving tuner must tune, and there is a problem that the tuning time required for channel selection takes all transmission channels. This will be specifically described with reference to FIG. Steps S1 to S7 are repeated to scan CATV broadcast receivable transmission channels, and then all transmission channels are scanned. Then, steps S1 to S7 are again performed to scan receivable transmission channels of the terrestrial retransmission signal. To scan all transmission channels again, the time required to execute steps S1 to S7 until the completion of scanning of the total number of transmission channels × the total number of transmission channels × 2 times (the operation of scanning a CATV broadcast signal) And the operation of scanning the terrestrial re-transmission signal).

  In order to solve the conventional problem, a television broadcast receiver according to claim 1 of the present invention is that a CATV broadcast signal and a terrestrial digital retransmission signal are transmitted on a transmission channel distributed by CATV. Note that it is not possible to transmit at the same frequency, and when scanning each receivable frequency, store the frequency of the transmission channel judged to be receivable by one of the broadcast signals. In addition, when searching for the other broadcast signal, it was possible to reduce the scan time of the receivable transmission channel performed at the initial stage of use by performing the search excluding the frequency of the transmission channel. Features.

  As described above, when the television broadcast receiver of the present invention scans each receivable frequency, the frequency of the transmission channel determined to be receivable by one of the broadcast signals is stored, When searching for the other broadcast signal, the search time except for the frequency of the transmission channel is searched, so that the scan time for searching for a receivable channel performed at the initial stage of use can be shortened.

The CATV broadcast signal and the terrestrial digital retransmission signal are transmitted at the same frequency in the transmission channel distributed by CATV for the purpose of shortening the scan time of the receivable channel performed at the initial stage of use. Note that the frequency of the transmission channel determined to be receivable by one of the broadcast signals when scanning each receivable frequency, and storing the other When searching for a broadcast signal, a search method is provided that excludes the frequency of the transmission channel.
(Embodiment 1)
FIG. 1 shows a block diagram of a television broadcast receiver according to Embodiment 1 of the present invention. In FIG. 1, a digital terrestrial broadcast receiver 9 receives a CATV broadcast signal from a transmission line, selects a transmission channel and tunes it, and changes the transmission line modulation system for the digital terrestrial broadcast from the transmission line. The demodulator for receiving the terrestrial digital retransmission signal sent to the CATV transmission line without selecting it, selecting the transmission channel, and mounting each tuner of the tuner B3 for tuning, and demodulating each tuner output signal It has. Note that the tuner may be configured as one integrated tuner that can receive the transmission channel of the CATV broadcast and the transmission channel of the terrestrial digital retransmission signal. The demodulator A2 performs QAM demodulation corresponding to the transmission channel modulation method of CATV broadcasting, and the demodulation unit B4 performs OFDM demodulation corresponding to the transmission channel modulation method of the terrestrial digital retransmission signal whose transmission channel modulation method is not changed. After each modulation system signal is demodulated by each demodulator, the output transport stream signal is input to the MPEG processor 5 to obtain program arrangement information and to decode video / audio. The video is input to the AV decoding processing unit 6 and processed, and video / audio is output. Further, in the microcomputer 7, the tuning control processing of the tuner A1 and the tuner B3, the control processing of the demodulation unit A2 and the demodulation unit B4, the control processing of the MPEG processing unit 5, the control processing of the AV decoding processing unit 6, and the television broadcast receiver 9 performs the entire control process, and the memory 8 stores information such as the tuning control performed by the microcomputer 7 and the scan result of the transmission channel. A television broadcast receiver 9 is configured by the above blocks.

With respect to the television receiver 9 configured as described above, a transmission channel scanning method performed by the television broadcast receiver 9 will be described with reference to FIG. First, in order to scan a transmission channel that can be received by a CATV broadcast signal input from a transmission line, the tuner A1 is controlled by tuning control processing from the microcomputer 7, and the frequency of the lowest transmission channel in the VHF low band is sequentially selected. Then, scanning is started for each transmission channel in the order of mid band → VHF high band → super high band UHF band (step S11). The tuner A1 waits for a predetermined time until the transmission channel is tuned (step S12), and then, under the control of the microcomputer 7, the signal tuned and selected by the tuner A1 is input to the demodulator A2, and the signal is Is determined whether synchronization can be established (step S13). If the transmission channel can be established in synchronization by the demodulator A2, the frequency of the transmission channel that has been established in synchronization is stored in the memory 8 via the microcomputer 7 (step S14). If the transmission channel cannot be established synchronously by the demodulator A2, step S14 is passed without storing the frequency of the transmission channel in the memory 8. As the next step, transmission channels are selected toward the higher next frequency, and it is determined whether or not scanning of all transmission channels has been completed (step S15). If scanning of all transmission channels has not been completed, the process proceeds to step S16, and the next transmission channel is selected toward the higher frequency (step S16). Then, it progresses to step S12 and repeats step S12 to step S16 similarly to the above. If scanning of all transmission channels is completed, the process proceeds to step S20. This completes the scan of the CATV broadcast transmission channel, and then scans the transmission channel of the terrestrial digital retransmission signal transmitted to the CATV transmission path. The tuner B3 is controlled by tuning control processing from the microcomputer 7 in order to scan the receivable transmission channel of the terrestrial digital retransmission input from the transmission line, in order from the lowest transmission channel frequency of the VHF low band, Scanning is started for each transmission channel from the mid band to the VHF high band to the super high band UHF band (step S20). Here, when controlling the tuner B3 from the microcomputer 7, whether or not the transmission channel selected by the tuner A1 at the time of the above-mentioned CATV broadcast signal scan is a channel that cannot be synchronized with the demodulator A3 is determined via the microcomputer 7. Then, it is determined whether the frequency is not stored in the memory 8, that is, whether the transmission channel cannot be synchronized when the CATV broadcast signal is scanned (step S21). If the frequency of the transmission channel to be selected by the tuner B3 by the tuning control processing from the microcomputer 7 is the frequency of the transmission channel that has been established when the CATV broadcast signal is scanned, that is, the frequency stored in the memory 8. In this case, since there is a CATV broadcast signal in the transmission channel, the terrestrial digital retransmission signal cannot be transmitted. Therefore, the tuning control processing to the tuner B3 of the transmission channel is not performed. The process proceeds to step S26 to select the next transmission channel toward the higher side. If the frequency of the transmission channel to be selected by the tuner B3 by the tuning control processing from the microcomputer 7 is the frequency of the transmission channel for which synchronization cannot be established when scanning the CATV broadcast signal, that is, the frequency not stored in the memory 8 In this case, since there is a possibility that a transmission channel other than the CATV broadcast signal is transmitted in the transmission channel, it is necessary to perform tuning control processing to the tuner B3 for the transmission channel. 7 performs tuning control processing to tuner B3, and waits for a predetermined time (step S22). Next, under the control of the microcomputer 7, the signal tuned and selected by the tuner B3 is input to the demodulation unit B4, and it is determined whether or not the signal can be synchronized (step S23). If the transmission channel can be established in synchronization by the demodulator B4, the frequency of the transmission channel that has been established in synchronization can be stored in the memory 8 via the microcomputer 7 (step S24). If the transmission channel cannot be established synchronously by the demodulator B4, step S24 is passed without storing the frequency of the transmission channel in the memory 8. As the next step, transmission channels are selected toward the higher next frequency, and it is determined whether or not scanning of all transmission channels has been completed (step S25). If scanning of all transmission channels is not completed, the process proceeds to step S26, and the next transmission channel is selected toward the higher frequency (step S26). Then, it progresses to step S21 and repeats step S21 to step S26 similarly to the above. When the scanning of all transmission channels is completed, the scanning of the transmission channels of the terrestrial digital retransmission signal is also completed, and the scanning of all the transmission channels is completed as described above.
(Embodiment 2)
A second embodiment of the present invention will be described. Since the configuration is the same as that of the first embodiment, a description will be given with reference to FIG. In FIG. 1, the terrestrial digital broadcast receiver 9 changes the CATV broadcast signal and the BS digital broadcast signal from the transmission path to the CATV broadcast transmission path modulation system by changing the transmission path modulation system and retransmits the CATV broadcast signal. Tuner A1 that receives a BS digital retransmission signal, selects a transmission channel, performs tuning, and terrestrial digital broadcasting sent from the transmission line to the CATV transmission line without changing the transmission line modulation system Each tuner of the tuner B3 that receives a retransmission signal, selects a transmission channel, and performs tuning is mounted, and includes a demodulator that demodulates each tuner output signal. Note that the tuner may be composed of a single tuner that can receive the transmission channel of CATV broadcasting and the transmission channel of the terrestrial digital retransmission signal. The demodulator A2 performs QAM demodulation corresponding to the transmission channel modulation method of CATV broadcasting, and the demodulation unit B4 performs OFDM demodulation corresponding to the transmission channel modulation method of the terrestrial digital retransmission signal whose transmission channel modulation method is not changed. After each modulation system signal is demodulated by each demodulator, the output transport stream signal is input to the MPEG processor 5 to obtain program arrangement information and to decode video / audio. The video is input to the AV decoding processing unit 6 and processed, and video / audio is output. Further, in the microcomputer 7, the tuning control processing of the tuner A1 and the tuner B3, the control processing of the demodulation unit A2 and the demodulation unit B4, the control processing of the MPEG processing unit 5, the control processing of the AV decoding processing unit 6, and the television broadcast receiver 9 performs the entire control process, and the memory 8 stores information such as the tuning control performed by the microcomputer 7 and the scan result of the transmission channel. A television broadcast receiver 9 is configured by the above blocks.

  With respect to the television broadcast receiver 9 configured as described above, a transmission channel scanning method performed by the television broadcast receiver 9 will be described using FIG. 2 which is the same as in the first embodiment. First, the CATV broadcast signal and BS digital broadcast signal input from the transmission path can be received as a BS digital retransmission signal that is retransmitted after changing the transmission path modulation system to the CATV broadcast transmission path modulation system. Tuner A1 is controlled by a tuning control process from the microcomputer 7 in order to perform a scan of a transmission channel, and in order from the lowest transmission channel frequency of the VHF low band, from the mid band to the VHF high band to the super high band UHF band. Scanning is started for each transmission channel (step S11). The tuner A1 waits for a predetermined time until the transmission channel is tuned (step S12), and then, under the control of the microcomputer 7, the signal tuned and selected by the tuner A1 is input to the demodulator A2, and the signal is Is determined whether synchronization can be established (step S13). If the transmission channel can be established in synchronization by the demodulator A2, the frequency of the transmission channel that has been established in synchronization is stored in the memory 8 via the microcomputer 7 (step S14). If the transmission channel cannot be established synchronously by the demodulator A2, step S14 is passed without storing the frequency of the transmission channel in the memory 8. As the next step, transmission channels are selected toward the higher next frequency, and it is determined whether or not scanning of all transmission channels has been completed (step S15). If scanning of all transmission channels has not been completed, the process proceeds to step S16, and the next transmission channel is selected toward the higher frequency (step S16). Then, it progresses to step S12 and repeats step S12 to step S16 similarly to the above. Here, while scanning all the transmission channels, the transport stream signal demodulated by the demodulator A2 is input to the MPEG processor 5 to obtain program arrangement information, and BS is included in the program arrangement information. When the information that it is a digital retransmission signal is acquired for the first time after the start of scanning, frequency information for all transmission channels of the BS digital retransmission signal transmission channel transmitted on the transmission path is transmitted in the program arrangement information. Therefore, it is determined that synchronization has been established for the transmission channel corresponding to the transmission frequency of the BS digital retransmission signal obtained from the program sequence information, and the frequency of the transmission channel is stored in the memory 8. In addition, since the BS digital retransmission signal is transmitted to the transmission channel obtained by the program arrangement information, the CATV broadcast signal cannot be transmitted, so the next transmission channel is selected in step S16. In this case, the transmission channel corresponding to the transmission frequency of the BS digital retransmission signal obtained from the program arrangement information is skipped. If scanning of all transmission channels is completed, the process proceeds to step S20. This completes the scan of the CATV broadcast transmission channel, and then scans the transmission channel of the terrestrial digital retransmission signal transmitted to the CATV transmission path. The tuner B3 is controlled by tuning control processing from the microcomputer 7 in order to scan the receivable transmission channel of the terrestrial digital retransmission input from the transmission line, in order from the lowest transmission channel frequency of the VHF low band, Scanning is started for each transmission channel from the mid band to the VHF high band to the super high band UHF band (step S20). Here, when controlling the tuner B3 from the microcomputer 7, whether or not the transmission channel selected by the tuner A1 at the time of the above-mentioned CATV broadcast signal scan is a channel that cannot be synchronized with the demodulator A3 is determined via the microcomputer 7. Then, it is determined whether the frequency is not stored in the memory 8, that is, whether the transmission channel cannot be synchronized when the CATV broadcast signal is scanned (step S21). If the frequency of the transmission channel to be selected by the tuner B3 by the tuning control processing from the microcomputer 7 is the frequency of the transmission channel that has been established when the CATV broadcast signal is scanned, that is, the frequency stored in the memory 8. In this case, since there is a CATV broadcast signal in the transmission channel, the terrestrial digital retransmission signal cannot be transmitted. Therefore, the tuning control processing to the tuner B3 of the transmission channel is not performed. The process proceeds to step S26 to select the next transmission channel toward the higher side. If the frequency of the transmission channel to be selected by the tuner B3 by the tuning control processing from the microcomputer 7 is the frequency of the transmission channel for which synchronization cannot be established when scanning the CATV broadcast signal, that is, the frequency not stored in the memory 8 In this case, since there is a possibility that a transmission channel other than the CATV broadcast signal is transmitted through the transmission channel, it is necessary to perform tuning control processing for the tuner B3 for the transmission channel. Thus, the tuning control process is performed on the tuner B3, and a certain period of time is waited (step S22). Next, under the control of the microcomputer 7, the signal tuned and selected by the tuner B3 is input to the demodulation unit B4, and it is determined whether or not the signal can be synchronized (step S23). If the transmission channel can be established in synchronization by the demodulator B4, the frequency of the transmission channel that has been established in synchronization can be stored in the memory 8 via the microcomputer 7 (step S24). If the transmission channel cannot be established synchronously by the demodulator B4, step S24 is passed without storing the frequency of the transmission channel in the memory 8. As the next step, transmission channels are selected toward the higher next frequency, and it is determined whether or not scanning of all transmission channels has been completed (step S25). If scanning of all transmission channels is not completed, the process proceeds to step S26, and the next transmission channel is selected toward the higher frequency (step S26). Then, it progresses to step S21 and repeats step S21 to step S26 similarly to the above. When scanning of all transmission channels is completed, scanning of transmission channels of the terrestrial digital retransmission signal is also completed, and scanning of all transmission channels is completed as described above.

  When the television broadcast receiver of the present invention scans each receivable frequency, it stores the frequency of the transmission channel determined to be receivable by one of the broadcast signals and stores the frequency of the other broadcast. When searching for a signal, the frequency of the transmission channel is excluded, and the scan time for searching for a receivable channel performed at the initial stage of use can be shortened. This is useful as a function of a receiver equipped with a channel search function of a broadcast receiver typified by a set-top box or a television set compatible with digital terrestrial broadcasting.

Block diagram of a television broadcast receiver of the present invention Flowchart of transmission channel scanning method performed by television broadcast receiver of the present invention Flowchart of a scanning method of a television broadcast receiver having a conventional frequency conversion data acquisition method

Explanation of symbols

1 Tuner A
2 Demodulator A
3 Tuner B
4 Demodulator B
5 MPEG processing section 6 AV decoding processing section 7 Microcomputer 8 Memory 9 Television broadcast receiver

Claims (2)

A receiver capable of receiving both a CATV broadcast signal and a terrestrial digital broadcast, both of the terrestrial digital retransmission signals sent to the CATV transmission path without changing the transmission path modulation method, and when setting a reception channel A television broadcast receiver provided with search means capable of shortening a scan time for searching for signals of both receivable broadcasts. A receiver capable of receiving both a CATV broadcast signal and a terrestrial digital broadcast signal transmitted to the CATV transmission line without changing the transmission line modulation method, and a BS digital broadcast signal, Receiving when setting the receiving channel on the transmission path where BS digital retransmission signal retransmitted after changing the transmission path modulation system and converting to the transmission path modulation system of CATV broadcasting is transmitted as CATV broadcasting signal 2. The television broadcast receiver according to claim 1, further comprising search means capable of shortening a scan time for searching for each broadcast signal.

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