JP4241112B2 - Headend device and CATV system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention selects a digital TV broadcast of a predetermined broadcast channel from reception signals input from a reception antenna, demodulates video and audio signals, and transmits analog TV broadcast signals for transmission from the demodulated video and audio signals. And a CATV system provided with the head end device.
[0002]
[Prior art]
Conventionally, terrestrial broadcasting using a ground station, BS broadcasting using a broadcasting satellite (BS), CS broadcasting using a communication satellite (CS), and the like are known as television broadcasting. In the CATV system that retransmits these television broadcasts, the headend device receives each broadcast radio wave and converts the frequency of the received signal as it is, or individually converts the television broadcast signal included in the received signal. Thus, the plurality of television broadcast signals are stored in a frequency band that can be transmitted by the CATV system, and are transmitted onto the transmission line.
[0003]
By the way, in recent years, BS digital broadcasting has been started in BS broadcasting in addition to BS analog broadcasting that has been conventionally performed. In the existing CATV system, if the received signal of this BS digital broadcast is sent to the transmission line as it is (or just frequency-converted) as in the past, the transmittable bandwidth in the CATV system is narrow, Other received signals such as BS analog broadcasts may not be transmitted. Further, if the BS digital broadcast is transmitted as it is in the signal form received by the receiving antenna, a receiver dedicated to the BS digital broadcast is required when viewing the BS digital broadcast on the terminal side.
[0004]
Therefore, in recent years, as a method of retransmitting such BS digital broadcasts together with other received signals in an existing CATV system, a predetermined broadcast channel can be used by using a BS digital tuner capable of receiving BS digital broadcasts on the head end device side. The BS digital broadcast is selected and demodulated, and the analog TV broadcast signal of a predetermined transmission channel is obtained from the demodulated video signal and audio signal using a modulator for generating an analog TV broadcast signal (in Japan, NTSC). (Television broadcast signal) is generated, and the generated analog television broadcast signal is transmitted to the terminal side (for example, see Patent Document 1).
[0005]
In other words, in this way, in the CATV system, video and audio signals of broadcast channels provided by BS digital broadcasting can be transmitted as analog television broadcast signals in the same frequency band (VHF or UHF band) as terrestrial broadcasting. In addition, on the terminal side, BS digital broadcasting can be viewed using a conventional general television receiver.
[0006]
[Patent Document 1]
Japanese Patent Laid-Open No. 2002-247546
[Problems to be solved by the invention]
By the way, when the BS digital tuner and the modulator are provided in the head end device as described above, the audio mode of the analog TV broadcast signal generated by the modulator needs to correspond to the BS digital broadcast audio mode.
[0008]
In other words, as is well known, there are three types of audio modes such as monaural, stereo, and multi-speech as television broadcasting audio modes, and in BS digital broadcasting, the audio mode is appropriately set to one of these three types of audio modes. In order to be able to reproduce the desired audio provided by BS digital broadcasting on the terminal side of the CATV system, the audio signal used when the modulator generates an analog television broadcast signal. Therefore, it is necessary to correspond to the sound mode of BS digital broadcasting.
[0009]
For this purpose, information representing the audio mode identified when the audio signal is demodulated on the BS digital tuner side may be configured to be output from the BS digital tuner to the modulator. The BS digital tuner needs to be improved, and the existing BS digital tuner cannot be used.
[0010]
In other words, generally available BS digital tuners output two types of audio signals, an analog audio signal and a digital audio signal, as audio signals, but the type of the audio signal (monaural, stereo, Since information representing multiple voices cannot be output, information representing the type of audio signal is output from the BS digital tuner to the modulator, and an analog TV broadcast signal corresponding to the BS digital broadcast audio mode is generated on the modulator side. In order to achieve this, a dedicated digital tuner capable of outputting information representing the type of audio signal must be used, resulting in a problem of increasing the cost of the headend device.
[0011]
The present invention has been made in view of these problems, and includes a digital tuner that selects and demodulates digital television broadcast, and a head end that includes a modulator that generates an analog television broadcast signal from the demodulated video and audio signals. An object of the present invention is to enable an apparatus to generate an analog television broadcast signal corresponding to an audio mode on the modulator side without outputting information representing the audio mode of the digital television broadcast from the digital tuner.
[0012]
[Means for Solving the Problems]
The invention of claim 1 made to achieve this object is
A digital television broadcast of a predetermined broadcast channel is selected from received signals input from a receiving antenna, and a digital tuner that demodulates a video signal and an audio signal, and a video signal and an audio signal demodulated by the digital tuner are predetermined. And a modulator for generating an analog TV broadcast signal of a transmission channel, and transmitting the analog TV broadcast signal generated by the modulator to a transmission line of a CATV system,
The digital tuner is configured to demodulate and output an analog audio signal corresponding to the audio mode of the digital television broadcast and a digital audio signal including status information indicating the audio mode, as the audio signal,
The headend device captures the digital audio signal output from the digital tuner, determines the audio mode of the digital television broadcast from the status information included in the digital audio signal, and outputs the determination result to the modulator Voice determination means is provided,
The modulator identifies an audio mode of the digital television broadcast based on a determination result output from the audio determination unit, and an analog audio output from the digital tuner in a modulation method corresponding to the identified audio mode. By modulating the signal, an analog TV broadcast signal corresponding to the audio mode of the digital TV broadcast is generated.
It is characterized by that.
[0013]
Thus, the head-end unit of the present invention, determines the sound judgment means the audio mode of the digital television broadcast from the status information included in the digital audio signal output from the digital tuner provided, the modulator, the voice The digital television broadcast audio mode is identified based on the determination result output from the determination means, and the analog audio signal output from the digital tuner is modulated by a modulation method corresponding to the identified audio mode, thereby enabling digital television broadcasting. An analog TV broadcast signal corresponding to the broadcast audio mode is generated.
[0014]
Therefore, according to the headend device of the present invention, there is no need to use a dedicated (so-called business-use) digital tuner capable of outputting information representing the audio mode of the demodulated analog audio signal as a digital tuner, and is generally commercially available. Therefore, it is possible to use an inexpensive digital tuner, which can prevent an increase in the cost of the headend device.
[0015]
Further, since the modulator generates an analog TV broadcast signal in the same audio mode as that of the digital TV broadcast, if the CATV system is constructed using the headend device of the present invention, the terminal can perform the digital TV broadcast. It is possible to play back desired audio (monaural audio, stereo audio, or main audio or sub-audio of multiple audio) provided, and the service for subscribers can be improved.
[0016]
The headend device of the present invention is applicable not only to the CATV system that retransmits the BS digital broadcast described in the section of the prior art, but also to the CATV system that retransmits the CS digital broadcast or the terrestrial digital broadcast. You can also.
In other words, in the headend device of the present invention, if a BS digital tuner for receiving BS digital broadcasting is provided as a digital tuner, video and audio signals provided by BS digital broadcasting are converted into analog television broadcasting signals. If a CS digital tuner that receives CS digital broadcasting is provided as a digital tuner, video and audio signals provided by CS digital broadcasting are retransmitted as analog television broadcast signals. If a terrestrial digital tuner for receiving terrestrial digital broadcasting is provided as a digital tuner, video and audio signals provided by terrestrial digital broadcasting can be retransmitted as analog television broadcast signals. it can.
[0017]
Since any of the retransmitted analog TV broadcast signals can be set to the same audio mode as the original digital TV broadcast by using the audio determination means, the CATV system terminal side can transmit the original digital TV broadcast signal. It is possible to reproduce the desired sound provided by.
[0018]
On the other hand, a CATV system according to claim 2 is provided with the head end device according to claim 1, and an analog television broadcast signal sent from the head end device onto a transmission line is transmitted to a plurality of terminals via the transmission line. It is characterized by transmitting.
Therefore, according to this CATV system, a digital television broadcast can be retransmitted as an analog television broadcast of the same audio mode as that audio mode, and the audio mode of the digital TV broadcast can be set on the headend device. Since it is not necessary to provide a dedicated (so-called business-use) digital tuner capable of outputting the information to be represented, the cost of the CATV system can be suppressed.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a configuration diagram showing the overall configuration of a CATV system of an embodiment to which the present invention is applied.
[0020]
As shown in FIG. 1, the CATV system of the present embodiment has a VHF antenna 2 that receives broadcast radio waves from a ground station that performs VHF television broadcast (analog), and a broadcast from a ground station that performs UHF television broadcast (analog broadcast). A UHF antenna 4 that receives radio waves, a CS antenna 6 that receives broadcast radio waves from a CS broadcast communication satellite (CS), converts the received signal into a CS received signal in a predetermined intermediate frequency band, and outputs the CS signal; A headend device 10 having a BS antenna 8 that receives broadcast radio waves from a broadcasting satellite (BS) that performs BS digital broadcasting, converts the received signal into a BS received signal of a predetermined intermediate frequency band, and outputs the BS received signal; A transmission line (coaxial cable) L for transmitting a large number of television broadcast signals sent from the head end device 10 to the terminal side, and a transmission line provided on the transmission line L An amplifier 14 and 16 for amplifying the transmission signal (headend television signals sent from the 10, etc.) flowing is configured from the various transmission devices for branch or distribution (not shown).
[0021]
Here, in the headend device 10, the received signals from the VHF antenna 2, UHF antenna 4, and CS antenna 6 are used as they are or after frequency conversion to the transmission frequency band, from the transmission device 12 to the transmission line. The data is transmitted on L.
[0022]
For the BS received signal from the BS antenna 8, the BS digital broadcast is selected and demodulated for each broadcast channel by using a plurality of remodulators 20 corresponding to the number of BS digital broadcast channels. And an audio signal is reproduced, and an analog television broadcast signal of a predetermined transmission channel is generated in the same manner as the terrestrial broadcast of VHF / UHF by re-modulating the reproduced video and audio signal to the NTSC system. A television broadcast signal is sent out on the transmission line L from the sending device 12 together with other television broadcast signals.
[0023]
In other words, the head end device 10 is provided with a distributor 11 that distributes the BS reception signal from the BS antenna 8, and the BS reception signal distributed by the distributor 11 is supplied to each of the post-modulation units 20. The received signal is input to the received signal input terminal 20a.
[0024]
Each of the rear modulation units 20 selects a television broadcast signal (digital television broadcast signal) of a preset broadcast channel from the BS reception signal input to the reception signal input terminal 20a, and the television broadcast The BS digital tuner 22 that demodulates the video and audio signals included in the signal, and the video and audio signals demodulated by the BS digital tuner 22 are converted into a television broadcast signal (NTSC analog television broadcast) of a predetermined transmission channel. A modulator 24 is provided.
[0025]
Then, the television broadcast signal generated by the modulator 24 is output from the broadcast signal output terminal 20b to the transmission device 12, mixed with other television broadcast signals by the transmission device 12, and transmitted onto the transmission line L. Is done.
In addition, the BS digital tuner 22 provided in each post-modulation unit 20 is not a system-dedicated (so-called business-use) digital tuner, but a commercially-available (so-called consumer-use) digital tuner, in order to reduce the cost of the headend device 10. A tuner is used.
[0026]
Then, the BS digital tuner 22 of the present embodiment receives a BS digital broadcast signal of a preset broadcast channel from the BS reception signals input from the BS antenna 8 via the distributor 11 to the reception signal input terminal 20a. Before selecting the channel, demodulating the analog video signal and analog audio signal from the selected BS digital broadcast signal and outputting them from the video output terminal (S terminal or composite terminal) and audio output terminal, and before demodulating the analog audio signal The digital audio signal is converted into an optical signal and output as an optical audio signal from the optical output terminal.
[0027]
In BS digital broadcasting, broadcasting is performed in any one of monaural, stereo, and multi-speech (bi-lingual or main / sub) sound modes. Therefore, the BS digital tuner 22 performs sound corresponding to this sound mode. The signal is demodulated, and the demodulated analog audio signal is output from two audio output terminals (R · L) capable of outputting stereo and multi-audio signals.
[0028]
On the other hand, the modulators 24 provided in each of the rear modulation units 20 take in the analog video signal and the analog audio signal from the BS digital tuner 22 via the video input terminal Tvi and the audio input terminals Tar and Tal. From a modulation unit 24a that generates an analog television signal (NTSC) in a predetermined frequency band (for example, 45 MHz band), and an analog television signal generated by the modulation unit 24a into a preset transmission channel (in other words, A frequency conversion unit 24b that converts the frequency into an analog television broadcast signal in a frequency band corresponding to the transmission channel), and an amplification unit 24c that amplifies the analog TV broadcast signal frequency-converted by the frequency conversion unit 24b. The analog TV broadcast signal amplified by the amplifier 24c is output from the output terminal Tout. Has been.
[0029]
The modulation unit 24a modulates an analog audio signal when generating an analog television signal (NTSC). At the time of this modulation, the modulation method is switched in accordance with the audio mode of the analog audio signal. For this purpose, the modulator 24 is provided with control signal input terminals Ti0 and Ti1 for inputting control signals “MO” and “BI” representing the sound mode of the analog sound signal from the outside, and the modulation unit 24a. Identifies the audio mode of the analog audio signal from the signal levels of the control signals “MO” and “BI” input to the control signal input terminals Ti0 and Ti1, and switches the modulation method of the analog audio signal.
[0030]
2B, the control signal “MO” is at a high level when the analog audio signal is monaural, and the control signal “BI” is at a high level when the analog audio signal is multi-audio. The modulation unit 24a sets the audio mode of the analog audio signal to monaural (MO: High, BI: Low) from the combination of the signal levels of the control signals “MO” and “BI”. , Stereo (MO: Low, BI: Low), or multi-speech (MO: Low, BI: High).
[0031]
Thus, in this embodiment, the modulation unit 24a of the modulator 24 changes the audio mode of the analog audio signal from the signal levels of the control signals “MO” and “BI” input to the control signal input terminals Ti0 and Ti1. By identifying and switching the modulation method of the analog audio signal, the BS digital broadcast audio mode selected by the BS digital tuner 22 to the control signal input terminals Ti0 and Ti1 (in other words, the audio mode of the analog audio signal). If the control signals “MO” and “BI” representing the above are input, the audio mode of the analog television broadcast signal output from each remodulation unit 20 can be made to correspond to the audio mode of the original BS digital broadcast. Each modulator 20 uses a consumer BS digital tuner 22 for cost reduction. From the BS digital tuner 22, Control signal indicating a voice mode of digital broadcasting "MO", can not be output to "BI".
[0032]
Therefore, in the present embodiment, as shown in FIG. 1, each post-modulation unit 20 identifies the audio mode of BS digital broadcasting selected by the BS digital tuner 22 based on the optical audio signal output from the BS digital tuner 22. The controller 30 is provided, and the control signals “MO” and “BI” are input from the controller 30 to the control signal input terminals Ti0 and Ti1 of the modulator 24.
[0033]
The controller 30 corresponds to the sound determination means of the present invention and is configured as shown in FIG.
That is, the controller 30 takes in an optical audio signal (in other words, a digital audio signal) from the BS digital tuner 22 via the optical signal input terminal Top, and decodes various data included in the optical audio signal (digital audio interface). ) 30a, a data selection unit 30b for selecting channel status information (specifically, a channel status bit or a user bit) representing the voice mode among the data decoded by the decoder 30a, and a data selection unit 30b The BS digital tuner 22 selects the BS digital broadcast audio mode selected on the basis of the channel status information selected in Step 1, and outputs control signals “MO” and “BI” corresponding to the identified audio mode. Micro output to the modulator 24 via the terminals Tc0 and Tc1 Computer (hereinafter, simply microcomputer hereinafter) is composed of a 30c,.
[0034]
In the microcomputer 30c, as shown in FIG. 3B, the BS digital tuner 22 is selected from the channel status information selected by the data selection unit 30b in S110 (S represents a step). If the sound mode of the BS digital broadcast is determined and the determined sound mode is monaural (S120: YES), the control signal “MO” output from the control signal output terminal Tc0 is set to the High level, and the control signal output terminal By setting the control signal “BI” output from Tc1 to a low level, a control signal indicating that the sound mode is monaural is output to the modulator 24 (S130), and the sound mode determined in S110 is monaural. If it is not (S120: NO), if it is stereo (S140: YES), the control signal is output from the control signal output terminals Tc0 and Tc1. By setting both “MO” and “BI” to low level, a control signal indicating that the audio mode is stereo is output to the modulator 24 (S150), and even if the audio mode determined in S110 is monaural. If the sound is not stereo (S120: NO, S140: NO) and there are multiple sounds, the control signal “MO” output from the control signal output terminal Tc0 is set to the low level and the control signal “output” from the control signal output terminal Tc1 is set. By setting “BI” to the high level, a control signal indicating that the sound mode is multi-sound is output to the modulator 24 (S160), and the sound mode switching process is executed.
[0035]
As described above, in the CATV system of the present embodiment, the BS digital broadcast signal is selected and demodulated in the head end device 10 for each broadcast channel of the BS digital broadcast and converted into an analog television broadcast signal. A plurality of remodulation units 20 are provided so that video and audio signals provided by BS digital broadcasting can be reproduced on the terminal side. Also, each post-modulation unit 20 determines the BS digital broadcast audio mode from the channel status information included in the optical audio signal (digital audio signal) output from the BS digital tuner 22 and represents the audio mode. A controller 30 that outputs control signals “MO” and “BI” is provided. On the modulator 24 side, an analog audio signal is modulated based on the control signal output from the controller 30.
[0036]
Therefore, in the CATV system of the present embodiment, it is not necessary to provide the headend device 10 with an expensive BS digital tuner for business use that can output a control signal representing the sound mode of the selected BS digital broadcast. A CATV system capable of retransmitting broadcasting as analog television broadcasting can be constructed at low cost.
[0037]
Further, since the modulator 24 generates an analog television broadcast signal in the same audio mode as that of BS digital broadcasting, on the terminal side, desired audio (mono audio, stereo audio, or multiple audio) provided by BS digital broadcasting is generated. The main voice or sub voice) can be reproduced, and the service for the subscriber can be improved.
[0038]
As mentioned above, although one Example of this invention was described, this invention is not limited to the said Example, A various aspect can be taken.
For example, in the above-described embodiment, a plurality of remodulation units 20 including the BS digital tuner 22 are provided in the head end device 10, and BS digital broadcasting of a predetermined broadcast channel is selected and demodulated by the remodulation unit 20. By converting to analog TV broadcast signals, BS digital broadcasts can be viewed on the terminal side, but CS digital broadcasts or terrestrial waves can be used instead of the BS digital tuner 22 in the head end device 10, the remodulation unit 20, If a digital tuner for selecting and demodulating digital broadcasting is provided, or if a re-modulation unit comprising the digital tuner, modulator 24 and controller 30 is provided separately, CS digital broadcasting and terrestrial digital Analog TV broadcast signals consisting of video and audio signals provided by broadcasting can be retransmitted to the terminal side. .
[Brief description of the drawings]
FIG. 1 is a configuration diagram illustrating an overall configuration of a CATV system according to an embodiment.
FIG. 2 is an explanatory diagram illustrating the configuration and operation of a modulator according to an embodiment.
FIG. 3 is an explanatory diagram illustrating a configuration and an operation of a controller according to an embodiment.
[Explanation of symbols]
2 ... VHF antenna, 4 ... UHF antenna, 6 ... CS antenna, 8 ... BS antenna, 10 ... head end device, 11 ... distributor, 12 ... sending device, 14, 16 ... amplifier, 20 ... demodulation unit, 22 ... BS digital tuner, 24 ... modulator, 24a ... modulator, 24b ... frequency converter, 24c ... amplifier, 30 ... controller, 30a ... decoder, 30b ... data selector, 30c ... microcomputer, L ... transmission line.

Claims (2)

A digital tuner that selects a digital television broadcast of a predetermined broadcast channel from reception signals input from a reception antenna, and demodulates a video signal and an audio signal;
A modulator that generates an analog television broadcast signal of a predetermined transmission channel from the video signal and the audio signal demodulated by the digital tuner;
A head-end device for sending an analog television broadcast signal generated by the modulator to a transmission line of a CATV system,
The digital tuner is configured to demodulate and output an analog audio signal corresponding to the audio mode of the digital television broadcast and a digital audio signal including status information indicating the audio mode, as the audio signal,
The headend device captures the digital audio signal output from the digital tuner, determines the audio mode of the digital television broadcast from the status information included in the digital audio signal, and outputs the determination result to the modulator Voice determination means is provided,
The modulator identifies an audio mode of the digital television broadcast based on a determination result output from the audio determination unit, and an analog audio output from the digital tuner in a modulation method corresponding to the identified audio mode. By modulating the signal, an analog TV broadcast signal corresponding to the audio mode of the digital TV broadcast is generated.
A headend device characterized by that . A CATV system comprising the head end device according to claim 1, wherein an analog television broadcast signal transmitted from the head end device onto a transmission line is transmitted to a plurality of terminals via the transmission line.

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