JP2012235343A - Retransmission system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate an equipment configuration and additional installation construction for retransmitting a terrestrial digital television broadcast signal of at least one wave concerning an existing retransmission apparatus.SOLUTION: A reception device 2 converts terrestrial digital television broadcast signals of multiple waves into optical signals and supplies the signals to a transmission device 22 through one optical fiber 20a in multi-core optical fiber 20. The transmission device 22 restores the supplied optical signals to the original terrestrial digital television broadcast signals, and supplies them to a transmission antenna 28. An additional reception device 34 converts the terrestrial digital television broadcast signal of at least one wave into an optical signal and supplies the signal to an additional transmission device 36 through the other optical fiber 20b in the multi-core optical fiber 20. The additional transmission device 36 restores the transmitted optical signal to the original terrestrial digital television broadcast signal and supplies the signal to an additional transmission antenna 40.

Description

  The present invention relates to a terrestrial digital television broadcast signal retransmission system, and more particularly to an apparatus for adding a terrestrial digital television broadcast signal to be retransmitted.

  As a re-transmission system, there exists a thing as disclosed by patent document 1, for example. According to the technique of Patent Document 1, the receiving device has a processing unit that amplifies a plurality of received terrestrial digital television broadcast signals, and the plurality of terrestrial digital television broadcast signals from the processing unit are transmitted to an optical transmitter. Is converted into an optical signal and transmitted to one of the two transmitters via an optical fiber. One of the two transmitters converts the received optical signal into a plurality of original digital terrestrial television broadcast signals and retransmits them. The receiving apparatus also has a processing unit for a certain one-wave channel, and this processing unit operates in the event of a power failure to amplify a certain one-wave digital terrestrial television broadcast signal, and the above-described optical transmitter (this optical transmission). The machine is configured to operate even in the event of a power failure) and is converted to an optical signal and fed to an optical fiber. The transmission device for one wave channel, which is the other transmission device of the two transmission devices, is configured to operate even in the event of a power failure, and the optical signal transmitted through the optical fiber is transmitted as one specific wave. Is converted into a terrestrial digital television broadcast signal and transmitted from a transmission antenna.

JP 2010-287992 A

  According to the technique of Patent Document 1, it is possible to retransmit one-wave terrestrial digital television broadcast signals that are also during a power failure. By the way, in an existing retransmission system having only one transmitter and a receiver that is not configured to retransmit one-wave digital terrestrial television broadcast signals even during a power failure, a certain one-wave terrestrial digital In order to be able to retransmit a television broadcast signal, as one method, a processing unit for a one-wave terrestrial digital television broadcast signal that operates at the time of a power failure is added to the receiving device, and the optical transmitter is turned off at the time of a power failure. In addition, a method of adding a transmission device for a certain one-wave digital terrestrial television broadcast signal can be considered. However, such additional installation work increases the work procedure, and it is necessary to transmit a new optical signal over one optical fiber, which makes the additional work to the existing retransmission system troublesome. In addition, there is a demerit accompanied by a long stoppage. Such additional work occurs in the same manner even when an uninterruptible power supply is installed for power failure countermeasures.

  An object of the present invention is to facilitate additional installation work for enabling retransmission of at least one wave in an existing retransmission system.

  The retransmission system according to one embodiment of the present invention includes a first receiving device. The first receiving device converts a multi-wave terrestrial digital television broadcast signal into a first optical signal that can be transmitted through an optical fiber, and supplies the first optical signal to one optical fiber of a multi-core optical fiber. The first transmitter restores the first optical signal transmitted from the first receiver through the one optical fiber into the original multi-wave digital terrestrial television broadcast signal, and the first transmission Supply to antenna. In such a re-transmission system, in order to re-transmit at least one terrestrial digital television broadcast signal, the second terrestrial digital television broadcast signal is converted into a second optical signal that can be transmitted by an optical fiber. Two receiving devices are added. Note that at least one terrestrial digital television broadcast signal is the same as one of a plurality of terrestrial digital television broadcast signals retransmitted by the first receiver and the first transmitter. It is also possible to make a terrestrial digital television broadcast signal of one different wave. The second receiving device supplies the second optical signal to one optical fiber different from the optical fiber transmitting the first optical signal among the plurality of optical fibers included in the multi-core optical fiber. To do. A second transmitter restores the second optical signal transmitted from the second receiver through the other optical fiber to the at least one terrestrial digital television broadcast signal, Supplied to the transmitting antenna.

  With this configuration, the second optical signal from the second receiving device is transmitted by a single optical fiber different from the optical fiber that transmits the first optical signal. Separately, it can be constructed to facilitate additional installation work to enable retransmission.

  The second receiving device and the second transmitting device may receive at least one terrestrial digital television broadcast signal when at least one of the first transmitting device and the second receiving device is inoperable. It can be configured to retransmit. With this configuration, even when one or both of the first transmission device and the first reception device become inoperable due to, for example, a power failure or a power failure, at least one additional terrestrial digital television is added. The John broadcast signal can be retransmitted. Note that the inoperability of the first transmission device or the first reception device can be performed by detecting, for example, a power supply stop of the first transmission device or the first reception device, and an abnormal power supply can be detected. It can also be done by detecting.

  As described above, according to the present invention, it is possible to facilitate additional installation work for enabling retransmission of at least one terrestrial digital television broadcast signal in an existing retransmission system.

1 is a block diagram of a retransmission system according to an embodiment of the present invention. It is a block diagram of the receiver of the retransmission system of FIG. It is a block diagram of the transmission apparatus of the retransmission system of FIG. It is a block diagram of the additional receiver of the retransmission system of FIG. It is a block diagram of the additional receiver of the retransmission system of FIG.

  As shown in FIG. 1, the re-transmission system according to the embodiment of the present invention includes a first receiving device, for example, a receiving device 2. The receiving device 2 includes a distributor 8, a plurality of extraction units (for example, a bandpass filter 10), a plurality of signal processing units (for example, a signal processing unit 6 and an amplification unit 7), a bandpass filter 12, a combiner 14, and an electric -Consists of optical conversion means (for example, optical transmitter 16), and receives a plurality of terrestrial digital television broadcast signals received by a first reception antenna, for example, reception antenna 4, via distributor 8 and extraction means. Then, one terrestrial digital broadcast television broadcast signal is extracted, the signal is supplied to one-wave signal processing means, and after signal processing described later is performed, the synthesizer 14 performs other signal processing means. The multi-wave terrestrial television broadcast signal synthesized with the other one-wave digital terrestrial broadcast television broadcast signal is converted into a first optical signal by the electro-optical conversion means and output.

  As shown in FIG. 2, a plurality of signal processing means are provided corresponding to each wave, and each signal processing means receives a corresponding one-wave terrestrial digital television broadcast signal as signal processing units 6-1, 6-2. ... Frequency conversion to an intermediate frequency signal at 6-n, signal level adjustment of this intermediate frequency signal is performed by a waveform regeneration circuit and an automatic gain adjustment circuit, and the frequency is converted to the original one-wave terrestrial digital television broadcast signal After the conversion, the signals are amplified by the amplification units 7-1, 7-2,... 7-n. One wave of terrestrial digital broadcast signals output from the plurality of signal processing means are combined by the combiner 14 and supplied to the optical transmitter 16. In the figure, reference numeral 8 indicates a distributor for distributing a plurality of terrestrial digital television broadcast signals received by the receiving antenna 4, indicated by reference numerals 10-1, 10-2,. Is a single-wave digital terrestrial television broadcast signal input to each signal processing unit 6-1, 6-2, 6 -n from a plurality of digital terrestrial television broadcast signals distributed from the distributor 8. The extraction means provided on the input side of each of the signal processing means 6-1, 6-2,..., 6-n, for example, band-pass filters, reference numerals 12-1, 12-2,. Shown are band-pass filters that are provided on the output side of the amplifiers 7-1, 7-2,... 7 -n and remove unnecessary signal components.

  The output of the receiving device 2 is supplied to the transmitting device 22 through one optical fiber 20a of the multi-core optical fiber 20 as shown in FIG. As shown in FIG. 3, the transmission device 22 receives the first optical signal transmitted by the optical fiber 20 a, and receives a plurality of original terrestrial digital television broadcast signals by an optical-electric conversion means, for example, an optical receiver 24. Then, the signal is amplified to an appropriate signal level by an amplifying means such as an amplifier 26 and supplied to the transmitting antenna 28.

  The re-transmission system including the reception device 2 and the transmission device 22 is installed as a countermeasure against difficult viewing such as a mountain area or a building shadow.

  As shown in FIG. 1, operating power is supplied to the receiver 2 by an uninterruptible power supply 30. In addition, operating power is also supplied to the transmitter 22 by the uninterruptible power supply 32. These uninterruptible power supply devices 30 and 32, for example, step down the commercial AC voltage to supply operating power to the receiving device 2 and the transmitting device 22, and when a power failure occurs, the receiving device 2, Operating power is supplied to the transmitter 22. Accordingly, a power failure occurs at the place where the uninterruptible power supply 30 or 32 is installed, and the uninterruptible power supply 30 or 32 is abnormal while operating power is being supplied to the receiver 2 or the transmitter 22 by the battery. Occurs, and if the operating power cannot be supplied normally, re-transmission becomes impossible.

  Therefore, even if retransmission is impossible, at least one terrestrial digital television broadcast signal (this one-wave terrestrial digital television broadcast signal is a multi-wave terrestrial digital television broadcast signal received by the receiving device 2). 1 terrestrial digital television broadcast signal) can be retransmitted, and at least one terrestrial digital television broadcast signal dedicated receiving device and transmitting device is provided, and these are operated by power storage means, for example, a battery When an abnormality occurs in the uninterruptible power supply 30 or 32, it is conceivable to operate the reception device and transmission device dedicated to this one-wave terrestrial digital television broadcast signal.

  When such a reception device and transmission device dedicated for digital terrestrial television broadcasting signals of one wave are to be added to an existing retransmission system having the reception device 2 and the transmission device 22, a system design by restructuring the system In addition, it takes time and cost for verification, and it is difficult to mix and transmit the optical signal from the receiver dedicated to the terrestrial digital television broadcast signal to the optical fiber 20a of the existing retransmission system.

  Therefore, in this embodiment, paying attention to the fact that the optical fiber 20 is multi-core and a spare optical fiber is present in the multi-core optical fiber 20 in addition to the optical fiber 20a connecting the receiving device 2 and the transmitting device 22. It solves the problem of time and cost in system design and verification by restructuring.

  That is, a second receiving device, for example, an additional receiving device 34 for a one-wave terrestrial digital television broadcast signal, a second transmitting device, and an additional transmitting device 36 for the one-wave terrestrial digital television broadcast signal are provided. It has been.

  As shown in FIG. 4, the additional receiving apparatus 34 includes signal processing means (for example, the signal processing unit 6a and the amplifying unit 7a) and electro-optical conversion means (for example, the optical transmitter 16a). A single digital terrestrial television broadcast signal received by the antenna 38 is converted into an intermediate frequency signal by the signal processing unit 6a, and the signal level is adjusted by the waveform regeneration circuit and the automatic gain adjustment circuit. After performing frequency conversion to the original one-wave terrestrial digital television broadcast signal, the signal is amplified by the amplifying unit 7a. This amplified one-wave terrestrial digital television broadcast signal is converted into a second optical signal by an electro-optical conversion means, for example, an optical transmitter 16a, and output. The wavelength of the optical signal of the optical transmitter of the additional receiver 34 is the same as that of the optical signal of the receiver 2. The optical signal from the additional receiver 34 is supplied to the spare optical fiber 20 b in the optical fiber 20. Further, an extraction means (not shown) for extracting, for example, a band-pass filter for extracting one wave of digital terrestrial television broadcast signal received by the additional reception antenna 38 is provided on the input side of the additional reception device 34.

  The additional transmitter 36 is supplied with the optical signal transmitted from the additional receiver 34 via the optical fiber 20b. In the additional transmission device 36, as shown in FIG. 5, the optical signal transmitted through the optical fiber 20b is restored to a one-wave terrestrial digital television broadcast signal by an optical-electric conversion means, for example, an optical receiver 24a. The restored one-wave terrestrial digital television broadcast signal is amplified to an appropriate signal level by an amplifying means in the additional transmission device 36, for example, an amplifier 26a, and the amplified terrestrial digital television broadcast signal is added to the additional transmission antenna. 40 and retransmitted from this additional transmitting antenna 40. The additional transmission device 36 has the same configuration as that of the transmission device 22 shown in FIG. 3 except that the transmission antenna 28 is changed to the additional transmission antenna 40.

  The additional receiving device 34 has power storage means, for example, a battery (not shown), and this battery is charged by the uninterruptible power supply 30. Further, the additional receiving device 34 is always operated by the electric power from the uninterruptible power supply 30. When an abnormality occurs in the uninterruptible power supply 30, the detection signal is indicated by a broken arrow A in FIG. The additional receiving device 34 is supplied from the device 30 to be operated by the battery. Examples of the abnormality of the uninterruptible power supply 30 include any one of an AC output voltage, an internal temperature abnormality, an output overvoltage, a battery voltage drop, and an internal battery charger abnormality output.

  Similarly, the additional transmission device 36 has a battery (not shown), and this battery is charged by the uninterruptible power supply 32. In the additional transmission device 36, the optical receiver 24a and the amplifier 26a are not normally operated because the operating power is not supplied from the uninterruptible power supply 32. Instead, a monitor output signal is supplied from the monitor terminal of the transmission device 22 to the additional transmission device 36 as indicated by a broken line arrow B in FIG. 1, and a comparison means, for example, a comparator (for example, a comparator) compares this signal with a predetermined reference value. (Not shown) is provided in the additional transmitter 36. This comparator is supplied with power from the uninterruptible power supply 32 and is always in operation. When the comparator determines that the monitor output signal has become smaller than the reference value, power is supplied from the battery to the optical receiver 24a and the amplifier 26a, and these operate. Also, when an abnormality occurs in the uninterruptible power supply 32, a detection signal is supplied from the uninterruptible power supply 32 to the additional transmitter 36 as shown by a broken line arrow C in FIG. Then, power is supplied to the optical receiver 24a, the amplifier 26a, and the comparator, and these operate.

  Therefore, when there is no abnormality in the uninterruptible power supply devices 30 and 32, the receiver 2 and the transmitter 22 retransmit the multi-wave digital terrestrial television broadcast signal. On the other hand, the optical signal based on the one-wave digital terrestrial television broadcast signal from the additional receiving device 34 is supplied to the additional transmitting device 36 via the optical fiber 20b. However, since the additional transmitting device 36 is not operating, 1 There is no retransmission of terrestrial digital television broadcast signals.

  When an abnormality occurs in the uninterruptible power supply 30 of the re-transmission system, the receiving device 2 stops operating, and an optical signal based on a multi-wave digital terrestrial television broadcast signal is supplied to the transmitting device 22 through the optical fiber 20a. Instead, the retransmission of the multi-wave digital terrestrial television broadcast signal from the retransmission antenna 28 is stopped. However, the additional receiver 34 continues to operate with the battery. Accordingly, an optical signal based on the one-wave terrestrial digital television broadcast signal is continuously supplied to the additional transmission device 36 via the optical fiber 20b. On the other hand, the signal level of the monitor output supplied from the transmission device 22 to the additional reception device 36 is lowered from the reference value due to the operation stop of the reception device 2. As a result, in the additional transmission device 36, the optical receiver 24a and the amplifier 26a are operated by the battery, and the retransmission of the one-wave digital terrestrial television broadcast signal from the retransmission antenna 40 is started.

  For example, when an abnormality occurs in the uninterruptible power supply 32, the transmission device 22 stops its operation. As a result, an optical signal based on a multi-wave terrestrial digital television broadcast signal is supplied from the receiving device 2 via the optical fiber 20a to the transmitting device 22, but retransmission of the multi-wave digital terrestrial television broadcast signal is stopped. Is done. However, in the additional transmission device 36 that detects the abnormality of the uninterruptible power supply 32, the optical receiver 24a and the amplifier 26a start operating by the battery, and the one-wave terrestrial digital television broadcast signal from the additional reception device 34 is re-started. Transmission is started at the retransmission antenna 40. Therefore, when an abnormality occurs in the uninterruptible power supply 32, the re-transmission of the one-wave terrestrial digital television broadcast signal is started in the same manner.

  If the uninterruptible power supply devices 30 and 32 are abnormal at the same time, the receiving device 2 stops operating, but the additional receiving device 34 is continuously operated by the battery, and one-wave terrestrial digital television broadcasting is performed. An optical signal based on the signal is supplied to the additional transmitter 36. Therefore, even if an abnormality occurs in the uninterruptible power supply devices 30 and 32 at the same time, the re-transmission of the one-wave terrestrial digital television broadcast signal is started.

  In this way, the spare optical fiber 20b in the multi-core optical fiber 20 is used to transmit an optical signal obtained by electro-optically converting one-wave digital terrestrial television broadcast signal by the optical transmitter 16a. Yes. Therefore, the one-wave digital terrestrial television broadcast signal retransmission system including the additional receiver 34, the spare optical fiber 20b, and the additional transmitter 36 is a system different from the existing retransmission system. The terrestrial digital television broadcast signal re-transmission system can be constructed independently, and the installation work can be facilitated.

  In the above embodiment, the uninterruptible power supply devices 30 and 32 are used. However, instead of these, when a power failure occurs, a normal power supply device that stops supply of operating power can be used. In this case, even if the power supply device for receiving device and the power supply device for transmission are stopped at the same time due to a power failure, even if only one of them is stopped due to a power failure, the one-wave terrestrial digital television is the same as described above. The broadcast signal is retransmitted.

  In the above embodiment, an example in which the retransmission system is installed as a countermeasure for difficult viewing such as a mountainous area or a shadow of a building is not limited to this. For example, the retransmission system is an evacuation place at the time of disaster occurrence. It can also be installed in relatively large buildings such as gymnasiums and halls.

  In the above embodiment, the additional receiving device 34 includes the additional receiving antenna 38. However, when there is a margin in the input level to the amplifier of the receiving device 2 or the additional receiving device 34, the receiving antenna 4 is provided. The received signal may be distributed to the receiving device 2 and the additional receiving device 34 by the two distributors. In the above embodiment, the additional transmission device 36 retransmits only the single-wave terrestrial digital television broadcast signal restored from the optical signal transmitted by the optical fiber 20b. It can also be configured to transmit. In the above embodiment, the receiving device 2 and the additional receiving device 34 use the frequency of the digital terrestrial television broadcast signal that is the same as the received signal in the signal processing units 6-1, 6-2, ... 6-n, 6a. However, depending on where the system is used, it may be converted to a digital terrestrial television broadcast signal frequency band that is different from the received signal frequency band, and the digital terrestrial television broadcast signal may be converted to an optical signal for transmission. In the device 22 and the additional transmission device 36, the optical signal is restored to the different terrestrial digital television broadcast signal, amplified to an appropriate signal level by the amplifiers 26 and 26a, and retransmitted from the retransmission antennas 28 and 40. it can.

  In the above embodiment, the signal processor 6a, the amplifier 7a, and the optical transmitter 16a are always operated in the additional receiver 34. However, for example, when the additional transmitter 36 is driven by a battery, An optical signal indicating that the battery is driven using an optical fiber other than the optical fibers 20a and 20b is configured to be supplied to the additional receiving device 34. The additional receiving device 34 is provided with detection means for detecting the optical signal. If the signal processing unit 6a, the amplifier 7a, and the optical transmitter 16a of the additional receiving device 34 are configured to operate when the detection means detects the optical signal, the signal processing unit 6a, the amplifier 7a, and the optical transmitter 16a are always operated. There is no need to make it work. In the above-described embodiment, an example in which one additional transmission device 36 is provided for one transmission device 22 is shown. However, the present invention is not limited to this, and a plurality of transmission devices 22 are provided. In the retransmission system, an additional transmission device 36 can be provided for each transmission device 22, or one additional transmission device 36 can be provided in a retransmission system in which a plurality of transmission devices 22 are provided. .

2 receiving device 20 multi-core optical fiber 22 transmitting device 28 transmitting antenna 34 additional receiving device 36 additional transmitting device

Claims (2)

A first receiver that converts a multi-wave terrestrial digital television broadcast signal into a first optical signal that can be transmitted via an optical fiber and supplies the first optical signal to one optical fiber of a multi-core optical fiber;
A first transmission device that restores the first optical signal transmitted from the first reception device via the one optical fiber to the television broadcast signal and supplies the first broadcast signal to a first transmission antenna; The
A retransmission system comprising:
A second receiver that converts at least one terrestrial digital television broadcast signal into a second optical signal that can be transmitted by an optical fiber and supplies the second optical signal to another optical fiber of the multi-core optical fiber;
The second optical signal transmitted from the second receiver through the other optical fiber is restored to the at least one terrestrial digital television broadcast signal and supplied to the second transmitting antenna. A second transmitting device that
Retransmission system provided. 2. The retransmission apparatus according to claim 1, wherein the second reception apparatus and the second transmission apparatus are the at least one when at least one of the first transmission apparatus and the first reception apparatus is inoperable. A retransmission system that retransmits digital terrestrial television broadcast signals.

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