JP6121147B2 - Retransmission system - Google Patents

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 device also has a processing unit for a certain one-wave channel, and this processing unit operates during a power failure to amplify a certain one-wave terrestrial digital television broadcast signal and The optical transmitter is configured to operate even in the event of a power failure) and is converted into an optical signal and supplied to the optical fiber. Of the two transmitters, the transmitter for the one-wave channel, which is the other transmitter, is configured to operate even during a power failure, and the optical signal transmitted through the optical fiber is identified as a specific one. It is converted into a wave digital terrestrial television broadcast signal and transmitted from a transmitting antenna.

JP 2010-287992 A

  According to the technique of Patent Document 1, it is possible to retransmit a certain one-wave digital terrestrial television broadcast signal even during a power failure. By the way, in an existing re-transmission system provided with only a normal receiving device and one normal transmitting device that are not configured to be able to re-transmit a certain one-wave digital terrestrial television broadcast signal even in the event of a power failure, or In order to be able to retransmit a single-wave digital terrestrial television broadcast signal, one method is to operate on a normal receiving device side at the time of a power failure, assuming that the optical fiber is multi-core. An additional receiving device for a one-wave digital terrestrial television broadcast signal, and an optical signal from the additional receiving device is transmitted through the fiber transmitting the optical signal from the normal receiving device in a multi-core optical fiber. Add an additional transmission device for a terrestrial digital television broadcast signal of one wave that is transmitted through a different optical fiber and operates even in the event of a power failure. It is conceivable to supply the optical signal transmitted by the different optical fibers to additional transmission device.

  However, in this method, an uninterruptible power supply is installed in the additional receiver, and it is configured to operate even in the event of a power failure, and an uninterruptible power supply is installed in the additional transmitter. It is necessary to operate during a power failure. Installation of the uninterruptible power supply leads to high cost, and in particular, if a plurality of units are installed, the cost becomes even higher. The uninterruptible power supply operates by being connected to a commercial AC power supply, but the receiving device and the transmitting device are installed in relatively remote locations, and it is not possible to connect each uninterruptible power supply to the same commercial AC power supply. With difficulty, each uninterruptible power supply is usually connected to a different commercial AC power source, for example, a different commercial AC power source in a distribution system. In this case, for example, a power failure may not have occurred in the power supply system at the installation location of the receiving device, but a power failure may have occurred in the power supply system at the installation location of the transmission device. The reverse is also true. In that case, a certain one-wave terrestrial digital television broadcast signal cannot be transmitted satisfactorily from the additional transmission device.

  An object of the present invention is to provide a re-transmission system that can transmit a certain terrestrial digital television broadcast signal satisfactorily even if a power failure occurs locally, and that is low in cost. .

  The retransmission system according to one embodiment of the present invention includes a first processing device. The first processing device supplies a first signal obtained by processing a multi-wave digital terrestrial television broadcast signal to the transmission line. As processing in the first processing device, for example, when the transmission path is an optical fiber, there is conversion to an optical signal, and when the transmission path is, for example, a coaxial cable, there is amplification for compensating for attenuation in the coaxial cable. The first transmitter receives the first signal transmitted through the transmission path. The first transmission device processes the first signal and supplies the first signal to the first transmission antenna as the multi-wave digital terrestrial television broadcast signal. As processing of the first transmission device, when the first signal is an optical signal, there is conversion into a multi-wave digital terrestrial television broadcast signal, and the first signal is a multi-wave digital terrestrial television broadcast signal. If there is an amplification of them. The second processing device supplies a second signal obtained by processing at least one terrestrial digital television broadcast signal to the transmission path. Similar to the processing of the first processing device, the processing of the second processing device includes conversion to an optical signal when the transmission path is an optical fiber, and amplification when the transmission path is a coaxial cable. The second transmission device receives the second signal transmitted through the transmission path. The second transmitter processes the second signal and supplies the second signal to the second transmitting antenna as the at least one terrestrial digital television broadcast signal. As the processing in the second transmission device, as in the first transmission device, when the second signal is an optical signal, there is conversion to a multi-wave digital terrestrial television broadcast signal. In the case of at least one terrestrial digital television broadcast signal, there is amplification thereof. Operating power is supplied to the second processing apparatus by the first power supply apparatus. The first power supply device is provided with first power storage means. The first power storage means is stored by the first power supply device, and supplies operating power to the second processing device when the first power supply device is stopped. Operating power is supplied to the second transmission device by a second power supply device. The second power supply device is provided with second power storage means. The second power storage means is stored by the second power supply device, and supplies operating power to the second transmission device when the second power supply device stops. The first and second power supply devices are connected to different commercial AC power supplies. The first processing device operates based on the commercial AC power source to which a first power device is connected, and the first transmission device is the commercial AC power source to which a second power device is connected. Operates based on.

  In this re-transmission system, the first processing device and the second processing device operate unless the commercial AC power source to which the first power supply device is connected is stopped due to a power failure or the like. The second transmission device also operates as long as the commercial AC power source to which the second power supply device is connected does not stop operating due to a power failure or the like. Moreover, the first power supply device stores the first power storage means, and the second power supply device stores the second power storage means. Therefore, for example, when the operation of the second power supply device stops, the first transmission device stops operating, and the transmission of the multi-wave digital terrestrial television broadcast signal based on the first signal from the first antenna is stopped. However, the second power storage means continues to operate the second transmission device, and at least one terrestrial digital television is based on the second signal supplied from the second processing device to the second transmission device. John broadcast signal is transmitted from the second antenna. Similarly, for example, when the operation of the first power supply device is stopped, the first processing device is stopped and the supply of the first signal to the transmission path is stopped. Continues to operate, the second signal is supplied from the second processing device to the second transmission device, and at least one terrestrial digital television broadcast signal based on the second signal is transmitted from the second transmission antenna. Is done. Similarly, when the first and second power supply devices stop operating at the same time, the second processing device and the second transmission device continue to operate using the first and second power storage units, and the second processing is performed. The second signal is transmitted from the apparatus to the second transmission apparatus, and at least one terrestrial digital television broadcast signal based on the second signal is transmitted from the second transmission antenna. Accordingly, only one of the commercial AC power supply that supplies operating power to the first and second processing devices and the commercial AC power supply that supplies operating power to the first and second transmission devices has failed. Even in this case, transmission of at least one wave of the terrestrial digital television broadcast signal from the second antenna can be continued. Moreover, since it is not the uninterruptible power supply that is used for this purpose but the first and second power storage means, the cost can be reduced.

The second transmission device stops outputting the restored at least one terrestrial digital television broadcast signal to the second transmission antenna when receiving operating power from the second power supply device. . In this case, when the first power supply device stops, the first processing device transmits an output stop cancellation signal of the second transmission device to the second transmission device via the transmission path, and The second transmission device releases the output stop when the output stop release signal is received or when the second power supply device stops.

  With this configuration, the second transmission device releases the output stop only when one or both of the first and second power supply devices stop operating, so that at least one terrestrial digital television broadcast signal is output. Is transmitted from the second antenna. In other cases, at least one terrestrial digital television broadcast signal is not transmitted from the second transmission device.

  As described above, according to the present invention, even if the commercial AC power supply on the first and second processing devices side fails, or only the commercial AC power supply on the first and second transmission device sides stops operating. Or, even if both commercial AC power supplies fail, at least one terrestrial digital television broadcast signal can be transmitted, and in order to perform such control, without using an uninterruptible power supply, Since the first and second power storage means are used, the cost is low.

1 is a block diagram of a retransmission system according to an embodiment of the present invention. FIG. 2 is a block diagram of a DC power supply 12 of the retransmission system of FIG. 1. It is a block diagram of the direct-current power supply 16 of the retransmission system of FIG.

  As shown in FIG. 1, the retransmission system according to an embodiment of the present invention includes a first processing device, for example, a head amplifier 2. The head amplifier 2 is provided with a receiving antenna 4, and the head amplifier 2 is arranged at a position where the receiving antenna 4 can receive a plurality of terrestrial digital television broadcast signals. A plurality of terrestrial digital television broadcast signals received by the receiving antenna 4 are processed by the head amplifier 2 and converted into, for example, a first optical signal. The first optical signal is supplied to a transmission path, for example, one optical fiber 6a in the multi-core optical fiber cable 6, and transmitted through the optical fiber 6a. Since the configuration of the head amplifier 2 is known, detailed description thereof is omitted.

  The first optical signal transmitted through the optical fiber 6a is supplied to a first transmission device, for example, the transmitter 8. The transmitter 8 converts the first optical signal into the original multi-wave digital terrestrial television broadcast signal, and re-transmits the multi-wave digital terrestrial television broadcast signal from the first transmission antenna, for example, the transmission antenna 10. Resend to the transmission area. For example, even if a receiving antenna is installed, the retransmission area is an area in which a digital terrestrial television broadcast signal cannot be received by the receiving antenna, and the transmitter 8 retransmits from the transmitting antenna 10 to the retransmission area. It is arranged at a location away from the head amplifier 2 as possible.

  The head amplifier 2, the multi-core optical fiber cable 6, and the transmitter 8 constitute a re-transmission system that re-transmits a multi-wave digital terrestrial television broadcast signal.

  The head amplifier 2 is supplied with AC power from a commercial AC power supply 14 located in the vicinity thereof. This AC power is converted into DC power in the head amplifier 2 to operate the head amplifier 2. Similarly, the transmitter 8 is supplied with AC power from a commercial AC power supply 18 located in the vicinity thereof. This AC power is converted into DC power in the transmitter 8 to operate the transmitter 8. The commercial AC power supplies 14 and 18 are different, for example, belonging to different distribution systems.

  A second processing device, for example, a head amplifier 20 is provided in the vicinity of the installation location of the head amplifier 2. The head amplifier 20 receives at least one wave of a plurality of terrestrial digital television broadcast signals by a receiving antenna 22 attached to the head amplifier 20, and converts the received signal into a second optical signal. The second optical signal from the head amplifier 20 is supplied to the optical fiber 6b of the optical fiber cable 6 and transmitted through the optical fiber 6b. The optical fiber 6b is different from the optical fiber 6a among many optical fibers in the optical fiber cable 6.

  The second optical signal transmitted through the optical fiber 6b is supplied to a second transmission device arranged near the transmitter 8, for example, the transmitter 24, and restored to at least one terrestrial digital television broadcast signal. Then, re-transmission is performed from the second transmission antenna, for example, the transmission antenna 26, toward the retransmission area, for example. If the second optical signal is transmitted using the unused optical fiber 6b of the multi-core optical fiber cable 6, the head amplifier 20 and the transmitter can be used with the head amplifier 2 and the transmitter 8 already installed. Even when 24 is added, it is not necessary to newly lay an optical fiber cable.

  The head amplifier 20 incorporates a first power supply device, for example, a DC power supply 12. This is supplied with AC power from the commercial AC power supply 14 and converted to DC power to operate the head amplifier 20. Similarly, the transmitter 24 also includes a second power supply device, for example, a DC power supply 16, receives supply of AC power from the commercial AC power supply 18, converts it to DC power, and operates the transmitter 24. .

  For example, when a disaster or the like occurs and the commercial AC power supply 14 or 18 cannot supply AC power to the head amplifier 2 or the transmitter 8, the head amplifier 2 or the transmitter 8 retransmits a terrestrial digital television broadcast signal of a plurality of waves. Can not do it. Therefore, if the head amplifier 20 and the transmitter 24 can be operated even during a power failure, at least one terrestrial digital television broadcast signal can be retransmitted. Therefore, for example, the DC power supplies 12 and 16 for the head amplifier 20 and the transmitter 24 may be provided with an uninterruptible power supply. However, the uninterruptible power supply is relatively expensive. In particular, the head amplifier 20 and the transmitter 24 are often added in a situation where the head amplifier 2 and the transmitter 8 are already installed as a retransmission system. In such a case, if it is necessary to install even a high-cost uninterruptible power supply, it is possible to retransmit at least one terrestrial digital television broadcast signal by adding a head amplifier 20 or a transmitter 24. It is difficult to spread.

  Therefore, when a power storage means, for example, a rechargeable battery is installed in the DC power source 12 or 16, and the DC power source 12 or 16 becomes unable to supply operating power due to a power failure of the commercial AC power source 14 or 18, It is also conceivable that operating power is supplied to the head amplifier 20 or the transmitter 24 to retransmit at least one terrestrial digital television broadcast signal. However, because the head amplifier 2 and the transmitter 8 are installed at positions separated from each other, a commercial AC power supply 14 that supplies AC power to the DC power supply 12 and a commercial AC power supply 18 that supplies AC power to the DC power supply 16 are provided. However, if the power distribution systems are different, both commercial AC power supplies 14 and 18 do not fail at the same time, only the commercial AC power supply 14 fails, or conversely only the commercial AC power supply 18 fails. Can be considered. In such a case, in the configuration in which the head amplifier 20 and the transmitter 24 described above are connected by the optical fiber 6b, only the head amplifier 20 operates or only the transmitter 24 operates. It becomes impossible to retransmit the digital terrestrial television broadcast signal.

Therefore, as shown in FIG. 2, the DC power supply 12 is provided with an AC-DC conversion unit 38 that converts AC power from the commercial AC power supply 14 into DC power, and a storage means, for example, a charging battery 40. Further, the charge control of the charge battery 40 is monitored by a detection control means, for example, the CPU 42, and on / off control of charge from the AC-DC converter 38 is performed according to the charge state of the charge battery 40. Then, the CPU 42 monitors the input side and the output side of the AC-DC converter 38, and in a state where power is supplied from the commercial AC power source 14 to the input side, the AC- The head amplifier 20 is operated by supplying the DC power output from the DC converter 38 to the head amplifier 20. When the CPU 42 detects that the AC power is not supplied to the primary side of the AC-DC converter 38 and the DC power on the output side is lost, the charging power of the charging battery 40 via the changeover switch 44 is detected. Is supplied to the head amplifier 20. As a result, the head amplifier 20 continues to operate during both a non-power failure and a power failure.

Similarly, as shown in FIG. 3, the DC power supply 16 is also provided with an AC-DC conversion unit 46 that converts AC power from the commercial AC power supply 18 into DC power, and a storage means, for example, a charging battery 48. The detection control means, for example, the CPU 50 monitors the charging state of the battery 48, and performs on / off control of charging from the AC-DC converter 46 in accordance with the charging state of the charging battery 48. Then, the CPU 50 monitors the input side and output side of the AC-DC converter 46, and in the state where power is supplied from the commercial AC power supply 18 to the input side, the AC- The transmitter 24 is operated by supplying DC power output from the DC converter 46 to the transmitter 24. When the CPU 50 detects that the AC power is not supplied to the primary side of the AC-DC converter 46 and the DC power on the output side is lost, the charging power of the charging battery 48 via the changeover switch 52 is detected. To the transmitter 24. As a result, the transmitter 24 continues to operate during both a non-power failure and a power failure.

  Since it is configured in this way, the head amplifier 20 and the transmitter 24 are always in operation even when one of the commercial AC power supplies 14 and 18 fails or when both of them fail. Therefore, the commercial AC power supply 14 has failed and the head amplifier 2 is not operating. However, the commercial AC power supply 18 has not failed and the transmitters 8 and 24 are operating. Is not supplied to the transmitter 8, but since the second optical signal is supplied from the head amplifier 20 to the transmitter 24, at least one terrestrial digital television broadcast signal is retransmitted from the transmitter 24. Is done.

  Conversely, the commercial AC power supply 14 does not fail, the head amplifiers 2 and 20 operate, the first optical signal is transmitted from the head amplifier 2 to the transmitter 8, and the second light is transmitted from the head amplifier 20 to the transmitter 24. In the state where the signal is transmitted but the commercial AC power supply 18 is blacked out and the transmitter 8 is not operating, the transmitter 8 transmits the first optical signal from the head amplifier 2 to the terrestrial digital television having a plurality of waves. Although it is not converted into a broadcast signal and transmitted, the transmitter 24 converts the second optical signal into at least one terrestrial digital television broadcast signal and retransmits it.

  The head amplifier 20 and the transmitter 24 are operating even when the head amplifier 2 and the transmitter 8 are not operating in a state where both the commercial AC power supplies 14 and 18 are out of power. Two optical signals are supplied to the transmitter 24, which retransmits at least one terrestrial digital television broadcast signal.

  However, with this configuration, when the commercial AC power supplies 14 and 18 supply operating power to the DC power supplies 12 and 16 without a power failure, at least one terrestrial digital television from the transmitters 8 and 24 simultaneously. There is a possibility that the broadcast signals are retransmitted to the retransmission area and buffer each other, so that at least one terrestrial digital television broadcast signal cannot be normally viewed.

  Therefore, in the transmitter 24, normally, the output unit 54 is stopped, and at least one terrestrial digital television broadcast signal is not retransmitted. In the DC power supply 12, when the CPU 42 detects that the AC-DC conversion unit 38 has stopped supplying the operating power, the detection signal is supplied to the head amplifier 20, and the head amplifier 20 outputs the output unit 54 of the transmitter 24. An operation stop cancellation signal is generated, converted into an optical signal, and transmitted to the transmitter 24 via the optical fiber 6b. The transmitter 24 restores this optical signal to an operation stop cancellation command signal. When the CPU 50 detects the restored operation stop release signal, the operation stop release signal is supplied to the output unit 54. In response to this supply, the output unit 54 operates to retransmit at least one terrestrial digital television broadcast signal. Further, when the CPU 50 detects that there is no input to the AC-DC converter 46 and there is no DC power on the output side of the AC-DC converter 46, the detected signal cancels the operation stop to the output unit 54. Supplied as a signal. In response to this supply, the output unit 54 operates to retransmit at least one terrestrial digital television broadcast signal.

  In the above embodiment, the first optical signal is transmitted between the head amplifier 2 and the transmitter 8 through the optical fiber 6a, and the second optical signal is transmitted between the head amplifier 20 and the transmitter 24 through the optical fiber 6b. However, at least one terrestrial digital television broadcast signal is transmitted from the head amplifier 2 to the transmitter 8 by using, for example, a coaxial cable instead of the optical fibers 6 a and 6 b, and from the head amplifier 20 to the transmitter 24. Wave digital terrestrial television broadcast signals can also be transmitted. In that case, amplification is performed as processing in the head amplifiers 2 and 20 and the transmitters 8 and 24. Further, a first intermediate processing means, for example, a first optical amplifier is interposed in the optical fiber 6a between the head amplifier 2 and the transmitter 8, and a second intermediate processing is performed in the optical fiber 6b between the head amplifier 20 and the transmitter 24. Means such as a second optical amplifier can also be interposed. In that case, operating power is supplied to the first and second optical amplifiers by the third power supply device. The third power supply device is configured such that the first and second optical amplifiers operate when the commercial AC power supplies 14 and 18 are normal and during a power failure. For example, the first power amplifier includes a large-capacity rechargeable battery. An AC-DC converter that charges the battery and supplies operating power to the first and second optical amplifiers is provided, and the AC-DC converter is connected to a commercial AC power source in the vicinity of the first and second optical amplifiers. The detection unit detects whether or not the AC-DC conversion unit supplies operating power, and when the detection unit detects that the operating power is not supplied, the first and second from the battery It is configured to supply operating power to the optical amplifier.

  In the above embodiment, the DC power source 12 is provided in the head amplifier 20, but this is provided outside the head amplifier 20, and similarly the DC power source 16 is provided in the transmitter 24. It can also be provided outside.

  In the above embodiment, the head amplifiers 2 and 20 receive the terrestrial digital television broadcast signal by the receiving antennas 4 and 22, but instead of this, the terrestrial digital television broadcast signal may be supplied from the joint reception system. it can. Further, although at least one terrestrial digital television broadcast signal is retransmitted by the head amplifier 20 and the transmitter 24, it is also possible to retransmit a plurality of terrestrial digital television broadcast signals. When a re-transmission system using the receiving antenna 4, the head amplifier 2, the optical fiber cable 6, the transmitter 8 and the transmitting antenna 10 is newly laid, the head amplifier 20, the receiving antenna 22, the transmitter 24 and the transmitting antenna 26 are simultaneously connected. The head amplifier 20, the receiving antenna 22, the transmitter 24, and the transmitting antenna 26 can be laid with the above-described retransmission system already installed.

2 Head amplifier (first processing unit)
6a 6b Optical fiber (transmission path)
8 Transmitter (first transmitter)
12 DC power supply (first power supply)
14 18 Commercial AC power supply 16 DC power supply (second power supply device)
20 Head amplifier (second processing unit)
24 Transmitter (second transmitter)
40 Charging battery (first power storage means)
48 Charging battery (second power storage means)

Claims (2)

A first processing device for supplying a first signal obtained by processing a multi-wave digital terrestrial television broadcast signal to a transmission line;
A first transmission that receives the first signal transmitted through the transmission path, processes the first signal, and supplies the first signal to the first transmission antenna as the multi-wave digital terrestrial television broadcast signal; Equipment,
A second processing device for supplying a second signal obtained by processing at least one terrestrial digital television broadcast signal to the transmission line;
Receiving said second signal transmitted through the transmission path, the a second said processing the signals of at least one wave digital terrestrial television broadcast signal of the second supply to the second transmission antenna A transmission device,
The second processing device is supplied with operating power by a first power supply device, and the first power supply device is provided with a first power storage means, and the first power storage means is connected to the first power supply device. When the first power supply device is stored by a power supply device and the first power supply device is stopped, operating power is supplied to the second processing device,
The second transmission device is supplied with operating power by a second power supply device, and the second power supply device is provided with a second power storage means, and the second power storage means When the second power supply device is stored by the power supply device and the second power supply device stops, operating power is supplied to the second transmission device;
The first and second power supply devices are connected to different commercial AC power supplies, and the first processing device operates based on the commercial AC power supply to which the first power supply device is connected, and The transmission device operates based on the commercial AC power supply to which the second power supply device is connected ,
The second transmission device stops outputting the restored at least one terrestrial digital television broadcast signal to the second transmission antenna when receiving operating power from the second power supply device. When the first power supply device is stopped, the first processing device transmits an output stop cancellation signal of the second transmission device to the second transmission device via the transmission path, and the second processing device The re-transmission system releases the output stop when receiving the output stop release signal or when the second power supply device stops . 2. The retransmission system according to claim 1, wherein the first processing device converts the multi-wave terrestrial digital television broadcast signal into a first optical signal as processing of the multi-wave terrestrial digital television broadcast signal. 3. The transmission path is an optical fiber capable of transmitting the first optical signal, and the first transmitter restores the first optical signal to the original terrestrial digital television broadcast signal of the plurality of waves. The second processing device converts the at least one wave of the terrestrial digital television broadcast signal into a second optical signal as a process of the at least one wave of the terrestrial digital television television broadcast signal. And a second transmission device that restores the second optical signal to the original at least one terrestrial digital television broadcast signal .

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