JP4346200B2 - Terrestrial broadcast control system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is used in a terrestrial digital broadcasting system, and the terrestrial digital broadcast transmission station and the broadcast monitoring station are connected by a control line so that transmission control can be performed from the broadcast monitoring station to the terrestrial digital broadcast transmission station. The present invention relates to a wave broadcast remote control system and a terrestrial broadcast transmission apparatus configured to compensate an output level of a broadcast signal.
[0002]
[Prior art]
In recent years, terrestrial digital broadcasting systems that have been actively researched and developed operate terrestrial digital broadcasting transmission stations unattended and perform remote control from a remote location by a broadcast monitoring station.
[0003]
FIG. 5 is a block diagram showing a schematic configuration of such a conventional digital terrestrial broadcasting remote control system.
The system shown in FIG. 5 receives the broadcast wave transmitted from the terrestrial digital broadcast transmission station 1 through the antenna 11 and the broadcast wave transmitted from the terrestrial digital broadcast transmission station 1 through the antenna 21 and confirms the broadcast contents. A broadcast monitoring station 2 is provided, the terrestrial digital broadcast transmission station 1 and the broadcast monitoring station 2 are connected by a control line 3, and the broadcast monitoring station 2 transmits the digital terrestrial broadcast transmission station 1 through the control line 3. It is a system that performs control. The terrestrial digital broadcast transmission station 1 is installed near the top of a mountainous area, for example, and the broadcast monitoring station 2 is installed in a flat area such as an urban area.
[0004]
In the terrestrial digital broadcast transmission station 1, the program information signal to be broadcast is frequency-converted to a radio frequency (RF) band by the up-converter 12 and supplied to the power amplifier 13. The power amplifying unit 13 includes n power amplifiers (PA # 1 to PA # n), and the power amplifiers (PA # 1 to PA # n) are connected in parallel. The RF signal is amplified by n power amplifiers (PA # 1 to PA # n) with the same gain, and then output to the combiner 14.
[0005]
The outputs of the n power amplifiers (PA # 1 to PA # n) of the power amplifying unit 13 are combined by a synthesizer 14 and an unnecessary wave component is removed by a band-pass filter (BPF) 15, and then an antenna is used as a broadcast wave. 11 is transmitted.
[0006]
On the other hand, a control command from the broadcast monitoring station 2 is received by the main controller 16 via the control line 3. The main controller 16 controls the up converter 12 and the power amplifying unit 13 based on the received control command.
[0007]
By the way, in the remote control system having the above configuration, there is a possibility that the signal quality of the transmission radio wave is deteriorated due to, for example, the occurrence of a failure in the power amplification unit 13. In such a case, after receiving broadcast waves at the broadcast monitoring station 2 and detecting signal quality degradation, a control command is sent to the terrestrial digital broadcast transmission station 1 to turn off the power of the power amplifying unit 13, or The maintenance staff can go to the terrestrial digital broadcasting transmitting station 1 and check each power amplifier (PA # 1 to PA # n) to cope with it.
[0008]
However, in the former case, the power of the entire power amplifiers (PA # 1 to PA # n) must be turned off, so it is necessary to temporarily stop broadcasting. In the latter case, the power amplifiers (PA # 1 to PA # n) The troublesome work of having to examine #n) one by one is required. In both cases, broadcasts are interrupted and manual maintenance work is required.
[0009]
[Problems to be solved by the invention]
As described above, in the conventional terrestrial broadcast remote control system, when a failure occurs in the power amplifier in the terrestrial broadcast transmission station, the broadcast must be interrupted, and restoration work by maintenance personnel is not possible. There was no effective means needed to deal with the failure quickly.
[0010]
A first object of the present invention is to provide a terrestrial broadcast capable of stopping only a failed power amplifier by remote control by a broadcast monitoring station when a failure occurs in a power amplifier in a terrestrial broadcast transmission station. To provide a remote control system.
Also, a second object of the present invention is to provide a terrestrial broadcast transmission apparatus capable of stopping only a power amplifier in which a failure has occurred and continuing broadcasting with the remaining power amplifier when a failure occurs in the power amplifier. There is to do.
[0011]
[Means for Solving the Problems]
In order to achieve the first object, a terrestrial broadcast remote control system according to the present invention includes a terrestrial broadcast transmission station that transmits a broadcast signal of a terrestrial broadcast, and a broadcast transmitted by the terrestrial broadcast transmission station. A broadcast monitoring station that receives the signal and confirms the content of the broadcast signal, connects the terrestrial broadcast transmission station and the broadcast monitoring station via a control line, and from the broadcast monitoring station to the terrestrial broadcast transmission station A terrestrial terrestrial broadcast remote control system that performs transmission control via a control line, and a terrestrial broadcast transmitter station is provided in parallel to a terrestrial broadcast transmission system, and can be controlled independently of each other and program information A plurality of power amplifying means for power amplifying the signal; a combining means for combining the outputs of the plurality of power amplifying means and transmitting as a broadcast signal; and a plurality of power amplifying means independently connected to each other, and a broadcast monitoring station From Power amplification control means for selectively performing transmission control based on control information transmitted via a line, and the broadcast monitoring station monitors abnormality of the received broadcast signal, and the abnormality monitoring means And a control information transmitting means for transmitting control information to the terrestrial broadcast transmitting station via the control line based on the abnormality monitoring result of the above.
[0012]
The power amplification control means of the terrestrial broadcast transmission station sequentially switches the power on / off for the plurality of power amplification means based on the control information transmitted from the broadcast monitoring station via the control line. On the other hand, the abnormality monitoring means of the broadcast monitoring station monitors the signal quality of the received broadcast signal, and the control information transmitting means transmits the terrestrial broadcast when the signal quality is restored to the normal level from the abnormality monitoring result by the abnormality monitoring means. The power amplification stop information is transmitted via the control line so as to keep the power amplification means having failed in the power amplification control means of the transmitting station kept off.
[0013]
According to this configuration, in the terrestrial broadcasting transmission station, a plurality of power amplifiers are provided in parallel in the transmission system, and the power supply on / off switching control of each of the plurality of power amplifiers can be performed independently of each other. When a failure occurs in at least one of the plurality of power amplifiers, the broadcast signal to be transmitted is deteriorated in quality, and the broadcast signal is received by the broadcast monitoring station to confirm the deterioration of the signal quality. Here, when the deterioration of the signal quality is confirmed, in order to identify an abnormal power amplifier, control information is sent to the terrestrial broadcasting transmission station so that the power on / off switching of a plurality of power amplifiers is sequentially performed. When the signal quality is restored to the normal level, the power amplifier that has failed can be identified, and the power amplifier stop information that allows the terrestrial broadcasting transmitter station to keep the power amplifier that has failed in the off state. Is sent over the control line.
[0014]
For this reason, when a failure occurs in a power amplifier in a terrestrial broadcast transmission station, it is not necessary for maintenance personnel to go to the terrestrial broadcast transmission station to check for abnormalities in each power amplifier. The power amplifier in which the failure has occurred can be identified, and only the power amplifier in which the failure has occurred can be stopped simply and quickly by remote control from the broadcast monitoring station.
[0015]
Furthermore, the terrestrial broadcast remote control system of the present invention includes a terrestrial broadcast transmission station capable of transmitting a terrestrial broadcast signal and receiving the transmitted broadcast signal, and a terrestrial broadcast transmission station and a control line. A terrestrial broadcast remote control system including a broadcast monitoring station that is connected to the terrestrial broadcast transmission station and performs transmission control via a control line to the terrestrial broadcast transmission station. A plurality of power amplifying means which are provided in parallel in the system and can be controlled independently of each other and amplify the program information signal; a combining means for combining the outputs of the plurality of power amplifying means and transmitting as a broadcast signal; The broadcast monitoring station is connected to the abnormality monitoring means for receiving the broadcast signal and monitors the abnormality of the received broadcast signal and the plurality of power amplification means independently of each other, and is transmitted from the broadcast monitoring station via the control line. Broadcast monitoring is provided with transmission station-side control means for selectively performing transmission control for a plurality of power amplification means based on information and notifying the broadcast monitoring station of an abnormality monitoring result by the abnormality monitoring means via a control line The station includes an abnormality receiving means for receiving an abnormality monitoring result from the terrestrial broadcast transmitting station, an abnormality determining means for determining an abnormal state based on the abnormality monitoring result received by the abnormality receiving means, and a determination by the abnormality determining means Based on the result, control information transmitting means for transmitting control information to the terrestrial broadcast transmitting station via a control line is provided.
[0016]
The transmission station side control means of the terrestrial broadcast transmission station sequentially switches on / off the power to the plurality of power amplification means based on the control information transmitted from the broadcast monitoring station via the control line. The abnormality monitoring means of the terrestrial broadcast transmission station monitors the signal quality of the received broadcast signal, and the control information transmission means of the broadcast monitoring station determines the signal quality to a normal level from the abnormality monitoring result received by the abnormality reception means. At the time of recovery, power amplification stop information is transmitted via the control line so as to keep the power amplifying unit having an abnormality occurring in the transmitting station side control unit of the terrestrial broadcasting transmitting station.
[0017]
According to such a configuration, when an abnormality occurs in the power amplifier by receiving the broadcast signal transmitted to the terrestrial broadcast transmission station and monitoring the signal quality of the broadcast signal, the abnormality is The signal is detected in the wave broadcasting transmission station, and the detection result is notified from the terrestrial broadcasting transmission station to the broadcast monitoring station. Upon receiving this notification, the broadcast monitoring station determines an abnormal state, and on the basis of the determination result, a plurality of power amplifiers in the terrestrial broadcast transmission station are sequentially switched on / off, and the signal quality is at a normal level. The abnormal power amplifier is maintained in the off state at the time when the recovery is completed. For this reason, it is possible to simplify the equipment in the broadcast monitoring station, and it is possible to stop only the power amplifier in which the failure has occurred easily and quickly by remote control from the broadcast monitoring station.
[0018]
On the other hand, in order to achieve the second object, a terrestrial broadcast transmission apparatus according to the present invention is provided in parallel to a terrestrial broadcast transmission system in a terrestrial broadcast transmission apparatus for transmitting a terrestrial broadcast signal. A plurality of power amplifying means that can be controlled independently of each other and amplify the program information signal, a combining means for combining the outputs of the plurality of power amplifying means and transmitting it as a broadcast signal, and a plurality of power amplifying means Power amplification control means for selectively sending transmission to a plurality of power amplification means based on separately provided control information, and a plurality of powers controlled for transmission by the power amplification control means An output level compensation means for detecting the output level of the amplifying means or the output level of the combining means and controlling the power amplification levels of the plurality of power amplifying means based on the detection result; It is obtained by the.
[0019]
The power amplification control means sequentially turns on / off the power supply for the plurality of power amplification means based on separately provided control information, and the output level compensation means has each of the plurality of power amplification means. Detect whether or not the output or the output of the combining means is lower than the reference level, and if it is lower, compensate the power amplification level of the plurality of power amplifying means whose power is on by the amount of the reduction. I am doing so.
[0020]
According to this configuration, when the power amplifier is switched on / off due to the failure of the power amplifier, and the output level of the broadcast signal to be transmitted is lower than the reference level, the amount of decrease is reduced. The output of each of the plurality of power amplifiers whose power sources are in the on state is compensated by the detected amount.
[0021]
For this reason, when a failure occurs in the power amplifier and the power amplification level decreases due to the on / off switching of a plurality of power amplifiers, the power can be recovered quickly and automatically without waiting for the repair operation of the maintenance personnel. The amplification level can be maintained at the same level as that in the normal state, so that the broadcasting can be continued with the remaining power amplifier without causing any trouble in the broadcasting.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
(First embodiment)
FIG. 1 is a block diagram showing a schematic configuration of a terrestrial digital broadcast remote control system according to the present invention.
The system shown in FIG. 1 confirms broadcast contents by receiving a terrestrial digital broadcast transmitting station 100A that transmits a broadcast wave by an antenna 110, and a broadcast wave transmitted by the terrestrial digital broadcast transmitting station 100A by an antenna 210. The broadcast monitoring station 200A is provided, the terrestrial digital broadcast transmission station 100A and the broadcast monitoring station 200A are connected by the control line 300, and the broadcast monitoring station 200A transmits the digital terrestrial broadcast transmission station 100A via the control line 300. It is a system that performs control. The terrestrial digital broadcast transmission station 100A is installed near the top of a mountainous area, for example, and the broadcast monitoring station 200A is installed in a flat area such as an urban area. The control line 300 includes a telephone line.
[0023]
In the digital terrestrial broadcast transmitting station 100A, the program information signal to be broadcast is frequency-converted to a radio frequency (RF) band by the up-converter 120 and supplied to n power amplifiers 131 to 13n. The n power amplifying units 131 to 13n are connected in parallel to each other, and can be switched on / off independently of each other. After power amplification of the RF signal with the same gain, the power is output to the combiner 140. .
[0024]
Outputs of the power amplifiers 131 to 13n are combined by a combiner 140, unnecessary wave components are removed by a bandpass filter (BPF) 150, and then transmitted as a broadcast wave via the antenna 110.
[0025]
On the other hand, a control command from the broadcast monitoring station 200A is received by the main controller 160A via the control line 300. The main controller 160A is connected to the up-converter 120 and the n power amplifiers 131 to 13n in a one-to-one relationship, and performs transmission such that the power supply is selectively switched on / off based on a control command from the broadcast monitoring station 200A. Take control. The power amplifier 131 is connected to the output terminal # 1 of the main controller 160A, and the power amplifier 13n having the last connection order is connected to the output terminal #n.
[0026]
By the way, the broadcast monitoring station 200A of this embodiment is provided with an abnormality monitoring function and a control information transmission function. The abnormality monitoring function monitors the signal quality of the broadcast wave received by the antenna 210. The control information transmission function transmits a control command via the control line 300 to the terrestrial digital broadcast transmission station 100A due to signal quality degradation caused by the abnormality monitoring function. Further, when the signal quality is restored to a normal level, the control line 300 issues a power amplification stop command that causes the main controller 160A of the digital terrestrial broadcasting transmission station 100A to maintain the off-state of the failed power amplifiers 131 to 13n. To send out.
[0027]
Further, in this embodiment, in the terrestrial digital broadcast transmitting station 100A, in order to compensate for the decrease in the output power level of the combiner 140 that occurs during the power on / off switching control of the power amplifiers 131 to 13n of the main controller 160A, An (auto gain controller) 170 is provided.
[0028]
The AGC 170 detects the output level of the BPF 150, and compensates the power amplification level of the power amplifiers 131 to 13n whose power is on by the amount of decrease when the output is lower than the normal reference level from the detection result. Thus, a control signal is given to the up-converter 120. Then, the output gain of the output of the up-converter 120 increases by the amount corresponding to the control signal given from the AGC 170.
[0029]
Next, the operation when a failure occurs in the system configured as described above will be described.
FIG. 2 is a flowchart showing the procedure and contents of abnormality determination / response control in the broadcast monitoring station 200A.
[0030]
That is, when the broadcast monitoring station 200A detects the deterioration of the signal quality of the broadcast wave received from the antenna 210 from the digital terrestrial broadcast transmission station 100A (step 2a), the broadcast monitoring station 200A monitors until the deterioration of the signal quality is recovered (step 2b). ) During a period when the signal quality is deteriorated (YES), a control command for switching on / off the power of the power amplifiers 131 to 13n is sent to the terrestrial digital broadcast transmitting station 100A via the control line 300 ( Step 2c). In step 2b, when the signal quality is restored to a normal level (NO), it can be determined that an abnormality has occurred in, for example, the power amplifier 134 that was turned off at that time, and control is performed on the terrestrial digital broadcast transmission station 100A. A power amplification stop command for maintaining the power off of the power amplifier 134 is sent via the line 300 (step 2d).
[0031]
On the other hand, the following correspondence control is performed in the main controller 160A of the digital terrestrial broadcasting transmission station 100A. FIG. 3 is a flowchart showing the control procedure and control contents.
[0032]
That is, when the main controller 160A receives a control command for power on / off switching from the broadcast monitoring station 200A via the control line 300, the main controller 160A performs initial setting processing, that is, designates the power amplifier 131 (step 3a). Is turned off (step 3b), and whether or not a power amplification stop command from the broadcast monitoring station 200A arrives is monitored (step 3c). When the power amplification stop command is not received after a certain time has elapsed and the control command is received (NO), the main controller 160A switches on the power supply of the power amplifier 131 (step 3d), and the next power amplifier 132 Is designated (step 3e), and the processing from step 3b to step 3e is sequentially repeated from the power amplifier 132 to the power amplifier 13n. Further, the main controller 160A ends the power on / off switching process when it becomes the power amplifier 13 (n + 1) in Step 3f (YES).
[0033]
By the way, when the main controller 160A receives a power amplification stop command from the broadcast monitoring station 200A in step 3c (YES), the main controller 160A maintains the off state of, for example, the power amplifier 134 that is off at the time of reception. (Step 3g).
[0034]
As described above, according to the above embodiment, in the digital terrestrial broadcasting transmission station 100A, the n power amplifiers 131 to 13n are provided in parallel in the transmission system for processing the program information signal to be broadcast, and the power amplifiers 131 to Each of the 13n is connected to the main controller 160A on a one-to-one basis so that power on / off switching control can be performed independently of each other. When a failure occurs in at least one of the power amplifiers 131 to 13n, transmission is performed. The broadcast wave signal quality is degraded, and the broadcast wave is received by the broadcast monitoring station 200A to confirm the signal quality. Here, when the signal quality is deteriorated, in order to identify the abnormal power amplifiers 131 to 13n, control is performed so that the power amplifiers 131 to 13n are sequentially switched on / off to the digital terrestrial broadcasting transmission station 100A. When the command is transmitted via the control line 300 and the signal quality is restored to a normal level, the power amplifier 134 in which the failure has occurred can be identified, for example, and the power amplifier 134 in which the failure has occurred in the digital terrestrial broadcasting transmission station 100A. A power amplification stop command is sent through the control line 300 so as to maintain the power supply in the off state.
[0035]
For this reason, when a failure occurs in the power amplifier 134 in the terrestrial digital broadcast transmission station 100A, it is not necessary for the maintenance staff to go to the terrestrial digital broadcast transmission station 100A and check the abnormality of each of the power amplifiers 131 to 13n each time. The power amplifier 134 in which an abnormality has occurred can be specified in the broadcast monitoring station 200A, and only the power amplifier 134 in which a failure has occurred can be stopped simply and quickly by remote control from the broadcast monitoring station 200A.
[0036]
Further, according to the above embodiment, for example, when the power amplifier 134 is faulty, the power of the power amplifiers 131 to 13n is switched on / off, and the output power level of the broadcast wave to be transmitted is higher than the normal reference level. When the voltage decreases, the AGC 170 detects the amount of decrease, and the output of each of the power amplifiers 131 to 133 and 135 to 13n other than the power amplifier 134 is compensated for the amount of decrease.
[0037]
For this reason, when a failure occurs in the power amplifier 134 and the power amplification level is lowered due to the power on / off switching of the power amplifiers 131 to 13n, it is quickly and automatically restored without waiting for the restoration operation of the maintenance staff. Thus, the power amplification level can be maintained at the same level as that in the normal time, so that the remaining power amplifiers 131 to 133 and 135 to 13n can continue broadcasting without causing any troubles such as interruption of broadcasting.
[0038]
The AGC 170 in the first embodiment compensates for a decrease in the output power level from the reference level. However, the output power level of the BPF 150 is directly detected, and according to the detected output power level. You may make it compensate the output power level of the power amplifiers 131-13n turned on. Further, the AGC 170 may be configured to take in the output power level directly from the power amplifier and directly provide a control signal for output compensation to each of the power amplifiers 131 to 13n.
[0039]
(Second Embodiment)
In the second embodiment of the present invention, a digital terrestrial broadcast transmitting station has a function of monitoring the signal quality of broadcast waves provided in the broadcast monitoring station.
FIG. 4 is a block configuration diagram showing a schematic configuration of the terrestrial digital broadcast remote control system according to the second embodiment. In FIG. 4, the same parts as those in FIG.
[0040]
That is, the digital terrestrial broadcast transmission station 100B is provided with an antenna 180 and a reception monitor 190. A broadcast wave transmitted from the antenna 110 is received by the antenna 180, and the reception result is supplied to the reception monitor 190. The reception monitor 190 monitors the signal quality of the broadcast wave received by the antenna 180, and outputs abnormality monitoring data as a monitoring result to the main controller 160B. The main controller 160B outputs the abnormality monitoring data output from the reception monitor 190 to the broadcast monitoring station 200B via the control line 300.
[0041]
On the other hand, the broadcast monitoring station 200B has an abnormality reception function, an abnormality determination function, and a control information transmission function. The abnormality reception function receives abnormality monitoring data transmitted from the terrestrial digital broadcasting transmission station 100B through the control line 300. The abnormality determination function determines whether an abnormality has occurred in the n power amplifiers 131 to 13n in the digital terrestrial broadcasting transmission station 100B based on the abnormality monitoring data received by the abnormality reception function.
[0042]
The control information transmission function transmits a control command via the control line 300 to the main controller 160B of the digital terrestrial broadcasting transmission station 100B when the abnormality of the n power amplifiers 131 to 13n is detected by the abnormality determination function. To do. The main controller 160B that has received this control command sequentially executes on / off switching of the power supplies of the n power amplifiers 131 to 13n.
[0043]
The control information transmission function is the digital terrestrial broadcasting transmission station when it is determined that the signal quality has been restored to the normal level by the abnormality determination function during the power on / off switching of the power amplifiers 131 to 13n. A power amplification stop command is sent through the control line 300 to maintain the off state of the failed power amplifiers 131 to 13n to the main controller 160B of 100B.
[0044]
As described above, in the second embodiment, the digital terrestrial broadcast transmission station 100B is provided with the reception monitor 190 that receives the broadcast signal transmitted from the antenna 110 by the antenna 180 and monitors the signal quality of the broadcast wave. When an abnormality occurs in the power amplifiers 131 to 13n, the abnormality is detected by the reception monitor 190, and the abnormality monitoring data that is the detection result is transmitted from the terrestrial digital broadcast transmission station 100B to the broadcast monitoring station 200B via the control line 300. Is done. Upon receiving this abnormality monitoring data, the broadcast monitoring station 200B determines an abnormal state. Based on the determination result, the power amplifiers 131 to 13n in the terrestrial digital broadcast transmission station 100B are sequentially turned on / off. When the signal quality is restored to the normal level, for example, the abnormal power amplifier 133 is maintained in the off state.
[0045]
Therefore, compared with the first embodiment, the equipment in the broadcast monitoring station 200B can be simplified, and only the power amplifier 133 in which a fault has occurred can be easily and quickly controlled by remote control from the broadcast monitoring station 200B. Can be stopped.
[0046]
(Other embodiments)
The present invention is not limited to the above embodiments. For example, in each of the above embodiments, the example in which the main controller sequentially switches on / off the power sources of the plurality of power amplifiers has been described. However, this order is not necessarily the same as that of each of the above embodiments. In addition, when a power amplifier in which a failure has occurred is known in advance other than on / off switching of the power source, the power amplifier in which the failure has occurred may be directly disconnected by the main controller. Further, for example, a restarting method other than the power on / off switching may be employed.
[0047]
The present invention is not limited to a transmission station and a broadcast monitoring station in a terrestrial digital broadcasting system, but may be a system that controls a power amplifier of a transmission station using a control line at a broadcast monitoring station. It can also be applied to other transmission stations and broadcast monitoring stations.
In addition, the configuration of the digital terrestrial broadcast transmission station, the function of the broadcast monitoring station, the type of control line, the control procedure and method of the power amplifier, and the like can be variously modified without departing from the scope of the present invention.
[0048]
【The invention's effect】
As described in detail above, according to the present invention, when a failure occurs in a power amplifier in a terrestrial broadcast transmission station, only the failed power amplifier can be stopped by remote control by the broadcast monitoring station. A terrestrial broadcast remote control system can be provided.
Also, according to the present invention, when a failure occurs in the power amplifier, it is possible to provide a terrestrial broadcast transmission apparatus that can stop only the failed power amplifier and continue broadcasting with the remaining power amplifier. it can.
[Brief description of the drawings]
FIG. 1 is a block configuration diagram showing a schematic configuration of an embodiment of a digital terrestrial broadcast remote control system according to the present invention.
2 is a flowchart showing the procedure and contents of abnormality determination / response control when a failure occurs by the broadcast monitoring station shown in FIG.
FIG. 3 is a flowchart showing the procedure and contents of response control when a failure occurs by the main controller of the digital terrestrial broadcasting transmission station shown in FIG. 1;
FIG. 4 is a block diagram showing a second embodiment of the terrestrial digital broadcast remote control system according to the present invention.
FIG. 5 is a block diagram showing a schematic configuration of a conventional terrestrial digital broadcast remote control system.
[Explanation of symbols]
1,100A, 100B ... Terrestrial digital broadcast transmission station,
2,200A, 200B ... broadcast monitoring station,
3,300 ... control line,
11, 110, 180, 21, 210 ... antenna,
12, 120 ... upconverter,
13 ... Power amplifier,
131 to 13n: power amplifier,
14, 140 ... Synthesizer,
15, 150 ... BPF (band filter),
16, 160A, 160B ... main controller,
170 ... AGC (auto gain controller),
190: Reception monitor.

Claims (1)

N power amplifiers provided in parallel to the transmission system of terrestrial broadcasting, power amplifying the program information signal and controlling the power supply independently of each other, and a combiner for synthesizing outputs of these n power amplifiers And a transmission means for transmitting the output of the combiner as a broadcast signal, and a controller for controlling on / off of the power of the n power amplifiers according to a control signal supplied via a control line. A broadcast transmitter;
Receiving means for receiving a broadcast signal from the broadcast transmitting apparatus, monitoring means for monitoring signal quality deterioration of the broadcast signal obtained by the receiving means, and the broadcast transmitting apparatus in response to detection by the monitoring means A broadcast monitoring station having means for generating a control signal for controlling the power sources of the n power amplifiers, and means for supplying the control signal to the broadcast transmitter via a control line,
The broadcast monitoring station generates a first control signal for supplying a first control signal for switching on / off the power of the power amplifier to the broadcast transmitting apparatus via the control line in response to detection of deterioration in signal quality. Means,
Second control signal generating means for supplying, via the control line, a second control signal for maintaining a power supply of the power amplifier in an on / off state in response to detection of signal quality deterioration recovery; Have
The broadcast transmission device transmits a broadcast signal by turning off the power of the first power amplifier among the n power amplifiers based on the first control signal, and the power of the first power amplifier is turned off. A determination is made as to whether or not the second control signal is supplied within a predetermined time from the point in time. If not, the power of the first power amplifier is turned on, First power control means for sequentially executing a process of transmitting a broadcast signal by turning off the power of the second power amplifier to be turned on,
When the second control signal is supplied within a predetermined time from the time when the power of the first power amplifier is turned off by the first power control means, the power that is in the on state at that time Second power control means for maintaining the amplifier in an on state and maintaining the first power amplifier in a power off state in an off state;
And a third power control means for ending the power on / off switching process when the second power amplifier whose power is turned off by the first power control means is the (n + 1) th power amplifier . A terrestrial broadcast control system.

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