JP4464112B2 - Broadcast gap filler equipment - Google Patents

Description

The present invention relates to a broadcast gap filler device that relays a broadcast radio wave toward an unreceivable area where a direct wave from a master station cannot be received, and more particularly to a broadcast gap filler device that can prevent an oscillation phenomenon.

Conventional broadcast gap filler devices operate at different reception and transmission frequencies to prevent oscillation due to signal wraparound. (For example, see Patent Document 1 and Patent Document 2)

JP 2001-230717 A JP 2002-101032 A

However, according to the conventional gap filler device for broadcasting, in order to operate the reception frequency and the transmission frequency at different frequencies, it is necessary to broadcast the same content at two or more different frequencies, which complicates the broadcasting equipment. At the same time, there is a problem of wasting a finite frequency.
In the case of broadcasting at one frequency, it is necessary to use the second frequency that is not broadcasted as the frequency of the relay wave. In this case, since the frequency of the broadcast transmitted from the master station and the frequency retransmitted from the gap filler are different, there is a problem that the user has to change the reception frequency each time.
Therefore, in this application, it was made to solve these problems.
The purpose is to provide a broadcast gap filler device that does not require the user to change the reception frequency each time, even if the broadcast is transmitted at one frequency.
Another object is to provide a broadcast gap filler device that can prevent the influence of the oscillation phenomenon due to the wraparound from expanding even when the frequency of the relay wave is output at the same frequency as the reception frequency.
Another object is to provide a broadcast gap filler device that can detect an oscillation phenomenon with high accuracy.
Another object is to provide a gap filler device for broadcasting that can detect an oscillation phenomenon at the end of a channel with high accuracy.
Another object is to provide a broadcast gap filler device having a notification function for notifying oscillation when an oscillation phenomenon is detected.
Another object of the present invention is to provide a broadcast gap filler device that has a notification function for notifying the occurrence of oscillation to a portable terminal possessed by an administrator when an oscillation phenomenon is detected.

In order to achieve this object, the invention according to claim 1 is characterized in that a receiving means for receiving broadcast radio waves and a relay wave having the same contents as those received by the receiving means have the same frequency as the received frequency. A broadcasting gap filler device that relays a broadcasting radio wave toward an unreceivable area where a direct wave from a master station cannot be received.
Branching means for branching a part of the transmission signal output from the transmission means;
A signal attenuator capable of controlling the output level of the received signal received by the receiving means;
Oscillation detection means provided between the branching means and the signal attenuator;
The equipped Rutotomoni,
The oscillation detection means includes
A tuner that sequentially converts a broadcast signal of a specific channel into an intermediate frequency signal lower than the reception frequency by sequentially sweeping within a reception frequency band of the signal branched by the branching means with a predetermined bandwidth; and
A filter unit having a plurality of filters set so that passbands are different within the frequency band of the intermediate frequency signal;
A plurality of detectors for detecting a signal passing through each filter of the filter unit and outputting a DC voltage;
A plurality of comparators for determining whether or not the DC voltage output from each detector is higher than a predetermined value;
A data holding unit for holding an output from the comparator determined that the DC voltage is higher than a predetermined value among outputs from the plurality of comparators;
And when the output from the comparator that the DC voltage is determined to be higher than a predetermined value is held in the data holding unit, it is determined that oscillation has occurred and the amount of attenuation of the signal attenuator is increased. , Configured to prevent oscillation phenomenon,
In addition, among the plurality of filters constituting the filter unit, the bandwidth of the end filter whose pass band is set to the end region of the frequency band of the intermediate frequency signal is 10% of the bandwidth of the intermediate frequency signal. It is characterized by being set to ˜20%.

According to a second aspect of the present invention, in the broadcast gap filler device according to the first aspect of the present invention, the broadcast gap filler device further comprises a notifying means for notifying the occurrence of oscillation when the oscillation detecting means determines that the oscillation has occurred. It is characterized by.

The invention according to claim 3, in broadcast gap filler apparatus according to claim 2, wherein the notifying means is a display device for displaying the broadcast information, and, for transmitting the broadcast information to the mobile terminal device notification information transmission means, characterized in that it comprises at least one of.

According to the broadcast gap filler device according to claim 1, branching means for branching a part of the transmission signal output from the transmission means, and signal attenuation capable of controlling the output level of the reception signal received by the reception means . And an oscillation detection means.
In the oscillation detection means, the tuner sequentially sweeps within the reception frequency band of the signal branched by the branching means with a predetermined bandwidth, thereby converting the broadcast signal of the specific channel into an intermediate frequency signal lower than the reception frequency. Convert sequentially and output.
The intermediate frequency signal output from this tuner is divided into a plurality of signals having different frequency bands by a plurality of filters provided in the filter unit, and a plurality of detectors detect each of the divided signals. Output a DC voltage.
Then, the plurality of comparators determine whether or not the DC voltage output from each filter of the filter unit is higher than a predetermined value, and the data holding unit determines whether the DC voltage is the output from the plurality of comparators. The output from the comparator determined to be higher than the predetermined value is held.

Then, in the oscillation detecting means, if the output from the comparator that has determined that the DC voltage is higher than the predetermined value is held in the data holding unit, it is determined that oscillation has occurred in the broadcast gap filler device. Thus, the attenuation of the signal attenuator is increased and the oscillation phenomenon is prevented.
Therefore, according to the broadcast gap filler device of claim 1, even if the broadcast is transmitted at one frequency, the broadcast gap filler device does not require the user to change the reception frequency each time. Can be provided. Moreover, even when the frequency of the relay wave is output at the same frequency as the reception frequency, it is possible to provide a broadcast gap filler device that can prevent the influence of the oscillation phenomenon due to the wraparound from expanding.

Moreover, in the gap filler device according to claim 1, the bandwidth of the end filter in which the pass band is set to the end region of the frequency band of the intermediate frequency signal among the plurality of filters constituting the filter unit is , It is set to 10 to 20% of the bandwidth of the intermediate frequency signal. Therefore, it is possible to provide a broadcast gap filler device that can detect the oscillation phenomenon at the end of the channel with high accuracy.

Next, in the gap filler device according to the second aspect, when the oscillation detecting means determines the occurrence of the oscillation , the gap filler apparatus is provided with a notifying means for notifying the fact, so that the fact is managed when the oscillation phenomenon occurs. Can be notified to a person or the like.

Further, according to the gap filler apparatus according to claim 3, notification means, display device for displaying the broadcast information, and, at least one of the broadcast information transmitting means for transmitting the broadcast information to the mobile terminal device Therefore, it is possible to promptly notify the administrator or the like of the occurrence of the oscillation phenomenon and quickly restore the cap filler device.

Hereinafter, an example of an embodiment embodying the present invention will be described in detail with reference to the drawings.
In the present embodiment, a case will be described in which a radio wave for terrestrial broadcasting is relayed toward an unreceivable area where a direct wave from the master station cannot be received.

FIG. 1 shows a block diagram of a gap filler device according to the present invention.
Reference numeral 1 denotes a receiving antenna for receiving terrestrial broadcasting. Reference numeral 2 denotes a transmission antenna for transmitting a relay signal output from a gap filler device 10 described later.
A gap filler device 10 includes a signal attenuator 11, a plurality of single-channel amplifiers 12-1 to 12-3, a branching unit 13, a data holding unit 14, a comparator 15, a plurality of detectors 16a to 16c, and a plurality of filters. 17a to 17c, a tuner 18, and a microcomputer 19 are provided.
The single-channel amplifier 12 includes an input-side bandpass filter 12a, an amplifier 12b, and an output-side bandpass filter 12c.

The terrestrial broadcast signal received by the receiving antenna 1 is taken into the gap filler device 10 through the input terminal 10a. The terrestrial broadcast signal taken into the gap filler device 10 is output to the output terminal 10b via the signal attenuator 11, the single channel amplifier 12, and the branching device 13, from the transmitting antenna 2 and from the master station of the terrestrial broadcasting. The direct wave is transmitted toward an unreceivable area where the direct wave cannot be received.
Further, a part of the output signal of the single channel amplifier 12 is taken out via the branching device 13, and an intermediate frequency signal of a specific channel is extracted by the tuner 18. From the extracted intermediate frequency signal, a part of the intermediate frequency signal is further extracted by filters 17a to 17c, detected by a plurality of corresponding detectors 16a to 16c, and then detected by a comparator 15 described later. The (detected voltage) is compared with a predetermined value (predetermined voltage) set in advance, and when the detected voltage is higher than the predetermined voltage, the HI level is output.
The output signal of the HI level signal output from the comparator is held by the data holder 14. When the output level of the data holder 14 is at the HI level, the attenuation amount of the signal attenuator 11 is controlled to increase (in this embodiment, 10 dB compared to the normal time).
Here, when the attenuation is set to 10 dB, the oscillation can be stopped by reducing the output level by only a few dB at the boundary of whether or not to oscillate. In addition, if the level is slightly reduced, the influence on the receiver receiving the relay wave is reduced. On the other hand, if the attenuation is greatly reduced to 20 to 30 dB, the number of cases where the oscillation phenomenon can be prevented increases, but the influence on the receiver cannot be ignored. Therefore, it is desirable that the attenuation is about 5 to 15 dB.
By the way, if the gap filler device is abnormal, such as when oscillation cannot be suppressed even when the attenuation of the signal attenuator is maximized, or when the signal of the relay wave cannot be received, the relay wave is The manager will know the abnormality of the gap filler device by the notification from the receiving recipient, and will promptly take action on the spot. When the treatment is completed, the data filler 14 is reset by turning on the power of the gap filler device again to restore the system.
The tuner 18 repeats the channel selection sequentially based on the channel selection signals sequentially output from the microcomputer 19. The microcomputer 19 outputs a reset signal to the data holder 14 only once when the power is turned on.

Here, the predetermined value of the comparator 15 is converted to a high-frequency signal level from the upper limit value of the detection output voltage obtained when the amplifier is normally amplified in a state in which the variation amount of the amplification factor due to temperature is taken into consideration. Therefore, it may be set to a value that exceeds 5 to 10 dB.

Next, the comparator 15 will be described in detail with reference to FIG. Reference numeral 30 denotes a diode, and 30a to 30c form an OR circuit. 31 is a comparator. Reference numeral 32 denotes a reference power supply, which is set to the predetermined voltage. A detection signal (detection voltage) input to the input terminals 15b to 15d is compared with the predetermined voltage (reference power supply), and a HI level signal is output when the detection signal is higher than the predetermined voltage. When one of the comparators 31a to 31c outputs a HI level signal, the HI level signal is output to the output terminal 15a.

Next, a mechanism for oscillation will be described. As described above, when a part of the relay wave signal transmitted from the transmission antenna is received by the reception antenna and the oscillation condition is satisfied, the single-channel amplifier 12 (specifically 12b) oscillates. Here, since the phase change is large at the end of the reception band, that is, in the vicinity of the cutoff frequency of the filter, the oscillation condition is easily satisfied. FIG. 3 is a characteristic diagram showing frequency vs. amplitude characteristics at the output terminal when oscillating at the end of the band of the receiving channel. As can be seen from the figure, the output signal level near the cutoff frequency of the filter is high.

Therefore, in the present invention, the pass bandwidth of the filter 17 is made different between the end portion of the filter and the other portions. Specifically, as shown in FIG. 4, the end filters 17a (bandwidth B1) and 17c (bandwidth B3) are set to 1 MHz. The filter 17b (bandwidth B2) is set to 4 MHz. As described above, the S / N (signal: noise) at the time of signal detection can be increased by setting the end filters 17a and 17c to about 10 to 20% of the required bandwidth. The oscillation phenomenon can be detected accurately. As a result, the amount of attenuation of the signal attenuator can be quickly increased to suppress oscillation and prevent other receiving households from receiving interference.

Next, a second embodiment of the present invention will be described with reference to FIG. In the following description, the same components as those in the broadcast gap filler device of the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

In the first embodiment, the administrator knows the abnormality of the gap filler device due to oscillation from the report from the receiver who receives the relay wave, which causes a problem that it takes time to recover the system. Therefore, in the second embodiment, the recovery time can be shortened by directly reporting the abnormality of the gap filler device due to oscillation to the portable terminal device owned by the administrator.

In addition to the configuration of the first embodiment, the gap filler device 100 includes a notification control device 20, a transmitter / receiver 21, and a display device 22. When the data holder 14 outputs the HI level, the notification control device 20 A notification signal is output to the transmitter / receiver 21, the notification information is output to the portable terminal device 4 possessed by the administrator, and is also output to the display device 22, and a lamp or the like is lit.
With this configuration, the manager can promptly rush to the site and take action, and by looking at the state of the display device 22, it can be immediately understood that the abnormality of the gap filler device is due to oscillation. As a result, the system recovery time can be greatly shortened.

Here, the receiving antenna 1 and the signal attenuator 11 of the present invention correspond to receiving means.
The transmission antenna 2, the branching device 13, and the single channel amplifier 12 correspond to transmission means.
The branching device 13 corresponds to a branching unit.
Further, the data holder 14, the comparator 15, the detector 16, the filter 17, the tuner 18, and the microcomputer 19 correspond to the oscillation detecting means.
The notification control device 20 and the display device 22 correspond to notification means.
Further, the transmitter / receiver 21 corresponds to notification information transmitting means.

It should be noted that the present invention is not limited to the above-described embodiment, and can be implemented by appropriately changing each part without departing from the spirit of the present invention, as exemplified below. For example, in this embodiment, the filter is divided into three, but it may be 2 or less, or 4 or more. In the first embodiment, an example in which three relay waves are transmitted has been described. However, the number may be two or less, or four or more. Further, although the amplifier is constituted by a single channel amplifier, the same effect can be obtained even if it is constituted by a broadband amplifier. In addition, the system restoration has been described with the method of turning on the power again, but a reset switch may be provided instead of turning on the power again. The same effect can be obtained by using an amplifier whose gain can be varied instead of the signal attenuator. In this embodiment, the control of the signal attenuator is changed in two values. However, the present invention is not limited to this, and a plurality of predetermined values of the comparator are set and controlled in multiple steps step by step. Also good.

It is a block diagram which shows one example of embodiment of the gap filler apparatus which concerns on this invention. It is a block diagram which shows an example of a comparator. It is a characteristic view showing the frequency versus amplitude characteristic at the output terminal when it is about to oscillate. It is a characteristic view showing the characteristic of the filter for signal extraction in an intermediate frequency signal. It is a block diagram which shows one example of the gap filler apparatus of 2nd Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Receive antenna, 2 ... Transmit antenna, 3 ... Transmit / receive antenna, 4 ... Portable terminal device, 10 ... Gap filler device, 11 ... Signal attenuator, 12 ... Single channel amplifier, 12a ... Band pass filter, 12b ... Amplifier, 12c ... Band pass filter, 13 ... Branch, 14 ... Data holder, 15 ... Comparator, 16 ... Detector, 17 ... Filter, 18 ... Tuner, 19 ... Microcomputer, 20 ... Notification control device, 21 ... Transmitter / receiver, 22 ... display device, 30 ... diode, 31 ... comparator, 32 ... reference power supply, 100 ... gap filler device, 110 ... bandpass filter, 111 ... wideband amplifier, 112 ... bandpass filter.

Claims (3)

Receiving means for receiving radio waves for broadcasting;
Transmitting means for retransmitting a relay wave having the same content as that received by the receiving means at the same frequency as the received frequency;
In a broadcast gap filler device that relays broadcast radio waves to areas where reception is impossible and direct waves from the master station cannot be received,
Branching means for branching a part of the transmission signal output from the transmission means;
A signal attenuator capable of controlling the output level of the received signal received by the receiving means;
Oscillation detection means provided between the branching means and the signal attenuator;
The equipped Rutotomoni,
The oscillation detection means includes
A tuner that sequentially converts a broadcast signal of a specific channel into an intermediate frequency signal lower than the reception frequency by sequentially sweeping within a reception frequency band of the signal branched by the branching means with a predetermined bandwidth; and
A filter unit having a plurality of filters set so that passbands are different within the frequency band of the intermediate frequency signal;
A plurality of detectors for detecting a signal passing through each filter of the filter unit and outputting a DC voltage;
A plurality of comparators for determining whether or not the DC voltage output from each detector is higher than a predetermined value;
A data holding unit for holding an output from the comparator determined that the DC voltage is higher than a predetermined value among outputs from the plurality of comparators;
And when the output from the comparator that the DC voltage is determined to be higher than a predetermined value is held in the data holding unit, it is determined that oscillation has occurred and the amount of attenuation of the signal attenuator is increased. , Configured to prevent oscillation phenomenon,
In addition, among the plurality of filters constituting the filter unit, the bandwidth of the end filter whose pass band is set to the end region of the frequency band of the intermediate frequency signal is 10% of the bandwidth of the intermediate frequency signal. A gap filler device for broadcasting, which is set to ˜20% . 2. The broadcast gap filler device according to claim 1, further comprising notification means for notifying the occurrence of oscillation when the oscillation detection means determines that oscillation has occurred . The said alerting | reporting means is provided with at least one of the display apparatus for displaying alerting | reporting information, and the alerting | reporting information transmission means for transmitting alerting | reporting information to a portable terminal device . Broadcast gap filler device.

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