JP4541636B2 - Headend device and CATV system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a head-end device that converts various television broadcast signals received by a receiving antenna into a predetermined channel arrangement and transmits the signal on a transmission line of the CATV system, and a CATV system including the head-end device.
[0002]
[Prior art]
Conventionally, terrestrial broadcasting using a ground station, BS broadcasting using a broadcasting satellite (BS), CS broadcasting using a communication satellite (CS), and the like are known as television broadcasting. In the CATV system that retransmits these television broadcasts, the headend device receives each broadcast radio wave and converts the frequency of the received signal as it is, or individually converts the television broadcast signal included in the received signal. Thus, the plurality of television broadcast signals are stored in a frequency band that can be transmitted by the CATV system, and are transmitted onto the transmission line.
[0003]
By the way, in recent years, in BS broadcasting, BS digital broadcasting has been started in addition to BS analog broadcasting which has been conventionally performed. In the CATV system, if the received signal of this BS digital broadcast is sent to the transmission line as it is (or just frequency-converted) as in the prior art, other received signals such as BS analog broadcast cannot be transmitted. There was a thing. Further, if the BS digital broadcast is transmitted as it is in the signal form received by the receiving antenna, a receiver dedicated to the BS digital broadcast is required when viewing the BS digital broadcast on the terminal side.
[0004]
Therefore, conventionally, as one method for retransmitting such BS digital broadcasts by the CATV system, a digital television broadcast signal of a different broadcast channel is used on the headend side using a plurality of receivers dedicated to BS digital broadcasts. Then, the demodulated video and audio signals are converted into analog TV broadcast signals of a predetermined transmission channel (NTSC TV broadcast signals in Japan) using modulators, respectively. A method for transmitting the converted television broadcast signal on a transmission line has been considered.
[0005]
That is, in this way, in the CATV system, video and audio signals of each broadcast channel provided by BS digital broadcasting can be transmitted as analog television broadcast signals in the same frequency band (VHF or UHF band) as terrestrial broadcasting. Moreover, on the terminal side, BS digital broadcasting can be viewed using a general television receiver.
[0006]
[Problems to be solved by the invention]
By the way, as described above, when a plurality of receivers (so-called tuners) that select and demodulate television broadcast signals are provided in the headend device, the broadcast channels of the television broadcast signals that each receiver selects and demodulates are as follows. However, it is set by operating the operation unit of the receiver, but the operator may erroneously operate the operation unit during maintenance and inspection of the headend device.
[0007]
In such a case, the channel selection channel of the erroneously operated receiver changes, the broadcast program being viewed or recorded on the terminal side changes, or the TV broadcast signal is selected by the receiver. There has been a problem that it becomes impossible to demodulate and a TV broadcast signal cannot be transmitted to the terminal side.
[0008]
In particular, a remote control device for remote operation (hereinafter referred to as a remote control device) is attached to the receiver, and a channel selection channel of the receiver is set using the remote control device. Then, although the setting can be easily performed by using the remote control device, the remote control device is likely to be erroneously operated, so that the above problem is likely to occur.
[0009]
The present invention has been made in view of these problems, and the headend apparatus side temporarily selects and demodulates a television broadcast signal, and converts the demodulated video and audio signals into a television broadcast signal of a predetermined transmission channel. An object of the present invention is to prevent a channel selection channel of a television broadcast signal from being erroneously changed in a configured CATV system.
[0010]
[Means for Solving the Problems]
The invention according to claim 1, which has been made to achieve the object,
A receiving antenna for receiving various TV broadcast signals ;
A plurality of receiving means comprising a digital tuner that demodulates video and audio signals by selecting a digital television broadcast signal of a preset broadcast channel from the received signals from the receiving antenna;
A plurality of converting means for converting the video and audio signals demodulated by the receiving means into analog TV broadcast signals of preset transmission channels, respectively;
Channel selection channel setting means for inputting a broadcast channel change command of a digital television broadcast signal selected by each receiving means by an external operation;
A head-end device for sending a large number of television broadcast signals including analog television broadcast signals output from the respective conversion means onto a transmission line of a CATV system,
The channel selection channel setting means includes:
A remote control device which is a transmission unit for remote operation that wirelessly transmits the command signal for changing the broadcast channel according to an external operation;
A light receiving unit which is a receiving unit for receiving a command signal transmitted from the remote control device;
Consists of
The headend device further includes
A signal path changeover switch for selectively outputting a broadcast channel change command signal received by the light receiving unit of the channel selection channel setting means to any of the plurality of reception means;
An input panel provided with a selection button for selecting a receiving means for changing the broadcast channel from among the plurality of receiving means by an external operation, and a lock button that can be switched on / off by an external operation; ,
When the lock button is in the off state, the signal path so that the broadcast channel change command signal received by the light receiving unit of the channel selection channel setting unit is input to the reception unit selected by the selection button. When the change-over switch is driven and the lock button is in the on state, the signal so that the command signal for changing the broadcast channel received by the light receiving unit of the channel selection channel setting means is not input to any receiving means. Channel lock means for driving a path switch;
It is provided with.
[0011]
According to the headend device of the present invention configured as described above, if the operator turns on the lock button provided on the input panel, the remote control device (specifically, the remote control device). command signals for broadcast channel changes sent from the control device), also to prevent them from being inputted to one of the receiving means, even the operator in that state has operated erroneously the remote control device, a command for changing a broadcast channel The signal is not input to the receiving means, and the broadcast channel of the receiving means is not changed. For this reason, the accident of misbroadcasting can be prevented.
In particular, since the remote control device can be placed anywhere, there is a high possibility that a person or an object will accidentally touch the channel switch of the remote control device. In the present invention, the lock button provided on the input panel is turned on. Therefore, even if the command signal for changing the broadcast channel transmitted from the mobile device is received by the light receiving unit, the command signal can be prevented from being input to the receiving means via the signal path switch. The above effects can be exhibited effectively.
[0012]
In the headend device of the present invention , each receiving means is composed of a digital tuner that tunes digital television broadcast and demodulates video and audio signals, and each converting means includes the video and audio signals. Is converted to analog TV broadcast.
Therefore, if this headend device is used, digital TV broadcasts such as BS digital broadcasts can be transmitted to the terminal side as analog TV broadcast signals similar to terrestrial broadcasts. The CATV system described in the section of the prior art Can be built easily .
[0016]
By the way, in some conventional headend devices, the transmission channel in the conversion means can be changed by a transmission channel setting command by an external operation, and the transmission channel setting means changes to an unintended transmission channel due to an erroneous operation. If this happens, there will be a problem that the program being broadcast cannot be viewed. For this reason, means for prohibiting transmission channel setting commands from being input to the conversion means is also considered. Also, the timing for changing the transmission channel is the same as the timing for changing the channel selection, because it is the system initial setting, system changing, or maintenance, and the channel setting function is not used at the same time. There is no problem even if the operation of prohibiting / releasing the input of the channel selection and transmission channel setting command is made common.
[0017]
On the other hand, the headend device according to claim 2 includes transmission channel setting means for setting the transmission channel of the television broadcast signal output from each converting means by an external operation, and the channel lock means When the lock button provided on the input panel is in the ON state, the input of the transmission channel setting command from the transmission channel setting means is prohibited.
[0018]
As a result, according to the head end device of the present invention ( Claim 2 ), the channel lock command from the outside to the channel selection and transmission channel setting means can be a single command, and the operability can be improved. The possibility of forgetting can be lowered. Also, one input device such as a channel lock command input button can be omitted, and the configuration of the apparatus can be simplified.
[0019]
On the other hand, the invention described in claim 3 relates to a CATV system constructed using the above-described headend device of the present invention (claim 1 or claim 2 ). In this CATV system, the headend device A large number of broadcast signals transmitted from the transmission line to the transmission line are transmitted to a plurality of terminals via the transmission line.
[0020]
Therefore, according to this CATV system, it is possible to provide a CATV system with few erroneous broadcasts and high reliability.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a configuration diagram showing the overall configuration of a CATV system of an embodiment to which the present invention is applied.
[0022]
As shown in FIG. 1, the CATV system of the present embodiment has a VHF antenna 2 that receives broadcast radio waves from a ground station that performs VHF television broadcast (analog), and a broadcast from a ground station that performs UHF television broadcast (analog broadcast). A UHF antenna 4 that receives radio waves, a CS antenna 6 that receives broadcast radio waves from a CS broadcast communication satellite (CS), converts the received signal into a CS received signal in a predetermined intermediate frequency band, and outputs the CS signal; A headend device 10 having a BS antenna 8 that receives broadcast radio waves from a broadcasting satellite (BS) that performs BS digital broadcasting, converts the received signal into a BS received signal of a predetermined intermediate frequency band, and outputs the BS received signal; A transmission line (coaxial cable) L for transmitting a large number of television broadcast signals sent from the head end device 10 to the terminal side, and a transmission line provided on the transmission line L An amplifier 14 and 16 for amplifying the transmission signal (headend television signals sent from the 10, etc.) flowing is configured from the various transmission devices for branch or distribution (not shown).
[0023]
Here, in the headend device 10, the received signals from the VHF antenna 2, UHF antenna 4, and CS antenna 6 are used as they are or after frequency conversion to the transmission frequency band, from the transmission device 12 to the transmission line. The BS received signal from the BS antenna 8 is transmitted to L, and the video and audio signals are temporarily selected and demodulated for each broadcast channel in the n remodulation units 20 including the units 1 to n. In addition, by modulating the video and audio signals again, an analog TV broadcast signal of a predetermined transmission channel is generated in the same NTSC format as the VHF / UHF terrestrial broadcast, and the generated TV broadcast signal is The TV broadcast signal is sent from the sending device 12 onto the transmission line L.
[0024]
That is, the head end device 10 is provided with a distributor 11 that distributes the BS reception signals from the BS antenna 8 into n pieces, and the n BS reception signals distributed by the distributor 11 are respectively received. , Input to n number of post-modulation units 20 composed of units 1 to n.
[0025]
In addition, each of the rear modulation units 20 selects a television broadcast signal (digital television broadcast signal) of a preset broadcast channel from among BS reception signals input via the distributor 11, and performs the television broadcast. The BS digital receiver 22 as a receiving means of the present invention that demodulates the video and audio signals included in the signal, and the video and audio signals demodulated by the BS digital receiver 22 are converted into a television broadcast signal (NTSC) of a predetermined transmission channel. And a modulator 24 as conversion means of the present invention for conversion to analog television broadcasting).
[0026]
The television broadcast signal generated by the modulator 24 is output to the sending device 12, mixed with other television broadcasting signals by the sending device 12, and sent onto the transmission line L.
On the other hand, the BS digital receivers 22 provided in the respective post-modulation units 20 are not commercially available (so-called commercial use) receivers, but are commercially available (so-called consumer use) in order to reduce the cost of the headend device 10. A receiver (so-called BS digital tuner) is used. Each BS digital receiver 22 is configured to set a channel selection channel by using a remote control device (hereinafter referred to as a remote control device) 32 for remote control attached to the receiver.
[0027]
That is, the head end device 10 receives a light receiving unit 33 that receives various command signals (infrared signals in this embodiment) wirelessly transmitted from the remote control device 32 by operating the remote control device 32, and the light receiving unit 33 receives the light receiving unit 33. A signal path selector switch 37 for selectively outputting the command signal from the remote control device 32 to one BS digital receiver 22 provided in any one of the n remodulation units 20 including the units 1 to n; An input panel 50 for designating a BS digital receiver 22 (in other words, a post-modulation unit 20) that selectively outputs a command signal via the signal path changeover switch 37, and an input panel 50 are designated. A microcomputer (hereinafter referred to as a microcomputer) that automatically switches the output destination of the command signal in the signal path switch 37 according to the post-modulation unit 20. It is provided and 30.
[0028]
For this reason, in the headend device 10 of the present embodiment, when the operator operates the input panel 50 and designates the BS digital receiver 22 to set the channel selection channel, the microcomputer 30 designates the designated BS digital. The signal path selector switch 37 is driven so that the command signal from the light receiving unit 33 is input to the receiver 22, and the operator operates the remote control device 32 to specify the channel selection channel of the BS digital receiver 22. Then, a command signal for channel selection channel setting is input to the specific BS digital receiver 22 designated by the user via the signal path switch 37.
[0029]
Therefore, according to the head end device 10 of the present embodiment, the channel for BS digital broadcasting selected and demodulated by the BS digital receiver 22 provided in each of the remodulation units 20 of the units 1 to n is controlled by the remote controller. It can be set very easily by the operation.
[0030]
In addition, the input panel 50 can not only specify the BS digital receiver 22 (in other words, the remodulation unit 20) to be set as the channel selection channel, but also can be generated by the modulators 24 provided in each remodulation unit 20. The transmission channel of the TV broadcast signal can also be specified.
[0031]
That is, as shown in FIG. 2, the input panel 50 includes unit numbers (units 1 to n) representing the respective rear modulation units 20, and the unit number is assigned to each unit number described. A selection button 51 for selecting the corresponding rear modulation unit 20 as an operation target, a selection lamp 52 for displaying whether or not the rear modulation unit 20 is selected as an operation target, and its rear modulation unit 20 (in detail) A transmission channel display 53 for displaying a transmission channel of a television broadcast signal output from the modulator 24), an UP button 54 for inputting a change command to the upper side of the transmission channel, and a change to the lower side of the transmission channel. The DOWN button 55 for inputting a command, and the broadcast channel (BS digital broadcast channel) in which the BS digital receiver 22 of the remodulation unit 20 is selected. Channel selection channel display unit 56 for displaying the channel), a lock button with a built-in lamp that serves as an input for changing the operation status of the selection button 51, the UP button 54, and the DOWN button 55 and the operation status of the selection button 51. 57 is arranged. Each button arranged on the input panel 50 has a switch function, one end is connected to a power source, and the other end is connected to an input port for each button of the microcomputer 30. When each button is pressed, the power supply voltage is applied to the corresponding input port of the microcomputer 30, and the pressed button is detected by the microcomputer 30.
[0032]
When the microcomputer 30 detects that any of the buttons on the input panel 50 has been pressed, it performs a button operation acceptance process in the flowchart of FIG. Operates according to. In the microcomputer 30, when any one of the units 1 to n is selected by operating the selection button 51, the remodulation unit 20 corresponding to the selected unit number is changed to a CH setting target unit (CH is a channel). The selection lamp 52 of the CH setting target unit is turned on (selection lamps 52 of other units are turned off), and a command signal from the light receiving unit 33 is input to the BS digital receiver 22 of the CH setting target unit. In this state, when the UP button 54 or the DOWN button 55 of the CH setting target unit is operated, a transmission channel change command is sent to the modulator 24 of the CH setting target unit. The modulator 24 transmits a television broadcast signal transmission channel generated in response to the transmission channel change command. It switched.
[0033]
The microcomputer 30 also includes a channel of a television broadcast signal (BS digital broadcast) selected by the BS digital receiver 22 and a modulator 24 in each unit for each unit (in other words, each post-modulation unit 20). Channels of television broadcast signals (analog television broadcasts) generated by are stored in the memory 31, and the stored channels are displayed on the channel selection channel display unit 56 and the transmission channel display unit 53 of the input panel 50.
[0034]
In the present embodiment, the selected channel change command from the remote control device 32 is a transmission unit of the present invention is transmitted as an infrared signal, the signal, received by the light receiving unit 33 is a receiving unit of the present invention by an external operation By inputting the signal to the signal path changeover switch 37, the channel selection channel change command is sent to the remodulation unit 20 (ie, the BS digital receiver 22) designated by the selection switch 51 of the input panel 50 via the signal path changeover switch 37. However, the remote control device 32 and the light receiving unit 33 that input the command signal to the signal path switch 37 correspond to the channel selection channel setting means of the present invention.
[0035]
Hereinafter, a button operation reception process performed by the microcomputer 30 when any one of the buttons arranged on the input panel 50 is pressed will be described with reference to the flowchart shown in FIG.
First, in S110, the energization state of the lock button 57 to the lamp is read. In S120, it is determined whether the lock button 57 is in the “ON” state in which the lamp is energized. If the lock button 57 is in the “ON” state, the process proceeds to S230. If the lock button 57 is not in the “ON” state, the process proceeds to S130.
[0036]
Next, in S130, it is determined whether the pressed button is the selection button 51. If it is determined that the pressed button is the selection button 51, the process proceeds to S140. If it is determined that the pressed button is not the selection button 51, the process proceeds to S170. To do.
Next, in S140, the remodulation unit 20 corresponding to the pressed selection button 51 is stored in the memory 31 as a CH setting target unit. Thereafter, in S150, the LED of the selection lamp 52 of the CH setting target unit is turned on, and the signal modulation switch 37 selects the remodulation unit 20 of the CH setting target unit. Further, the LEDs of the selection lamps 52 other than the CH setting target unit are turned off, and the signal path changeover switch 37 is not selected by the remodulation unit 20 other than the CH setting target unit.
[0037]
Next, in S170, it is determined whether the pressed button is the UP button 54 or the DOWN button 55, which is a transmission channel change command input. If it is determined that the transmission channel change command is input, the process proceeds to S180. If it is determined that the change command is not input, the process proceeds to S200.
[0038]
In S180, when the UP button 54 is pressed from the transmission channel currently being transmitted to the modulator 24 of the CH setting target unit corresponding to the pressed button, “+1” or the DOWN button 55 is pressed. Outputs a transmission channel change command so that the transmission channel is changed to “−1”. Thereafter, in S190, the display on the transmission channel display unit 53 of the CH setting target unit is updated to the channel changed in S180, and this process is terminated.
[0039]
Next, in S200, it is determined whether the pressed button is the lock button 57. If it is determined that the button is the lock button 57, the process proceeds to S210, and if it is determined that the button is not the lock button 57 due to an input error state or the like. This process is finished as it is.
Next, in S210, the LEDs of the selection lamps 52 of all units are turned off, and the signal path changeover switch 37 is not selected in any of the rear modulators 20. In S220, the lamps of the lock buttons 57 are energized and turned on. To end this processing.
[0040]
Next, in S230, it is determined whether the pressed button is the lock button 57. If it is determined that the button is the lock button 57, in S240, energization to the lamp of the lock button 57 is stopped and the lamp is turned off to perform this processing. Exit. If it is determined that the pressed button is not the lock button 57, the present process is terminated as it is.
[0041]
As described above, in the CATV system according to the present embodiment, each of the broadcast channels provided by BS digital broadcasting by the n remodulation units 20 including units 1 to n provided in the headend device 10. The digital TV broadcast signal is demodulated once, and the video and audio signals obtained by the demodulation are converted into an analog TV broadcast signal of a predetermined transmission channel in the same NTSC format as the terrestrial TV broadcast signal, and then transmitted on the transmission line L. To be sent out. Therefore, a subscriber of the CATV system can view BS digital broadcasting using a television receiver capable of receiving terrestrial television broadcasting.
[0042]
Further, by pressing the lock button 57 keep the "ON" state, the microcomputer 30 serving as a channel locking means, a state in which the signal path changeover switch 37 does not select any of the condensate modulator 20, a command from the remote control unit 32 Since the signal does not reach the rear modulator 20 and becomes invalid, the microcomputer 30 only executes processing for the operation of the lock button 57 of the input panel 50, so the button operations of the UP button 54 and the DOWN button 55 are also invalidated, and malfunction due to erroneous operation. Can be prevented.
Then, when the tuning and transmission channel change is necessary, such as when setting up the system and displaying the test pattern once for maintenance, etc., press the lock button 57 again to turn it off. Thus, the selection button 51 can be selected, the channel selection channel of the BS digital receiver 22 can be changed by the remote control device 32, and the transmission channel can be changed by the UP button 54 and the DOWN button 55.
[0043]
Since the command from the remote control device 32 is invalidated and the operation of the UP button 54 and the DOWN button 55 for changing the transmission channel is executed with one lock button 57, the operation is simple and the mechanism is simple. It can be a simple device.
As mentioned above, although one Example of this invention was described, this invention is not limited to the said Example, It can take a various aspect.
[0044]
For example, in the above-described embodiment, the BS digital receiver 22 is described as receiving BS digital broadcast, but for receiving BS analog broadcast, other satellite broadcasts, terrestrial digital broadcasts to be used in the future, and the like. A receiver may be used.
[0045]
In the above embodiment, the signal path changeover switch 37 is controlled to be turned on / off by the microcomputer 30, but other methods may be used. For example, the selection button 51 and the lock button 57 are provided. A mechanical switch that mechanically holds the open / closed state, and the series of selection buttons 51 and the lock button 57 are exclusively closed, and the selection button 51 is used instead of the signal path switch 37. A signal from the light receiving unit 33 may be transmitted to the receiver 22.
[0046]
In the above embodiment, the selection button 51 and the lock button 57 are operated to instruct the microcomputer 30 to switch the signal path changeover switch 37. The remote control device 32 has a specially designed design that can output the above command, and the output of the remote control device 32 also enters the microcomputer 30 so that the switching of the signal path switch 37 can be instructed by a button on the remote control device 32. There may be.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an overall configuration of an embodiment.
FIG. 2 is a diagram illustrating an input panel 50 according to the embodiment.
FIG. 3 is a flowchart illustrating a processing procedure when a button on the input panel 50 is pressed in the microcomputer 30 according to the embodiment.
[Explanation of symbols]
2 ... VHF antenna, 4 ... UHF antenna, 6 ... CS antenna, 8 ... BS antenna, 10 ... head end device, 11 ... distributor, 12 ... transmission device, 14 ... amplifier, 16 ... branch device, 20 ... remodulation unit 22 ... BS digital receiver, 24 ... modulator, 30 ... microcomputer, 32 ... remote control device, 33 ... light receiving unit, 37 ... signal path selector switch, 50 ... input panel, 51 ... select button, 52 ... select lamp, 53 ... Transmission channel indicator, 54 ... UP button, 55 ... DOWN button, 56 ... Channel selection indicator, 57 ... Lock button, L ... Transmission line.

Claims (3)

A receiving antenna for receiving various TV broadcast signals ;
A plurality of receiving means comprising a digital tuner that demodulates video and audio signals by selecting a digital television broadcast signal of a preset broadcast channel from the received signals from the receiving antenna;
A plurality of converting means for converting the video and audio signals demodulated by the receiving means into analog TV broadcast signals of preset transmission channels, respectively;
Channel selection channel setting means for inputting a broadcast channel change command of a digital television broadcast signal selected by each receiving means by an external operation;
A head-end device for sending a large number of television broadcast signals including analog television broadcast signals output from the respective conversion means onto a transmission line of a CATV system,
The channel selection channel setting means includes:
A remote control device which is a transmission unit for remote operation that wirelessly transmits the command signal for changing the broadcast channel according to an external operation;
A light receiving unit which is a receiving unit for receiving a command signal transmitted from the remote control device;
Consists of
The headend device further includes
A signal path changeover switch for selectively outputting a broadcast channel change command signal received by the light receiving unit of the channel selection channel setting means to any of the plurality of reception means;
An input panel provided with a selection button for selecting a receiving means for changing the broadcast channel from among the plurality of receiving means by an external operation, and a lock button that can be switched on / off by an external operation; ,
When the lock button is in the off state, the signal path so that the broadcast channel change command signal received by the light receiving unit of the channel selection channel setting unit is input to the reception unit selected by the selection button. When the change-over switch is driven and the lock button is in the on state, the signal so that the command signal for changing the broadcast channel received by the light receiving unit of the channel selection channel setting means is not input to any receiving means. Channel lock means for driving a path switch;
A head-end device comprising:   Transmission channel setting means for setting the transmission channel of the television broadcast signal output by each conversion means, respectively, by an external operation,
  2. The head end device according to claim 1, wherein the channel lock unit prohibits the input of the transmission channel setting command from the transmission channel setting unit when the lock button is in an ON state.   A headend device according to claim 1 or 2 is provided, and a number of television broadcast signals sent from the headend device onto a transmission line are transmitted to a plurality of terminals via the transmission line. CATV system to do.

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