JP2011205701A - Optical network unit and announcement broadcast system using optical network unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an optical network unit which performs announcement broadcast even if an illegal viewing function of television operates.SOLUTION: The optical network unit 6 includes: an optical conversion element 10 which converts an optical signal to an electric signal; a variable resistor 17 switches between a state of allowing all bands of a frequency-multiplexed television broadcasting signal and announcement broadcasting signal to pass, and a state of attenuating only a band of a wide band television broadcasting signal; and a first high-frequency amplifier circuit 200 which amplifies an electric signal of the all band converted by a transducer. The device further includes a control device 15 controlling a variable resistor to allow all bands to pass through when reception of a wide band television broadcasting signal is permitted while the optical network unit of the device is designated based on the control signal contained in an electric signal, and so that the variable resistor attenuates only the band of the wide band television broadcast signal to amplify the band of the announcement broadcast signal and only the control signal when the reception of the wide band television broadcast signal is not permitted.

Description

  The present invention relates to an optical terminal device that converts an optical signal such as a television broadcast or an announcement broadcast into an electric signal and amplifies it. The present invention also relates to a notification broadcasting system for performing notification broadcasting such as disaster information via an optical communication network.

2. Description of the Related Art Conventionally, an announcement broadcast system that multiplexes television broadcasts and announcement broadcasts using an optical fiber network and distributes them to each home is known, and is used as an information system closely related to the region. In the case of a notification broadcasting system using such an optical fiber network, an optical terminal device for converting an optical signal into an electrical signal is required before the notification broadcast receiving terminal device. For example, Patent Document 1 discloses an optical terminal device used in a notification broadcasting system.
In the optical terminal device used in such an announcement broadcasting system, an optical terminal device having a function of cutting off a signal has been studied in order to prevent illegal reception of a television broadcast.

JP 2006-174221 A

  However, when this function is used, not only the television broadcast signal but also the notification broadcast signal is cut off. Therefore, when the currently studied optical terminal device is used, the notification broadcast cannot be operated.

  SUMMARY OF THE INVENTION An object of the present invention is to realize a notification broadcasting system using an optical fiber network capable of operating notification broadcasting while preventing unauthorized viewing of television broadcasting, and an optical terminal device used in the notification broadcasting system.

  In a first aspect of the present invention, there is provided an optical terminal device in which an optical signal is transmitted from a center device to an optical transmission line, an optical signal input via the optical transmission line is converted into an electric signal, amplified, and supplied to an output device The electrical signal includes a frequency-multiplexed broadband television broadcast signal, an announcement broadcast signal in a band different from the bandwidth of the broadband television broadcast signal, and an address identifying the optical terminal device transmitted from the center device. The optical terminal device designated by the address is a signal multiplexed with a control signal comprising permission or non-permission of reception of the broadband television broadcast signal, and the optical terminal device converts the optical signal into an electrical signal. It has an optical conversion element for conversion, and a variable resistor that can be switched between a state that passes through the entire band and a state that attenuates only the band of the broadband television broadcast signal. When the optical terminal device is designated by an address based on the first high-frequency amplifier circuit that amplifies the all-band electrical signal and the control signal included in the electrical signal, the broadband television broadcast signal is received. If permitted, the variable resistor is set to pass through the entire band. If reception of the broadband television broadcast signal is not permitted, the variable resistor is used to attenuate only the band of the broadband television broadcast signal. An optical terminal device having a control device for controlling a variable resistor so as to amplify only a band of a broadcast signal and a control signal.

  Announcement broadcasting is audio broadcasting using a predetermined band. Usually, a partial band of 70 to 90 MHz band is used, but any band other than the band of the broadband television broadcast signal may be used.

  The whole band means a band including the band of the broadband television broadcast signal and the band of the announcement broadcast signal, and the first high-frequency amplifier circuit amplifies the signal of the whole band. Therefore, when power is supplied to the first high-frequency amplifier circuit by the control device, both notification broadcast and television broadcast can be viewed.

  A signal output from the optical terminal device is supplied to an output device such as a notification broadcast receiving terminal device or a television receiver. The control signal is, for example, a signal indicating that reception of a television broadcast signal is not permitted or permitted.

  If the broadband television broadcast signal is attenuated by controlling the variable resistor and only the bandwidth of the announcement broadcast signal and the control signal are amplified, the output level of the broadband television broadcast signal is low, so that the television broadcast cannot be viewed. It is possible to listen to the announcement broadcast. When the broadband television broadcast signal is not attenuated, both the announcement broadcast signal and the broadband television broadcast signal are amplified, so that both the announcement broadcast and the television broadcast can be viewed.

  As described above, the control device controls the variable resistor based on the control signal, whereby the permission / non-permission of the reception of the television broadcast signal can be controlled.

  According to a second invention, in the first invention, the optical terminal device includes a second high-frequency amplifier circuit that amplifies only the notification broadcast signal band and the control signal among the electric signals converted by the optical conversion element; An optical terminal device comprising a backup power source for supplying power to the second high-frequency amplifier circuit when the power source is interrupted.

  As the backup power source in the second invention, a large-capacity capacitor, a primary battery, a secondary battery, or the like can be used.

  The second high-frequency amplifier circuit is for amplifying a band other than the band of the broadband television broadcast signal, and usually amplifies the band of the notification broadcast signal which is a 70 to 90 MHz band or a part thereof. Is. Therefore, when power is supplied only to the second high-frequency amplifier circuit by the control device, only the notification broadcast can be heard.

According to a third aspect of the present invention, there is provided a notification broadcasting system that distributes a notification broadcast from a center device to each output device connected to each optical terminal device via an optical transmission path. A television broadcast signal, an announcement broadcast signal in a band different from the band of the broadband television broadcast signal, an address that identifies the optical terminal device, and reception of the broadband television broadcast signal in the optical terminal device designated by the address An optical signal multiplexed with a control signal consisting of permission or non-permission is converted into an optical signal and transmitted to the optical terminal device via the optical transmission path. Can be switched between a state that passes through the entire band and a state that attenuates only the band of the broadband television broadcast signal. And having a first high-frequency amplifier circuit that amplifies the electrical signal of the entire band converted by the optical conversion element and a control signal included in the electrical signal, when the optical terminal device is designated by an address, When reception of a broadband television broadcast signal is permitted, the variable resistor is set to pass through the entire band, and when reception of the broadband television broadcast signal is not permitted, the variable resistor is set to the broadband television broadcast signal. A control device for controlling the variable resistor so as to amplify only the bandwidth of the announcement broadcast signal and the control signal by attenuating only the bandwidth of the notification broadcast, and supply means for supplying the output from the first high-frequency amplifier circuit to the output device; ,
It is an announcement broadcast system characterized by having.

  According to a fourth aspect, in the third aspect, the optical terminal device includes a second high-frequency amplifier circuit that amplifies only the notification broadcast signal band and the control signal among the electrical signals converted by the optical conversion element; The power supply has a backup power supply for supplying power to the second high-frequency amplifier circuit when a power failure occurs, and the supply means outputs the outputs from the first high-frequency amplifier circuit and the second high-frequency amplifier circuit to the output device. It is an announcement broadcasting system characterized by supplying.

In the present specification, the following inventions are described.
First, in an optical terminal device that converts an optical signal input via an optical transmission path into an electrical signal, amplifies it, and supplies it to an output device, the electrical signal is a frequency-multiplexed broadband television broadcast signal and , A notification broadcast signal of a band different from the band of the broadband television broadcast signal, and a control signal, and an optical terminal device, an optical conversion element that converts an optical signal into an electrical signal, A first high-frequency amplifier circuit that amplifies the electric signal of the entire band converted by the optical conversion element; and a second amplifier that amplifies only the notification broadcast signal band and the control signal among the electric signal converted by the optical conversion element. An optical terminal device comprising: a high-frequency amplifier circuit; and a control device that controls power supply to the first high-frequency amplifier circuit and the second high-frequency circuit based on a control signal included in the electrical signal.

  In the case of permission, power is supplied only to the first high-frequency amplifier circuit by the control device, so that the notification broadcast can be heard and the television broadcast can be viewed. If not permitted, power is supplied only to the second high-frequency amplifier circuit, and only the announcement broadcast can be heard.

  The second is an optical terminal device characterized by having a backup power source that supplies power to the second high-frequency amplifier circuit when the commercial power source has a power failure.

  Third, in a notification broadcasting system that distributes a notification broadcast from a center device to each output device of each terminal via an optical transmission path, the center device transmits a frequency-multiplexed broadband television broadcast signal and the broadband An electrical signal in which an announcement broadcast signal of a band different from the band of the television broadcast signal and a control signal is multiplexed is converted into an optical signal and transmitted to an optical terminal device installed in each terminal via an optical transmission line. An optical terminal device that receives an optical signal and converts it into an electrical signal, a first high-frequency amplifier circuit that amplifies the electrical signal in the entire band converted by the optical conversion device, Of the electric signal converted by the optical conversion element, the second high-frequency amplifier circuit that amplifies only the bandwidth of the announcement broadcast signal and the control signal, and the first high-frequency amplifier circuit and the first high-frequency amplifier circuit based on the control signal included in the electric signal 2 high laps A notification broadcast system comprising: a control device that controls power supply to a circuit; and supply means for supplying outputs from the first high-frequency amplifier circuit and the second high-frequency amplifier circuit to an output device. is there.

  Fourth, the optical terminal device has a backup power supply that supplies power to the second high-frequency amplifier circuit when the commercial power supply is interrupted.

  According to the first and third aspects of the invention, the control device controls the variable resistor based on the control signal, thereby attenuating the television broadcast signal and amplifying only the notification broadcast signal and the control signal. Therefore, only the television broadcast signal can be cut off by the optical terminal device. As a result, it is possible to operate the notification broadcast as usual while preventing unauthorized use such that a non-subscriber of the video service views the television broadcast.

  According to the second and fourth inventions, the second high frequency amplifier circuit is fed even during a power failure of the commercial power supply, so that the announcement broadcast can be heard. Therefore, a notification broadcasting system that is resistant to disasters is realized.

1 is a block diagram illustrating a configuration of an optical terminal device according to a first embodiment. The figure which shows the structure of the notification broadcasting system of Example 1. FIG. FIG. 3 is a block diagram illustrating a configuration of an optical terminal device according to a second embodiment.

  Hereinafter, specific examples of the present invention will be described with reference to the drawings. However, the present invention is not limited to these examples.

  FIG. 1 is a block diagram showing a configuration of an optical terminal device 2 used in the notification broadcasting system of the present invention, and FIG. 2 is a block diagram showing a configuration of the notification broadcasting system of the present invention.

  First, the configuration of the notification broadcasting system will be described. As shown in FIG. 2, the notification broadcast system includes a center device 1, an optical terminal device 2, a notification broadcast reception terminal device 3, and a television receiver 4. The center device 1 is connected to each optical terminal device 2 via an optical cable. The optical terminal device 2 converts the optical signal into an electric signal, amplifies it, and supplies it to the notification broadcast receiving terminal device 3 and the television receiver 4. is doing.

  The center device 1 multiplexes the frequency-multiplexed broadband television broadcast signal, the announcement broadcast signal in a band different from the bandwidth of the broadband television broadcast signal, and the control signal, converts the multiplexed signal into an optical signal, And transmitting means 5 for transmitting to each optical terminal device 2. The band of the notification broadcast signal is usually an FM broadcast band of 70 to 90 MHz. The notification broadcast receiving terminal device 3 reproduces the notification broadcast, and the television receiver 4 reproduces the television broadcast. Note that not only the notification broadcast signal but also the FM broadcast signal may be multiplexed and transmitted so that the notification broadcast receiving terminal device 3 can reproduce the notification broadcast and the FM broadcast. Further, the control signal is not always transmitted, but is transmitted as necessary, as will be described later.

  Next, the configuration of the optical terminal device 2 will be described. The PIN photodiode 10 (an optical conversion element of the present invention) is an element that receives an optical signal input from the optical signal receiving terminal 19 and converts it into an electrical signal. The converted electric signal is input to the first high-frequency amplifier circuit 100 and the second high-frequency amplifier circuit 101 connected to the PIN photodiode 10. The control device 15 controls power supply to the first high-frequency amplifier circuit 100 and the second high-frequency amplifier circuit 101, and the large-capacitance capacitor 14 supplies power to the second high-frequency amplifier circuit 101 when a commercial power supply fails. It is. The capacitor 14 and the control device 15 are supplied with power from a power supply device 21 connected to a commercial power supply. Signals output from the first high-frequency amplifier circuit 100 and the second high-frequency amplifier circuit 101 are output from the RF terminal 20 via the directional coupler 16, and are sent to the notification broadcast receiving terminal device 3 and the television receiver 4. Entered. The directional coupler 16 and the RF terminal 20 correspond to the supply means of the present invention.

  The first high-frequency amplifier circuit 100 is a wideband amplifier that amplifies signals of bands such as frequency-multiplexed television broadcast signals, notification broadcast signals, and control signals. The first high-frequency amplifier circuit 100 includes three amplifiers 11a, 11b, and 11c and a variable resistor 18. The amplifier 11a, the variable resistor 18, the amplifier 11b, and the amplifier 11c are connected in cascade. The amplifier 11 a is connected to the PIN photodiode 10, and a signal output from the amplifier 11 c is input to the control device 15 and the directional coupler 16. The amplifiers 11a, 11b, and 11c are connected in parallel to the control device 15, and the power supply to the first high-frequency amplifier circuit 100 is controlled by the control device 15. The variable resistor 18 is connected to the PIN photodiode 10 and automatically adjusts the output according to the light reception level.

  The second high-frequency amplifier circuit 101 amplifies a signal of a notification broadcast signal band (for example, an FM broadcast band of 70 to 90 MHz) and a control signal among electric signals from the PIN photodiode 10. The second high-frequency amplifier circuit includes a filter 12 connected to the PIN photodiode 10 and three cascaded amplifiers 13a, 13b, and 13c connected to the filter 12. The electrical signal from the PIN photodiode 10 is first input to the filter 12 and passes only the notification broadcast signal band and the control signal. The signal output from the filter 12 is amplified by the amplifiers 13a, 13b, and 13c, and the signal output from the amplifier 13c is input to the control device 15 and the directional coupler 16. The amplifiers 13a, 13b, and 13c are connected in parallel to the control device 15, and the power supply to the second high-frequency amplifier circuit 101 is controlled by the control device 15. Furthermore, a large-capacity capacitor 14 is provided for supplying power to the second high-frequency amplifier circuit 101 when a commercial power supply fails.

  The control device 15 demodulates the control signal from the signals input from the first high-frequency amplifier circuit 100 and the second high-frequency amplifier circuit 101, and based on the control signal, the first high-frequency amplifier circuit 100 and the second high-frequency amplifier circuit This is a device for controlling power feeding to the amplifier circuit 101. The control device 15 has a nonvolatile memory for storing control signals. The control device 15 is constantly supplied with power from a commercial power source.

  Next, the operation of the optical terminal device 2 will be described in detail.

  The optical terminal device 2 supplies both a television broadcast signal and an announcement broadcast signal in a normal state (a state where no control signal is received). At this time, the control device 15 supplies power only to the first high-frequency amplifier circuit 100. Therefore, the notification broadcast and the television broadcast can be viewed by the notification broadcast receiving terminal device 3 and the television receiver 4.

  When it is desired that the output from the optical terminal device 2 is only the notification broadcast signal, the following is performed. The center device 1 designates the address of the optical terminal device 2 and transmits a signal including a control signal indicating that reception of television broadcast is not permitted to the optical terminal device 2. The control device 15 demodulates the control signal from the signal input from the first high-frequency amplifier circuit 100. The control device 15 stores the control signal data (not permitted to receive television broadcasts) in the nonvolatile memory, supplies power to the second high-frequency amplifier circuit 101 based on the control signal, and then performs the first high-frequency amplification. Power supply to the circuit 100 is stopped. Considering the possibility that the data of the control signal stored in the non-volatile memory will disappear for some reason, the center device 1 transmits the control signal periodically (for example, once a day). As described above, the optical terminal device 2 can output only the notification broadcast signal, and the notification broadcast receiving terminal device 3 can listen to only the notification broadcast.

  Further, to return from the state in which the optical terminal device 2 outputs only the notification broadcast signal to the normal time, the following is performed. The center device 1 designates the address of the optical terminal device 2 and transmits a signal including a control signal for permitting reception of the television broadcast to the optical terminal device 2. The control device 15 demodulates the control signal from the signal input from the second high frequency amplifier circuit 101. The control device 15 deletes the data of the control signal from the nonvolatile memory, supplies power to the first high-frequency amplifier circuit 100, and then stops supplying power to the second high-frequency amplifier circuit 101. As described above, the optical terminal device 2 returns to the normal time, and the notification broadcast receiving terminal device 3 and the television receiver 4 can view the notification broadcast and the television broadcast.

  On the contrary, the optical terminal device 2 may supply only the notification broadcast signal at the normal time. In this case, to the video service subscriber, a control signal for permitting reception of the television broadcast is transmitted as a control signal, and the control device 15 stores the data of the control signal in the nonvolatile memory, Based on the control signal, control is performed so that power is supplied only to the first high-frequency amplifier circuit 100.

  When the commercial power supply is interrupted, power is supplied from the large-capacity capacitor 14 to the second high-frequency amplifier circuit 101. Since the band of the notification broadcast signal is a low-frequency narrow band of 70 to 90 MHz, the capacitor 14 can reproduce the notification broadcast for a long time even during a power failure.

  As described above, according to the notification broadcasting system of the first embodiment, the signal output from the optical terminal device 2 can be easily remotely controlled by the control by the control signal from the center device 1. For example, for a non-subscriber of the video service, only the announcement broadcast that provides highly public information such as disaster prevention information can be heard by making the output of the optical terminal device 2 only the announcement broadcast signal. In addition, it becomes easy for a video service subscriber to receive a television broadcast signal output from the optical terminal device 2 so that the user can view the television broadcast. In addition, video service subscription and non-subscription change can be easily performed by remote control from the center apparatus 1.

  FIG. 3 is a block diagram illustrating a configuration of the optical terminal device 6 according to the second embodiment. The difference from the optical terminal device 2 of the first embodiment is that the first high-frequency amplifier circuit 200 is provided with a variable resistor 17 between the amplifier 11b and the amplifier 11c.

  In the optical terminal device 6, the control device 15 supplies power only to the first high-frequency amplifier circuit 200.

  Normally, the control device 15 controls the variable resistor 17 so as not to attenuate the signal. Therefore, the notification broadcast and the television broadcast can be viewed by the notification broadcast receiving terminal device 3 and the television receiver 4.

  When it is desired that the output from the optical terminal device 6 is only the notification broadcast signal, the following is performed. The center device 1 designates the address of the optical terminal device 6 and transmits a signal including a control signal indicating that reception of television broadcast is not permitted to the optical terminal device 6. The control device 15 demodulates the control signal from the signal input from the first high frequency amplifier circuit 200. The control device 15 stores the data of the control signal (indicating that reception of television broadcast is not permitted) in the nonvolatile memory, and controls the variable resistor 17 to attenuate the signal based on the control signal. Considering the possibility that the data of the control signal stored in the non-volatile memory will disappear for some reason, the center device 1 transmits the control signal periodically (for example, once a day). Since the output level of the television broadcast signal output from the first high-frequency amplifier circuit 200 is low, the television broadcast cannot be viewed on the television receiver 4. Therefore, only the announcement broadcast can be heard by the announcement broadcast receiving terminal device 3.

  To return from the state where you can only listen to the announcement broadcast to normal time, do as follows. The center device 1 designates the address of the optical terminal device 6 and transmits a signal including a control signal for permitting reception of the television broadcast to the optical terminal device 6. The control device 15 demodulates the control signal from the signal input from the first high frequency amplifier circuit 200. The control device 15 deletes the control signal data from the nonvolatile memory and controls the variable resistor 17 so as not to attenuate the signal. As described above, the optical terminal device 6 returns to the normal time, and the notification broadcast receiving terminal device 3 and the television receiver 4 can view the notification broadcast and the television broadcast.

  At the time of a power failure of the commercial power supply, power is supplied from the large-capacitance capacitor 14 to the second high-frequency amplifier circuit 101 as in the case of the first embodiment, so that it is possible to reproduce a long-term notification broadcast even during a power failure. .

  In Examples 1 and 2, a large-capacity capacitor is used for backup in the event of a power failure, but a primary battery or a secondary battery may be used.

  According to the notification broadcast system of the present invention, the output from the optical terminal device can be easily controlled by remote control using a control signal, and only the notification broadcast can be heard even if the video service is not subscribed.

1: Center device 2, 6: Optical terminal device 3: Notification broadcast receiving terminal device 4: Television receiver 10: PIN photodiode 11a, 11b, 11c, 13a, 13b, 13c: Amplifier 12: Filter 14: Capacitor 15, 25: Control device 16: Directional coupler 17, 18: Variable resistor 100, 200: First high-frequency amplifier circuit 101: Second high-frequency amplifier circuit

Claims (4)

In an optical terminal device in which an optical signal is transmitted from a center device to an optical transmission path, the optical signal input through the optical transmission path is converted into an electric signal, amplified, and supplied to an output device.
The electrical signal specifies the optical terminal device transmitted from the center device, the frequency-multiplexed broadband television broadcast signal, the announcement broadcast signal in a band different from the bandwidth of the broadband television broadcast signal, and the center device A signal obtained by multiplexing an address and a control signal including permission or non-permission of reception of the broadband television broadcast signal in the optical terminal device designated by the address,
The optical terminal device
An optical conversion element for converting the optical signal into the electrical signal;
A variable resistor that can be switched between a state of passing through the entire band and a state of attenuating only the band of the broadband television broadcast signal, and amplifies the electric signal in the entire band converted by the light conversion element; A first high-frequency amplifier circuit,
If the reception of the broadband television broadcast signal is permitted when the optical terminal device is designated by the address based on the control signal included in the electrical signal, the variable resistors are connected to the variable resistors. When the band is in a passing state and reception of the broadband television broadcast signal is not permitted, the variable resistor attenuates only the band of the broadband television broadcast signal and the band of the notification broadcast signal and the control signal An optical terminal device comprising: a control device that controls the variable resistor so as to amplify only the signal.   The optical terminal device includes a second high-frequency amplifier circuit that amplifies only the band of the notification broadcast signal and the control signal among the electric signal converted by the optical conversion element, and a commercial power supply is interrupted. The optical terminal device according to claim 1, further comprising a backup power source that feeds power to the second high-frequency amplifier circuit. In the notification broadcasting system that distributes the notification broadcast from the center device to each output device connected to each optical terminal device via the optical transmission path,
The center device is
In a frequency multiplexed broadband television broadcast signal, an announcement broadcast signal in a band different from the bandwidth of the broadband television broadcast signal, an address for identifying the optical terminal device, and an optical terminal device designated by the address Transmission means for converting an electrical signal multiplexed with a control signal consisting of permission or non-permission of reception of the broadband television broadcast signal into an optical signal and transmitting the optical signal to the optical terminal device via an optical transmission path. And
The optical terminal device
An optical conversion element that receives the optical signal and converts it into the electrical signal;
A variable resistor that can be switched between a state of passing through the entire band and a state of attenuating only the band of the broadband television broadcast signal, and amplifies the electric signal in the entire band converted by the light conversion element; A first high-frequency amplifier circuit,
If the reception of the broadband television broadcast signal is permitted when the optical terminal device is designated by the address based on the control signal included in the electrical signal, the variable resistors are connected to the variable resistors. When the band is in a passing state and reception of the broadband television broadcast signal is not permitted, the variable resistor attenuates only the band of the broadband television broadcast signal and the band of the notification broadcast signal and the control signal A control device for controlling the variable resistor so as to amplify only,
Supply means for supplying the output from the first high-frequency amplifier circuit to the output device;
An announcement broadcasting system characterized by comprising: The optical terminal device includes a second high-frequency amplifier circuit that amplifies only the band of the notification broadcast signal and the control signal among the electric signal converted by the optical conversion element, and a commercial power supply is interrupted. A backup power supply for supplying power to the second high-frequency amplifier circuit,
The supply means supplies the output from the first high-frequency amplifier circuit and the second high-frequency amplifier circuit to the output device;
The notification broadcast system according to claim 3.

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