JP5866143B2 - Portable transmitter for optical line terminator - Google Patents

Description

  The present invention relates to a portable transmission device for an optical line termination device.

  In recent years, with the progress of optical communication technology, optical transmission systems using optical cables have become widespread. According to this optical transmission system, since repeatless transmission of about several tens of kilometers is possible, the transmission system can be easily widened. In general, this optical transmission system is an optical transmission in which an optical transmitter arranged on the sender side and an optical network unit (ONU) arranged on the receiver side are configured by an optical cable. They are connected via a road. Then, the transmitter side mixes the TV signal and the announcement broadcast signal, converts the mixed electric signal into an optical signal by the optical transmitter, and transmits the optical signal to the optical line terminating device via the optical transmission line. . In this optical line termination device, an optical signal is converted into an electric signal (RF signal) and output to a TV receiver or an announcement broadcast receiver.

JP 2006-174221 A

  Here, when the optical line terminator is installed on the receiver side, it is necessary to check the level of the optical signal input from the optical transmitter to the optical line terminator via the optical transmission line. Since the operator cannot confirm the level of the optical signal input to the optical line termination device, specifically, a separately prepared optical power meter is used as the optical transmission line. It was done by connecting and measuring the level of the optical signal. For this reason, for example, when an optical line terminator is installed at a high position in a building (for example, an outer wall near the roof of a building) and the optical signal level is checked for maintenance or the like, Go up to the location of the device, remove the optical line terminator from the optical transmission line, connect the optical power meter to the optical transmission line, measure the optical signal level, and then connect the optical line terminator again to the optical transmission line. It was necessary to connect to the network, and the work was complicated.

  The present invention has been made in view of the above, and provides a portable transmission device for an optical line termination device capable of confirming information related to the optical line termination device at a position away from the optical line termination device. The purpose is to do.

In order to solve the above-described problems and achieve the object, a portable transmission device for an optical line termination device according to claim 1 receives an optical signal transmitted from an optical transmitter via an optical transmission line. A portable transmission device that wirelessly transmits information to an optical line terminator that converts the signal into an electrical signal, and accepting means for receiving an operation command for operating the optical line terminator; Transmitting means for wirelessly transmitting the operation command received by the receiving means to the optical line terminator , wherein the operation command is a reception level of the optical signal detected by the optical line terminator. And a command for lighting or blinking the display means provided in the optical line terminating device.

The portable transmission device for an optical line termination device according to claim 2 is an optical line termination device that receives an optical signal transmitted from an optical transmitter via an optical transmission line and converts the optical signal into an electrical signal. A portable transmission device that wirelessly transmits information, the receiving means for receiving an operation command input for operating the optical line termination device, and the operation command received by the reception means as the optical line termination Transmitting means for wirelessly transmitting to a device; receiving means for wirelessly receiving information relating to the optical line terminating device from the optical line terminating device; and information relating to the optical line terminating device received by the receiving means. Output means for outputting, wherein the output means outputs information for specifying the reception level of the optical signal detected by the optical line termination device to the outside. In the same manner, and it outputs the information for identifying the receiving level of the optical signal to the outside.

The portable transmission device for an optical line termination device according to claim 3 is the portable transmission device for an optical line termination device according to claim 2, wherein the information about the optical line termination device is the optical line termination device. This is information for specifying the reception level of the optical signal detected in (1).

The portable transmission device for an optical line termination device according to claim 4 is the portable transmission device for an optical line termination device according to any one of claims 2 or 3 , wherein the information regarding the optical line termination device is provided. Is control state information relating to the control state of the optical line termination device.

The portable transmission device for an optical line termination device according to claim 5 is the portable transmission device for an optical line termination device according to any one of claims 2 to 4 , wherein the information regarding the optical line termination device is provided. Is control history information relating to a history of control executed by the optical line terminating device .

The portable transmission device for an optical line termination device according to claim 6 is the portable transmission device for an optical line termination device according to any one of claims 2 to 5 , wherein the information about the optical line termination device is provided. Is an address stored in the optical line terminator for uniquely identifying the optical line terminator.

The portable transmission device for an optical line termination device according to claim 7 is received by the reception means in the portable transmission device for an optical line termination device according to any one of claims 2 to 6. Storage means for storing information related to the operation command, and the receiving means inputs an operation command for operating the portable transmission device so as to output the information related to the operation command stored in the storage means. The output means outputs information on the operation command stored in the storage means based on the operation command received by the output reception means.

The portable transmission device for an optical line terminator according to claim 8 is the portable transmission device for an optical line terminator according to any one of claims 1 to 7 , wherein the accepting means includes the optical transmission device. Level adjustment amount setting receiving means for receiving an input of an adjustment amount for adjusting the output level of the electric signal in the line terminating device, and based on the adjustment amount received by the level adjustment amount setting receiving means, Level adjustment accepting means for accepting an input of an operation command for operating the optical line terminating device so as to adjust the output level, and the transmitting means receives the operation command accepted by the level adjustment accepting means. Sent to the optical network unit.

The portable transmission device for an optical line termination device according to claim 9 is the portable transmission device for an optical line termination device according to any one of claims 1 to 8 , wherein the accepting means is the optical transmission device. An address setting receiving unit that receives an input of an address for uniquely identifying a line terminating device, and an address received by the address setting receiving unit matches an address stored in the optical line terminating device, Address collation accepting means for accepting an input of an operation command for operating the optical line terminator so as to output information related to the optical line terminator to the outside, and the transmitting means is accepted by the address collation accepting means The received operation command is transmitted to the optical network unit.

The portable transmission device for an optical line terminator according to claim 10 is the portable transmission device for an optical line terminator according to any one of claims 1 to 9 , wherein the accepting means is the optical transmission device. An address setting receiving unit that receives an input of an address for uniquely identifying the line terminating device, and the optical setting so that the address stored in the optical line terminating device is changed to the address received by the address setting receiving unit. Address change receiving means for receiving an input of an operation command for operating the line termination device is provided, and the transmission means transmits the operation command received by the address change reception means to the optical line termination device.

According to the portable transmission device for an optical line termination device according to claim 1, since an operation command for operating the optical line termination device is transmitted to the optical line termination device, the operator can The optical line terminator can be operated at a position distant from the apparatus, and work related to the optical line terminator can be made more efficient.
In addition, since information for specifying the reception level of the optical signal detected by the optical line terminator is output to the outside from the optical line terminator, the operator can move the optical line at a position away from the optical line terminator. The reception level of the optical signal of the termination device can be confirmed.

According to the portable transmission device for an optical line termination device according to claim 2, an operation command for operating the optical line termination device is transmitted to the optical line termination device. The optical line terminator can be operated at a position distant from the apparatus, and work related to the optical line terminator can be made more efficient.
In addition, it is possible to easily confirm information regarding the optical line termination device at a position away from the optical line termination device.

According to the portable transmission device for an optical line termination device according to claim 3, information for specifying the reception level of the optical signal of the optical line termination device is received and output by the portable transmission device. It is possible to easily confirm the reception level of the optical signal of the optical line terminator at a position where the worker is away from the optical line terminator.

According to the portable transmission device for an optical line termination device according to claim 4, since the control state information of the optical line termination device is received and output by the portable transmission device, the operator can The control state of the optical line termination device can be confirmed at a remote location.

According to the portable transmission device for an optical line termination device according to claim 5, since the control history information of the optical line termination device is received and output by the portable transmission device, the operator can The control history of the optical line terminating device can be confirmed at a remote position.

According to the portable transmission device for an optical line termination device according to claim 6, since the address of the optical line termination device is received and output by the portable transmission device, the operator has left the optical line termination device. The address of the optical line termination device can be confirmed at the position.

According to the portable transmission device for the optical line termination device according to claim 7, since the information about the operation command accepted by the accepting unit is output, the operator receives the operation command accepted by the accepting unit. For example, when an error occurs in the portable transmission device or the optical line termination device, it becomes easier to specify the cause of the error.

According to the portable transmitter for the optical line termination device according to claim 8, the adjustment amount for adjusting the output level of the electric signal is transmitted to the optical line termination device, and the optical line is based on the adjustment amount. Since the output level of the electrical signal is adjusted in the termination device, the operator can easily adjust the output level of the electrical signal of the optical line termination device at a position away from the optical line termination device. It is possible to improve the efficiency of the reception level adjustment work.

According to the portable transmission device for an optical line termination device according to claim 9, when the address transmitted from the transmission means matches the address stored in the optical line termination device, the information about the optical line termination device Is output to the outside, so that even when a plurality of portable transmitters are arranged close to each other, it is possible to confirm information relating to a specific optical line terminator. The efficiency of the information confirmation work can be improved.

According to the portable transmission device for an optical line termination device according to claim 10, since the address stored in the optical line termination device is changed by the address transmitted from the transmission means, the operator can change the optical line termination device. It is possible to easily change the address stored in the optical line termination device at a position away from the station, and to efficiently change the address.

FIG. 1 is a diagram showing an overall configuration of the notification broadcasting system according to the first embodiment. It is a figure which shows the optical line termination | terminus apparatus which concerns on Embodiment 1, (a) is a front view, (b) is a bottom view, (c) is a side view. FIG. 3 is a block diagram functionally conceptually showing the electrical configuration of the optical line termination device shown in FIG. 2. 1 is an external view illustrating an external configuration of a portable transmission device according to Embodiment 1. FIG. FIG. 5 is a block diagram functionally conceptually showing the electrical configuration of the portable transmission device shown in FIG. 4. 3 is a flowchart illustrating a schematic example of display processing executed by the optical line termination device and the portable transmission device according to the first embodiment. FIG. 5 is a block diagram functionally conceptually showing an electrical configuration of an optical line termination device according to a second embodiment. It is the schematic which shows the detail of a switching part. 6 is an external view illustrating an external configuration of a portable transmission device according to Embodiment 2. FIG. FIG. 10 is a block diagram functionally conceptually showing the electrical configuration of the portable transmission device shown in FIG. 9. 10 is a flowchart of address display processing executed by the optical line termination device and the portable transmission device according to the second embodiment. 6 is a flowchart of display processing such as reception level executed by the optical line termination device and the portable transmission device according to the second embodiment. 6 is a flowchart of setting change processing executed by the optical line termination device and the portable transmission device according to the second embodiment. 10 is a flowchart of output processing executed by the portable transmission device according to the second embodiment.

  Embodiments of a portable transmission device for an optical line termination device according to the present invention will be described below in detail with reference to the accompanying drawings. However, the present invention is not limited by these embodiments.

[Embodiment 1]
First, the first embodiment will be described. In this form, the output means outputs information for specifying the reception level of the optical signal detected by the optical line terminating device.

(Constitution)
First, the configuration of the system according to each embodiment will be described. FIG. 1 is a diagram showing an overall configuration of the notification broadcasting system according to the first embodiment.

  As shown in FIG. 1, an announcement broadcasting system 1 includes an optical line termination device 10 disposed in each dwelling unit and a portable transmission for an optical line termination device that inputs and outputs information to and from the optical line termination device 10. An apparatus 200 is provided. Among these, the optical cable 2 drawn from the outside of the house is connected to the optical line terminator 10 installed on the outer wall of the house. The coaxial cable 3 drawn out from the optical line terminator 10 is connected to a digital TV 4 installed in the house.

(Configuration-optical line termination equipment)
First, the configuration of the optical line termination device 10 shown in FIG. 1 will be described. 2A and 2B are diagrams showing the optical line termination device 10 according to the first embodiment, where FIG. 2A is a front view, FIG. 2B is a bottom view, and FIG. 2C is a side view. In the following description, the X direction in FIG. 2 is the left-right direction, the Y direction in FIG. 2 is the up-down direction, and the Z direction in FIG. FIG. 3 is a block diagram functionally conceptually showing the electrical configuration of the optical line termination device 10 shown in FIG.

  The optical line termination device 10 includes a PD (Photo Diode) 30, an amplification unit 40, an output terminal 50, a transmission / reception unit 60, a display unit 70, and a control unit 80 shown in FIG. I have.

  The housing 20 is a structure of the optical line termination device 10 and is a protection unit that protects the PD 30, the amplification unit 40, the output terminal 50, the transmission / reception unit 60, the display unit 70, and the control unit 80 from the outside. As shown in FIG. 2, the housing 20 is configured to include a substantially box-shaped base portion 21 whose one side surface is open, and a cover portion 22 that substantially covers the base portion 21 from the open surface side. The cover portion 22 is pivotally supported with respect to the base portion 21 at a position near its upper end. In a state where the cover portion 22 is closed and the base portion 21 is substantially covered, a pair of lead-in ports 23 are formed at positions facing the base portion 21 and the cover portion 22, and the optical fiber ( (Not shown) can be drawn into the housing 20 or an optical fiber can be drawn from the inside of the housing 20 to the outside. In addition, a pair of terminal holes 24 are formed on the side of the lead-in port 23, and the output terminals 50 (for example, a TV signal output terminal and a coaxial connector) are connected to the housing 20 through the terminal holes 24. A signal cable (hereinafter, coaxial cable 3) can be connected to the output terminal 50.

  As shown in FIG. 3, the PD 30 is a photoelectric conversion unit that converts an optical signal transmitted from an optical transmitter (not shown) through an optical transmission path (not shown) into an electrical signal (hereinafter “RF signal”). is there. The PD 30 outputs the RF signal to the amplification unit 40 and the control unit 80.

  The amplifying unit 40 is an amplifying unit that amplifies the RF signal output from the PD 30. The amplifying unit 40 includes, for example, a known AGC (Automatic Gain Control) circuit and is controlled by the control unit 80.

  The output terminal 50 outputs the RF signal amplified by the amplification unit 40 to an external device (for example, a set top box) of the optical line termination device 10.

  The transmission / reception unit 60 is a receiving unit that receives an operation command (to be described later) from the portable transmission device 200, and transmits information for specifying the reception level of the optical signal detected by the optical line terminating device 10 to the portable transmission device. 200 is a transmission means for transmitting to 200. The transmission / reception unit 60 is configured using, for example, a light receiving unit and a light transmission unit for infrared communication (the same applies to a transmission / reception unit 210 of the portable transmission device 200 described later).

  The display unit 70 is a display unit that displays information based on control by the control unit 80. For example, an LED (Light Emitting Diode) can be used as the display unit 70. As shown in FIG. 2B, the display unit 70 is disposed on the lower surface of the housing 20 so as to be visible from the outside. In the present embodiment, as the display unit 70, an LED 71 ("PWR" in FIG. 2B) indicating ON / OFF of the power supply of the optical line termination device 10 and an LED 72 (FIG. It is assumed that “RF” in b)) and an LED 73 (“OPT” in FIG. 2B) indicating the reception state of the optical signal are provided.

  The control unit 80 is a control unit that controls each unit of the optical line termination device 10. Specifically, the control unit 80 is a CPU, various programs that are interpreted and executed on the CPU (a basic control program such as an OS, and the OS). And a computer configured to include an internal memory such as a RAM for storing programs and various types of data (including application programs that are activated to realize specific functions) (a control unit 260 of the portable transmission device 200 described later). The same).

  The control unit 80 includes a detection unit 81 in terms of functional concept. The detection unit 81 is detection means for detecting the reception level of the optical signal in the optical line terminating device 10. Details of processing executed by the control unit 80 will be described later.

(Configuration-portable transmitter)
Next, the configuration of the portable transmission device 200 shown in FIG. 1 will be described. FIG. 4 is an external view showing an external configuration of portable transmitting apparatus 200 according to Embodiment 1. FIG. 5 is a block diagram functionally conceptually showing the electrical configuration of the portable transmission device 200 shown in FIG.

  As shown in FIG. 4, the portable transmission device 200 is configured to include a palm-sized flat housing (main body). This casing includes a transmission / reception unit 210 at one end of the casing, and includes an operation unit 220 and a display unit 240 on the front side of the casing. As shown in FIG. 5, the portable transmission device 200 includes a transmission / reception unit 210, an operation unit 220, a display unit 240, a power supply unit 250, and a control unit 260 inside the casing.

  The operation unit 220 is a reception unit that receives an operation command for operating the optical line termination device 10 and is configured using, for example, a known push button type switch. Here, the operation command for operating the optical line terminator 10 is, for example, an optical line terminator so that information for specifying the reception level of the optical signal detected by the optical line terminator 10 is transmitted. Means an operation command for operating 10.

  The transmission / reception unit 210 is a transmission means for transmitting the operation command received by the operation unit 220 to the optical line termination device 10 and for specifying the reception level of the optical signal detected by the optical line termination device 10. It is a receiving means for receiving information.

  The display unit 240 is output means for displaying information received by the transmission / reception unit 210 and for specifying the reception level of the optical signal detected by the optical line terminating device 10. It is comprised using LED (Light Emitting Diode).

  The power supply unit 250 is a battery that supplies power to each unit of the portable transmission device 200, and is configured using, for example, a known dry battery or rechargeable battery.

  The control unit 260 is a control unit that controls each unit of the portable transmission device 200. Details of the processing executed by the control unit 260 will be described later.

(processing)
Next, processing executed by the optical network unit 10 and the portable transmission device 200 configured as described above will be described. FIG. 6 is a flowchart showing a schematic example of display processing executed by the optical network unit 10 and the portable transmission device 200 according to Embodiment 1 (in the following description of each processing, step is abbreviated as “S”). To do). This display process is a process of outputting information relating to the reception level of the optical signal detected by the optical network unit 10 to the display units 70 and 240. This display processing is automatically activated when, for example, the optical line termination device 10 and the portable transmission device 200 are turned on.

  When the display process is activated, the control unit 260 of the portable transmission device 200 issues an operation command for operating the optical line termination device 10 so as to transmit information for specifying the reception level of the optical signal. It is monitored whether or not the operation unit 220 has received (SA1).

  Here, when the operation unit 220 receives the above-described operation command by pressing down the operation unit 220 by the operator (SA1, Yes), the control unit 260 of the portable transmission device 200 instructs the above-described operation command. The signal is transmitted to the optical network unit 10 by the transmission / reception unit 210 (SA2).

  On the other hand, the control unit 80 of the optical network unit 10 monitors whether or not the transmission / reception unit 60 has received the command signal transmitted in SA2 (SB1). Here, when it is determined that the transmission / reception unit 60 has received the command signal transmitted at SA2 (SB1, Yes), the detection unit 81 of the optical network unit 10 is based on the RF signal converted by the PD 30. Then, the reception level of the optical signal in the optical line terminating device 10 is detected (SB2).

  Next, the control unit 80 of the optical network unit 10 causes the display unit 70 to display information for specifying the reception level of the optical signal detected at SB2 (SB3). As the display unit 70 for displaying information corresponding to the reception level of the optical signal, for example, an “OPT” LED 73 in FIG. 2B is used.

  The specific display form by the display unit 70 is arbitrary. For example, the control unit 80 of the optical network unit 10 may blink the “OPT” LED 73 at the number of times corresponding to the reception level of the optical signal. Good. Specifically, when the reception level is excessive enough to cause a video failure in the TV receiver (for example, when the reception level is −1 dBm or higher), the “OPT” LED 73 is set to a period twice the predetermined period. Blink 12 times and turn on. In addition, when the reception level is appropriate so that the video can be appropriately displayed on the TV receiver (for example, when the reception level is −20 dBm or more and less than −1 dBm), the reception level is −2 dBm or more and −1 dBm. If it is less than that, the “OPT” LED 73 blinks once and then lights up. Thereafter, when the reception level is -3 dBm or more and less than -2 dBm, the number of blinks is made every time the reception level decreases by 1 dBm, such that the “OPT” LED 73 blinks twice in a predetermined cycle and then lights up. The LED 73 of “OPT” is blinked a predetermined number of times at a predetermined cycle and then turned on. Further, when the reception level is too low (for example, when the reception level is less than −20 dBm) such that it is difficult to display an image on the TV receiver, the “OPT” LED 73 is turned off. As described above, the operator can confirm the reception level of the optical signal at a position away from the optical line terminating device 10 by blinking the “OPT” LED 73 at the number of times or the period corresponding to the reception level. .

  In the process of SA4, the “OPT” LED 73 is blinked. For example, the worker is at a position far away from the optical line terminator 10 or an obstacle that obstructs the worker's view around the optical line terminator 10. , The operator may not be able to confirm the blinking of the “OPT” LED 73. Even in such a case, the following processing is performed in the portable transmitter 200 and the optical network unit 10 so that the operator can confirm the reception level of the optical signal by the display unit 240 of the portable transmitter 200. First, the control unit 80 of the optical line terminating device 10 causes the transmission / reception unit 60 to transmit information related to the reception level of the optical signal detected in SB2 to the portable transmission device 200 (SB4).

  On the other hand, the control unit 260 of the portable transmission device 200 monitors whether or not the transmission / reception unit 210 has received information for specifying the reception level of the optical signal detected at SB2 from the optical line termination device 10 ( SA3).

  Here, when the transmission / reception unit 210 receives information for specifying the reception level of the optical signal detected at SB2 from the optical line termination device 10 (SA3, Yes), the control unit 260 of the portable transmission device 200 Then, information for specifying the reception level of the received optical signal is displayed on the display unit 240 (SA4). For example, the control unit 260 of the portable transmission device 200 causes the display unit 240 to blink or the like at a number or cycle corresponding to the reception level of the optical signal, similarly to the display form of the “OPT” LED 73 described above. As described above, the operator confirms the reception level of the optical signal at a position away from the optical line termination device 10 by blinking the display unit 240 of the portable transmission device 200 at the number of times or the period corresponding to the reception level. can do.

(effect)
As described above, according to the first embodiment, the transmission / reception unit 210 of the portable transmission device 200 obtains information for specifying the reception level of the optical signal detected by the optical line termination device 10 from the optical line termination device 10. Since the display unit 240 of the portable transmission device 200 receives and displays information for specifying the reception level of the optical signal received by the transmission / reception unit 210, the worker is away from the optical line termination device 10. The reception level of the optical signal can be confirmed, and the efficiency of checking the reception level of the optical signal can be improved.

[Embodiment 2]
Next, a second embodiment will be described. This form is a form in which a specific optical line terminator is caused to output information related to the optical line terminator to the output means, or the setting is changed. The configuration of the second embodiment is substantially the same as the configuration of the first embodiment, unless otherwise specified. The same configuration as that of the first embodiment is used in the first embodiment. The same reference numerals and / or names as those used are attached as necessary, and description thereof is omitted.

(Configuration-optical line termination equipment)
First, the configuration of the optical network unit 10 according to the second embodiment will be described. FIG. 7 is a block diagram functionally conceptually showing the electrical configuration of the optical network unit 10 according to the second embodiment. The optical line terminator 10 includes a PD 30, an amplifier 40, a switching unit 90, an ATT (Attenuator) 100, an output terminal 50, a transmission / reception unit 60, a display unit 70, and a control shown in FIG. Unit 80 and storage unit 110. The configurations of the PD 30, the amplification unit 40, the output terminal 50, and the transmission / reception unit 60 are the same as those of the PD 30, the amplification unit 40, the output terminal 50, and the transmission / reception unit 60 in the optical line termination device 10 according to the first embodiment. The description will be omitted except for specially noted parts.

  The switching unit 90 switches the broadcast band included in the electrical signal output to the ATT 100. FIG. 8 is a schematic diagram illustrating details of the switching unit 90. As shown in FIG. 8, the switching unit 90 includes a separator 91, amplifiers 92 a, 92 b, 93 a and 93 b, switches 94 and 95, and a mixer 96. The separator 91 is a distribution unit that distributes the RF signal amplified by the amplification unit 40 into an RF signal in the CATV band (70 to 770 MHz) and an RF signal in the BS / CS band (1000 to 2602 MHz). The separator 91 outputs an RF signal in the CATV band toward the amplifier 92a, and outputs an RF signal in the BS / CS band toward the amplifier 92b. The amplifiers 92a and 92b are preliminary amplification means for performing preliminary amplification of the output level of the RF signal distributed from the separator 91. The amplifier 93a is amplification means for performing amplification after preliminary amplification, and the amplifier 93b is amplification means for performing amplification after preliminary amplification. The switch 94 is a switching means for transmitting or not transmitting the output level of the RF signal amplified by the amplifier 93 a to the mixer 96 by opening and closing the connection between the amplifier 93 a and the mixer 96. The switch 95 is a switching unit that opens or closes the connection between the amplifier 93 b and the mixer 96 to transmit or not transmit the output level of the RF signal amplified by the amplifier 93 b to the mixer 96. The mixer 96 is a combining unit that combines the RF signals amplified by the amplifiers 93a and 93b.

  Returning to FIG. 7, the ATT 100 is an attenuation unit that attenuates the output level of the RF signal whose broadcasting band is switched by the switching unit by a certain amount of attenuation.

  The control unit 80 includes a detection unit 81, a level adjustment unit 82, and an address changing unit 83 in terms of functional concept. The level adjustment unit 82 is output level adjustment means for changing the setting of the ATT 100 in order to adjust the attenuation amount of the output level of the RF signal in the ATT 100. The address changing unit 83 is an address changing unit for changing an address stored in the storage unit 110 described later. Further, the control unit 80 can set the output bandwidth from the switching unit 90 to the ATT 100 by outputting a control signal to the switching unit 90. In addition, the control unit 80 transmits the output level of the RF signal output from the PD 30 and the output level of the RF signal output from the ATT 100 (RF signal output from the output terminal 50) to the portable transmission device 200. It has a function.

  The storage unit 110 is a storage unit that stores an address for uniquely identifying the optical line termination device 10, control history information (described later) executed by the optical line termination device 10, and the like. The storage unit 110 is configured using a rewritable recording medium, for example, a non-volatile recording medium such as a flash memory.

(Configuration-portable transmitter)
Next, the configuration of the portable transmission device 200 will be described. FIG. 9 is an external view showing an external configuration of portable transmitting apparatus 200 according to Embodiment 2. FIG. 10 is a block diagram functionally conceptually showing the electrical configuration of the portable transmitter 200 shown in FIG.

  As shown in FIG. 9, the portable transmission device 200 is configured to include a housing. The housing includes a transmission / reception unit 210 at one end of the housing, and includes an operation unit 220 and a display unit 240 on the front side of the housing. As shown in FIG. 10, the portable transmission device 200 includes a transmission / reception unit 210, an operation unit 220, a display unit 240, an information writing unit 270, a power supply unit 250, a control unit 260, and a storage unit inside the casing. 280. Note that the configurations of the transmission / reception unit 210, the power supply unit 250, and the control unit 260 are the same as those of the transmission / reception unit 210, the power supply unit 250, and the control unit 260 in the portable transmission device 200 of the first embodiment. Description is omitted except for.

  The operation unit 220 is a reception unit that receives an operation command for operating the optical line termination device 10. As shown in FIG. 9, the operation unit 220 includes an address setting switch 221, an address display button 222, an address verification button 223, an address change button 224, an ATT selection switch 225, an ATT switching button 226, a level selection switch 227, and a level confirmation. A button 228, a control state confirmation button 229, a control history confirmation button 230, and an operation command output button 231 are provided.

  The address setting switch 221 is an address setting receiving unit for setting the address stored in the optical line terminating device 10 for the portable transmission device 200. The address display button 222 is an operation for operating the optical line termination device 10 so that the optical line termination device 10 transmits the address stored in the optical line termination device 10 to the portable transmission device 200. Address transmission receiving means for receiving commands. The address verification button 223 transmits information for the optical network unit 10 to specify the reception level of the optical signal, information for specifying the output level of the RF signal, reception status information to be described later, or reception history information to be described later. As described above, the address verification accepting means accepts an operation command for operating the optical line termination device 10. The address change button 224 is for operating the optical line termination device 10 so that the optical line termination device 10 changes the address stored in the optical line termination device 10 to the address set by the address setting switch 221. Address change accepting means for accepting the operation command. The address setting switch 221, the address display button 222, and the address verification button 223 are configured using, for example, a known push button type switch.

  The ATT selection switch 225 is a level for setting an adjustment amount (for example, 0 dB or −15 dB) used for adjusting the output level of the RF signal converted by the optical line terminator 10 for the optical line terminator 10. It is an adjustment amount setting receiving means, and is configured using, for example, a known slide type switch. The ATT switching button 226 is an operation command for operating the optical line terminator 10 so that the optical line terminator 10 adjusts the output level of the RF signal based on the adjustment amount set by the ATT selection switch 225. Is a level adjustment accepting means that accepts the above, and is configured using, for example, a known push button type switch.

  The level selection switch 227 selects a level for selecting either information for specifying the output level of the RF signal from the optical line termination device 10 or information for specifying the reception level of the optical signal. For example, a known slide type switch or the like is used. The level confirmation button 228 displays information for specifying the output level of the RF signal selected by the optical line termination device 10 using the ATT selection switch 225 or information for specifying the reception level of the optical signal. 200 is a level transmission receiving means for receiving an operation command for operating the optical line terminating device 10 so as to transmit to 200, and is configured using, for example, a known push button type switch.

  The control state confirmation button 229 issues an operation command for operating the optical line termination device 10 so that the optical line termination device 10 transmits control state information regarding the current control state to the portable transmission device 200. Control state transmission reception means for receiving, for example, using a known push button type switch. In this control state information, for example, the optical line terminating device 10 outputs the RF signal in a state where the broadcast band in the RF signal is not limited (that is, in a state where CATV broadcasting and BS / CS broadcasting are performed). The optical line terminator 10 outputs the RF signal in a state where all the broadcast bands included in the information and the RF signal are limited (that is, the CATV broadcast and the BS / CS broadcast are stopped). The optical line terminator 10 is outputting the RF signal in a state where the CATV band is limited (ie, only the CATV broadcast is stopped) in the broadcast band in the RF signal. In the state where the BS / CS band of the broadcast band in the RF signal is limited (that is, only the BS / CS broadcast is stopped), Device 10 includes information indicating that the output of the RF signal.

  The control history confirmation button 230 is used to transmit the control history information related to the history of the control executed by the optical line termination device 10 to the portable transmission device 200. Control history transmission receiving means for receiving an operation command for operating the device 10, and is configured using, for example, a known push button type switch. The control history information includes, for example, information on the history of the control state for each day when the control state of the optical line termination device 10 described above is changed.

  The operation command output button 231 is an output receiving unit that receives an operation command for operating the portable transmission device 200 so that the portable transmission device 200 outputs information related to the operation command stored in the storage unit 280. For example, it is configured using a known push button type switch or the like. Information related to this operation command includes, for example, the address of the optical network unit 10 set by the address setting switch 221 (or the subscriber number set for the subscriber receiving the notification broadcast), the ATT selection switch, and the like. Information on adjustment amount for adjusting the output level of the RF signal set in 225, information indicating ON / OFF switching of the level confirmation button 228, the control state confirmation button 229, and the like are included. Although not shown, the operation unit 220 has an operation function for setting an output bandwidth from the switching unit 90 of the optical network unit 10 to the ATT 100.

  The display unit 240 includes an address display unit 241, a level display unit 242, a transmission display unit 243, and a reception display unit 244. The address display unit 241 is an address display means for displaying an address stored in the optical line termination device 10 received from the optical line termination device 10 or displaying an address set by the address setting switch 221. For example, a known 6-digit 7-segment LED is used. The level display unit 242 is level display means for displaying information for specifying the output level of the RF signal received from the optical line terminating device 10 or information for specifying the reception level of the optical signal. It is configured using a 7-digit LED of digits. The transmission display unit 243 is a transmission display unit that displays that the transmission / reception unit 210 has transmitted an operation command or the like from the portable transmission device 200. The reception display unit 244 is information for the transmission / reception unit 210 to specify the reception level of the optical signal from the optical line termination device 10, information for specifying the output level of the RF signal, reception status information to be described later, or reception to be described later. It is a reception display means for displaying the fact that history information has been received. The transmission display unit 243 or the reception display unit 244 is configured using, for example, one LED.

  The information writing unit 270 is an information writing unit that writes information stored in the storage unit 280 and information received from the optical network unit 10 to various recording media. The type of the recording medium on which the information writing unit 270 can perform writing is arbitrary, but for example, a portable recording medium such as a USB memory or an SD card is applicable. In addition, the display part 240 and the information writing part 270 comprise the output means in a claim.

  The storage unit 280 is a storage unit that stores information related to the operation command received by the operation unit 220. The storage unit 280 is configured using a rewritable recording medium (for example, a non-volatile recording medium such as a flash memory), and the rewritable recording medium has a known output format (for example, CSV format). Information related to the operation command received by the operation unit 220 is written.

(processing)
Next, processing executed by the optical network unit 10 or the portable transmission device 200 configured as described above will be described. This processing is roughly divided into address display processing, reception level display processing, setting change processing, and output processing.

(Processing-Address display processing)
First, address display processing will be described. FIG. 11 is a flowchart of address display processing executed by the optical network unit 10 and the portable transmitter 200 according to the second embodiment. This address display process is a process of displaying the address of the optical network unit 10 that is the target of the reception level display process and the setting change process before the reception level display process and the setting change process are executed. This address display process is activated when, for example, the optical line termination device 10 and the portable transmission device 200 are powered on. SC2, SC4, and SD1 are the same as SA2, SA3, and SB1 in FIG.

  When the address display process is activated, the control unit 260 of the portable transmission device 200 causes the optical line termination device 10 to transmit the address stored in the optical line termination device 10 to the portable transmission device 200. It is monitored whether or not the address display button 222 has received an operation command for operation (SC1).

  Further, after the processing of SC2, the control unit 260 of the portable transmission device 200 displays (for example, blinking) that the command signal is transmitted in SC2 by the transmission display unit 243 (SC3).

  In the processing of SD1, when it is determined that the transmission / reception unit 60 of the optical line termination device 10 has received the command signal transmitted in SC2 (SD1, Yes), the control unit 80 of the optical line termination device 10 The transmission / reception unit 60 transmits the address stored in the storage unit 110 to the portable transmission device 200 (SD2).

  In the process of SC4, when the transmission / reception unit 210 of the portable transmission device 200 receives an address transmitted from the optical line termination device 10 in SD2 (SC4, Yes), the control unit 260 of the portable transmission device 200 The reception display unit 244 displays (for example, blinking) that the address is received at SC4 (SC5). Next, the control unit 260 of the portable transmission device 200 causes the address display unit 241 to display the address received at SC4 (for example, when the address of the optical line termination device 10 is 121461, the address display unit 241 sets “121461”. (SC6). Thus, by displaying the address received from the optical line terminator 10 on the address display unit 241 of the portable transmission device 200, the operator can access the address of the optical line terminator 10 at a position away from the optical line terminator 10. Can be confirmed.

(Processing-Display processing such as reception level)
Next, reception level display processing will be described. FIG. 12 is a flowchart of reception level display processing executed by the optical network unit 10 and the portable transmitter 200 according to the second embodiment. This reception level display processing includes information for specifying the optical signal reception level of the optical network unit 10 having the address displayed on the address display unit 241, information for specifying the RF signal output level, and control. This is processing for displaying status information or control history information. This display process such as reception level is activated when the optical line termination device 10 and the portable transmission device 200 are powered on, for example. SE4, SE6, and SF1 are the same as SC3, SC5, and SD1 in FIG.

  As shown in FIG. 12, the control unit 260 of the portable transmission device 200 determines whether or not the address of the optical line termination device 10 that is the target of the address display processing has been input by the operator via the address setting switch 221. (Or, whether or not the address of the optical line terminating device 10 is displayed on the address display unit 241 of the portable transmission device 200 by the address display processing) is monitored (SE1).

  Here, when the address of the optical line termination device 10 is input by the operator via the address setting switch 221 (or the address display unit of the portable transmission device 200 displays the address of the optical line termination device 10 by the address display processing). 241) (SE1, Yes), the control unit 260 of the portable transmission device 200 displays the address set by the address setting switch 221 (or the address display of the portable transmission device 200 by the address display process). Information for specifying the reception level of the optical signal selected by the operator via the level selection switch 227 when the address stored in the optical line terminator 10 matches the address displayed on the unit 241). Alternatively, the optical line termination is transmitted so as to transmit information for specifying the output level of the RF signal. An operation command for operating the location 10, the level confirmation button 228 monitors whether it has received (SE2). Alternatively, the control unit 260 of the portable transmission device 200 monitors whether or not the control state confirmation button 229 has accepted an operation command for operating the optical line termination device 10 so as to transmit the control state information. (SE2). Alternatively, the control unit 260 of the portable transmission device 200 monitors whether the control history confirmation button 230 has received an operation command for operating the optical line termination device 10 so as to transmit the control history information. (SE2).

  Here, when the operation unit 220 is pushed down by the operator and the operation unit 220 receives the above-described operation command (SE2, Yes), the control unit 260 of the portable transmission device 200 uses the address setting switch 221. A signal including the set address, which is related to the above-described operation command, is transmitted to the optical network unit 10 by the transmission / reception unit 210 (SE3).

  In the processing of SF1, when it is determined that the transmission / reception unit 60 of the optical line termination device 10 has received the command signal transmitted in SE3 (SF1, Yes), the control unit 80 of the optical line termination device 10 It is determined whether the address set by the address setting switch 221 included in the command signal matches the address stored in the optical network unit 10 (SF2). As a result, when the address set by the address setting switch 221 and the address stored in the optical line terminator 10 do not match (SF2, No), the control unit 80 of the optical line terminator 10 ends this processing. To do.

  On the other hand, when the address set by the address setting switch 221 matches the address stored in the optical network unit 10 (SF2, Yes), the command signal received at SF1 is the reception level of the optical signal described above. Alternatively, when the signal is related to transmission of the output level of the RF signal, the detection unit 81 of the optical line termination device 10 detects the reception level of the optical signal based on the RF signal converted by the PD 30, Alternatively, the output level of the RF signal is detected (SF3). Then, the control unit 80 of the optical network unit 10 transmits the information for specifying the reception level of the optical signal detected in SF3 or the information for specifying the output level of the RF signal by the transmission / reception unit 60 for portable transmission. Transmission is performed to the apparatus 200 (SF4). Alternatively, when the command signal received in SF1 is a signal related to the transmission of the control state described above, the detection unit 81 of the optical line termination device 10 determines the optical line termination device based on the switching state of each switch. 10 current control states are specified (SF3), and control state information relating to the specified control state is transmitted to the portable transmission device 200 by the transmission / reception unit 60 (SF4). Alternatively, when the command signal received at SF1 is a signal related to the transmission of the control history described above, the control unit 80 of the optical line termination device 10 may include all or part of the control history stored in the storage unit 110. (For example, control history up to the last three months before the control history, etc.) is identified (SF3), and the control history information regarding all or part of the identified control history is transmitted by the transmission / reception unit 60 to the portable transmission device 200. (SF4).

  In addition, after the process of SE4, in the process of SE5, the transmission / reception unit 210 of the portable transmission device 200 receives information for specifying the reception level of the optical signal, information for specifying the output level of the RF signal, or the like. The control unit 260 of the portable transmission device 200 causes the level display unit 242 to display information for specifying the reception level of the optical signal or information for specifying the output level of the RF signal (for example, the optical signal When the reception level is −8.00 dBm, “−8.00” is displayed by the level display unit 242) (SE6). Alternatively, when the transmission / reception unit 210 of the portable transmission device 200 receives the control state information, the control unit 260 of the portable transmission device 200 displays the control state information on the level display unit 242 (SE7). This display is performed by causing the level display unit 242 to output predetermined display contents configured by combining characters and symbols that can be displayed on the 7-segment display. For example, when the broadcast band in the RF signal is not limited, “ALL” is displayed by the level display unit 242. Further, when all the broadcast bands in the RF signal are limited, “−−−−” is displayed by the level display unit 242. Further, when the CATV band is limited in the broadcast band in the RF signal, “CA” is displayed by the level display unit 242. When the BS / CS band is limited in the broadcast band in the RF signal, the level display unit 242 displays “BSCS”. Alternatively, when the transmission / reception unit 210 of the portable transmission device 200 receives the control history information, the control unit 260 of the portable transmission device 200 causes the information writing unit 270 to output the control history information to a predetermined recording medium ( For example, the transmission / reception unit 210 of the portable transmission device 200 is information corresponding to the control history information from the optical line termination device 10 together with the control history information, and the date when the control state of the optical line termination device 10 is changed. Control date information (for example, November 23, 2010) and control history information (for example, that all the broadcast bands in the RF signal have been restricted) are received. (They are output to a predetermined recording medium in association with each other) (SE7). As described above, the information indicating the reception level of the optical signal, the information specifying the output level of the RF signal, or the control state information is displayed on the level display unit 242 or the control history. By outputting the information to a predetermined recording medium by the information writing unit 270, the reception level of the optical signal and the output level of the RF signal in the optical line terminator 10 at a position where the operator is away from the optical line terminator 10 , Control state, or control history can be confirmed. Further, in this display processing, the setting state of the output bandwidth to the ATT 100 in the switching unit 90 is included in the control history information, like the reception level of the optical signal, and the level display unit of the optical line terminating device 10 The setting state of the output bandwidth is displayed by 242. In this display process, the portable transmission device 200 displays the output level of the RF signal output from the ATT 100 instead of the output level of the RF signal output from the PD 30 to the optical line termination device 10. A command signal may be transmitted, and the level display unit 242 may display the output level of the RF signal of the ATT 100 transmitted from the optical line terminating device 10 based on the command signal. Alternatively, both the output level of the RF signal output from the PD 30 and the output level of the RF signal of the ATT 100 may be displayed. In this case, for example, these two output levels are displayed in a predetermined order. You may make it display by the level display part 242 alternately. By displaying the output level of the RF signal of the ATT 100 in this way, it is possible to change the setting of the ATT 100 in a setting change process described later with reference to this output level.

(Processing-Setting change processing)
Next, the setting change process will be described. FIG. 13 is a flowchart of setting change processing executed by the optical network unit 10 and the portable transmitter 200 according to the second embodiment. This setting change process is a process for changing the address stored in the storage unit 110 of the optical line terminating device 10 and adjusting the output level of the RF signal. This setting change process is activated when, for example, the optical line termination device 10 and the portable transmission device 200 are turned on. SG1, SG3, SG4, and SH1-SH2 are the same as SE1, SE3, SE4, and SF1-SF2 in FIG.

  In the SG1 process, when the address of the optical line termination device 10 is input to the address setting switch 221 by the worker (SG1, Yes), the control unit 260 of the portable transmission device 200 stores the storage unit of the optical line termination device 10 An operation command for operating the optical network unit 10 to change the address stored in 110 to an address set by the operator via the address setting switch 221 (for example, this address is “567890”). The address change button 224 for accepting is monitored (SG2). Alternatively, the control unit 260 of the portable transmission device 200 determines the RF signal based on the adjustment amount (for example, −15 dB) of the output level of the RF signal selected by the operator via the ATT selection switch 225 by the operator. The ATT switching button 226 for accepting an operation command for operating the optical line terminating device 10 is monitored so as to adjust the output level of the optical line terminating device (SG2).

  Further, in the processing of SH2, when the address set by the address setting switch 221 matches the address stored in the optical line terminating device 10 (SH2, Yes), the command signal received in SH1 changes the address. The address change unit 83 of the optical network unit 10 changes the address stored in the storage unit 110 to the address set via the address setting switch 221 in SG2 (for example, The address stored in the storage unit 110 is changed from “121461” to “567890”) (SH3). Then, the control unit 80 of the optical line termination device 10 causes the transmission / reception unit 60 to transmit to the portable transmission device 200 that the address stored in the optical line termination device 10 has been changed in SH3 (SH4). Alternatively, when the command signal received at SH1 is a signal related to the adjustment of the output level of the RF signal, the level adjustment unit 82 of the optical line termination device 10 selects via the ATT selection switch 225 at SG2. The setting of the ATT 100 is changed based on the adjusted amount of the output level of the RF signal (for example, when the output level of the RF signal output from the ATT 100 is 95 dB, it is a value obtained by subtracting 15 dB from the output level of the RF signal. The setting of ATT 100 is changed so that it becomes 80 dB) (SH3). Then, the control unit 80 of the optical line termination device 10 causes the transmission / reception unit 60 to transmit to the portable transmission device 200 that the output level of the RF signal of the optical line termination device 10 has been adjusted in SH3 (SH4). ).

  Further, in SG5 processing, the transmission / reception unit 210 of the portable transmission device 200 changes the address stored in the optical line termination device 10 transmitted in SH4, or the output level of the RF signal of the optical line termination device 10 Is received (SG5, Yes), the control unit 260 of the portable transmission device 200 indicates that the address stored in the optical line terminating device 10 has been changed in SG5 or has been transmitted in SG5. The reception display unit 244 displays that the output level of the RF signal of the line terminating device 10 has been adjusted (for example, is lit) (SG6). As described above, the operation command received by the address change button 224 is transmitted to the specific optical line terminal device 10, or the operation command received by the ATT switching button 226 is transmitted to the optical line terminal device 10. Thus, the operator can easily change the address stored in the optical line terminator 10 at a position away from the optical line terminator 10, or the output level of the RF signal of the optical line terminator 10 Can be adjusted easily. Similarly to the adjustment of the output level of these RF signals, when the portable transmission device 200 receives an input of an operation command for setting the output bandwidth from the switching unit 90 of the optical line termination device 10 to the ATT 100, the control is performed. The unit 260 is a signal including the address set by the address setting switch 221, and causes the transmission / reception unit 210 to transmit a command signal related to the above-described operation command to the optical network unit 10. Then, when the address included in the command signal matches the address stored in the storage unit 110, the control unit 80 of the optical line termination device 10 increases the output bandwidth of the switching unit 90 based on the command signal. The signal indicating that the output bandwidth has been set is transmitted to the portable transmission device 200 by the transmission / reception unit 60. The control unit 260 of the portable transmission device 200 that has received this signal causes the reception display unit 244 to display that the output bandwidth has been set.

(Processing-Output processing)
Next, output processing will be described. FIG. 14 is a flowchart of output processing executed by the portable transmission device 200 according to the second embodiment. This output process is a process of outputting information related to an operation command received via the operation unit 220 in these processes after executing an address display process, a reception level display process, or a setting change process. This output process is started, for example, after the address display process, the reception level display process, or the setting change process is completed, or when the optical line termination device 10 and the portable transmission device 200 are turned on ( Hereinafter, a description will be given after address display processing).

  As illustrated in FIG. 14, the control unit 260 of the portable transmission device 200 includes information related to an operation command stored in the storage unit 280 (for example, information related to an operation command received by the operation unit 220 in the address display process). ) Is output to monitor whether or not the operation command output button 231 has received an operation command for operating the portable transmission device 200 (SI1).

  Here, when the operation command output button 231 receives an operation command for outputting information related to the operation command stored in the storage unit 280 of the portable transmission device 200 (SI1, Yes), the control unit 260 of the portable transmission device 200. Causes the information writing unit 270 to output information related to the operation command stored in the storage unit 280 based on the operation command received in SI1 to the storage medium (for example, the portable transmission device 200 has received the operation command) Information relating to the date (for example, December 2, 2010) and information relating to the operation command (for example, the address setting switch 221 being switched from OFF to ON) are correlated with each other and output to a predetermined recording medium) (SI2). In this manner, by outputting information related to the operation command stored in the storage unit 280 of the portable transmission device 200 based on the operation command received by the operation command output button 231, the operation unit 220 of the portable transmission device 200 is output. The accepted operation command can be confirmed after the fact.

(effect)
As described above, according to the second embodiment, the transmission / reception unit 210 of the portable transmission device 200 transmits the operation command received by the address display button 222 to the optical line termination device 10 and also transmits the operation command to the optical line termination device 10. The stored address is received, and the address display unit 241 of the portable transmission device 200 displays the address stored in the optical line termination device 10 received by the transmission / reception unit 210. The address stored in the optical line terminator 10 can be confirmed at a position away from the optical line terminator. For example, when an operation is performed on the optical line terminator 10 after setting the address with the portable transmission device 200, The operation for the line terminating device 10 can be performed reliably.

  In addition, the transmission / reception unit 210 of the portable transmission device 200 transmits an operation command received by the address verification button 223 to the optical line termination device 10 and stores an address that matches the address set by the address setting switch 221. The information for specifying the reception level of the optical signal detected by the optical line terminator 10 is received from the received optical line terminator 10, and the level display unit 242 of the portable transmission device 200 is Since the information for specifying the reception level of the received optical signal is displayed, the operator can check the reception level of the optical signal at a position away from the specific optical line terminating device 10. It is possible to improve the efficiency of checking the reception level.

  In addition, the transmission / reception unit 210 of the portable transmission device 200 receives control state information from the optical line termination device 10, and the level display unit 242 of the portable transmission device 200 displays the control state information received by the transmission / reception unit 210. Therefore, the operator can confirm the control state of the optical line termination device 10 at a position away from the optical line termination device 10.

  In addition, the transmission / reception unit 210 of the portable transmission device 200 receives control history information from the optical line termination device 10, and the information writing unit 270 of the portable transmission device 200 records the control history information received by the transmission / reception unit 210 in a predetermined record. Since the data is output to the medium, the operator can check the control history of the optical line terminator 10 at a position away from the optical line terminator 10. For example, the portable transmission device 200 or the optical line terminator 10 may have an error. When this occurs, it is easy to identify the cause of the error.

  In addition, the transmission / reception unit 210 of the portable transmission device 200 transmits the operation command received by the ATT switching button 226 to the optical line termination device 10, so that the worker is away from the optical line termination device 10. The output level of the RF signal of the optical line terminating device 10 can be easily adjusted, and the efficiency of checking the reception level of the optical signal can be further improved.

  Further, the transmission / reception unit 210 of the portable transmission device 200 transmits the operation command received by the address change button 224 to the optical line termination device 10, so that the worker is away from the optical line termination device 10. The address stored in the optical line termination device 10 can be easily changed, and the address changing operation can be performed efficiently.

  The information writing unit 270 of the portable transmission device 200 outputs information on the operation command stored in the storage unit 280 of the portable transmission device 200 based on the operation command received by the operation command output button 231. The operation command received by the operation unit 220 of the transmission device 200 can be confirmed afterwards. For example, when an error occurs in the portable transmission device 200 or the optical line termination device 10, the cause of the error is further specified. It becomes easy to do.

[Modifications to Embodiment]
Although the embodiments of the present invention have been described above, the specific configuration and means of the present invention can be arbitrarily modified and improved within the scope of the technical idea of each invention described in the claims. it can. Hereinafter, such a modification will be described.

(About problems to be solved and effects of the invention)
First, the problems to be solved by the invention and the effects of the invention are not limited to the above-described contents, and the present invention solves the problems not described above or has the effects not described above. There are also cases where only some of the described problems are solved or only some of the described effects are achieved.

(About transmission and reception of information between portable transmitter and optical network unit)
In the above embodiment, various information is transmitted from the portable transmission device 200 to the optical line termination device 10, and various information is transmitted from the optical line termination device 10 to the portable transmission device 200. However, it suffices that at least transmission from the portable transmission device 200 to the optical line termination device 10 can be performed, and the information reception function and output function in the portable transmission device 200 may be omitted. For example, by displaying information such as the reception level of the optical signal in the optical line terminator 10 on the display unit 70 of the optical line terminator 10, the worker can move the information away from the optical line terminator. Can be confirmed.

(About the display)
In the first embodiment, it has been described that the display unit 240 of the portable transmission device 200 is configured by using one LED. However, for example, the display unit 240 uses a 7-segment LED that performs one-digit 7-segment display. May be configured. As a method of displaying the information specifying the reception level of the optical signal by such a display unit 240, for example, when the reception level of the optical signal is −1.23 dBm, the display unit 240 displays “−” and “−”. 1. ”,“ 2 ”,“ 3 ”are displayed in order.

(Reception level display processing and setting change processing)
In the second embodiment, in the reception level display processing and setting change processing, when the address set by the address setting switch 221 matches the address stored in the optical line termination device 10, the optical line termination device 10. It has been described that information for specifying the reception level of the optical signal is transmitted from, or the address stored in the optical line termination device 10 is changed, but the present invention is not limited to this. For example, the optical line termination device 10 may be configured to transmit the information specifying the reception level of the optical signal described above without changing the address, or to change the address (that is, the reception level, etc.). The processing of SE1 and SF2 may be omitted in the display processing, and the processing of SG1 and SH2 may be omitted in the setting change processing).

(Reception level display processing)
In Embodiment 2, when the transmission / reception unit 210 of the portable transmission device 200 receives the control history information, the control unit 260 of the portable transmission device 200 uses the information writing unit 270 to transmit the control history information to a predetermined recording medium. However, for example, the control history information may be displayed on the level display unit 242. Specifically, when the transmission / reception unit 210 of the portable transmission device 200 receives control date information corresponding to the control history information together with the control history information from the optical line termination device 10, Based on this control date information, the control unit 260 calculates the number of days that have elapsed since the control state of the optical network unit 10 was changed. Then, the control unit 260 of the portable transmission device 200 uses the level display unit 242 to combine the numbers and dots indicating the number of days that have elapsed since the control state of the optical line termination device 10 has been changed, in order from the oldest number of elapsed days. After the display, the control state of the optical network unit 10 is sequentially displayed based on the control history information, and these displays are sequentially performed (for example, the state where all the broadcast bands in the RF signal are limited 80 days ago). If the CATV band of the broadcast band in the RF signal was restricted 30 days ago, and the BS / CS band of the broadcast band in the RF signal was restricted 5 days ago, The level display unit 242 displays “80.”, “----”, “30.”, “CA”, “5.”, “BSCS” in this order).
(Appendix)
The portable transmission device for an optical line termination device according to appendix 1 transmits information to an optical line termination device that receives an optical signal transmitted from an optical transmitter via an optical transmission line and converts the optical signal into an electrical signal. A portable transmission device for receiving an operation command for operating the optical line termination device, and transmitting the operation command received by the reception unit to the optical line termination device Transmitting means.
The portable transmission device for an optical line termination device according to appendix 2 is the portable transmission device for an optical line termination device according to appendix 1, wherein the operation command is the optical signal detected by the optical line termination device. This is a command for outputting information for specifying the reception level of the optical signal from the optical network unit to the outside.
The portable transmission device for an optical line termination device according to appendix 3 is the portable transmission device for an optical line termination device according to appendix 1 or 2, wherein the receiving means outputs the electrical signal in the optical line termination device. The level adjustment amount setting receiving unit that receives an input of an adjustment amount for adjusting the level, and the output level of the electrical signal is adjusted based on the adjustment amount received by the level adjustment amount setting receiving unit. Level adjustment accepting means for accepting an input of an operation command for operating the optical line terminator, and the transmitting means transmits the operation command accepted by the level adjustment accepting means to the optical line terminator. .
The portable transmission device for an optical line termination device according to appendix 4 is the portable transmission device for an optical line termination device according to any one of appendices 1 to 3, wherein the accepting unit includes the optical line termination device. An address setting receiving unit that receives an input of an address for uniquely identifying, and an optical line termination device that matches the address received by the address setting reception unit and the address stored in the optical line termination device Address collation accepting means for accepting an input of an operation command for operating the optical line termination device so that the information on the optical line terminator is output to the outside, and the transmission means receives the operation command accepted by the address collation accepting means Is transmitted to the optical network unit.
The portable transmission device for an optical line termination device according to appendix 5 is the portable transmission device for an optical line termination device according to any one of appendices 1 to 4, wherein the accepting means includes the optical line termination device. An address setting accepting unit that accepts an input of an address for uniquely identifying the optical line terminator so as to change the address stored in the optical line terminator to the address accepted by the address setting accepting unit. Address change acceptance means for accepting an input of an operation command for operation is provided, and the transmission means transmits the operation command accepted by the address change acceptance means to the optical line termination device.
The portable transmission device for an optical line termination device according to attachment 6 is the portable transmission device for an optical line termination device according to any one of attachments 1 to 5, wherein the optical line termination device is changed from the optical line termination device to the optical transmission line termination device. Receiving means for receiving information relating to the information, and output means for outputting information relating to the optical network unit received by the receiving means.
The portable transmission device for an optical line termination device according to appendix 7 is the portable transmission device for an optical line termination device according to appendix 6, wherein information relating to the optical line termination device is detected by the optical line termination device. This is information for specifying the reception level of the optical signal.
The portable transmission device for an optical line termination device according to appendix 8 is the portable transmission device for an optical line termination device according to appendix 6 or 7, wherein the information relating to the optical line termination device is controlled by the optical line termination device. It is control state information regarding the state.
The portable transmission device for an optical line termination device according to appendix 9 is the portable transmission device for an optical line termination device according to any one of appendixes 6 to 8, wherein the information relating to the optical line termination device includes the optical This is control history information related to the history of control executed by the line terminating device.
The portable transmission device for an optical line termination device according to appendix 10 is the portable transmission device for an optical line termination device according to any one of appendixes 6 to 9, wherein the information relating to the optical line termination device includes the optical This is an address stored in the optical line terminating device for uniquely identifying the line terminating device.
The portable transmission device for an optical line termination device according to attachment 11 relates to an operation command received by the reception means in the portable transmission device for an optical line termination device according to any one of additions 6 to 10. Output means for receiving an operation command for operating the portable transmission device so as to output information on the operation command stored in the storage device; The output means outputs information related to the operation command stored in the storage means based on the operation command received by the output reception means.
(Additional effects)
According to the portable transmission device for an optical line terminator described in appendix 1, an operation command for operating the optical line terminator is transmitted to the optical line terminator. The optical line terminator can be operated at a position away from the station, and the work related to the optical line terminator can be made more efficient.
According to the portable transmission device for an optical line terminator described in appendix 2, information for specifying the reception level of the optical signal detected by the optical line terminator is output from the optical line terminator to the outside. Therefore, the reception level of the optical signal of the optical line terminator can be confirmed at a position where the worker is away from the optical line terminator.
According to the portable transmission device for an optical line termination device according to appendix 3, an adjustment amount for adjusting the output level of the electrical signal is transmitted to the optical line termination device, and the optical line termination is performed based on the adjustment amount. Since the output level of the electrical signal is adjusted in the device, the operator can easily adjust the output level of the electrical signal of the optical line termination device at a position away from the optical line termination device. It is possible to improve the efficiency of the reception level adjustment work.
According to the portable transmission device for an optical line termination device described in appendix 4, when the address transmitted from the transmission unit matches the address stored in the optical line termination device, information about the optical line termination device is obtained. Since it is output to the outside, even when a plurality of portable transmission devices are arranged close to each other, information regarding a specific optical line termination device can be confirmed. The efficiency of the confirmation work can be improved.
According to the portable transmission device for an optical line terminator described in appendix 5, the address stored in the optical line terminator is changed by the address transmitted from the transmission means. The address stored in the optical line termination device can be easily changed at a remote location, and the address changing operation can be performed efficiently.
According to the portable transmission device for an optical line termination device according to appendix 6, since information related to the optical line termination device is received and output by the portable transmission device, the operator is away from the optical line termination device. Thus, it is possible to easily confirm information regarding the optical line termination device.
According to the portable transmission device for an optical line termination device according to appendix 7, information for specifying the reception level of the optical signal of the optical line termination device is received and output by the portable transmission device. It is possible to easily confirm the reception level of the optical signal of the optical line terminator at a position away from the optical line terminator.
According to the portable transmission device for an optical line termination device according to appendix 8, since the control state information of the optical line termination device is received and output by the portable transmission device, the operator leaves the optical line termination device. The control state of the optical line termination device can be confirmed at the position.
According to the portable transmission device for an optical line termination device described in appendix 9, since the control history information of the optical line termination device is received and output by the portable transmission device, the operator leaves the optical line termination device. The control history of the optical line terminating device can be confirmed at the selected position.
According to the portable transmission device for an optical line termination device according to appendix 10, since the address of the optical line termination device is received and output by the portable transmission device, the operator is away from the optical line termination device. Can confirm the address of the optical line terminating device.
According to the portable transmission device for an optical line termination device described in appendix 11, since the information related to the operation command received by the reception unit is output, the operator receives the operation command received by the reception unit. For example, when an error occurs in a portable transmission device or an optical line termination device, it becomes easier to identify the cause of the error.

1 Notification Broadcasting System 2 Optical Cable 3 Coaxial Cable 4 Digital TV
DESCRIPTION OF SYMBOLS 10 Optical line termination device 20 Case 21 Base part 22 Cover part 23 Lead-in port 24 Terminal hole 30 PD
40 Amplifier 50 Output terminal 60, 210 Transceiver 70, 240 Display 71, 72, 73 LED
80, 260 Control unit 81 Detection unit 82 Level adjustment unit 83 Address change unit 90 Switching unit 91 Separator 92a, 92b, 93a, 93b Amplifier 94, 95 Switch 96 Mixer 100 ATT
DESCRIPTION OF SYMBOLS 110,280 Memory | storage part 200 Portable transmitter 220 Operation part 221 Address setting switch 222 Address display button 223 Address collation button 224 Address change button 225 ATT selection switch 226 ATT selection button 227 Level selection switch 228 Level confirmation button 229 Control state confirmation button 230 Control history confirmation button 231 Operation command output button 241 Address display section 242 Level display section 243 Transmission display section 244 Reception display section 250 Power supply section 270 Information writing section

Claims (10)

A portable transmission device that wirelessly transmits information to an optical line termination device that receives an optical signal transmitted from an optical transmitter via an optical transmission path and converts the optical signal into an electrical signal,
Receiving means for receiving an input of an operation command for operating the optical line termination device;
A transmission unit that wirelessly transmits the operation command received by the reception unit to the optical network unit ;
The operation command includes a command for turning on or blinking display means provided in the optical line termination device according to the reception level of the optical signal detected by the optical line termination device.
A portable transmitter for an optical line terminator. A portable transmission device that wirelessly transmits information to an optical line termination device that receives an optical signal transmitted from an optical transmitter via an optical transmission path and converts the optical signal into an electrical signal,
Receiving means for receiving an input of an operation command for operating the optical line termination device;
Transmitting means for wirelessly transmitting the operation command received by the receiving means to the optical line termination device;
Receiving means for wirelessly receiving information on the optical line termination device from the optical line termination device;
Output means for outputting information on the optical line termination device received by the receiving means,
The output means includes
The optical line termination device identifies the optical signal reception level in the same manner that the information for identifying the optical signal reception level detected by the optical line termination device is output to the outside. To output information to the outside,
A portable transmitter for an optical line terminator. The information about the optical line termination device is information for specifying the reception level of the optical signal detected by the optical line termination device.
A portable transmission device for an optical line termination device according to claim 2. The information regarding the optical line termination device is control state information regarding a control state of the optical line termination device.
A portable transmission device for an optical line termination device according to any one of claims 2 and 3 . Information relating to the optical line terminator is control history information relating to a history of control executed by the optical line terminator.
A portable transmission device for an optical line termination device according to any one of claims 2 to 4 . The information related to the optical line termination device is an address stored in the optical line termination device to uniquely identify the optical line termination device.
A portable transmission device for an optical line termination device according to any one of claims 2 to 5. Storage means for storing information related to the operation command received by the receiving means;
The accepting means includes an output accepting means for accepting an input of an operation command for operating the portable transmission device so as to output information on the operation command stored in the storage means,
The output means outputs information on the operation command stored in the storage means based on the operation command received by the output reception means.
A portable transmission device for an optical line termination device according to any one of claims 2 to 6. The accepting means is
Level adjustment amount setting receiving means for receiving an input of an adjustment amount for adjusting the output level of the electrical signal in the optical line termination device;
Level adjustment acceptance means for accepting an input of an operation command for operating the optical line termination device so as to adjust the output level of the electrical signal based on the adjustment amount accepted by the level adjustment amount setting acceptance means. Prepared,
The transmitting unit transmits the operation command received by the level adjustment receiving unit to the optical line terminating device;
A portable transmission device for an optical line termination device according to any one of claims 1 to 7 . The accepting means is
Address setting receiving means for receiving an input of an address for uniquely identifying the optical line termination device;
When the address received by the address setting accepting unit matches the address stored in the optical line termination device, the optical line termination device is operated so that information related to the optical line termination device is output to the outside. Address verification receiving means for receiving an input of an operation command for
The transmitting unit transmits the operation command received by the address verification receiving unit to the optical line terminating device;
A portable transmission device for an optical line termination device according to any one of claims 1 to 8 . The accepting means is
Address setting receiving means for receiving an input of an address for uniquely identifying the optical line termination device;
Address change accepting means for accepting an input of an operation command for operating the optical line terminator so as to change the address stored in the optical line terminator to the address accepted by the address setting accepting means,
The transmitting unit transmits the operation command received by the address change receiving unit to the optical line terminating device;
A portable transmission device for an optical line termination device according to any one of claims 1 to 9.

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