JPH07264333A - Power source system monitoring method and system for optical subscriber network device - Google Patents

Abstract

PURPOSE:To improve maintenance operability by enabling a remote monitoring as to whether a power source system is abnormal or a device is fault or not, in a network side device. CONSTITUTION:A voltage monitoring part 34 monitors the voltage of a commercial power source via a signal line (a) and the voltage of a backup battery 32 via the signal line. When the commercial power source voltage lowers below a normal value, a commercial power source alarm signal is transmitted to a line termination part 12. When the backup battery voltage lowers below the normal value due to the discharge of the battery 32, a backup battery alarm signal is multiplexed to an incoming frame to the line termination part 12 and the signal is transmitted to an optical fiber transmission line 50 via an electrooptical converting part 13. When a voltage monitoring part 34 detects a power source abnormality at a non-communication time, an alarm signal is transmitted and a start request signal is transmitted to a signal line d. A start control part 22 starts a network termination part 10. The line termination part 12 transmits the alarm signal to the optical fiber transmission line 50.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply system monitoring method for an optical subscriber network device and a power supply system monitoring system for an optical subscriber network device, and more particularly to an optical subscriber network device installed in a subscriber's house. The present invention relates to a power supply system monitoring method and a power supply system monitoring method for an optical subscriber network device.

[0002]

2. Description of the Related Art FIG. 5 shows a system configuration of an optical subscriber network. The optical subscriber network system includes an optical subscriber network device 100, a home device 200, a commercial power supply 300, a network side device 400, and an optical fiber 50.

FIG. 6 shows the configuration of a conventional optical subscriber network device. The optical subscriber network device includes a network termination unit 10, an incoming / outgoing call activation control unit 20, and a power supply unit 3.
It consists of zero.

The network terminating unit 10 comprises a home appliance interface unit 11, a line terminating unit 12 and an electric / optical conversion unit 13. Home appliance interface section 11
Provides an interface for telephone, ISDN, etc. The line terminating unit 12 performs frame conversion, speed conversion, and code conversion for sending the information / signal from the home device interface unit 11 to the optical fiber transmission line 50. The electrical / optical conversion unit 13 performs electrical / optical conversion of the electrical signal from the line terminating unit 12, and transmits / receives the optical signal to / from the network side device 400 via the optical fiber 50.

Generally, a public communication line such as a telephone line and an ISDN line has a relatively low call rate, and the ratio of the time during which the line is communicating within a predetermined time is several percent or less. Therefore, in an optical subscriber network device that provides public communication services such as a telephone line and an ISDN line, the network terminating unit 10 which is a main circuit part is stopped during non-communication and the network is activated only during communication. The method is adopted. As a result, the average power consumption of the device can be reduced, and the backup battery capacity can be reduced (reference document: K. Kumozaki et al .: "
Functional structure of the fiber-optic passive do
uble star system, "IEICE Transactionon Communicati
ons, vol.E-75-B, No.9, pp.832-840, September 199
2.).

The incoming / outgoing call activation control unit 20 includes an outgoing call detection unit 2
1, an activation control unit 22 and an incoming call detection unit 23. Here, in the case of non-communication, it is assumed that the network termination unit 10 is stopped. If a call is made here, a call signal is sent from the home device 200 to the optical subscriber network device. Network termination unit 1 at this time
Since 0 is stopped, the calling signal is detected by the calling detection unit 21 of the incoming / outgoing call activation control unit 20. Call detection unit 21
When detecting the calling signal, transfers the calling detection signal to the activation control unit 22. Upon receiving the call detection signal, the activation control unit 22 sends an activation signal to the home device interface unit 11, the line termination unit 12, and the electrical / optical conversion unit 13 of the network termination unit 10, and the network termination unit 10 is activated.
Communication is started between the home device 200 and the network-side device 400. In terms of device implementation, the outgoing call detection unit 21 of the incoming / outgoing call activation control unit 20 can be configured as a part of the home device interface unit 11.

On the other hand, when there is an incoming call during non-communication, the network side device 400 to the optical subscriber network device 10
An incoming signal is sent to 0. At this time, since the network termination unit 10 is stopped, the incoming call signal is detected by the incoming call detection unit 23 of the outgoing / incoming call activation control unit 20. Incoming call detection unit 2
When 3 receives the incoming call signal, it transfers the incoming call detection signal to the activation control unit 22. Thereafter, as in the case of making a call, the network terminating unit 10 is activated, and communication is started between the home device 200 and the network side device 400. The incoming call detection unit 2
3 may be configured as a part of the electric / optical conversion unit 13 in terms of realizing the device.

The power supply section 30 comprises an AC / DC conversion section 31, a backup battery 32 and a DC / DC conversion section 33. The AC / DC converter 31 uses the commercial power source 300.
AC / DC conversion of the commercial AC power source (AC100V) from the above is output to the DC / DC conversion unit 33, and at the same time, the backup battery 32 is charged. DC / D
The C converter 33 converts the input DC voltage into a required voltage,
Power is supplied to each unit of the optical subscriber network device 100. When the commercial power supply 300 is cut off due to a power failure or the like, the backup battery 32 to the DC / DC converter 3
Power is supplied to 3.

[0009]

However, in the conventional optical subscriber network device described above, the network side device cannot recognize that the commercial power supply is cut off due to a power failure or the like and the battery is operated by the backup battery. Further, when the backup battery is operating, the backup battery is discharged with the lapse of time, power supply to the optical subscriber network device is stopped, and the optical subscriber network device stops operating. In such a case, in the network side device, the commercial power supply may be cut off due to a power failure or the like due to a failure of the optical subscriber network device, and after the backup battery is operated, the backup battery is discharged to operate the optical subscriber network device. There is a problem that it is not possible to identify whether or not it has stopped.

Further, when the commercial power supply is cut off or the backup battery is discharged during non-communication,
Since the optical subscriber network device is in a stopped state, there is also a problem that the network side device cannot recognize the abnormality of these power supply systems.

As described above, in the conventional optical subscriber network device, the abnormality of the power supply system such as the commercial power supply cutoff and the backup battery discharge cannot be directly monitored from the network side, and there is a problem in maintenance and operation.

The present invention has been made in view of the above-mentioned problems, and solves the above-mentioned conventional problems, and enables remote monitoring of whether the power supply system is abnormal or the device is broken in the network side device. It is an object of the present invention to provide a power supply system monitoring method for an optical subscriber network device capable of improving maintenance operability.

[0013]

A power supply system monitoring method for an optical subscriber network device according to the present invention is a network terminating unit 1 for terminating an optical subscriber line and providing a home appliance interface.
0, an outgoing / incoming call activation control unit 20 that controls activation of the network terminating unit in response to an outgoing call and an incoming call, and a required power is supplied to the network terminating unit 10 and the incoming / outgoing call activation control unit 20 using a commercial power source as an input. When the commercial power supply fails, the optical subscriber network device 10 including the power supply unit 30 that supplies power by the backup battery 32
0, if the commercial power supply voltage or the backup battery voltage is lower than a predetermined value when the power is supplied from the commercial power supply 300 or the backup battery 32, and if the network termination unit 10 is communicating, the voltage The network termination unit 10
If the network terminating unit 10 is not communicating, the originating / incoming call activation control unit 20 is activated and the network terminating unit 10 is notified of the voltage drop.
The network side device 400 is notified via the.

Further, according to the present invention, the network terminating unit 10 for terminating the optical subscriber line and providing an in-home equipment interface.
And an incoming / outgoing call activation control unit 20 for controlling activation of the network termination unit 10 in response to an outgoing call and an incoming call, and a commercial power source as an input to supply required power to the network termination unit and the incoming / outgoing call activation control unit 20 and to commercialize When the power source fails, the optical subscriber network device 100 configured by the power source unit 30 that supplies power by the backup battery monitors the voltage of the commercial power source 300, and if the voltage drops below a specified value, terminates the network. A commercial power source alarm sending means for sending a commercial power source alarm signal to the unit 10, and a backup battery sending unit for monitoring the voltage of the backup battery and sending a backup battery alarm signal to the network terminal unit 10 when the voltage drops below a specified value. And a commercial power source alarm signal and a bar signal from the power source unit 30. And a network termination unit 10 for transferring the click-up battery alarm signal to the network side device 400.

Further, the power supply unit 30 is
The voltage of the commercial power source 300 is monitored, and when the voltage drops below a specified value, a signal sending means for sending a start request signal to the outgoing / incoming call start control unit 20 and sending a commercial power source alarm signal to the network termination unit 10. The voltage of the backup battery is monitored, and when the voltage drops below a specified value, a start request signal is sent to the incoming / outgoing call start control unit 20 and a backup battery alarm signal is sent to the network termination unit 10.

[0016]

According to the present invention, in the optical subscriber network device, the voltages of the commercial power source and the backup battery are monitored, and when the voltage drops below the specified value, the commercial power source alarm signal and the backup battery alarm signal are sent to the network side device. Thus, the network side device can grasp the state of the optical subscriber network device by receiving these signals.

Further, in the non-communication period, when the voltage of the commercial power source or the backup battery drops to a voltage lower than a specified value, the optical subscriber network device is autonomously activated to activate the commercial power source alarm signal and the backup battery alarm. By sending a signal to the network side device, it becomes possible to directly monitor from the network side the abnormality of the power supply system such as the commercial power supply cutoff and the backup battery discharge, and the maintenance operability is improved.

[0018]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of an optical subscriber network device according to an embodiment of the present invention. 5, those parts which are the same as those corresponding parts in FIG. 5 are designated by the same reference numerals, and a description thereof will be omitted. The system shown in FIG. 1 has a configuration in which a voltage monitoring unit 34 and signal lines a, b, c, d are added to the configuration of the power supply unit 30 of FIG. The signal line a sends voltage information from the commercial power supply 300 to the voltage monitoring unit 34. The signal line b is the backup battery 3
The voltage information from 2 is sent to the voltage monitoring unit 34. Signal line c
Is a signal line for sending an alarm signal from the activation control unit 22 of the outgoing / incoming call activation control unit 20 to the home device interface unit 11 of the network termination unit 10. The signal line d is a signal line sent from the voltage monitoring unit 34 of the power supply unit 30 to the activation control unit 22.

The voltage monitoring section 34 monitors the voltage of the commercial power source 300 via the signal line a and the voltage of the backup battery 32 via the signal line b. If the commercial power supply voltage drops below the specified value due to a power failure, etc., the signal line c
A commercial power source alarm signal is sent to the line terminating unit 12 via the. When the backup battery voltage drops to a voltage equal to or lower than the specified value due to the discharge of the backup battery 32 with the lapse of time, the optical subscriber network device 100 is notified via the signal line c that the optical subscriber network device 100 will soon stop. And outputs a backup battery alarm signal to the line terminating unit 12. The line terminating unit 12 is the voltage monitoring unit 3
The commercial power source alarm signal and the backup battery alarm signal from 4 are multiplexed in the upstream frame, and the electric / optical conversion unit 13
It is sent to the optical fiber transmission line 50 via.

Upon receiving the commercial power source alarm signal, the network side recognizes that an abnormality has occurred in the commercial power source and that the optical subscriber network device 100 is operating on the backup battery. If the abnormality of the commercial power supply does not recover, it is assumed that communication will be interrupted after the backup time of the backup battery 32 elapses, and thus preventive maintenance measures can be taken.

Further, by receiving the backup battery alarm signal on the network side, it is possible to know that the backup battery is being discharged and the optical subscriber network device 100 will soon stop. Therefore, if communication is interrupted after the backup battery alarm signal is received, the network-side maintenance person can recognize that communication is possible when the commercial power source is restored and not when the device fails.

Next, the operation during non-communication will be described. During non-communication, the network termination unit 10
Since the power supply system is abnormal, even if the commercial power source alarm signal or the backup battery alarm signal is transferred from the voltage monitoring unit 34 to the line terminating unit 12 via the signal line c due to an abnormality in the power supply system, these signals are not transmitted to the network side. Not sent to device 400.
Therefore, it is necessary to autonomously activate the network termination unit 10 when an abnormality in the power supply system is detected during non-communication.

In FIG. 1, when the voltage monitoring unit 34 detects a power supply abnormality of the commercial power supply 300 or the backup battery 32, a commercial power supply alarm signal is sent to the signal line c, or
The backup battery alarm signal is transmitted, and the activation request signal is transmitted to the signal line d. Upon receiving the activation request signal from the voltage monitoring unit 34, the activation control unit 22 receives the network termination unit 1 as in the case of making an outgoing call or an incoming call.
The activation signal is sent to the home appliance interface unit 11, the line termination unit 12, and the electrical / optical conversion unit 13 of 0 to activate the network termination unit 10. After the network terminating unit 10 is activated, the line terminating unit 12 multiplexes the commercial power source alarm signal and the backup battery alarm signal from the voltage monitoring unit 34 into an upstream frame, and transmits the multiplexed signal to the optical fiber transmission line 50 via the electric / optical conversion unit 13. Send out.

FIG. 2 shows a voltage monitoring unit 3 according to an embodiment of the present invention.
4 is a block diagram showing the configuration of FIG. The voltage monitoring unit 34 shown in the figure includes a commercial power supply voltage comparison unit 341, a backup battery voltage comparison unit 342, a communication / non-communication determination unit 343,
The alarm signal generation unit 345 and the activation signal generation unit 346 are included.

Here, during communication, when the voltage value V _a from the commercial power supply 300 is input to the commercial power supply voltage comparison section 341 from the signal line a, the commercial power supply voltage comparison section 341 causes the commercial power supply voltage comparison section 341 to have a predetermined commercial power supply voltage value. compared to V _amin, it determines whether the voltage value V _a that is input is lower than a predetermined utility voltage value V _amin. In the communication / non-communication determination unit 343, it is determined whether or not the communication state is established, and when the communication state is established and the input voltage value V _a is lower than the predetermined commercial power supply voltage value V _amin ,
The alarm signal generation unit 345 generates an alarm signal of commercial power and sends it to the line terminating unit 12 via the signal line c.

Further, when the voltage value V _b from the backup battery 32 is input to the backup battery voltage comparison unit 342 from the signal line b, the backup voltage comparison unit 34.
2 compares with a predetermined backup battery voltage value to determine whether the input voltage value _Vb is lower than a predetermined backup battery voltage value _Vbmin . In the communication / non-communication determination unit 343, the voltage value V of the backup battery
When it is lower than _bmin , the alarm signal generation unit 345 generates an alarm signal of the backup battery and sends it to the line terminal unit 12 via the signal line c.

At the time of non-communication, the commercial power source 300 is supplied from the signal line a.
When the voltage value V _a from V is input to the commercial power supply voltage comparison unit 341, the commercial power supply voltage comparison unit 341 compares it with the predetermined commercial power supply voltage value V _amin, and the input voltage value V _a is the predetermined commercial power supply voltage. It is determined whether it is lower than the power supply voltage value V _amin . The communication / non-communication determination unit 343 determines whether or not it is in the non-communication state, and is in the non-communication state, and the input voltage value V _a
Is lower than the predetermined commercial power supply voltage value V _amin , the activation signal generation unit 346 generates an activation signal for activating the activation control unit 22 of the incoming / outgoing call activation control unit 20, and the signal is supplied via the signal line d. It is sent to the activation control unit 22. As a result, the activation control unit 22 causes the home device interface unit 1 to
1, activates the line terminating unit 12 and the electric / optical conversion unit 13, and notifies the network side device of the abnormal state of the commercial power supply 300.

When the voltage value of the backup battery 32 is input to the backup battery voltage comparison unit 342 from the signal line b, the backup battery comparison unit 342 will
With a predetermined backup battery voltage value V _bmin, it determines whether the voltage value V _b input is lower than the predetermined backup battery voltage value V _bmin. In the communication / non-communication determination unit 343, it is determined whether or not it is in the non-communication state,
In the non-communication state, when the input voltage value V _b is lower than the predetermined backup battery voltage value V _bmin , the activation signal generation unit 346 activates the activation control unit 22 of the incoming and _outgoing call activation control unit 20. Is generated and sent to the start control unit 22 via the signal line d. As a result, the activation control unit 22 causes the home device interface unit 1 to
1, activates the line terminating unit 12 and the electric / optical conversion unit 13, and notifies the network side device of the abnormal state of the backup battery 32.

Further, according to the present invention, as described above, from the signal line b,
In the optical subscriber network device, the voltages of the commercial power source 300 and the backup battery 32 are monitored, and when the voltage drops below a predetermined value, the commercial power source alarm signal and the backup battery alarm signal are sent out, and the commercial power source is shut down and the backup battery is discharged. The abnormality of the power supply system of the discharge can be directly recognized by the net side device 400.

Further, the optical subscriber network device 1 is provided when an abnormality occurs in the power supply system so that an alarm signal can be sent even during non-communication when the optical subscriber network device is stopped.
00, and a commercial power source alarm signal and a backup battery alarm signal can be sent.

Further, the power supply section 30 is not limited to the configuration of the above-mentioned embodiment, and may be any configuration that operates as follows.

FIG. 3 is a flow chart showing the operation of the power supply unit according to the embodiment of the present invention.

The power currently supplied to the power supply unit 30 is
Is backup supplied from commercial power supply 300?
It is determined whether the battery 32 is supplying power (step
1) If the power is supplied from the commercial power source 300,
Power supply voltage V_aIs a predetermined value V _aminBelow (V_a≤V_amin)
If yes (step 2, Yes), commercial power supply alarm
Generate a signal (step 3). At this time, the network
If the terminal unit 10 is not in communication (step
4) Generate a start request signal and send / receive the start request signal
It is transmitted to the call activation unit 20 (step 5). Net
If the work termination unit 10 is in communication, step 5
The process of is skipped. Commercial power generated in step 3
Source alarm signal to the network termination unit 10 (step
Up 6).

On the other hand, in step 1, the power supply unit 30
The supplied power is from the backup battery 32
In some cases, backup battery voltage V_bIs predetermined
Value V _bminIf it is (V_b≤V_bmin) To (step
7), generate backup battery alarm signal
(Step 8). At this time, the network termination unit 1
If 0 is not in communication (step 9), start is required.
A request signal is generated, and the activation request signal is issued by the incoming / outgoing call activation unit 20.
To (step 10). Network termination
When the unit 10 is in the communication state, the process of step 10 is
skip. The backup backup created in step 8
A battery alarm signal to the network terminal 10.
(Step 11).

FIG. 4 shows a power supply system failure in one embodiment of the present invention.
An example of the operation will be shown. In the figure, V _anonIs a commercial power source
Quasi-voltage value, V_aminIs the minimum reference voltage of commercial power supply, V_bnomIs
Backup battery standard voltage value, V_bminIs back up
This is the minimum reference voltage value of the battery. In the figure, commercial
Power supply voltage V_aIs the minimum reference value V_aminWhen it becomes lower q
, A commercial power supply alarm is output,
Switch to up battery (r). At time s,
Backup battery power supply voltage V_bHas a backup
Minimum reference voltage value V_bminIf it becomes lower,
A backup battery alarm is output. After this until recovery
The device is in a stopped state for time t. Quotient at time u '
After the power supply for the equipment is restored, the device will be switched to the commercial power source.
Perform more normal operation. In addition, the backup battery
It was consumed for the time t, but commercial power supply became normal from time u.
Backup battery voltage V_bIs the standard
Return to voltage value.

As described above, when the voltage of the commercial power supply drops, it is possible to notify the network side device 400 via the network terminating unit 10 that an abnormality has occurred in the commercial power supply. When the voltage of the battery drops, it is similarly determined that the backup battery has an abnormality via the network terminating unit 10 through the network device 4.
00 can be notified. Further, even if the optical subscriber network device 100 is not in communication, after the incoming / outgoing call activation control unit 20 is activated when the voltage of the commercial power source or the voltage of the backup battery is reduced, the power source abnormality is detected as the network side device 400.
Can be notified to the device on the network side so that the cause of the abnormality can be grasped.

[0038]

As described above, according to the present invention, in the device on the network side, when the optical subscriber network device is in a stopped state, it is possible to determine whether the commercial power supply is abnormal or the device is malfunctioning. By enabling remote monitoring, preventive maintenance measures can be taken and maintenance operability can be improved.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an optical subscriber network device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a voltage monitoring unit according to an embodiment of the present invention.

FIG. 3 is a flowchart showing the operation of the power supply unit according to the embodiment of the present invention.

FIG. 4 is a diagram showing an example of a power supply system failure operation of the position embodiment of the present invention.

FIG. 5 is a configuration diagram of an optical subscriber network system.

FIG. 6 is a configuration diagram of a conventional optical subscriber network device.

[Explanation of symbols]

 10 Network Termination Unit 11 Home Equipment Interface Unit 12 Line Termination Unit 13 Electrical / Optical Conversion Unit 20 Originating / Incoming Call Activation Control Unit 21 Originating Call Detection Unit 22 Activation Control Unit 23 Incoming Call Detection Unit 30 Power Supply Unit 31 AC / DC Conversion Unit 32 Backup Battery 33 DC / DC converter 34 Power supply monitor 50 Optical fiber 100 Optical subscriber network device 200 Home equipment 300 Commercial power supply 400 Network side device

Claims (3)

[Claims] 1. A network terminating unit for terminating an optical subscriber line and providing an in-home device interface, an outgoing / incoming call activation control unit for controlling activation of the network terminating unit in response to an outgoing call and an incoming call, and a commercial power source. In the optical subscriber network device, which is composed of a power supply unit that supplies required power to the network terminating unit and the incoming / outgoing call activation control unit as an input and supplies power by a backup battery when the commercial power supply fails, the commercial power supply or When power is supplied from the backup battery, the commercial power supply voltage or the backup battery voltage is lower than a predetermined value, and if the network termination unit is communicating, a notification that the voltage is low is sent to the network. Notify the network side device via the terminating unit, and if the network terminating unit is not in communication, then the originating or terminating call origination Start control unit, power supply system monitoring method of notification that the voltage has dropped optical subscriber network system and notifies the network side device via the network termination unit. 2. A network terminating unit for terminating an optical subscriber line and providing an in-home device interface, an outgoing / incoming call activation control unit for activating activation of the network terminating unit in response to an outgoing call and an incoming call, and a commercial power source. In the optical subscriber network device, which is an input, supplies required power to the network terminating unit and the incoming / outgoing call activation control unit and supplies power by a backup battery when the commercial power source fails Voltage of the backup battery is monitored and the voltage of the backup battery is monitored and the voltage of the backup battery is lowered to a voltage lower than the specified value. In this case, a backup battery sending means for sending a backup battery alarm signal to the network termination unit is provided. That a power supply unit, the power system monitoring system of an optical subscriber network system which comprises a network termination unit for a power alarm signal and said backup battery alarm signal quotient transferred to the network side device from the power supply unit. 3. The power supply unit monitors the voltage of the commercial power supply during non-communication, and when the voltage falls below a specified value, sends a start request signal to the originating and terminating call start control unit and the network. A signal sending means for sending a commercial power source alarm signal to a terminating section, and monitoring the voltage of the backup battery, and when the voltage drops below a specified value, sends a start request signal to the incoming and outgoing call start control section and the network. 2. The power supply system monitoring system for an optical subscriber network device according to claim 1, wherein a backup battery alarm signal is sent to the terminating unit.