JP2010161566A - Device for terminating optical subscriber line, and station-side apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To store a frame in a frame buffer, even if the frame is received in a situation where the supply of power to the frame buffer is stopped. <P>SOLUTION: When a down frame is received by a down-frame detecting part 13, the supply of power is started by providing a power control part 19 for starting the supply of power to a down buffer control part 27 and a down frame buffer 28; and the down buffer control part 27 reads the down frame from a small-capacity buffer 14, when the down frame buffer 28 is brought into a usable state, and stores the down frame in the down frame buffer 28. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical subscriber line terminator (ONU) in which power saving is achieved and a station side device (OLT: Optical line terminal) applied to the optical subscriber line terminator. Is.

For example, in an optical subscriber line terminating device disclosed in the following Patent Document 1, a power saving method as described below is adopted.
If the communication status detection unit detects the communication status with the subscriber side device or the station side device, and the detection result indicates that the communication is not performed, the power supply control unit can detect an internal circuit (for example, a PON processing unit, The power supply to the optical interface unit) is stopped.

JP 2007-89027 A (paragraph numbers [0030] to [0047], FIG. 3)

  Since the conventional optical subscriber line terminator is configured as described above, power can be saved by stopping the supply of power to the internal circuit. However, when the supply of power to the internal circuit is stopped, for example, when a frame transmitted from the station side device is received, the frame buffer can be used even if the supply of power to the frame buffer is started. Since it takes a considerable amount of time to reach a proper state, there is a problem that the frame is discarded without being stored in the frame buffer.

The present invention has been made to solve the above-described problems, and even when a frame is received in a state where power supply to the frame buffer is stopped, the frame can be stored in the frame buffer. An object is to obtain an optical subscriber line terminating device.
In addition, the present invention provides an optical subscriber line terminating device capable of improving power saving and a station side device capable of enhancing utilization efficiency of an upstream band used by the optical subscriber line terminating device. With the goal.

  An optical subscriber line terminating apparatus according to the present invention is provided with a downlink temporary buffer for temporarily storing a downlink frame received by a downlink frame receiving means, and power being not supplied to the downlink buffer control means and the downlink frame buffer. When the downlink frame is received by the downlink frame receiving means, power supply to the downlink buffer control means and the downlink frame buffer is started, while the downlink frame has not been received by the downlink frame receiving means for a predetermined time and When a downlink frame is not stored in the frame buffer, a downlink buffer control means and a power supply means for stopping the supply of power to the downlink frame buffer are provided, the supply of power from the power supply means is started, and the downlink frame buffer When it becomes available, the downlink buffer control means When reading the downstream frame from the buffer, in which so as to store the downlink frame to the downstream frame buffer.

  According to the present invention, a downlink temporary buffer for temporarily storing a downlink frame received by the downlink frame receiving means, and a downlink frame receiving means in a situation where power is not supplied to the downlink buffer control means and the downlink frame buffer. When the downstream frame is received by the mobile station, power supply to the downstream buffer control means and the downstream frame buffer is started, while the downstream frame receiving means has not received the downstream frame for a predetermined time and the downstream frame is not received by the downstream frame buffer. If not stored, a downlink buffer control means and a power supply means for stopping the supply of power to the downlink frame buffer are provided, and when the supply of power from the power supply means is started and the downlink frame buffer becomes available The down buffer control means Since the frame is read and the downlink frame is stored in the downlink frame buffer, the downlink frame transmitted from the station side device is received under the situation where the power supply to the downlink frame buffer is stopped. However, there is an effect that the downstream frame can be stored in the downstream frame buffer.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram which shows the GE-PON system which the optical subscriber line termination | terminus apparatus by Embodiment 1 of this invention applies. It is a flowchart which shows the processing content of the optical subscriber line termination | terminus apparatus by Embodiment 1 of this invention. It is a block diagram which shows the GE-PON system which the optical subscriber line termination | terminus device and station side apparatus by Embodiment 2 of this invention apply. It is explanatory drawing which shows the allocation process of the upstream band by the station side apparatus.

Embodiment 1 FIG.
FIG. 1 is a configuration diagram showing a GE-PON (Gigabit Ethernet-Passive Optical Network) system applied by an optical subscriber line terminating apparatus according to Embodiment 1 of the present invention. However, Ethernet is a registered trademark.
In FIG. 1, the subscriber apparatus 1 corresponds to a terminal such as a personal computer, an IP phone, or a home gateway used by a user.
The station-side device 2 is a termination device installed on the side of the central office of a communication carrier through a communication network using optical fibers 4.
The optical subscriber line terminating device 3 is installed between the subscriber side device 1 and the station side device 2 and relays communication between the subscriber side device 1 and the station side device 2.

The optical interface unit 11 is an interface to the optical fiber 4 and converts the optical signal output from the optical fiber 4 into an electrical signal and outputs the electrical signal to the PON control unit 12, while the electrical signal output from the PON control unit 12 is converted into an optical signal. A process of converting to a signal and outputting to the optical fiber 4 is performed.
The PON control unit 12 performs a demodulation process on the electrical signal output from the optical interface unit 11 to demodulate the frame transmitted from the station side device 2, and includes a control frame and a user frame (downlink) included in the frame. Frame), and the downstream frame is output to the downstream frame detector 13. Also, a modulation process is performed on a frame (control frame, user frame (uplink frame)) output from the uplink buffer control unit 29, and a process of outputting an electrical signal that is the modulation signal to the optical interface unit 11 is performed. .

The downlink frame detection unit 13 receives the downlink frame output from the PON control unit 12 and performs a process of outputting the downlink frame to the small capacity buffer 14. The downlink frame detector 13 constitutes a downlink frame receiving unit.
The small capacity buffer 14 is a memory that temporarily stores the downstream frame received by the downstream frame detection unit 13. Note that the small-capacity buffer 14 constitutes a downstream temporary buffer.

The user network interface unit 15 is an interface to the subscriber side device 1.
The upstream frame detection unit 16 performs a process of receiving the user frame (upstream frame) output from the subscriber side device 1 and outputting the upstream frame to the small capacity buffer 17. The upstream frame detector 16 constitutes upstream frame receiving means.
The small capacity buffer 17 is a memory that temporarily stores the upstream frame received by the upstream frame detection unit 16. The small capacity buffer 17 constitutes an upstream temporary buffer.

The power supply unit 18 is a power supply that supplies power to each processing unit.
The power supply control unit 19 is a device that controls the power supply to each processing unit in the optical subscriber line terminating device 3 by controlling on / off of the switches 20 to 26.
In particular, when a downlink frame is received by the downlink frame detection unit 13 in a situation where power is not supplied to the downlink buffer control unit 27 and the downlink frame buffer 28, the power of the downlink buffer control unit 27 and the downlink frame buffer 28 is reduced. On the other hand, when the downlink frame is not received by the downlink frame detection unit 13 for a predetermined time or more and no downlink frame is stored in the downlink frame buffer 28, the power to the downlink buffer control unit 27 and the downlink frame buffer 28 is started. To stop the supply of
Further, when an upstream frame is received by the upstream frame detection unit 16 in a state where power is not supplied to the upstream buffer control unit 29 and the upstream frame buffer 30, the power of the upstream buffer control unit 29 and the upstream frame buffer 30 is reduced. On the other hand, when the upstream frame is not received by the upstream frame detection unit 16 for a predetermined time and the upstream frame is not stored in the upstream frame buffer 30, the power to the upstream buffer control unit 29 and the upstream frame buffer 30 is started. To stop the supply of
The power supply unit 18, the power supply control unit 19, and the switches 20 to 26 constitute a power supply unit.

When the supply of power from the power supply unit 18 is started and the downlink frame buffer 28 becomes available, the downlink buffer control unit 27 reads the downlink frame temporarily stored in the small-capacity buffer 14, and the downlink frame Is stored in the downstream frame buffer 28. The downlink buffer control unit 27 constitutes a downlink buffer control means.
The downstream frame buffer 28 is a memory that stores downstream frames.

When the supply of power from the power supply unit 18 is started and the upstream frame buffer 30 becomes available, the upstream buffer control unit 29 reads the upstream frame temporarily stored in the small-capacity buffer 17, and the upstream frame Is stored in the upstream frame buffer 30. The upstream buffer control unit 29 constitutes upstream buffer control means.
The upstream frame buffer 30 is a memory that stores upstream frames.
FIG. 2 is a flowchart showing the processing contents of the optical subscriber line terminating apparatus according to the first embodiment of the present invention.

Next, the operation will be described.
In the power saving mode (a mode for reducing power consumption), the power supply control unit 19 turns off the switches 25 and 22, thereby stopping the supply of power to the downlink buffer control unit 27 and the uplink buffer control unit 29. .
Since the downlink buffer control unit 27 supplies a part of the power supplied from the power supply unit 18 to the downlink frame buffer 28, when the power supplied from the power supply unit 18 is stopped, The power supply to the downstream frame buffer 28 is also stopped.
Further, since the upstream buffer control unit 29 supplies a part of the power supplied from the power supply unit 18 to the upstream frame buffer 30, when the power supplied from the power supply unit 18 is stopped, the upstream buffer control unit 29 interlocks with it. Thus, the supply of power to the upstream frame buffer 30 is also stopped.

In the power saving mode, even if an upstream frame is received by the upstream frame detection unit 16, the power source control unit 19 turns on the switch 21 so that the upstream frame is not discarded. The data is supplied to the buffer 17.
However, when it is detected by the user network interface unit 15 that the subscriber side device 1 is not connected, no uplink frame is transmitted from the subscriber side device 1, so the power supply control unit 19 switches the switch 21. Is turned off so that power is not supplied from the power supply unit 18 to the small capacity buffer 17 to save power.

In the power saving mode, even if a downstream frame is received by the downstream frame detector 13, the power controller 19 turns on the switch 26 so that the downstream frame is not discarded. The data is supplied to the small capacity buffer 14.
However, when the optical interface unit 11 detects that the station-side device 2 is not connected, no downlink frame is transmitted from the station-side device 2, so the power supply control unit 19 turns off the switch 26. Thus, power is saved by preventing power from being supplied from the power supply unit 18 to the small capacity buffer 14.

  Here, even in the power saving mode, it is assumed that power is supplied to the optical interface unit 11, the PON control unit 12, and the user network interface unit 15, but depending on the operation status of the optical subscriber line terminating device 3 The power supply to any one of the optical interface unit 11, the PON control unit 12, and the user network interface unit 15 may be stopped.

Next, processing contents when the optical subscriber line terminating device 3 receives a downlink frame will be described.
The optical interface unit 11 acquires the optical signal transmitted from the station side device 2 from the optical fiber 4, converts the optical signal into an electrical signal, and outputs the electrical signal to the PON control unit 12.
When receiving the electrical signal from the optical interface unit 11, the PON control unit 12 performs a demodulation process on the electrical signal and demodulates the frame transmitted from the station side device 2.
Further, the PON control unit 12 divides the control frame and the user frame (downlink frame) included in the frame, and outputs the downlink frame to the downlink frame detection unit 13.

The downlink frame detector 13 receives the downlink frame output from the PON controller 12 (step ST1).
When the downlink frame detection unit 13 receives a downlink frame, the power supply control unit 19 updates the time when the downlink frame was last received by the downlink frame detection unit 13 (hereinafter referred to as “downlink frame last reception time”) ( Step ST2).

Next, the power supply control unit 19 determines whether or not power is currently being supplied from the power supply unit 18 to the downlink buffer control unit 27 by checking the on / off state of the switch 25 (step ST3).
When power is not currently supplied to the downlink buffer controller 27, the power controller 19 turns on the switch 25 and starts supplying power to the downlink buffer controller 27 (step ST4).
As described above, the downlink buffer control unit 27 supplies a part of the power supplied from the power supply unit 18 to the downlink frame buffer 28. Therefore, when the supply of power from the power supply unit 18 is started, the downlink buffer control unit 27 is interlocked therewith. Thus, supply of power to the downstream frame buffer 28 is also started.
However, even if the supply of power to the downstream frame buffer 28 is started, a predetermined time (for example, several hundred milliseconds) is required until the downstream frame buffer 28 becomes available.

The small capacity buffer 14 temporarily holds the downlink frame received by the downlink frame detector 13 (step ST5).
When the supply of power from the power supply unit 18 is started, the downlink buffer control unit 27 supplies a part of the power supplied from the power supply unit 18 to the downlink frame buffer 28, and the downlink frame buffer 28 becomes available. (Step ST6).
When the downlink frame buffer 28 becomes available, the downlink buffer control unit 27 reads the downlink frame temporarily stored in the small capacity buffer 14 (step ST7) and stores the downlink frame in the downlink frame buffer 28. (Step ST8).

The power control unit 19 compares the final reception time of the downlink frame with the current time, and calculates a time during which no downlink frame is received by the downlink frame detection unit 13.
The power supply control unit 19 determines whether or not the time when the downlink frame is not received by the downlink frame detection unit 13 is equal to or longer than a predetermined time set in advance (step ST9).
If the time during which no downlink frame is received is equal to or longer than the specified time, the power supply control unit 19 determines whether or not the downlink frame is stored in the downlink frame buffer 28 (step ST10).

When no downstream frame is stored in the downstream frame buffer 28, the power supply control unit 19 turns off the switch 25 to stop the power supply to the downstream buffer control unit 27 (step ST11).
As described above, the downlink buffer control unit 27 supplies a part of the power supplied from the power supply unit 18 to the downlink frame buffer 28. Therefore, when the power supplied from the power supply unit 18 is stopped, it is linked to it. Then, the supply of power to the downstream frame buffer 28 is also stopped.
Thereby, it shifts to the power saving mode.

Next, processing contents when the optical subscriber line terminating device 3 receives an upstream frame will be described.
The uplink frame detection unit 16 receives the uplink frame transmitted from the subscriber side device 1 via the user network interface unit 15 (step ST1).
When the upstream frame detection unit 16 receives the upstream frame, the power supply control unit 19 updates the time when the upstream frame detection unit 16 last received the upstream frame (hereinafter referred to as “upstream frame last reception time”) ( Step ST2).

Next, the power supply control unit 19 determines whether or not power is currently supplied from the power supply unit 18 to the upstream buffer control unit 29 by checking the on / off state of the switch 22 (step ST3).
When power is not currently supplied to the uplink buffer control unit 29, the power supply control unit 19 turns on the switch 22 and starts supplying power to the uplink buffer control unit 29 (step ST4).
As described above, the upstream buffer control unit 29 supplies a part of the power supplied from the power supply unit 18 to the upstream frame buffer 30. Therefore, when the supply of power from the power supply unit 18 is started, the upstream buffer control unit 29 interlocks with it. Thus, supply of power to the upstream frame buffer 30 is also started.
However, even if the supply of power to the upstream frame buffer 30 is started, a predetermined time (for example, several hundred milliseconds) is required until the upstream frame buffer 30 becomes usable.

The small capacity buffer 17 temporarily holds the upstream frame received by the upstream frame detector 16 (step ST5).
When the supply of power from the power supply unit 18 is started, the upstream buffer control unit 29 supplies a part of the power supplied from the power supply unit 18 to the upstream frame buffer 30 so that the upstream frame buffer 30 becomes available. (Step ST6).
When the upstream frame buffer 30 becomes available, the upstream buffer controller 29 reads the upstream frame temporarily stored in the small capacity buffer 17 (step ST7) and stores the upstream frame in the upstream frame buffer 30. (Step ST8).

The power supply control unit 19 compares the last reception time of the uplink frame with the current time, and calculates the time when no uplink frame is received by the uplink frame detection unit 16.
The power supply control unit 19 determines whether or not the time when the uplink frame is not received by the uplink frame detection unit 16 is equal to or longer than a predetermined time set in advance (step ST9).
The power supply control unit 19 determines whether or not the uplink frame is stored in the uplink frame buffer 30 when the time when the uplink frame is not received is equal to or longer than the specified time (step ST10).

When no upstream frame is stored in the upstream frame buffer 30, the power supply control unit 19 turns off the switch 22 to stop the power supply to the upstream buffer control unit 29 (step ST11).
As described above, the upstream buffer control unit 29 supplies a part of the power supplied from the power supply unit 18 to the upstream frame buffer 30. Therefore, when the power supplied from the power supply unit 18 is stopped, the upstream buffer control unit 29 interlocks with the upstream frame buffer 30. Then, the supply of power to the upstream frame buffer 30 is also stopped.
Thereby, it shifts to the power saving mode.

  As is apparent from the above, according to the first embodiment, the small-capacity buffer 14 that temporarily stores the downstream frame received by the downstream frame detector 13, the downstream buffer controller 27, and the downstream frame buffer 28 When a downstream frame is received by the downstream frame detection unit 13 in a state where power is not supplied, power supply to the downstream buffer control unit 27 and the downstream frame buffer 28 is started, while downstream transmission is performed by the downstream frame detection unit 13. A power supply control unit 19 for stopping power supply to the downlink buffer controller 27 and the downlink frame buffer 28 when a frame has not been received for a predetermined time or more and a downlink frame is not stored in the downlink frame buffer 28; The power supply is started and the downlink frame buffer 28 becomes available. For example, since the downstream buffer control unit 27 reads the downstream frame from the small capacity buffer 14 and stores the downstream frame in the downstream frame buffer 28, the power supply to the downstream frame buffer 28 is stopped. Even if the downstream frame transmitted from the station side apparatus 2 is received, the downstream frame can be stored in the downstream frame buffer 28.

  Further, according to the first embodiment, power is supplied to the small-capacity buffer 17 that temporarily stores the upstream frame received by the upstream frame detection unit 16, the upstream buffer control unit 29, and the upstream frame buffer 30. When an upstream frame is received by the upstream frame detection unit 16 in the absence of power, the supply of power to the upstream buffer control unit 29 and the upstream frame buffer 30 is started while the upstream frame detection unit 16 determines that the upstream frame is longer than a specified time. When no upstream frame is stored in the upstream frame buffer 30, the upstream buffer control unit 29 and the power supply control unit 19 that stops the power supply to the upstream frame buffer 30 are provided to start the power supply. When the upstream frame buffer 30 becomes available, the upstream buffer Since the control unit 29 is configured to read the upstream frame from the small-capacity buffer 17 and store the upstream frame in the upstream frame buffer 30, it is possible to join in a situation where power supply to the upstream frame buffer 30 is stopped. Even if the upstream frame transmitted from the person-side apparatus 1 is received, the upstream frame can be stored in the upstream frame buffer 30.

Embodiment 2. FIG.
3 is a block diagram showing a GE-PON system applied by an optical subscriber line terminating apparatus and a station side apparatus according to Embodiment 2 of the present invention. In FIG. 3, the same reference numerals as those in FIG. Since it shows, description is abbreviate | omitted.
An IP phone 1-1, a personal computer (denoted as “PC” in the figure) 1-2, and a home gateway (denoted as “HGW” in the figure) 1-3 correspond to the subscriber side apparatus 1 in FIG.
The optical subscriber line termination devices 3-1, 3-2,..., 3-N are installed between the subscriber side devices 1-1, 1-2,. , 1-M and the station side apparatus 2 relay the communication between the station side apparatuses 1-1, 1-2,.
3 discloses only the characteristic processing units of the optical subscriber line termination devices 3-1, 3-2,..., 3-N, but the optical subscriber line termination device 3 of FIG. It is assumed that the processing unit to be configured is also implemented.
The optical splitter 5 performs processing for branching the optical signal.

The optical IF unit 51 is a processing unit corresponding to the optical interface unit 11 of FIG.
The PON control unit 52 has the same function as that of the PON control unit 12 in FIG. 1 and also has a function of notifying the station side device 2 of information indicating the operation state determination result by the user IF unit 53. The PON control unit 52 constitutes a determination result notification unit.
The user IF unit 53 has the same function as the user network interface unit 15 of FIG. 1 and determines whether or not the subscriber side devices 1-1, 1-2,. It has a function to do. The user IF unit 53 constitutes an operating state determination unit.

  The buffer control unit 54 includes the downstream frame detection unit 13, the small capacity buffer 14, the downstream buffer control unit 27, the downstream frame buffer 28, the upstream frame detection unit 16, the small capacity buffer 17, the upstream buffer control unit 29, and the upstream frame buffer shown in FIG. In addition to the 30 functions, it has a function of transmitting the uplink frame stored in the uplink frame buffer 30 to the station side apparatus 2 using the uplink band allocated by the station side apparatus 2. The buffer control unit 54 constitutes an upstream frame transmission unit.

The time management unit 55 manages the time during which the power supply control unit 56 stops supplying power to the buffer control unit 54 and the like, and when that time reaches the preset power saving maximum time, the time management unit 55 Processing for notifying the power supply control unit 56 is performed.
When the user IF unit 53 determines that the subscriber-side device 1-1 or the like is not in operation, the power supply control unit 56 stops supplying power to the buffer control unit 54 or the like, and the subscriber-side device 1-1. Is determined to be in an operating state, a process of restarting the supply of power to the buffer control unit 54 or the like is performed. In addition, upon receiving a notification from the time management unit 55 that the maximum power saving time has been reached, a process for restarting the supply of power to the buffer control unit 54 and the like is performed.
The time management unit 55 and the power supply control unit 56 constitute power saving means.

The optical IF unit 61 is an interface to the optical fiber 4, and whether or not the subscriber side device 1-1 or the like from the optical subscriber line termination devices 3-1, 3-2,. The process which receives the information which shows is implemented. The optical IF unit 61 constitutes information receiving means.
The ONU state management unit 62 performs processing for managing whether or not the optical subscriber line terminating devices 3-1, 3-2, ..., 3-N are in the power saving mode.

When the upstream bandwidth control unit 63 indicates that the information received by the optical IF unit 61 is non-operating, the upstream bandwidth control unit 63 lengthens the upstream bandwidth allocated to the optical subscriber line terminating device 3-1, etc. or the upstream bandwidth allocation. When the information received by the optical IF unit 61 indicates that the information is in operation, the uplink bandwidth allocated to the optical subscriber line terminating device 3-1, etc. is restored to the original interval or the uplink bandwidth Implement the process to resume allocation. The upstream bandwidth control unit 63 constitutes upstream bandwidth control means.
FIG. 4 is an explanatory diagram showing uplink bandwidth allocation processing by the station side device.

Next, the operation will be described.
The GE-PON system employs a Gate-Report method as a method for allocating an upstream band.
In the Gate-Report method, when the upstream bandwidth control unit 63 of the station side device 2 permits the optical subscriber line terminating devices 3-1 to 3 -N to transmit upstream frames, a Gate frame as a control message is transmitted. It transmits to the optical subscriber line termination devices 3-1 to 3-N.

When the PON control unit 52 receives the Gate frame, the buffer control unit 54 of the optical subscriber line terminating devices 3-1 to 3 -N transmits the upstream frame stored in the upstream frame buffer 30 to the station side device 2. .
When the PON control unit 52 of the optical subscriber line terminating devices 3-1 to 3 -N receives the Gate frame from the station side device 2, as shown in FIG. 4, it uses the Report frame that is a control message. Then, the station side apparatus 2 is notified of the accumulated amount of the upstream frame stored in the upstream frame buffer 30 in the buffer control unit 54.

When receiving the upstream frame transmitted from the optical subscriber line terminating devices 3-1 to 3 -N, the optical IF unit 61 of the station side device 2 transmits the upstream frame to a host device (not shown).
Upon receiving the Report frame from the optical subscriber line termination devices 3-1 to 3 -N, the upstream bandwidth control unit 63 of the station side device 2 receives the upstream frame buffer 30 of the optical subscriber line termination devices 3-1 to 3 -N. If the amount of uplink frames stored is large, and the amount of uplink frames stored is large, the interval of the uplink band allocated to the optical subscriber line terminating device is shortened (the transmission interval of the Gate frame is shortened) ), So that many uplink frames can be transmitted.
On the other hand, if the amount of uplink frames stored is small, transmission is possible even in a small band. Therefore, by increasing the interval of the uplink band allocated to the optical subscriber line terminating device (increasing the transmission interval of the Gate frame), it is wasteful. Try to reduce the bandwidth allocation.

As a result, the optical subscriber line terminating devices 3-1 to 3-N are allocated to the optical subscriber line terminating devices 3-1 to 3-N according to the amount of uplink frames stored in the upstream frame buffer 30 of the optical subscriber line terminating devices 3-1 to 3-N. However, if all the subscriber-side devices 1-1 connected to the optical subscriber line terminating devices 3-1 to 3-N are in a non-operating state (for example, optical In the case of the subscriber line terminating device 3-1, when the subscriber side devices 1-1 and 1-2 are not in operation), an upstream frame is transmitted from the subscriber side device 1-1 and the like, and the upstream frame buffer Therefore, it is not necessary to allocate an upstream band to the optical subscriber line terminating device.
Therefore, in the second embodiment, useless allocation of upstream bandwidth is avoided as follows.

The user IF unit 53 of the optical subscriber line termination devices 3-1 to 3 -N determines whether or not the subscriber side devices 1-1 to 1 -M are operating (for example, the optical subscriber line termination device). In the case of the device 3-1, it is determined whether or not the subscriber-side devices 1-1 and 1-2 are in operation).
That is, when the user IF unit 53 detects a link down of the subscriber unit 1-1 or the like, the user IF unit 53 determines that the subscriber unit 1-1 or the like is in a non-operating state.
On the other hand, when the uplink of the subscriber unit 1-1 or the like is detected, it is determined that the subscriber unit 1-1 or the like is in operation.

  When the power control unit 56 of the optical subscriber line terminating devices 3-1 to 3-N determines that all the subscriber-side devices 1-1 and the like are not operating by the user IF unit 53 (for example, optical In the case of the subscriber line terminating device 3-1, when it is determined that the subscriber side devices 1-1 and 1-2 are not in operation), it is not necessary to transmit an uplink frame. Stop supplying power. At this time, the supply of power to the PON control unit 52 may be stopped, but power is supplied to the part that transmits and receives control messages to and from the station side device 2.

  The PON control unit 52 of the optical subscriber line terminating devices 3-1 to 3 -N is determined by the user IF unit 53 that all the subscriber-side devices 1-1 and the like are inactive (for example, optical In the case of the subscriber line terminating device 3-1, when it is determined that the subscriber side devices 1-1 and 1-2 are not in operation), for example, using a Report frame as shown in FIG. Then, information indicating that it is in a non-operating state is transmitted to the station side device 2.

The upstream band control unit 63 of the station side device 2 receives the report frame from the optical subscriber line terminating devices 3-1 to 3 -N, and the report frame includes information indicating that it is inactive. For example, by increasing the interval of the uplink band allocated to the optical subscriber line terminating device (increasing the transmission interval of the Gate frame), the unnecessary band allocation is reduced. Alternatively, the allocation of the upstream band to the optical subscriber line terminating device is stopped.
The ONU state management unit 62 of the station side apparatus 2 recognizes that the optical subscriber line terminating device that is the transmission source of the report frame is in the power saving mode, and manages the state of the optical subscriber line terminating device. To do.

Thereafter, when the user IF unit 53 of the optical subscriber line terminating devices 3-1 to 3 -N detects an uplink of the subscriber side device 1-1 or the like that has been inactive, the subscriber side device 1-1 or the like Is determined to be operating.
When the power control unit 56 of the optical subscriber line terminating devices 3-1 to 3 -N is determined by the user IF unit 53 that the subscriber-side device 1-1 and the like are in operation (for example, the optical subscriber line 1 In the case of the terminating device 3-1, when it is determined that either the subscriber side device 1-1 or 1-2 is in operation), the supply of power to the buffer control unit 54 and the PON control unit 52 is resumed. To do.
The power supply control unit 56 also resumes the supply of power to the buffer control unit 54 and the PON control unit 52 even when a user frame is transmitted from the station side device 2.

  When the user IF unit 53 determines that the subscriber unit 1-1 or the like is in an operating state, the PON control unit 52 of the optical subscriber line terminating devices 3-1 to 3-N (for example, optical subscriber line In the case of the terminating device 3-1, when it is determined that either one of the subscriber side devices 1-1 or 1-2 is in an operating state), for example, a report frame is used to indicate that it is in an operating state. The information shown is transmitted to the station side device 2.

The upstream bandwidth control unit 63 of the station side device 2 receives the report frame from the optical subscriber line terminating devices 3-1 to 3-N, and if the report frame includes information indicating that it is in an operating state. The uplink bandwidth can be efficiently transmitted by returning the uplink bandwidth interval assigned to the optical subscriber line terminating device to the normal interval (the gate frame transmission interval is changed to the original short interval). To do. When the allocation of the upstream band to the optical subscriber line termination device is stopped, the allocation of the upstream band to the optical subscriber line termination device is resumed.
The ONU state management unit 62 of the station side device 2 recognizes that the optical subscriber line termination device that is the transmission source of the report frame is in a normal state that is not in the power saving mode, and Manage state.

In the first embodiment, when the power supply control unit 56 of the optical subscriber line terminating devices 3-1 to 3 -N becomes inactive, the buffer control unit 54 and the PON control unit Although the power supply to a part of 52 is stopped, not only a part of the buffer control unit 54 and the PON control unit 52 but also the whole PON control unit 52, the optical IF unit 51, and the user IF unit 53 You may make it also stop supply of electric power.
In this case, the time management unit 55 manages the time during which the power supply control unit 56 stops supplying power to the buffer control unit 54 and the like, and when that time reaches a preset power saving maximum time. This is notified to the power supply control unit 56.
When the power control unit 56 receives a notification from the time management unit 55 that the maximum power saving time has been reached, it resumes supplying power to the optical IF unit 51, the PON control unit 52, the user IF unit 53, and the buffer control unit 54. To do.
Note that if the PON control unit 52 notifies the station side device 2 that the supply of power by the power source control unit 56 has been resumed, for example, using the Report frame, the ONU of the station side device 2 is used. The state management unit 62 can manage the states of the optical subscriber line terminating devices 3-1 to 3 -N.

  As apparent from the above, according to the second embodiment, when the user IF unit 53 determines that the subscriber-side device 1-1 or the like is not in operation, power is supplied to the buffer control unit 54 or the like. And when the user IF unit 53 determines that the subscriber-side device 1-1 or the like is in an operating state, the power supply to the buffer control unit 54 or the like is resumed. There is an effect that power saving of the termination device can be enhanced.

  Further, according to the second embodiment, when the user IF unit 53 determines that the subscriber-side device 1-1 or the like is not operating, the optical IF unit 51, the PON control unit 52, the user IF unit 53 When the power supply to the buffer control unit 54 is stopped and the power supply stop time reaches a preset power saving maximum time, the optical IF unit 51, the PON control unit 52, and the user IF unit 53 and the buffer control unit 54 are configured so as to resume the supply of power, so that it is possible to further improve the power saving.

  Further, according to the second embodiment, information indicating whether or not the subscriber side device 1-1 etc. is in operation is received from the optical subscriber line terminating device 3-1, etc., and the information is not in operation. In the case of indicating that the information is in the state, the interval of the uplink band allocated to the optical subscriber line terminating device 3-1 or the like is lengthened or the allocation of the uplink band is stopped, and in the case where the above information indicates that it is in the operating state, The uplink bandwidth used by the optical subscriber line termination device 3-1 etc. is configured so that the uplink bandwidth interval allocated to the subscriber line termination device 3-1 etc. is restored to the original interval or the uplink bandwidth allocation is resumed. There is an effect that can improve the use efficiency.

  DESCRIPTION OF SYMBOLS 1 Subscriber side apparatus, 1-1 IP telephone (subscriber side apparatus), 1-2 PC (subscriber side apparatus), 1-M home gateway (subscriber side apparatus), 2 station side apparatus, 3, 3- 1, 3-2,..., 3 -N optical subscriber line termination device, 4 optical fiber, 5 optical coupler, 11 optical interface unit, 12 PON control unit, 13 downstream frame detection unit (downstream frame receiving means), 14 small capacity buffer (downstream temporary buffer), 15 user network interface section, 16 upstream frame detection section (upstream frame receiving means), 17 small capacity buffer (upstream temporary buffer), 18 power supply section (power supply means), 19 power control Section (power supply means), 20 to 26 switch (power supply means), 27 downlink buffer control section (downlink buffer control means), 28 downlink frame buffer , 29 Upstream buffer control unit (upstream buffer control unit), 30 Upstream frame buffer, 51 Optical IF unit, 52 PON control unit (determination result notification unit), 53 User IF unit (operation state determination unit), 54 Buffer control unit ( Upstream frame transmission means), 55 time management section (power saving means), 56 power supply control section (power saving means), 61 optical IF section (information reception means), 62 ONU state management section, 63 upstream bandwidth control section ( Up-band control means).

Claims (7)

  Optical subscriber line terminating device comprising: downlink frame receiving means for receiving a downlink frame transmitted from a station side apparatus; and downlink buffer control means for storing the downlink frame received by the downlink frame receiving means in a downlink frame buffer. A downlink temporary buffer for temporarily storing a downlink frame received by the downlink frame receiving means, and the downlink frame receiving means under a situation where power is not supplied to the downlink buffer control means and the downlink frame buffer. When a downlink frame is received by the receiver, power supply to the downlink buffer control means and the downlink frame buffer is started, while no downlink frame has been received by the downlink frame reception means for a specified time or more, and the downlink frame buffer If no downstream frame is stored in A power supply means for stopping power supply to the downlink buffer control means and the downlink frame buffer, and when the supply of power from the power supply means is started and the downlink frame buffer becomes usable, An optical subscriber line terminating device, wherein a downlink buffer control means reads a downlink frame from the downlink temporary buffer and stores the downlink frame in the downlink frame buffer.   Optical subscriber line termination comprising an upstream frame receiving means for receiving an upstream frame transmitted from a subscriber side device, and an upstream buffer control means for storing the upstream frame received by the upstream frame receiving means in an upstream frame buffer In the apparatus, the uplink frame reception is performed under a situation where power is not supplied to the uplink buffer for temporarily storing the uplink frame received by the uplink frame receiving means, and the uplink buffer control means and the uplink frame buffer. When the upstream frame is received by the means, the power supply to the upstream buffer control means and the upstream frame buffer is started, while the upstream frame receiving means has not received the upstream frame for a predetermined time and the upstream frame is not received. No upstream frame is stored in the buffer A power supply means for stopping power supply to the uplink buffer control means and the uplink frame buffer, and when the supply of power from the power supply means is started and the uplink frame buffer becomes available An optical subscriber line terminating apparatus, wherein the uplink buffer control means reads an uplink frame from the uplink temporary buffer and stores the uplink frame in the uplink frame buffer.   A downlink frame receiving means for receiving a downlink frame transmitted from the station side apparatus, a downlink buffer control means for storing the downlink frame received by the downlink frame receiving means in a downlink frame buffer, and a packet transmitted from the subscriber side apparatus. In the optical subscriber line terminating apparatus, comprising: an upstream frame receiving means for receiving an upstream frame; and an upstream buffer control means for storing the upstream frame received by the upstream frame receiving means in an upstream frame buffer. A temporary downlink buffer that temporarily stores the downlink frame received by the upstream frame buffer, an upstream temporary buffer that temporarily stores the uplink frame received by the uplink frame receiving means, the downlink buffer control means, and the downlink frame buffer. In the situation where power is not supplied, When the downlink frame is received by the frame reception means, the power supply to the downlink buffer control means and the downlink frame buffer is started, while the downlink frame is not received by the downlink frame reception means for a predetermined time or more, When no downlink frame is stored in the downlink frame buffer, the supply of power to the downlink buffer control means and the downlink frame buffer is stopped, and no power is supplied to the uplink buffer control means and the uplink frame buffer. Below, when an uplink frame is received by the uplink frame receiving means, power supply to the uplink buffer control means and the uplink frame buffer is started, while an uplink frame is received by the uplink frame receiving means for a predetermined time or more. Not up When an uplink frame is not stored in the frame buffer, the uplink buffer control means and a power supply means for stopping the supply of power to the uplink frame buffer are provided, the supply of power from the power supply means is started, and When the downlink frame buffer becomes available, the downlink buffer control means reads the downlink frame from the temporary downlink buffer, stores the downlink frame in the downlink frame buffer, and starts supplying power from the power supply means. When the upstream frame buffer becomes available, the upstream buffer control means reads the upstream frame from the upstream temporary buffer and stores the upstream frame in the upstream frame buffer. Line termination equipment.   An operating state determining unit for determining whether or not the subscriber side device is in an operating state, a determination result notifying unit for notifying the station side device of information indicating a determination result of the operating state determining unit, and the operating state determining unit An uplink frame transmitting means for transmitting the uplink frame stored in the uplink frame buffer to the station side apparatus using the uplink band allocated by the station side apparatus according to the determination result of When it is determined that the subscriber side device is not in operation, the supply of power to the upstream frame buffer and the upstream frame transmission unit is stopped, and the subscriber side device is in operation state by the operation state determination unit. A power saving means for restarting the supply of power to the uplink frame buffer and the uplink frame transmitting means is provided. Optical network device according to any one of claims claims 1 to 3.   An operating state determining unit for determining whether or not the subscriber side device is in an operating state, a determination result notifying unit for notifying the station side device of information indicating a determination result of the operating state determining unit, and the operating state determining unit An uplink frame transmitting means for transmitting the uplink frame stored in the uplink frame buffer to the station side apparatus using the uplink band allocated by the station side apparatus according to the determination result of When it is determined that the subscriber side device is not in operation, the supply of power to the upstream frame buffer and the upstream frame transmission unit is stopped, and the subscriber side device is in operation state by the operation state determination unit. An optical subscriber comprising power saving means for resuming the supply of power to the uplink frame buffer and the uplink frame transmitting means. Termination device.   The power saving means, in addition to the uplink frame buffer and the uplink frame transmission means, in addition to the uplink frame buffer and the uplink frame transmission means, when the operation state determination means determines that the subscriber side device is not in operation. 6. The power supply is also stopped, and when the time during which the power supply is stopped reaches a preset power saving maximum time, the power supply is resumed. The optical subscriber line terminator described.   Information receiving means for receiving information indicating whether or not the subscriber side apparatus is in an operating state from the optical subscriber line terminating device, and when the information received by the information receiving means indicates that it is in a non-operating state, In the case where the interval of the uplink band allocated to the optical subscriber line terminating device is lengthened or the allocation of the uplink band is stopped and the information received by the information receiving means indicates that the information is in operation, the optical subscriber A station-side apparatus comprising: an uplink bandwidth control unit that restores an uplink bandwidth interval assigned to a line terminating device to an original interval or resumes the uplink bandwidth assignment.

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