JP2000295266A - Circuit and system for delay time correction in pon system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a delay time correction circuit in a PON system where a channel accommodation efficiency within one frame can be enhanced. SOLUTION: An optical subscriber unit 4 obtains a rough inter-installation distance from an optical level of a subscription command received from an optical subscriber accommodation unit 1 and a received optical power calculation section 42 transmits response data taking a delay time corresponding to the rough distance value into account. A received power calculation section 13 of the optical subscriber accommodation unit 1 receives the response data, obtains the rough inter-installation distance from the received optical level, and then fine-adjusts the delay according to the position of the response data in a subscriber slot. The calculated delay as a result of delay fine-adjustment is again designated to the subscriber unit 4 that is an object of subscription. The delay rough adjustment is calculated on the basis of the received optical power and the subscriber slot has only to reserve a system margin taking the error of the optical transmission reception level into account and the number of slots required for delay fine-adjustment. Thus, the length of the subscriber slot can be reduced more than that of a conventional system.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a PON in which one optical subscriber unit and N optical subscriber units are connected in a 1: N manner by two star couplers in each of the upstream and downstream directions. The present invention relates to a delay time correction circuit in a (passive optical network) system and a delay time correction method in a PON system.

[0002]

2. Description of the Related Art Conventionally, a delay time correction circuit in a PON system and a delay time correction method in a PON system are applied to a delay measurement in a PON configuration and a correction method using the measurement result. In the delay correction method in the conventional PON configuration, the coarse delay adjustment and the fine delay adjustment are performed from the position of the response data in the addition slot.

[0003]

However, in the above-mentioned conventional delay correction method, it is necessary to secure the number of slots in the area of the subscription slot in consideration of the maximum delay time due to the installation distance. Therefore, it is necessary to secure a subscription slot length corresponding to the maximum allowable installation distance between the optical network unit and the optical network unit. For this reason, there is a problem that the accommodation efficiency of the service line in one frame is deteriorated.

An object of the present invention is to provide a delay time correction circuit in a PON system and a delay time correction method in a PON system which can increase the line accommodation efficiency in one frame.

[0005]

To achieve the above object, the delay time correction circuit in the PON system according to the first aspect of the present invention comprises an optical subscriber unit 1 and an optical subscriber unit 4.
And a PON connected via a star coupler
This is a delay time correction circuit in the system. The optical subscriber unit 4 calculates an approximate value of the distance between installations from the optical level of the join command received from the optical network unit 1, and considers the delay time corresponding to the approximate value. The optical network unit 1 receives the response data, calculates the approximate value of the installation distance from the received optical level, and then calculates the approximate value of the installation distance. It has a delay fine-adjustment unit 14 that performs fine delay adjustment according to the position of the response data, and the delay amount calculated as a result of the delay fine adjustment is designated again to the optical subscriber unit 4 to be added.

According to a second aspect of the present invention, in the delay time correction circuit in the PON system according to the first aspect, when the optical subscriber unit 4 has a designated delay time,
The response data is transmitted again using the joining slot at the timing according to the delay time without performing the rough estimation by the light receiving power, and the optical subscriber unit 1 compares the designated delay time with the response position in the joining slot. By comparing, the optimum delay time for the optical subscriber unit 4 to be added may be obtained.

According to a third aspect of the present invention, there is provided a delay time correcting circuit for a PON system in which an optical subscriber unit 1 and an optical subscriber unit 4 are connected via a star coupler. An optical burst receiving unit 41 for receiving data from the optical network unit 1 via a star coupler;
A light-receiving power calculating unit 42 which receives a signal from the optical burst receiving unit 41, calculates an approximate value of the installation distance from the light level, and calculates a corresponding delay time;
And an offset control unit 43 for setting the timing to respond in consideration of the delay time specified from the step 2 and detecting whether or not there is a delay specification from the optical network unit 1 and determining whether there is a delay time. Outputs a timing from the offset control unit 43, and outputs a response timing according to the delay time designation as it is when a delay time designation exists from the optical network unit 1, and a designated timing , An optical burst transmitting unit 46 for transmitting burst data to the optical network unit 1, the optical network unit 1 receives an optical burst signal from a star coupler, and an optical burst receiving unit 12. A light receiving power calculating unit 13 for calculating an approximate value of the delay time from the optical level of the received signal, and a response data from the optical subscriber unit 4 stored in the subscription slot. Based on the position, the delay fine adjustment unit 14 for measuring the delay time, the position of the response data from the optical subscriber unit 4 in the subscription slots, the delay fine adjustment part 1
4 is compared with the delay time designated from
And a delay control unit 15 for outputting a delay time to be responded to next, and an optical burst transmission unit 11 for outputting an optical burst signal according to the timing of the input delay time. .

[0008] The invention according to claim 4 is the invention according to claim 3.
In the delay time correction circuit in the ON system, the optical subscriber unit 4 further includes a timing generation unit 45 for designating the timing of transmitting response data to the subscription slot to the optical burst transmission unit 46, and 1
May further include a timing generation unit 16 for transmitting the input delay time to the optical burst transmission unit 11.

According to a fifth aspect of the present invention, there is provided a delay time correcting method in a PON system in which an optical subscriber unit 1 and an optical subscriber unit 4 are connected via a star coupler. In this method, the optical subscriber unit 4 obtains an approximate value of the installation distance from the optical level of the join command received from the optical network unit 1, and transmits response data in consideration of the delay time corresponding to the approximate value. Then, the optical network unit 1 receives the response data, calculates an approximate value of the installation distance from the received optical level, and then fine-adjusts the delay according to the position of the response data in the subscription slot. The delay amount calculated as a result of the fine adjustment is designated again to the optical subscriber unit 4 to be added.

[0010] The invention described in claim 6 is the same as the P in claim 5.
In the delay time correction method in the ON system, when the designation of the delay time exists, the optical subscriber unit 4 does not perform the estimation by the light receiving power, but responds again using the joining slot at the timing based on the delay time. Data is transmitted, and the optical network unit 1 compares the designated delay time with the response position in the subscribing slot to find the optimal delay time for the optical subscriber unit 4 to be subscribed.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment of a delay time correction circuit in a PON system and a delay time correction method in a PON system according to the present invention will be described in detail with reference to the accompanying drawings. 1 to 4 show one embodiment of a delay time correction circuit in a PON system according to the present invention. FIG. 1 is a system configuration diagram of one embodiment, FIG. 2 is a frame format, FIG. 3 is a diagram for explaining an example of a procedure of a delay correction method, and FIG. 4 is a system configuration diagram of an extended example.

In FIG. 1 showing a system configuration example, an optical subscriber accommodating apparatus 1 and an optical subscriber apparatus 4 are connected to each other by an upstream star coupler 2 and a downstream star coupler 3. Although the PON system shown in FIG. 1 has N optical subscriber units 4, this embodiment will be described assuming that one optical subscriber unit (N = 1).

The optical subscriber unit 1 is further decomposed into an optical burst transmitting unit 11, an optical burst receiving unit 12,
Light receiving power calculation unit 13, delay fine adjustment unit 14, delay control unit 1
5, a timing generator 16 and a directional coupler 17 are provided.

The other optical subscriber unit 4 is further decomposed into an optical burst receiving unit 41, a light receiving power calculating unit 42,
It comprises an offset control unit 43, a delay control unit 44, a timing generation unit 45, an optical burst transmission unit 46, and a directional coupler 47.

In the configuration shown in FIG. 1, the optical subscriber unit 4
Receives the join command from the optical network unit 1, the light receiving power calculator 42 calculates an approximate value of the installation distance from the received light level, and transmits response data in consideration of the corresponding delay time. For this reason, in the uplink frame [C] shown in FIG. 2, the position of the response data of the subscription slot indicates the delay amount obtained by subtracting the delay time of the approximate value.

On the other hand, also in the optical subscriber accommodating apparatus 1, upon receiving the response data from the optical subscriber apparatus 4 to be subscribed, an approximate value of the installation distance is calculated from the received optical level in the light receiving power calculating section 13. The delay fine adjustment is performed according to the position of the response data in the subscription slot. As a result, the calculated delay amount is designated again to the optical subscriber unit 4 to be added.

When the delay time is specified, the optical subscriber unit 4 does not perform the estimation by the light receiving power but transmits the response data again using the subscription slot at the timing based on the delay time. The optical subscriber unit 1 can determine the optimum delay time for the optical subscriber unit 4 to be subscribed by comparing the designated delay time with the response position in the subscription slot. Therefore,
There is no need to secure an area corresponding to the maximum installation distance as a joining slot. For this reason, this method has an advantage of increasing the accommodation efficiency of the service line in one frame.

(Configuration) An operation example when the optical subscriber unit 4 of FIG. 1 subscribes will be described. As shown in FIG. 1, the optical subscriber unit 4 receives data from the optical subscriber accommodating apparatus 1 in the optical burst receiving unit 41 via the downstream star coupler 2. Further, a signal from the optical burst receiving unit 41 is input to the light receiving power calculating unit 42, an approximate value of the installation distance is obtained from the optical level, a corresponding delay time is calculated, and the delay time is calculated by the offset control unit 43 and the delay control unit 44. Output.

The offset control unit 43 sets the timing to respond in consideration of the delay time specified by the light receiving power calculation unit 42. Further, the delay control unit 44 detects whether or not there is a delay designation from the optical network unit 1. If there is no delay time designation, the timing from the offset control unit 43 is compared with the timing generation unit 45.
Output to If a delay time is specified from the optical network unit 1, the response timing according to the delay time is output to the timing generator 45 as it is.

The timing generator 45 designates the timing of transmitting response data to the subscription slot to the optical burst transmitter 46. The optical burst transmitting unit 46
According to this timing, burst data is transmitted to the optical network unit 1.

On the other hand, the optical subscriber unit 1 receives the optical burst signal from the upstream star coupler 3 by the optical burst receiving unit 12. The signal from the optical burst receiver 12 is input to the light receiving power calculator 13 and the delay controller 15. The light receiving power calculation unit 13 calculates an approximate value of the delay time from the received light level, and
Send to

The delay fine adjuster 14 measures the delay time based on the position of the response data from the optical subscriber unit 4 stored in the subscription slot. A value obtained by adding the delay time obtained as a result and the delay time from the light receiving power calculation unit 13 is sent to the delay control unit 15. The delay control unit 15
Then, the position of the response data from the optical subscriber unit 4 in the subscribing slot is compared with the delay time specified by the delay fine adjustment unit 14, and the next delay time to be responded to the optical subscriber unit 4 Is output to the timing generation unit 16. The timing generation section 16 sends the input delay time to the optical burst transmission section 11, and the optical burst transmission section 11 outputs an optical burst signal at this timing.

(Operation) Next, a specific operation example will be described with reference to FIG. In the present embodiment, the length of the slot for joining the format is reduced, and the service data area is expanded. However, when the conventional optical subscriber unit receives the join command at the timing shown in the downlink format [B], it immediately returns response data. For this reason, in the optical subscriber unit, the response data exists at the conventional response position of the uplink format [C]. On the other hand, in the present invention, the uplink format [D] of the optical subscriber unit shown in FIG. 2 is considered in consideration of the delay time estimated by the light receiving power calculation unit 42 shown in FIG.
Is returned in consideration of the delay time La shown in FIG.

First, if response data is inserted at a position "" which is advanced La time from the start position "" of the second frame of the subscribing slot of the upstream frame [D], the start of the subscribing slot of the upstream frame [C] is started. Response data appears at the position. However, the delay time La is a value calculated from the light receiving power, and an error in the transmission / reception level on the system is greatly considered. Therefore, a system margin in consideration of the maximum possible error is defined as time Lb, and La-Lb with a margin for this time is inserted into the position "" of frame [D] as a result of the coarse delay adjustment. For this reason, in the frame [C], the response data appears at the position of the time Lb from the start position of the subscription slot of the second frame. Therefore, the area of the addition slot can be reduced to a minimum as long as an error in the optical level is allowed.

Next, a method of correcting the delay time calculation value by the light receiving power will be described with reference to the delay measurement procedure in FIG. First, the light receiving power calculator 42 of the optical subscriber unit
The response data is inserted at a position advanced (La1-Lb) time from the start point of the second frame of the addition slot in the [first] frame [B] in FIG. If the calculation of the delay time from the light receiving power is accurate, the response data appears at a position delayed by the time Lb from the start point of the addition slot in the [first] frame [A].

However, the delay time La1 actually appears at a position deviated from the target as shown in the "first response position" due to the presence of a light level measurement error. Next, from the response data received in the frame [A], the approximate value of the delay time is similarly calculated by the light receiving power calculation unit 13 of the optical network unit 1 of FIG. Further, the result is set as a value of the coarse delay adjustment, the delay fine adjustment is performed by the delay fine adjustment unit 14 in FIG. 1, and the delay time to be transmitted by the optical subscriber unit 4 is transmitted to the optical subscriber unit for the second time. Send a join command. When the delay control unit 44 in FIG. 1 detects the designation of the delay time from the received command, the optical subscriber unit 4 transmits the response data according to the designated delay time without using the result of the offset control unit 43. .

As shown in the [second] frame [B] of FIG. 3, the delay time La specified by the optical network unit 1
For 2, the response data is inserted at a position in consideration of the system margin Lb. However, the delay time La2 is also an approximate value of the delay time calculated from the light receiving power. For this reason, in the frame [A] of the [second] time, the system margin L from the start position of the addition slot in the second frame
The response data that should come to the place where the delay is b is the time error Lc
Appears with. Therefore, the delay control unit 15 of the optical network unit 1 uses the time error Lc of the received response data as a correction value, and again obtains the value obtained by the formula, La2-Lb + Lc, as the final delay time measurement result. This is transmitted to the optical subscriber unit as a third subscription command. As a result, [3
As shown in the frame [A], the response data appears at the same position as the target position, and the delay measurement is completed.

As described above, conventionally, it is necessary to secure the number of slots in the area of the subscribing slot in consideration of the maximum delay time due to the installation distance. However, in the present embodiment, the delay coarse adjustment is calculated based on the received light power, not the measurement using the addition slot. Therefore, it is sufficient to secure a system margin in consideration of an error in the optical transmission / reception level and the number of slots required for fine-adjustment of the delay as the addition slot. For this reason, the slot length for joining can be made shorter than in the prior art, and the line accommodation efficiency within one frame can be increased.

(Other Embodiments) In the above embodiment of the present invention, a configuration in which two star couplers are connected in each of the upstream and downstream directions has been described as an example. It is also effective in the system configuration.

FIG. 4 is a configuration example showing this example. As shown in FIG. 4, in the optical network unit 1b, an optical burst transmitting unit 11 and an optical burst receiving unit 12 are connected to a directional coupler 17, respectively. Similarly, the optical subscriber unit 4b also has an optical burst receiving unit 41 and an optical burst transmitting unit 46.
Are connected to the directional coupler 47, respectively. For this reason,
Uplink data and downlink data can be connected to a single-core fiber and one star coupler.

The above embodiment is an example of a preferred embodiment of the present invention. However, it is not limited to this.
Various modifications can be made without departing from the spirit of the present invention.

[0032]

As is apparent from the above description, the delay time correction circuit and the PO in the PON system of the present invention are provided.
In the delay time correction method in the N system, an optical subscriber unit obtains an approximate value of a distance between installations from an optical level of a join command received from an optical network unit, and a response considering a delay time corresponding to the approximate value. After transmitting the data, the optical network unit receives the response data, and after calculating the approximate value of the installation distance from the received optical level, performs fine delay adjustment according to the position of the response data in the subscription slot. As a result of the delay fine adjustment, the calculated delay amount is designated again to the subscriber device to be added.

Therefore, the delay coarse adjustment is calculated based on the light receiving power, not the measurement using the addition slot.
Therefore, it is sufficient to secure a system margin in consideration of an error in the optical transmission / reception level and the number of slots required for fine-adjustment of the delay as the addition slot. For this reason, the slot length for joining can be made shorter than in the prior art, and the line accommodation efficiency within one frame can be increased.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram showing an embodiment of a delay time correction circuit in a PON system of the present invention.

FIG. 2 is a diagram showing a frame format applied to a delay time correction method in a PON system.

FIG. 3 is a diagram for explaining a procedure example of a delay time correction method in the PON system.

FIG. 4 is a system configuration diagram showing an extended example.

[Description of Signs] 1 Optical subscriber accommodation device 2, 3 Star coupler 4 Optical subscriber device 11, 46 Optical burst transmission unit 12, 41 Optical burst reception unit 13, 42 Light reception power calculation unit 14 Delay fine adjustment unit 15, 44 Delay control unit 16, 45 Timing generation unit 17, 47 Directional coupler 43 Offset control unit

Claims (6)

[Claims] 1. A delay time correction circuit in a PON system comprising an optical subscriber unit and an optical subscriber unit connected via a star coupler, wherein the optical subscriber unit is an optical subscriber unit. From the optical level of the subscription command received from the obtained the approximate value of the distance between the installation, has a light receiving power calculation unit that transmits response data considering the delay time corresponding to this approximate value, the optical subscriber accommodation device, After receiving the response data and obtaining an approximate value of the distance between the installation from the received light level,
A delay fine-adjustment unit for fine-adjusting the delay in accordance with the position of the response data in the subscription slot, wherein the delay amount calculated as a result of the delay fine-adjustment is designated again to the optical subscriber unit to be added. PON
Delay time correction circuit in the system. 2. The delay time correction circuit in the PON system according to claim 1, wherein when the delay time is specified, the optical subscriber unit does not perform the rough calculation by the light receiving power but directly performs the timing based on the delay time. The response data is transmitted again using the subscription slot, and the optical subscriber unit compares the designated delay time with the response position in the subscription slot, thereby providing the optimum optical subscriber unit for the subscription target optical subscriber unit. PO for determining delay time
Delay time correction circuit in N system. 3. A delay time correction circuit in a PON system in which an optical subscriber unit and an optical subscriber unit are connected via a star coupler, wherein the optical subscriber unit is an optical subscriber unit. An optical burst receiving section for receiving data from the optical coupler via the star coupler; receiving a signal from the optical burst receiving section to calculate an approximate value of the installation distance from an optical level and to calculate a corresponding delay time A power calculation unit, an offset control unit for setting a timing to respond in consideration of the delay time specified by the light reception power calculation unit, and detecting whether there is a delay specification from the optical network unit. If the delay time is not specified, the timing from the offset control unit is output.If the delay time is specified from the optical network unit, the delay time is directly specified. A delay control unit that outputs a response timing, and an optical burst transmitting unit that transmits burst data to the optical network unit according to a specified timing. An optical burst receiving unit that receives an optical burst signal; a light receiving power calculating unit that calculates an approximate value of delay time from an optical level of the received signal; and a response data from an optical subscriber unit stored in a subscription slot. A delay fine-adjustment unit for measuring a delay time based on the position; a position of response data from the optical subscriber unit in the subscribing slot; and a delay time specified by the delay fine-adjustment unit. A delay control unit that outputs a delay time to be responded to next, and an optical burst transmission unit that outputs an optical burst signal according to the timing of the input delay time. Delay time correction circuit in a PON system, characterized in that it is constructed by. 4. The delay time correction circuit in a PON system according to claim 3, wherein the subscriber unit further includes a timing generation unit for designating a timing of transmitting response data to a subscription slot to an optical burst transmission unit. A delay time correction circuit in the PON system, wherein the optical subscriber unit further includes a timing generation unit for transmitting the input delay time to the optical burst transmission unit. 5. A delay time correction method in a PON system in which an optical subscriber unit and an optical subscriber unit are connected via a star coupler, wherein the optical subscriber unit receives the optical subscriber unit from the optical subscriber unit. The approximate value of the installation distance is obtained from the optical level of the added join command, response data is transmitted in consideration of the delay time corresponding to the approximate value, and the optical network unit receives the response data and receives the response data. After calculating the approximate value of the installation distance from the optical level, the delay fine adjustment is performed according to the position of the response data in the subscription slot, and the delay amount calculated as a result of the delay fine adjustment is again applied to the optical subscriber to be subscribed. A delay time correction method in a PON system, which is designated to an apparatus. 6. The delay time correction method for a PON system according to claim 5, wherein when the delay time is specified, the optical subscriber unit does not perform the approximate calculation using the light receiving power, but directly performs the timing based on the delay time. The response data is transmitted again using the subscription slot, and the optical subscriber unit compares the designated delay time with the response position in the subscription slot, thereby providing the optimum optical subscriber unit for the subscription target optical subscriber unit. PO for determining delay time
Delay time correction method in N system.