JPH09186668A - Flexible transmitter in digital synchronizing network - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a new constitution of a transmitter which is possible to be used for various kinds of network forms. SOLUTION: This device has SOH(section overhead) terminating parts 1 to 6 terminating transmission line signals, protection switch parts 7 to 9 and 15 performing the protection controls according to various kinds of network forms, pointer processing parts 10 to 14 performing pointer processings, selector parts 16 to 20 selecting signals to be transmitted to the transmission line and SOH addition parts 21 to 26 adding SOHs to transmission signals. By controlling the protection switches and the selectors, the transmission system corresponding to the various kinds of network forms can be provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device used in a digital synchronous network, and more particularly to an SDH (Synchronous Digital Hierarch) which supports various network forms.
y) Concerning the configuration of the transmission device.

[0002]

2. Description of the Related Art Generally, when constructing an SDH network, a network form for providing a service is determined before installing a transmission device, and an SOH terminating circuit, an SOH adding circuit, and a SOH terminating circuit according to the network form are provided. Has a protection system.

[0003]

However, in order to provide various network configurations, it is necessary to design and manufacture a plurality of transmission devices having different configurations, which requires a lot of development cost and time. Furthermore, when the form of the network is changed after the device is installed, it is necessary to replace the line interface circuit and the like, which requires a great deal of labor and cost.

An object of the present invention is to provide a novel structure of a transmission device which can be used in various network forms.

[0005]

In order to solve the above-mentioned problems, a transmission device in a digital synchronous network according to the present invention is connected to each of a plurality of transmission lines and has a section overhead for terminating a digital signal to be transmitted. (S
OH) terminating means, protection switch control means for performing protection control corresponding to any one of a plurality of network types, and for matching a received digital signal received through the SOH terminating means with a clock in the device. Pointer processing means, selection means for selecting a digital signal to be sent to each of the plurality of transmission paths from the plurality of digital signals generated through the protection switch control means and the pointer processing means based on protection control, and to the plurality of transmission paths And SOH adding means for adding SOH to each of the transmitted digital signals.

[0006] A plurality of network configurations are point-to-point type, linear bus type, two-fiber UPSR.
(Unidirectional Pass Switched Ring)
Type, 2 fiber BLSR (Bidirectional Line Switched Ring) type, and 4 fiber BLS
It consists of R type.

The protection control is determined according to the network type. In the case of the point-to-point type or the linear bus type network type, the linear line protection control is used, and in the case of the two-fiber UPSR type network type, the path protection is used. control,
And 2 fiber BLSR type or 4 fiber BLSR
In the case of the type network type, line protection control is executed respectively.

With this configuration, the protection switch control means and the selection means can be easily switched to a plurality of network configurations simply by setting them according to a desired network configuration, and the line interface circuit can be replaced as in the conventional case. Is unnecessary.

[0009]

FIG. 1 shows an embodiment of the present invention.
Below, section overhead is SOH, unidirectional path switched ring is UPSR,
The bidirectional line switched ring is abbreviated as BLSR.

The basic configuration of this embodiment is as follows. In FIG. 1, SOH termination circuits 1 to 6 are provided corresponding to the transmission lines # 1 to # 6, respectively, and further, SOH termination circuits 1 and 2 are provided.
Line / BL that switches between one of the output signals 4 and 4
SR protection switch 7 and line / BLSR protection switch 8 for switching between output signals of SOH termination circuits 2, 3 and 4, and line protection switch for switching output signals of SOH termination circuits 5 and 6 9 and 9 are provided respectively.

The output signal of the line / BLSR protection switch 7 is input to the pointer processing circuit 10, and the multiplexed pointers are replaced.
The pointer multiplexed in the output signal of the line / BLSR protection switch 8 is the pointer processing circuit 1.
1 and the pointer multiplexed in the output signal of the SOH termination circuit 4 by the pointer processing circuit 12.
The pointer multiplexed with the output signal of the OH termination circuit 2 is replaced by the pointer processing circuit 13, and the pointer multiplexed with the output signal of the line protection switch 9 is replaced by the pointer processing circuit 14. The output signals of the pointer processing circuits 10 and 11 are switched by the path protection switch 15.

The selector 16 is a pointer processing circuit 10, 1.
The selector 17 selects one of the output signals of the pointer processing circuits 10, 11, 12 and 14, and the selector 18 selects one of the output signals of the pointer processing circuits 10, 11 and 14. The selector 19 causes the pointer processing circuits 10, 11, 13 and 1 to operate.
The selector 20 selects one of the output signals of the pointer processing circuits 10, 11 and 14 and the output signal of the path protection switch 15, respectively.

The output signal of the selector 16 is added with SOH by the SOH adding circuit 21 and sent to the line # 1 of the transmission line, and the output signal of the selector 17 is output by the SOH adding circuit 22.
SOH is added to the transmission line # 2 line, and the output signal of the selector 18 is added to the transmission line # 3 line by the SOH addition circuit 23, and the output signal of the selector 19 is output to the SOH addition circuit 24. By SO
H is added and sent to the transmission line # 4 line, the output signal of the selector 20 is sent to the transmission line # 5 line with SOH added by the SOH adding circuit 25, and the output signal of the selector 20 is sent by the SOH adding circuit 26. SOH is added and sent to the transmission line # 6 line.

The pointer processing circuits 10 to 14 are S
It may be provided immediately after the OH termination circuits 1 to 6.

(Point-to-point network form) In the point-to-point network form, the transmission line # 1 is on the high speed (hereinafter abbreviated as HS) side.
/ 2 is used as a working / spare, and the intra-station interface uses transmission path # 5/6 as a working / spare. Each transmission line is terminated in SOH termination circuits 1, 2, 5 and 6, respectively, and a line / BLSR protection switch 7
Then, a normal signal is selected from either of the transmission lines # 1 and 2, and the line protection switch 9 selects a normal signal from either of the transmission lines # 5 and 6. The pointer processing circuit 10 changes the pointer value of the signal from the line / BLSR protection switch 7 and transfers it to the internal clock. The pointer processing circuit 14 changes the pointer value of the signal from the line protection switch 9 and transfers it to the internal clock.

The selector 16 selects either the output signal of the pointer processing circuit 10 connected to the input A or the output signal of the pointer processing circuit 14 connected to the input C, and the selected signal is It is supplied to the SOH addition circuit 21 for the transmission line # 1. The selector 16 is controlled so that A is selected when the signal from the HS side transmission line is looped back, and C is selected when the signal from the intra-station interface is sent to the HS side. The selector 17 selects one of the output signal of the pointer processing circuit 10 connected to the input A and the output signal of the pointer processing circuit 14 connected to the input C, and the selected signal is the signal of the transmission line # 2. It is supplied to the SOH adding circuit 22. The selector 17 is controlled so that the same signal as the selector 16 is selected.
The selector 20 selects either the output signal of the pointer processing circuit 10 connected to the input A or the output signal of the pointer processing circuit 14 connected to the input C, and the selected signal is the transmission line # It is supplied to the SOH adding circuits 25 and 26 of 5 and 6. The control of the selector 20 is such that when the signal from the HS side is sent to the intra-station interface,
A is selected, and when looping back the signal from the in-station interface, C is selected.

(Linear Bus Network Form) In the linear bus network form, the transmission devices at both ends of the network operate in the same manner as the point-to-point network form. In the intermediate transmission device, HS-WE
ST side uses transmission line # 1/2 as working / spare, and H
The S-EAST side uses the transmission line # 3/4 as a working / spare, and the in-station interface uses the transmission line # 5/6 as a working / spare. Each transmission line is terminated in each of SOH termination circuits 1 to 6, and in the line / BLSR protection switch 7, either transmission line # 1 or # 2,
Also, line / BLSR protection switch 8
Then, the transmission path # 3 or # 4 is selected, and the line protection switch 9 selects a normal signal on the transmission path # 5 or # 6. The pointer processing circuit 10 changes the pointer value of the signal from the line / BLSR protection switch 7 and transfers it to the internal clock. The pointer processing circuit 11 changes the pointer value of the signal from the line / BLSR protection switch 8 and transfers it to the internal clock. The pointer processing circuit 14 changes the pointer value of the signal from the line / BLSR protection switch 9 and transfers it to the internal clock.

The selector 16 outputs the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. Signal is selected, and the selected signal is supplied to the SOH adding circuit 21 of the transmission path # 1. The selector 16 controls A when looping back the signal from the WEST side, and E
When the signal from the AST side is passed through, B is selected, and when the signal from the in-office interface is sent to the west side, C is selected. Selector 17
Is one of the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. And the selected signal is
It is supplied to the SOH adding circuit 22 of the transmission line # 2. The selector 17 is controlled so that the same signal as the selector 16 is selected. The selector 18 is one of the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. Signal is selected, and the selected signal is supplied to the working SOH adding circuit 23 on the transmission path # 3. The control of the selector 18 is EA
Select B to loop back the signal from the ST side, select A to pass through the signal from the west side, and select EAST to send the signal from the in-station interface.
When sending to the side, C is selected. The selector 19 outputs the output signal of the pointer processing circuit 10 connected to the input A and the pointer processing circuit 11 connected to the input B.
Output signal and pointer processing circuit 1 connected to input C
4 is selected, and the selected signal is supplied to the SOH adding circuit 24 of the transmission path # 4.
The selector 19 is controlled so that the same signal as the selector 18 is selected. The selector 20 is one of the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. Of the transmission lines # 5 and # 6.
Are supplied to the SOH adding circuits 25 and 26. The control of the selector 20 selects A when transmitting a signal from the WEST side to the in-station interface, B when transmitting a signal from the EAST side to the in-station interface, and selects the signal from the in-station interface. When looping back, C is selected. A is selected when passing through, and C is selected when transmitting a signal from the in-station interface to the EAST side.

(Two-fiber / UPSR network form) In the two-fiber / UPSR network form, the transmission line # 1/2 forms a ring on the transmission line WEST side / E.
It is used as the AST side, and the internal interface is the transmission line #
Use 5 and 6 as working / spare. Line / BL
The SR protection switch 7 is always the transmission line # 1.
Set to output the line signal, and
The BLSR protection switch 8 is set to always output the signal of the transmission line # 2 line. Each transmission line is terminated in each of the SOH termination circuits 1, 2, 5 and 6, and the line protection switch 9 selects a normal signal of either transmission line # 5 or 6. The pointer processing circuit 10 changes the pointer value of the signal from the line / BLSR protection switch 7 and transfers it to the internal clock. Line / B
The pointer processing circuit 11 changes the pointer value of the signal from the LSR protection switch 8 and transfers it to the internal clock. The path protection switch 15 monitors the transmission quality of the output signal of the pointer processing circuit 10 and the output signal of the pointer processing circuit 11 and outputs a signal of excellent quality.

The selector 16 outputs the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. Signal is selected, and the selected signal is supplied to the SOH adding circuit 21 of the transmission path # 1. The selector 16 controls A when looping back the signal from the WEST side, and E
When the signal from the AST side is passed through, B is selected, and when the signal from the in-office interface is sent to the west side, C is selected. Selector 17
Is one of the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. And the selected signal is
It is supplied to the SOH adding circuit 22 of the transmission line # 2. The selector 17 is controlled by selecting B when looping back the signal from the EAST side, selecting A when passing through the signal from the WEST side, and selecting A from the in-station interface to the EAST side. When transmitting, C is selected. The selector 20 selects one of the output signal of the pointer processing circuit 14 connected to the input C and the output signal of the path protection switch 15 connected to the input D, and the selected signal is transmitted. It is supplied to the SOH adding circuits 25 and 26 of the paths # 5 and # 6. The selector 20 is controlled so that C is selected when the signal from the intra-office interface is looped back, and D is selected when the signal from the two-fiber / UPSR is sent to the intra-office interface.

(Two-fiber / BLSR network form) In the two-fiber / BLSR network form, the transmission line # 1/2 side forms a ring and the transmission line WEST side / E
It is used as the AST side, and the internal interface is the transmission line
Use 5 and # 6 as working / spare. Line / B
The LSR protection switch 7 is always the transmission line #
The signal of one line is set to be output, and the line / BLSR protection switch 8 is set to always output the signal of line # 2 of the transmission line. Each transmission line is terminated in each of the SOH termination circuits 1, 2, 5 and 6, and the line protection switch 9 selects a normal signal of either transmission line # 5 or 6.
The pointer processing circuit 10 changes the pointer value of the signal from the line / BLSR protection switch 7 and transfers it to the internal clock. line/
The signal from the BLSR protection switch 8 is
Replace the pointer value in the pointer processing circuit 11,
Change to the device clock. Line / BLSR
The pointer processing circuit 14 changes the pointer value of the signal from the protection switch 9 and transfers the signal to the internal clock.

The selector 16 outputs the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. Signal is selected, and the selected signal is supplied to the SOH adding circuit 21 of the transmission path # 1. In the control of the selector 16, in the case of output to the working channel, A is selected when the signal from the WEST side is looped back, B is selected when the signal from the EAST side is passed through, and When sending a signal from the interface to the west side, C is selected. In the case of output to the backup channel,
At the time of ring protection on the EAST side, the same signal as the working channel on the EAST side is selected, and at the time of the through node, B is selected so that the working channel input from the EAST side is output. Selector 17 has input A
Select one of the output signal of the pointer processing circuit 10 connected to the input B, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C, The selected signal is the transmission path # 2.
Is supplied to the SOH adding circuit 22 of. The control of the selector 17 is such that when outputting to the working channel, B is selected when looping back the signal from the EAST side, and WEST is selected.
If you want to pass through the signal from the side, select A,
When the signal from the in-station interface is sent to the EAST side, C is selected. Further, in the case of output to the protection channel, the same signal as the working channel on the WEST side is selected so as to be selected during ring protection on the WEST side, and the working channel input from the WEST side is outputted at the time of the through node. To select A. The selector 20 outputs the output signal of the pointer processing circuit 10 connected to the input A and the pointer processing circuit 11 connected to the input B.
Output signal and pointer processing circuit 1 connected to input C
4 is selected, and the selected signal is supplied to the SOH adding circuits 25 and 26 of the transmission lines # 5 and # 6. The control of the selector 20 is WEST
When sending a signal on the local side to the intra-station interface, A is selected normally, B is selected during ring protection on the WEST side, and when sending a signal on the EAST side to the internal interface, normal B is selected on the ring side on the EAST side. A is selected at the time of protection, and C is selected when the signal from the in-station interface is looped back.

(Four-fiber / BLSR network form) In the four-fiber / BLSR network form, transmission lines # 1/2/3/4 form transmission lines WEST-working / WEST-spare / EAST-working /
EAST-used as a spare, and the in-station interface uses transmission lines # 5 and # 6 as a working / spare. Each transmission line is terminated in each of SOH termination circuits 1-6.
Line / BLSR protection switch 7 is S
The output signals of the OH termination circuits 1, 2 and 4 are input, and W
Selects the output signal of the SOH termination circuit 2 when the EST side span switch is used, and SOH when the EST side ring switch is used.
The output signal of the terminating circuit 4 is selected, and the output signal of the SOH terminating circuit 1 is selected otherwise. The line / BLSR protection switch 8 receives the output signals of the SOH terminating circuits 2, 3 and 4, and selects the output signal of the SOH terminating circuit 4 when the span switch on the EAST side is selected.
When the side ring switch is selected, the output signal of the SOH termination circuit 2 is selected, and in other cases, the output signal of the SOH termination circuit 3 is selected. The line protection switch 9 selects a normal signal on either the transmission path # 5 or # 6. The pointer processing circuit 10 changes the pointer value of the signal from the line / BLSR protection switch 7 and transfers it to the internal clock. Line / B
The pointer processing circuit 11 changes the pointer value of the signal from the LSR protection switch 8 and transfers it to the internal clock. The pointer processing circuit 12 changes the pointer value of the signal from the SOH terminating circuit 4 and transfers it to the internal clock. SO
The pointer processing circuit 13 changes the pointer value of the signal from the H terminal circuit 2 and transfers it to the internal clock. The pointer processing circuit 14 changes the pointer value of the signal from the line protection switch 9 and transfers it to the internal clock.

The selector 16 outputs the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. Signal is selected, and the selected signal is supplied to the SOH adding circuit 21 of the transmission path # 1. The selector 16 controls A when looping back the signal from the WEST side, and E
When the signal from the AST side is passed through, B is selected, and when the signal from the in-office interface is sent to the west side, C is selected. Selector 17
Is one of the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. And the selected signal is
It is supplied to the SOH adding circuit 22 of the transmission line # 2. The selector 17 is controlled so that the same signal as the selector 16 is selected when the span switch on the WEST side is selected.
When the side ring switch is used, the same signal as that of the selector 18 is selected, and when the through node is selected, D is selected. The selector 18 is one of the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. Of the SOH adding circuit 2 of the transmission line # 3.
3 is supplied. The control of the selector 18 selects B when the signal from the EAST side is looped back, and WE
When the signal from the ST side is passed through, A is selected, and when the signal from the in-office interface is sent to the EAST side, C is selected. Selector 19
Is the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, the output signal of the pointer processing circuit 14 connected to the input C, and the input C One of the output signals of the connected pointer processing circuit 13 is selected, and the selected signal is supplied to the SOH adding circuit 24 of the transmission path # 4. The selector 19 is controlled so that the same signal as the selector 18 is selected when the span switch on the EAST side is selected.
When the ST side ring switch is used, the same signal as that of the selector 16 is selected, and when the through node is selected, D is selected. The selector 20 is one of the output signal of the pointer processing circuit 10 connected to the input A, the output signal of the pointer processing circuit 11 connected to the input B, and the output signal of the pointer processing circuit 14 connected to the input C. Of the transmission lines # 5 and # 6.
It is supplied to the OH addition circuits 25 and 26. Selector 2
The control of 0 is to select A when sending the signal from the west side to the in-station interface, select B when sending the signal from the east side to the in-station interface, and loop the signal from the in-station interface. When backing up, C is selected.

[0025]

As described in detail above, the flexible transmission network constituent device according to the present invention can be set to point-to-point, 2-fiber, by setting the inside of the device.
UPSR, 2-fiber / BLSR, 4-fiber / BLS
Various R network forms can be configured by one device, and there is an effect that development cost and time can be reduced without designing and manufacturing a plurality of transmission devices.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a flexible transmission network configuration device according to the present invention.

[Explanation of symbols]

 1 to 6 SOH termination circuit 7, 8 line / BLSR protection switch 9 line protection switch 10 to 14 pointer processing circuit 15 path protection switch 16 to 20 selector 21 to 26 SOH addition circuit

Claims (4)

[Claims] 1. A transmission device in a digital synchronous network, wherein a section overhead (SO) is connected to each of a plurality of transmission lines and terminates a digital signal transmitted respectively.
H) terminating means, protection switch control means for performing protection control corresponding to any one of a plurality of network types, and for matching a received digital signal received through the SOH terminating means with a clock in the device Pointer processing means, and selection means for selecting a digital signal to be sent to each of the plurality of transmission lines from the plurality of digital signals generated through the protection switch control means and the pointer processing means based on the protection control. A flexible transmission device comprising: SOH adding means for adding SOH to each of the digital signals sent to the plurality of transmission paths. 2. The plurality of network forms are point-to-point type, linear bus type, two-fiber U
PSR (unidirectional path switched ring) type, 2 fiber BLSR (bidirectional line switched ring) type, and 4 fiber
The flexible transmission device according to claim 1, wherein the flexible transmission device is of a BLSR type. 3. The protection control is linear line protection control in the case of the point-to-point type or the linear bus type network form, and path protection in the case of the two-fiber UPSR type network form. Control and 2 fiber B
The flexible transmission device according to claim 2, wherein line protection control is performed in the case of the LSR type or 4-fiber / BLSR type network configuration. 4. SDH (Synchronous Digital Hierarch)
y) In the transmission device, an SOH termination circuit for terminating each digital signal input from the first transmission line and the second transmission line having a working / spare line, a working / spare side of the first transmission line and a First protection switch means for selecting one of the signals output from the SOH terminating circuit on the protection side of the second transmission path and controlling the protection of the transmission path; and the working / spare side of the second transmission path. And second protection switch means for selecting one of the signals output from the SOH termination circuit on the spare side of the first transmission path to control the protection of the transmission path; and the first protection switch means. A path protection switch for selecting a signal having an excellent transmission quality from among the output signal and the signal output from the second protection switch means. Means and one of the signals output from the first and second protection switch means and the signal input from the third transmission path to the working side of the first transmission path according to signal connection and protection control. A first selector for selecting a signal to be sent, a signal output from the first and second protection switch means, a signal input from a third transmission line, and a second
A second selector that selects a signal to be sent to the backup side of the first transmission line from any of the signals output from the SOH termination circuit on the backup side of the first transmission line, according to signal connection and protection control; A signal to be sent to the working side of the second transmission line is selected from either the signal output from the second protection switch means or the signal input from the third transmission line in accordance with signal connection and protection control. The signal output from the third selector, the first and second protection switch means, the signal input from the third transmission line, and the first
A fourth selector that selects a signal to be sent to the backup side of the second transmission line from any of the signals output from the SOH termination circuit on the backup side of the second transmission line, according to signal connection and protection control; According to signal connection and protection control, the signal is output from any one of the signal output from the second protection switch means, the signal input from the third transmission path, and the signal output from the path protection switch means. A fifth selector for selecting a signal to be sent to the transmission line; and an SOH adding circuit for adding SOH to the signals output from the first, second, third and fourth selectors and sending the signal to each transmission line. Flexible transmission device.