JP2820005B2 - Cross connect method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cross-connect system, and more particularly to a cross-connect system in which a specific cross-connect connection is made at a cross-connect interface unit when a power failure occurs in the cross-connect unit.

[0002]

2. Description of the Related Art Referring to FIG. 2, a conventional cross-connect system has N inputs 1 to N and N outputs 1 to N, and has arbitrary inputs 1 to N and outputs 1 to N. A cross-connect unit 1 for cross-connecting any output of the
The cross-connect unit 1 comprises a cross-connect control unit 2 for controlling the cross-connect connection. The cross-connect unit 1 has any one of inputs 1 to N according to a control signal a from the cross-connect control unit 2. A cross-connect connection with any of the outputs 1 to N is made.

[0003]

In the conventional cross-connect system, when the cross-connect unit 1 is composed of an electronic switch or the like, when the cross-connect unit 1 fails, such as when power is cut off, the cross-connect unit 1 is connected. Connection cannot be made.

[0004]

The cross-connect system according to the present invention has N inputs and N outputs, and has an arbitrary input of the N inputs and the N inputs in response to a first control signal.
First cross-connect means for making a first connection of an output of the book with an arbitrary output;
A first cross-connect control means for controlling the first connection of the cross-connect means; N port inputs and N
N cross-connect outputs, each having one port output and connected to the N inputs of the first cross-connect means; and the N outputs of the first cross-connect means, respectively. N connected (N ≦ 1) according to the second control signal.
(n ≦ N; integer) a second connection between the port input and the n-th cross-connect output, a third connection between the n-th port output and the n-th cross-connect input, and an m-th connection. (M = 2k−1, 1 ≦ k ≦ N / 2; integer) a fourth connection between the (m + 1) -th port output and the (m + 1) -th port output and the (m + 1) -th port output A second cross-connect unit for performing a fifth connection with the port input; and a second cross-connect unit that receives a fault information signal from the first cross-connect unit as an input and receives the second control signal. The second to fifth
And a second cross-connect control means for controlling the connection of

[0005]

Next, the present invention will be described with reference to the drawings. Referring to FIG. 1 showing an embodiment of the present invention, a cross-connect scheme includes N inputs 1 to N and N outputs 1 to N
And a cross-connect unit 1 for cross-connecting any of the inputs 1 to N and any of the outputs 1 to N, and controlling the cross-connect connection in the cross-connect unit 1 by a control signal a. Cross-connect controller 2, N port inputs 1 to N and N port outputs 1
To N, and N inputs 1 to 1 of the cross-connect unit 1.
N cross-connect outputs 1 to 1 respectively connected to N
A cross-connect interface unit 3 having N and N cross-connect inputs 1 to N respectively connected to the N outputs 1 to N of the cross-connect unit 1 and performing cross-connect connection according to a control signal c. And a cross-connect interface control unit 4 that receives a failure information signal b from the cross-connect unit 1 and controls a cross-connect connection in the cross-connect interface unit 3 by a control signal c.
It is composed of

More specifically, the cross connect unit 1 receives inputs 1 to N in response to a control signal a from the cross connect control unit 2.
Are cross-connected (first connection) to any one of the outputs 1 to N. The cross-connect interface control unit 4 is in a normal state in which a failure such as power interruption has not occurred in the cross-connect unit 1, that is, the cross-connect interface control unit 4
When the failure information signal b is not output to the cross-connect interface unit 3, the n-th (1 ≦ n ≦
N; connection between port input and n-th cross-connect output integer) (second connection), and connection to the n-th port output and the n-th cross-connect input (third connection) to perform , The respective cross-connect connections between the inputs 1 to N of the cross-connect unit 1 and the outputs 1 to N of the cross-connect unit 1 and the port inputs 1 to N of the cross-connect interface unit 3 and the cross-connect interface and each of the cross-connect connection to the port output 1~N parts 3 Ru match.

Further, the cross-connect interface control unit 4 sends a signal from the cross-connect unit 1 to the cross-connect interface control unit 4 when a failure such as a power failure occurs in the cross-connect unit 1 and the cross-connect connection cannot be established. When the failure information signal b is output, the m-th (m =
2k-1, 1 ≦ k ≦ N / 2; integer) port input and (m
By controlling the connection between the ( +1) th port output (fourth connection) and the mth port output and the (m + 1) th port input (fifth connection) ,
Port inputs 1 to N at cross connect interface 3
And the port outputs 1 to N are cross-connected.

Further, in the present embodiment, the same (n-th) port input and port output are connected from the cross-connect interface control unit 4 to the cross-connect interface unit 3 during the loopback test (sixth connection). )
By performing such control, loopback connection can be easily performed via the n-th port input and port output.

[0009]

As described above, according to the present invention, even if a failure such as a power failure occurs in the cross-connect section and the cross-connect connection in the cross-connect section becomes impossible, the cross-connect interface section can be used. A specific odd-numbered port m (m = 2k-1, 1 ≦ k ≦ N /
2; an integer) and an even-numbered port (m + 1), thereby enabling a cross-connect connection. In particular, a cross-connect connection during normal use is made between a specific odd-numbered port m and an even-numbered port (m + 1). It is effective in a cross-connect system that accommodates lines so that connections can be made. Further, the connection of the loopback test can be easily performed in the cross-connect interface section.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a cross-connect method according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a conventional cross connect method.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Cross connect part 2 Cross connect control part 3 Cross connect interface part 4 Cross connect interface control part a Control signal b Fault information signal c Control signal

Claims (2)

(57) [Claims] A first input terminal having N inputs and N outputs;
First cross-connect means for performing a first connection between an arbitrary input of the N inputs and an arbitrary output of the N outputs in response to the control signal of First cross-connect control means for controlling the first connection of one cross-connect means; N port inputs and N port outputs; and the N inputs of the cross-connect means. And N cross-connect outputs respectively connected to the second control signal, and N cross-connect inputs respectively connected to the N outputs of the cross-connect means. 1 ≦ n ≦ N; integer) a second connection between the port input and the n-th cross-connect output, a third connection between the n-th port output and the n-th cross-connect input, m-th (m = 2k-1,1 (k ≦ N / 2; integer), a fourth connection between the (m + 1) th port output and the (m + 1) th port input, and a fifth connection between the mth port output and the (m + 1) th port input. And a second cross-connect means for receiving the fault information signal from the first cross-connect means and receiving the fault information signal from the first cross-connect means by the second control signal. And a second cross-connect control means for performing control. 2. The cross-connect according to claim 1, wherein the second cross-connect means performs a sixth connection between the same port input and the same port output in response to a signal instructing a loop-back test. method.