JPH07112213B2 - D channel folding method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Table of Contents] Outline Industrial field of application Conventional technology (FIGS. 4 to 6) Problems to be solved by the invention Means for solving problems (FIG. 1) Operation Embodiments (FIGS. 2 and 3) Effects of the Invention [Outline] The present invention relates to a network terminating device NT for connecting a network in ISDN or INS and a plurality of terminals TE, and a network for testing the network terminating device. Even if an access request is made from the terminal while the D-channel loopback test is being performed from the side, a signal different from the received D-channel signal is returned to the terminal by the E-channel so that the terminal cannot access. .

[Industrial application field]

The present invention is a service integrated digital network (Integrated Servi
ces Digital Network (ISDN), or advanced information communication system (Information Network System; INS), etc., relates to a D channel loopback method in a network terminating device that connects a plurality of terminals to a network. Even if the terminal uses the D channel to make an access request to the network terminating device during the channel loopback test, the network terminating device outputs E to the terminal.
The present invention relates to a device for returning a signal indicating that a network terminating device is in use by a channel.

[Conventional technology]

As shown in FIG. 4, ISDN and the like are provided with a subscriber line 100 and a network terminating device 101 for connecting a digital exchange network and a plurality of terminals TE ₁ ... TEi. The network terminator 101 is connected to a subscriber line to terminate the network, and inside the home of the network terminator 101, a plurality of terminals TE _{1 to} TEn are connected in a bus form.

Data having a frame structure as shown in FIG. 5 is transmitted on this bus. 5A is a frame transmitted from the network terminating device 101 to the terminals TE _{1 to} TEn, and FIG. 5B is a frame transmitted from the terminals TE _{1 to} TEn to the network terminating device 101. .

Here, F is a frame bit indicating a frame delimiter, L is a DC balance bit, D is a D channel bit indicating signal data, and E is a D permission indicating a use permission for conflict prevention. Echo channel bit, Fa is ancillary frame bit, B1 is B1 channel bit indicating voice and other information channel, B2 is B2 channel bit indicating voice and other information channel . Descriptions of other bits are omitted for simplification of description.

Since a plurality of terminals TE _{1 to} TEn are connected to the network terminating device 101 in the house, there is a possibility that a plurality of terminals will simultaneously access. In order to avoid this contention, as shown in FIG. 6, in the network terminating device 101, the D channel bit of the user network U / N, that is, the home bus is set to the E channel.
I am turning back to a bit. The access requesting terminal is the fifth
The received E-channel bit in FIG. 10A is compared with the transmitted D-channel bit transmitted by itself, and if they match, it is determined that there is no conflict with other terminals, that is, that the user has the usage right. The communication can be performed in a predetermined procedure. However, the transmission D channel and the reception E channel are compared, and if they do not match, it recognizes that there is a conflict with other terminals and is not in the use-permitted state, and communication of the D channel is stopped.

By the way, from the network side, for example, when the network terminating device is installed or the wiring state is checked for maintenance or the like, in this case, the network terminating device loopback test is performed as shown by the dotted line in FIG. That is, B1, B2, and D channels can be turned back independently by a network command. The network is configured so that it can investigate the abnormality of the subscriber line 100 and the network terminating device 101 by issuing a loopback command and checking whether the transmitted signal and the received signal match.

The network terminator 101 is provided with means for extracting LoopD, B1, B2, etc. from the digital signal transmitted from the subscriber line 100.

[Problems to be solved by the invention]

As shown in FIG. 6, the network terminating device 101 is provided with selectors 111 and 112 for carrying out the above-mentioned loopback test, and these selectors have a D channel NT loopback command LoopD =
When it is "1", that is, when the D channel NT loopback command is output, the signal of the terminal B is output from the terminal Y. Therefore, the selector 111 makes the upstream D channel through when LoopD is “0”, and LoopD =
When it is "1", D channel is returned to the network side.
Further, the selector 112 sets the downlink D channel to “through” when LoopD = “0” and sets the downlink D channel to all “1”, that is, no communication state when LoopD = “1”. This is to prevent a meaningless signal from being sent to the terminal side in the D channel NT loopback test. In addition, the E side channel on the bus side of the house is directly returning to the D side channel.

By the way, if the terminal side makes an access while performing such a loopback test on the network side, the B channel is assigned in the network when the B channel is looped back, so that the terminal performs the B channel NT loopback test by the D channel communication. Know inside, do not access. However, during the D-channel return test, the D-channel from the terminal was E
Although it is recognized that communication is possible because it is returned to the channel, there is a problem that the D channel cannot actually communicate with the network side by the selectors 111 and 112.

An object of the present invention is to improve such a problem, and when a D channel NT loopback test is performed from the network side, a different signal is transmitted to the terminal side without transmitting the reception D channel to the E channel. The D channel folding method is provided.

[Means for solving problems]

In order to achieve the above object, in the present invention, as shown in FIG. 1, a selection signal output unit 13 is provided in the network terminating device 1 in addition to the selectors 11 and 12. This selection signal output unit 13 is provided when the D channel loopback command LoopD = "1" from the network side.
Even if there is an access request from the terminal, the E channel bit of a pattern different from that of the D channel bit is output. When LoopD = "0", the D channel bit is E when the terminal requests access. Works like turning back to a channel bit.

[Action]

Network channel return command from channel D LoopD =
When the value is "1", the E-channel bit different from the D-channel bit of each terminal is output from the selection signal output unit 13, so that the D-channel loopback test is performed from the network side to the network terminating device 1. Even if an access request is made from a terminal in the home to the terminal, the returned E channel bit does not match the D channel bit of any terminal, so processing is performed at the terminal that requested access as if there was contention with another terminal. Therefore, the above problems will be improved.

Of course, if the test from the network side is not in progress, LoopD ＝
It becomes "0", and at that time, the selection signal output unit 13 returns the D channel bit from the terminal as an E channel bit, so that the terminal side can judge whether communication is possible. The selectors 11 and 12 perform the same operations as the selectors 111 and 112 of FIG. 6 described above, respectively.

〔Example〕

An embodiment of the present invention will be described based on FIG. 2 and with reference to other drawings.

In FIG. 2, a network terminating device 1 corresponds to the network terminating device 101 shown in FIG. 4, is connected to the network by a subscriber line, and is connected to a plurality of terminals inside the home. It has a function to extract signals such as LoopD.

11 and 12 are selectors, each of which is shown in FIG.
The selectors 11 and 12 output signals from the terminal A from the terminal Y when LoopD is "0", and output signals from the terminal B when LoopD is "1".

The selection signal output unit 13 includes a selector 21 and an inverter 22, and the selector 21 is the same as the selectors 11 and 12,
When LoopD is "0", the signal from terminal A is output to terminal Y and L
When oopD is "1", the signal from terminal B is output.

D channel to test from network now
When the NT loopback command LoopD = "1" is applied, the downlink D channel applied to the terminal B is looped back to the network side in the selector 11 and applied to the terminal B in the selector 12 as in the case of FIG. All "1" is output to set the non-communication state. When LoopD = "0", selector 1
At 1, the D channel applied to the terminal A is output to the through and the upstream D channel transmitted from the terminal of the user network is output to the through. And in Selector 12, Loop
When D = "0", the upstream D channel applied to the terminal A is made through.

By the way, in the selector 21, the bus side reception D channel is directly input to the terminal A, and the inverted signal of the bus side reception D channel is input to the terminal B through the inverter 22. Similarly to the selectors 11 and 12, when LoopD = “1”, the signal is output to the terminal Y signal of the terminal B, and when LoopD is “0”, the signal of the terminal A is output to the terminal Y, which is the E channel.

That is, when the D channel NT loopback test is not performed, LoopD = "0", and the D channel from the terminal is looped back from the terminal A of the selector 21 to the E channel via the terminal Y. When this is checked and the same signal is returned, it is determined that communication is possible.

By the way, when the D channel NT loopback test is performed, that is, when LoopD = "1", the inverted signal of the D channel received by the selection signal output unit 13 by the inverter 22 and the selector 21 is looped back to the E channel. The terminal recognizes that a conflict with another terminal has occurred and stops the D channel communication.

Loop even when there is no communication, that is, the received D channel = "1"
When D = “1”, the inverted signal “0” of the D channel is returned to the E channel and is returned to the E channel. Therefore, the terminal thinks that another terminal is communicating and does not access the D channel.

Another embodiment of the present invention will be described with reference to FIG. Third
The figure shows another configuration example of the pseudo display signal output section. Third
In the illustrated example, all “0” s are applied to the terminal B of the selector 21 by the “0” output section (not shown).
As a result, the same effect as in the case of FIG. 2 can be obtained.

However, the terminal that is communicating is set to "0" in the D of the user network.
When output to the channel for a long period of time, in the embodiment shown in FIG. 2, the terminal can immediately discriminate the collision, that is, the D channel communication is stopped, but in the embodiment shown in FIG. It is understood that there is a collision state when "0" is received and "0" is received, and the D channel communication is stopped for the first time. However, there is no problem because the signal length of the D channel is fixed and "1" is output during that period.

According to the present invention, during the D channel NT loopback test from the network, a signal different from the D channel is sent to the E channel on the bus to the terminal, so the terminal uses the D channel. It does not access the D Channel by recognizing that it is inside. Therefore, a lean system can be obtained.

[Brief description of drawings]

FIG. 1 is a diagram for explaining the principle of the present invention, FIG. 2 is a diagram for explaining an embodiment of the present invention, FIG. 3 is a diagram for explaining another embodiment for the present invention, and FIG. 4 is a system diagram for a network terminating device. FIG. 5 is a frame configuration diagram of a user / network interface, and FIG. 6 is an explanatory diagram of a conventional network terminating device. 1 ... Network terminator 11, 12 ... Selector 13 ... Selection signal output section 21 ... Selector 22 ... Inverter

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display location H04L 29/14 H04M 3/26 G 9371-5K H04L 13/00 315 A

Claims (1)

[Claims] 1. A network terminator NT which terminates a subscriber line and is bus-connected to a plurality of terminals TE, when the D-channel loopback test command (LoopD) is not tested, the upstream D-channel on the terminal side is changed to the D-channel. When the loopback test command is a test, it selects the downlink D channel on the subscriber line side, and selector means (11) for sending the selected signal to the subscriber line upstream D channel, and the subscriber line when the D channel loopback test command is not tested. In the D channel return method, which is equipped with a selector means (12) for selecting a no-signal state when the D channel return test command selects the no-signal state at the time of the test, and transmitting the selected signal to the terminal side downstream D channel. When the loopback test command is not yet tested, the terminal-side upstream D channel is used. When the loopback test command is tested, the terminal-side upstream D channel is tested. In order to detect a contention state of the terminal-side upstream D-channel by selecting a signal different from the terminal-side upstream D-channel indicating the combined state and comparing with the D-channel being transmitted at the terminal TE A selection signal output means (13) for transmitting a selected signal is provided on the E channel that turns up the side up D channel, and during the subscriber line side D channel turn back test, the selector means (11) causes the down line D of the subscriber line. The channel is sent to the subscriber line up D channel, the selector means (12) sends down the signal on the terminal side to the D channel, and the selection signal output means (13) sends up to the E channel on the terminal side. Outputs a signal indicating the race condition of the D channel,
The D-channel loopback method that prevents the terminal TE from accessing the upstream D channel by detecting the contention of the upstream D channel by the terminal TE.