JPH043558A - Subscriber line test system - Google Patents

Abstract

PURPOSE:To make the entire system small by providing a test control line interface section and a selection function section from plural exchanges to a subscriber line test equipment and using the subscriber line test equipment in common by plural exchanges. CONSTITUTION:A subscriber line test equipment SLT consists of line interface sections HWIF-0-HWIF-n, a selection control section PRF, a selector section SEL, test function sections TST-0-TST-X, a signal drive section SD, a signal scanning section SCN and a test Switch section TSTSW. Then the line interface sections HWIF-0-HWIF-n are connected to lines 100-0-100-n respectively to interface a remote subscriber multiplex transmitter RT being a connection destination. When the subscriber line test equipment SLT receives a start signal for subscriber line test from a multiplex transmitter to be connected, the subscriber line test equipment SLT selects the multiplex transmitter sending the start signal and connects to various test function section thereby conducting the test of the subscriber line accommodated in the multiplex transmitter. Thus, the test function section is used in common by plural exchanges.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for testing subscriber lines, and more specifically to a method for testing subscriber lines accommodated in automatic exchanges.

(Prior art) For example, when accommodating a small number of subscriber terminals in a building etc. to an automatic exchange, transmission equipment is installed on both the exchange side and the building side, and the subscriber lines housed in the building are A method is used that multiplexes and transmits them all at once. In this case, since digital signals are relayed between the transmission devices, the analog interface unit connected to the subscriber line is connected to the transmission device installed on the building side. Then, the analog information on the subscriber line is converted into a digital signal at the analog interface section, and the signal is sent to and received from the exchange via the transmission device.

When testing subscriber lines, it is necessary to connect them using an analog signal interface.

For this purpose, a test device is installed on the building side, the subscriber line is connected to the transmission device, and the subscriber line is tested by receiving test information from the exchange side via the transmission device. When telephone subscriber terminals are housed in multiple exchanges in the same or adjacent buildings, subscriber line tests are performed using test equipment installed on the building side corresponding to the exchanges.

(Problem to be Solved by the Invention) However, in such a conventional system, when subscriber terminals in the same or adjacent buildings are accommodated in multiple exchanges, subscriber terminals for testing subscriber line Line testing equipment will be required for each exchange. Therefore, for a subscriber line test with a small number of subscribers, the amount of hardware is large and the economic efficiency is poor.
The problem was that it was not practical in buildings with limited installation space.

The present invention solves the drawbacks of the prior art and allows multiple exchanges to share the subscriber line testing equipment.
The purpose of the present invention is to provide a subscriber line testing method that is compact overall and has excellent economic efficiency.

(Means for Solving the Problems) In order to solve the above-mentioned problems, the present invention provides a subscriber line testing method in an automatic exchange that accommodates a plurality of subscriber terminals via a multiplex transmission device. It is permissible for multiple multiplex transmission devices to be connected to a subscriber line testing equipment that has various test functional units that perform The multiplex transmission equipment accommodating the subscriber line to be tested is connected to various test function units, and the subscriber line is tested.

Further, according to the present invention, in the subscriber line testing method described above, the subscriber line testing device has a line interface means that allows connection with a plurality of multiplex transmission devices, and a multiplex transmission device connected to the single line interface means. It has selection means for selecting one multiplex transmission device from among the transmission devices and connecting it to various test function units.

(Function) According to the present invention, when the subscriber line testing device receives an activation signal for performing a subscriber line test from a connected multiplex transmission device, the selection means selects the multiplex transmission device that transmitted the activation signal. It connects to various test function units and tests the subscriber lines accommodated in this multiplex transmission equipment.

(Embodiment) Next, an embodiment of the subscriber line testing system according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows a relay system diagram in an embodiment of the subscriber line testing system. Remote subscriber multiplex transmission equipment RT-
A-RT-C is a remote subscriber multiplex transmission device that accommodates a plurality of telephone devices via subscriber line SL. These remote subscriber multiplex transmission devices RT have the function of transmitting information between the exchange MW and the telephone equipment, and the telephone 1! It has an analog interface function with the equipment.

The remote subscriber multiplex transmission equipment RT-A connects to the exchange A via the transmission line, and the remote subscriber multiplex transmission equipment RT-8 connects to the exchange # via the transmission line.
! to exchange B via L, the remote subscriber multiplexer RT
-C are respectively connected to exchange C via transmission lines. Each remote subscriber multiplex transmission device RT is also connected via a test line LT and a line 10 ( ) to a subscriber line test device SLT. SLT is connected.

The subscriber line testing device SLT is a subscriber line testing device that tests the subscriber line SL, and in the figure, it is connected to remote subscriber multiplex transmission equipment units housed in three different exchanges. These remote subscriber multiplex transmission equipment RT-A-R
The subscriber group 1 including T-(: is a subscriber group accommodated in the same or adjacent buildings. In FIG. 1, the subscriber line testing device SLT includes the remote subscriber multiplex transmission device RT. Although three subscriber line testing devices SLT are connected, the number of subscriber line testing devices SLT connected thereto is not particularly limited in this way.

Furthermore, the exchanges A to C have an automatic exchange NW that performs information connection control and the like, and a terminal subscriber line multiplex transmission device CT. Remote subscriber multiplex transmission equipment RT via transmission line
The terminal subscriber line multiplex transmission device CT connected to is a terminal subscriber line multiplex transmission device that transmits information between the automatic exchange Nil and the remote subscriber multiplex transmission device RT.

FIG. 2 shows the subscriber line testing device SL in this embodiment.
A functional block diagram of T is shown. As shown in the figure, the subscriber line testing equipment SLT has a line interface section H.
WIF-ro to HWIF-n, selection control section PRF, selector section SEL, test function section TST-0 to TST-x
, a signal driving section SD, a signal scanning section SCN, and a test switch section TSTSW. The line interface units H1lrF-0-HWIF-n each have a line t
oo-o to 100-n, and provides an interface with the connected remote subscriber multiplex transmission equipment RT. Each line interface section H1fIF is connected to the selection control section PRF via a signal m102, and is also connected to the selector section SEL via a signal line 104.

The selection control unit PRF is the one-line interface unit HWIF-
This is a functional unit that selects one from 0 to 1 (WIF-n).

The selection control section PRF is connected to the selector section SEL via a control line 106. The selector sections S and EL are connected to the line interface section HIIIF, the signal drive section SD, and the signal scanning section SCN according to control information 106 from the selection control section PRF. The signal driver SD sends the test control information sent from the line interface unit HIIIF to the test function units TST-0 to TST via the signal line 110.
- It has a function of distributing to x. The signal driver SD also includes:
It is connected to the test switch section TSTSW via the control circuit 1114, and controls the test switch section TSTSW.

Test function units TST-0 to TST-x perform subscriber line tests. The test function units TST-0 to TST-x are the signals! 1112 to the signal scanning unit SCN, and the signal line 1
Test switch unit TSTSW via 16-0 to 116-x
It is connected to the. The signal scanning unit SCN is a functional unit that collects information on the test results of various test functional units TST-0 to TST-x and sends this to the line interface unit HIIF. The test switch section TSTSW includes various test function sections T
Connect ST-0 to TST-x and test lines LT-0 to LT-m.

Next, the operation in this embodiment will be explained. When performing a subscriber line test from the switching center side, the terminal station subscriber line multiplex transmission equipment CT, and the remote subscriber multiplex transmission equipment RT via the transmission line.
Test control information is sent to Remote subscriber multiplex transmission equipment R
Upon receiving the test control information, T transmits it to the connected line interface section of the subscriber line testing equipment SLT).
Send to IWIF.

When the line interface unit HWIF receives the test control information, it sends a test connection request signal to the selection control unit PRF.

The selection control unit PRF is connected to each line interface unit HIII.
The connection request from F is monitored, and when a connection request signal is detected, the line interface unit HWI that issued the connection request
In order to connect F to the signal driving section SD and signal scanning section SCN, connection information is sent to the selector section SEL. In addition,
When connection request signals arrive at the selection control unit PRF from a plurality of line interface units HIIIF at the same time, one line interface unit (IWIF) is selected by the selection control unit PRF, and competition control is performed.

When the line interface section HWIF, the signal drive section 5Di5, and the signal scanning section SCN are connected at the selector section SEL, the signal drive section SD is connected to the line interface section HIIIF.
Receives test control information from various test function units TST-0.
- Send test information to TST-x. Various test function department T
ST-0 to TST-x are test switch sections TSTSII
When connected to the subscriber line SL via the test line LT, a line test is performed.

The information on the test results from the test function units TST-0 to TST-x is sent to the signal scanning unit SUN.6 The signal scanning unit SCN sends the test result information from the test function units TST-0 to TST-x to the line interface unit. The 6-line interface unit HIIIF sends the received test result information to the HIIIF.
It is sent to the exchange via the remote subscriber multiplex transmission device RT, the transmission line 41iL, and the terminal subscriber line multiplex transmission device CT. Upon receiving the test result information, the exchange performs predetermined processing based on the test result information.

The subscriber line testing device SLT in this embodiment is not limited to a group of subscribers accommodated in the same exchange, but can be applied to a group of subscribers connected to a plurality of exchanges as shown in FIG. is also applicable. In this case, subscriber line testing equipment S
LT is a line interface unit HW that supports multiple exchanges.
IF, a selection control unit PRF that selects one interface unit HWIF from these line interface units HWIF, and a selector unit SE that connects the line interface unit HIIF, the signal driver SD, and the signal scanning unit SCN.
By having L, the signal driving section SD and the signal scanning section SC
N, test function units TST-0 to TST-x, and test switch unit TSTSII can be shared by multiple exchanges.

For line synchronization with the multiple remote subscriber multiplex transmission equipment RT, the selected line interface HIIIP
By using the synchronization clock extracted from the line, it is possible to easily synchronize the multiplex transmission equipment RT for multiple remote subscribers.

(Effects of the Invention) As described above, according to the present invention, by providing the subscriber line testing equipment with the test control line interface unit and selection function unit from multiple exchanges, the proportion of hardware in the subscriber line testing equipment is large. It becomes possible to share the test function section. Also, regarding line synchronization, by selecting and using the synchronization signal of the selected line, synchronization with multiple lines is no longer necessary. Therefore, it is possible to construct a small and economical subscriber line testing system that is required when installed in a building or the like.

[Brief explanation of the drawing]

FIG. 1 is a relay system diagram showing an embodiment of a subscriber line testing system according to the present invention, and FIG. 2 is a functional block diagram showing an embodiment of a subscriber line testing device. C.T. NW, . PRF. RT. CN 5O. EL SLT. ST 5TSW Main part - tongue Bright end subscriber line multiplex transmission equipment Automatic exchange selection control unit Remote subscriber multiplex transmission equipment Signal scanning unit Signal drive unit Selector unit Subscriber line testing equipment Test function unit Test switch unit

Claims (1)

[Scope of Claims] 1. A subscriber line testing method in an automatic exchange accommodating a plurality of subscriber terminals via a multiplex transmission device, the testing method having various test functional units for testing subscriber lines. A plurality of the multiplex transmission devices are allowed to be connected to the subscriber line testing equipment, and when the automatic switching equipment tests the subscriber line, the subscriber line testing equipment connects the subscriber line to be tested. A subscriber line testing method characterized in that the subscriber line is tested by connecting the multiplex transmission equipment accommodating the above and the various test function units. 2. In the subscriber line testing system according to claim 1, the subscriber line testing device comprises: a line interface means that is allowed to connect with a plurality of the multiplex transmission devices; and a line interface means connected to the line interface means. A subscriber line testing device characterized by comprising a selection means for selecting one multiplex transmission device from among the multiplex transmission devices and connecting it to the various test function units. 3. The subscriber line testing device according to claim 2, wherein the line interface means is compatible with a plurality of automatic exchanges, and the test device can be shared by a plurality of automatic exchanges. Subscriber line testing equipment.