KR200310650Y1 - Relay line test device of exchanger - Google Patents

Abstract

The present invention relates to a trunk line test apparatus of an exchanger by connecting a trunk line test apparatus directly to a switch and matching digital signals by digital signal processing to simplify the structure of the trunk line test apparatus and improve reliability of the trunk line test measurement. .

The trunk line test apparatus of the switch of the present invention comprises: a controller for controlling the inside of the test apparatus by classifying test commands received from an upper controller or a centralized automatic reporting on trunk (CAROT); A digital signal processor for generating and transmitting various signals necessary for measurement based on a test command received from the controller, calculating a result by receiving a measurement signal received through a relay line, and applying the result data to the controller; A communication memory unit which functions to connect the control unit and the digital signal processing unit to exchange the test command or measurement result data; And a memory unit in which signal data necessary for data operation of the digital signal processor is stored.

Description

Relay line test device of exchanger

The present invention relates to a trunk line test apparatus of an exchanger, and more particularly, by connecting a trunk line test apparatus directly to a switch and matching digital signals by digital signal processing, simplifying the structure of the trunk line test apparatus and improving the reliability of the trunk line test measurement. An apparatus for testing a trunk line of an exchanger is to be improved.

In general, communication between the exchange and the exchange period is connected to the relay line of the exchange and various repeaters and transmission systems. In order to improve service quality and efficiency, the relay line characteristics are tested to provide maintenance functions for the relay line. The trunk line characteristics test in operation includes the code 105 test for testing the analog transmission characteristics of the outgoing line by the upper control, and the code 105 by the centralized automatic reporting on trunks (CAROT). Test, a bit error rate (BER) measurement test to test digital characteristics.

A test apparatus circuit is implemented to perform the trunk line test as described above, and FIG. 1 is a system block diagram showing the trunk line test apparatus of a conventional exchanger. As shown in FIG. 1, a relay line test apparatus of a conventional exchanger includes a control unit 10, a DSP (Digital Signal Processing) 15, a gain adjusting unit 20, a VF (Voice Frequency) matching unit 25, and a peripheral matching unit. 30, a CAROT matching section 35, EPROM (Erasable Programmable Read-Only Memory) 40, a D / A converter 45 and an A / D converter 50.

In the above-described configuration, the control unit 10 receives the control command and the measurement command from the upper control unit 5 or the CAROT 33 to control the entire inside of the test apparatus.

The DSP 15 generates and outputs a signal necessary for measurement based on a measurement command received from the controller 10, receives a measurement signal input through the VF matching unit 25, calculates a result, and then gives the controller 10 a result. Apply the measurement results.

The gain adjusting unit 20 adjusts the gain of the signal output to the VF matching unit 25 under the control of the control unit 10.

The VF matcher 25 is matched with the subscriber matcher 35 to send a gain-adjusted signal to the subscriber in the gain adjuster 20.

The peripheral matching unit 30 connects the control unit 10 and the DSP 15.

The CAROT matching unit 35 performs measurement under the control of the CAROT 33 that manages the information of the various relay lines required for the test.

The EPROM 40 stores various signal data.

The D / A converter 45 converts the digital signal into an analog signal to transmit a test tone stored in the EPROM 40.

The A / D converter 50 converts the analog signal received through the VF matcher 25 into a digital signal.

The operation of the trunk line test apparatus of the conventional exchanger having the above-described configuration will be described below.

First, when a control command and a measurement command are applied to the control unit 10 from the upper control unit 5 or the CAROT 33, the control unit 10 controls the entire test apparatus to perform the measurement based on the authorized measurement command. The control unit 10 receiving the measurement command controls the DSP 15 to generate and output a signal for measurement. The DSP 15 generates and outputs a signal for measurement, or receives a measurement signal input through the VF matching unit 25, calculates a result, and applies a measurement value to the control unit 10, and the DSP 15. The signal output from is converted into an analog signal through the D / A converter 45, and the gain is adjusted by the gain adjuster 20 and then applied to the VF adjuster 25. Here, the signal applied to the VF adjuster 25 is sent to the subscriber through the VF matching, and then transmitted to the relay line through the TS switch (Time-Space Switch) 60 and the trunk (65) through the subscriber to the relay line Test will be performed.

As described above, in the trunk line test apparatus of the conventional exchanger, the trunk line test apparatus is connected to the T-S switch and the trunk through the subscriber in order to test the characteristics of the trunk line. Therefore, in order for the relay test apparatus to connect with the subscriber, a VF matching unit for matching with the subscriber in the test apparatus is required. In other words, the repeater test apparatus needs a subscriber to test the characteristics of the relay line, and if a problem occurs in the part where the subscriber and the repeater test apparatus match, the repeater test cannot be performed.

On the other hand, the conventional trunk line test apparatus is composed of a DSP, an A / D converter, a gain adjusting unit, a memory, etc., the process of sending or receiving a signal necessary for the measurement is complicated, and several steps must be taken to reduce the reliability of the measurement. If a problem occurs in any of the measuring steps during the various steps, a problem arises in that an accurate measurement cannot be made.

In addition, since the circuit must be configured to go through several steps for such a measurement, there is a problem that the production cost is increased by paying an unnecessary cost in manufacturing the test apparatus accordingly.

The present invention has been made to solve the above-mentioned problems, by connecting the relay test apparatus directly to the switch and matching the digital signal by digital signal processing to simplify the structure of the relay test apparatus and improve the reliability of the relay test measurement. The object is to provide a repeater test apparatus for the exchanger.

In order to achieve the above object, a relay line test apparatus of an exchanger of the present invention includes a control unit which controls an inside of a test apparatus by classifying test commands received from an upper control unit or a CAROT; A digital signal processor for generating and transmitting various signals necessary for measurement based on a test command received from the controller, calculating a result by receiving a measurement signal received through a relay line, and applying the result data to the controller; A communication memory unit which functions to connect the control unit and the digital signal processing unit to exchange the test command or measurement result data; And a memory unit in which signal data necessary for data operation of the digital signal processor is stored.

1 is a system block diagram showing a relay line test apparatus of a conventional exchanger.

2 is a system block diagram showing a relay line test apparatus of an exchange of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

5, 110. Upper controller, 20. Gain adjuster,

25. VF mating, 30. peripheral mating,

33, 120. CAROT, 35. CAROT mating portion,

40.EPROM, 45.D / A converter,

50. A / D conversion unit, 55. subscriber matching unit,

10, 130. control unit, 140. communication memory unit,

15, 150 DSP, 160 memory,

60, 170 T-S switch, 65, 180 trunk

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the relay line test apparatus of the exchanger according to a preferred embodiment of the present invention.

2 is a system block diagram showing a relay line test apparatus of the exchanger of the present invention. As shown in FIG. 2, the trunk line test apparatus of the switchboard of the present invention includes a control unit 130, a communication memory unit 140, a DSP 150, and a memory unit 16. As shown in FIG.

In the above-described configuration, the controller 130 controls the inside of the test apparatus by dividing the test commands issued from the upper controller 110 or the CAROT 120.

The communication memory unit 140 connects the control unit 130 and the DSP 150 to transmit and receive a test command or measurement result data.

The DSP 150 periodically reads the communication memory unit 140 to determine whether a test command has been issued from the control unit 130, and generates and sends various signals necessary for measurement when the test command is issued, and transmits the TS switch. The measurement signal received through the 170 is input to calculate a result, and the measurement result is applied to the controller 130. Here, the DSP 150 generates all signals necessary for the code 105 test, which is an analog characteristic test, which is a relay line test item, or the BER measurement test, which is a digital characteristic. The digital signal, for example, is used for the analog characteristic test. Performs A / D conversion operation to convert PCM (Pulse Code Modulation) signal, D / A conversion operation to convert digital signal from test equipment into analog signal, and adjusts gain for signal received from relay line .

The memory unit 140 stores signal data necessary for data operation of the DSP 150.

On the other hand, it is preferable to use a static random access memory (SRAM) that does not require a refresh operation as the communication memory unit 140 and the memory unit 160.

Hereinafter, an operation process of the relay line test apparatus of the exchanger of the present invention will be described with reference to FIG. 2.

The controller 130 classifies the test commands authorized by the upper controller 110 or the CAROT 120, and outputs the test command data through the communication memory unit 140 when the test command is issued. Periodically, the communication memory unit 140 is read to determine whether a test command is issued from the control unit 130, and when a test command is issued from the control unit 130, various signals necessary for measurement are generated and outputted, and the DSP ( The signal output from 150 is directly transmitted to the relay line through the TS switch 170 and the trunk 180 to perform the relay line test.

Meanwhile, the measurement signals received through the relay line connected to the power station are applied to the DSP 150, and the DSP 150 calculates a result from the received measurement signals and then stores a communication memory (a communication memory between the control unit 130 and the DSP 150). Save the result at 140). The controller 130 periodically reads the communication memory 140 and reports the measured test result to the upper controller 130.

The relay line test apparatus of the exchanger of the present invention is not limited to the above-described embodiments and can be modified in various ways within the scope of the technical idea of the present invention.

According to the trunk line test apparatus of the switch of the present invention as described above, the structure of the trunk line test apparatus can be simplified by directly connecting the trunk line test apparatus to the switch and matching digital signals by digital signal processing.

Therefore, when the relay line test command is issued from the upper control unit, the control unit commands the DSP through the communication memory without passing through an external circuit, thereby simplifying the communication between the control unit and the DSP.

In addition, all digital signals required for the trunk line test can be processed directly in the DSP, thereby increasing the reliability of the measurement.

In addition, since there is no need for an extra circuit, there is an effect that can reduce the manufacturing cost of the test apparatus.

Claims (1)

A controller configured to control the inside of the test apparatus by classifying test commands authorized from an upper controller or a CAROT; A digital signal processor for generating and transmitting various signals necessary for measurement based on a test command received from the controller, calculating a result by receiving a measurement signal received through a relay line, and applying the result data to the controller; A communication memory unit which functions to connect the control unit and the digital signal processing unit to exchange the test command or measurement result data; And And a memory unit for storing signal data necessary for data calculation of the digital signal processing unit.