KR100251633B1 - Digital trunk level test method of india type exchange system - Google Patents

Abstract

PURPOSE: A method for testing a digital trunk level of an India type exchange system is provided to measure a level and a noise by a software program, by using a digital trunk connected between stations, so as to simplify a system hardware. CONSTITUTION: If an originating trunk seizes a receiving trunk, the receiving trunk transmits a response signal to the originating trunk. The originating trunk transmits a multi frequency to the receiving trunk. The receiving trunk delivers a test tone signal to the originating trunk for a set time. If the multi frequency is not received with a preset level, the receiving trunk decides a line failure. If the test tone signal is not received with a predetermined level, the originating trunk decides a line failure.

Description

DIGITAL TRUNK LEVEL TEST METHOD OF INDIA TYPE EXCHANGE SYSTEM}

The present invention relates to a digital trunk level test method in a switching system, and more particularly, to a method for measuring the level of a digital trunk connected between power stations by applying to a signal suitable for an exchange in India.

The trunk test method of the conventional Indian type exchange (exchange used in the country of India) was developed by using a trunk module for measuring the trunk test equipment connected to the trunk and installed in the system. Such a trunk module with test equipment can be easily used by the operator using a specific number, but the test can only be carried out with a separate trunk module with test-related equipment, which makes the hardware configuration complicated and the system bulky.

Accordingly, an object of the present invention is to provide a method for measuring the level of a digital trunk to measure the power level without having a separate trunk module for testing to solve the above problems.

It is another object of the present invention to provide a method for measuring the level of a digital trunk that can simplify the hardware of the trunk and reduce the volume of the system in the handed-in exchange.

1 is a block diagram of a digital trunk measuring apparatus of an exchange system according to an embodiment of the present invention.

2 is a flow chart for testing the power level of a digital trunk according to an embodiment of the invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a digital trunk measuring apparatus of an exchange system according to an embodiment of the present invention;

Trunk Transmission Measuring (TTM) 10 consists of a number of Trunk Transmission Measuring Equipment (TTME) and Universal Circuit Back Panel (UCBP). Characteristic tests include absolute power level measurements for 800 Hz. The TTM 10 is connected to the Access Switch Maintenance Processor (ASMP) 16 via the TD-BUS (Telephone Device Bus) .It receives the mode and address to perform the required functions. ), So that ASMP 16 can read it, and receive measurement data and transmit necessary data through TSL (Time Switch and Local Data Link) 12. The TSL 12 generates a 4.96 MHz system clock and a frame pulse of 8 KHz to the TTM 10 and transmits the test request data transmitted from the TTM 10 to the relative trunk. ASMP 16 controls TTM 12 for testing by transmitting Clock, Frame sync, Tx Data and TB Sel signals to TTM 10. FI Interface 14 receives Function alarms and TD-Bus cable open alarms from the TTM 10 and interfaces them for alarms.

ASMP 16 sends and receives TTME operation mode and necessary data through DPRAM of TTME, and uses the designated format as shown in Table 1 and Table 2 below by using MODE / Address among TD-Bus signals to control TTME.

Format with Functions Specified by Mode MODE FUNCTION 0 Reserved One Read from DPROM 2 Write to DPRAM 3-6 Reserved 7 Time reset

Format specified by address Address Description Byte 000H Status Change Data One 180H-19FH ASMP Write Area 32 1AOH-1BFH TTME Write Area 32 1COH-7FFH Reserved 7FFH ASMP Read Flag One

Read addresses and write addresses are shown in Table 3 below.

PBA Address (Write) PBA Address (Read) TTME No Remarks XX018OH-XX017FH XX01AOH-XX029FH TTME 0,4 TTME 0-3 uses TD-BUS (D), and TTME 4-5 uses TD-BUS (B). XX028OH-XX037FH XX02AOH-XX039FH TTME 1,5 XX048OH-XX047FH XX04AOH-XX049FH TTME 2,6 XX068OH-XX077FH XX06AOH-XX079FH TTME 3,7

2 is a flow chart for testing the power level of a digital trunk according to an embodiment of the invention.

1 to 2, the operation of the preferred embodiment of the present invention will be described in detail.

For trunk testing, ASMP 16 creates a directory number and sends it to TTM 10. The directory number depends on whether you want to do a level test only, or both a level test and a noise test. In case of level test in ASMP 16, MD1 command is transmitted to TTME of TTM 10. In case of all tests, MD2 command is transmitted. The TTME of the TTM 10 then sends a directory response command (RDOK) to ASMP 16 if the test is enabled, and sends a directory response command (RDNK) if the test is not possible.

If a test is available, ASMP 16 creates a directory number for a specific access call, for example, creates all test commands 674299 and sends it to TTM 10. TTM 10 calls the call to the trunk of the other exchange via TSL 12. Try and seize the trunk to be tested. Here, the trunk of the counterpart exchange becomes the receiving side, and the trunk shown in FIG. 1 becomes the originating trunk. At this time, the counterpart trunk transmits a response signal, and the TTM 10 receives a response signal through the TSL 12 to form a basic connection state. Once the call is connected, the other trunk transmits multiple frequencies, for example 1020Hz + 1040Hz, on signal lines c and d. The power level of the multi-frequency 1020Hz + 1040Hz is -10dBm ± 1dB. The TTM 10 then receives multiple frequencies 1020 Hz + 1040 Hz through the TSL 12. The TTM 10 waits for 40 msec after receiving the multi-frequency 1020 Hz + 1040 Hz, and then transmits a test tone signal of 800 Hz 0 dBm level to the counterpart trunk through the signal lines a and b for 1 second. At this time, after receiving the test tone signal of 800Hz 0dBm in the trunk of the station, if the 800Hz reception condition is -38dbm ~ -10dbm, the trunk of the station transmits the response signal of 0dbm level of 800Hz for 1 second. Then, the TTM 10 receives a response signal of 0dbm level of 800Hz through the TSL 12. If the level is within the preset level during such a test, the test is judged to be in a normal state without errors. If the level is not a predetermined level, the test is determined to be a test failure and the trunk connection is disconnected. When the power level test is successfully completed, the noise test is performed. For 4 seconds through the signal lines a and b in the direction of TTM 10 in the counter trunk, the connection is disconnected when the noise measurement condition is greater than -68 dbm. If the value does not exceed the set value -68dbm, terminate the 600Ω + 1μF and measure the noise in the direction of the relative trunk at the TTM 10 for 5 seconds.If the value is larger than -68dbm, the connection is cut off and the measured value is -68dbm. If it does not exceed, judge normally.

In addition, when creating a directory number in ASMP 16 and transmitting it to the TTM 10, when transmitting the level test command MD1, the TTM 10 performs power level measurement only and does not measure noise. Here, the multi-frequency 1020Hz + 1140Hz -10dBm ± 1dB, the test tone signal 800Hz 0dBm is used as the Indian R2 register signal.

As described above, the present invention simplifies the hardware of the system because it does not use a trunk module having a separate trunk measuring device by measuring a level and noise by a software program using a digital trunk connected between power stations in a human exchange type. It is also possible to reduce the space in which the trunk module is mounted.

Claims (5)

In the inter-country digital trunk level test method in the humanitarian exchange, Transmitting a response signal from the receiving trunk to the calling trunk when the calling trunk is transmitted from the calling trunk; Transmitting a multi-frequency to the receiving side trunk in the calling trunk receiving the response signal; And a test tone signal is transmitted from the receiving trunk receiving the multi-frequency to the calling trunk for a predetermined time. The method of claim 1, And determining that the line is defective when the received multi-frequency is not received at a predetermined level in the trunk of the receiving side. The method of claim 2, And determining that a line is defective when a test tone signal is not received at a predetermined level in the originating trunk. The method of claim 3, The preset level of the multi-frequency is 1020Hz + 1140Hz -10dBm ± 1dB, characterized in that the digital trunk level test method of the delivery switch. The method of claim 4, wherein And a predetermined level of the test tone signal is 800 Hz 0 dBm.

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