KR0176388B1 - All-electronic exchange with pause signal generation using lookup table - Google Patents

Abstract

The present invention is to provide an electronic switch having a pause signal generation function that generates and transmits a corresponding idle signal when a corresponding pulse code modulation data is generated in a time switch device. The apparatus according to the present invention is a relay line currently used. A control memory for outputting a first control signal for controlling the generation of a pause signal corresponding to the scheme and a second control signal for controlling the pulse code modulation data to be read, and a second control signal output from the control memory. The corresponding pause signal is read by the voice memory for outputting the pulse code modulation data, and the pause channel data included in the pulse code modulation data output from the first control signal and the voice memory, and the read pause signal is read from the voice memory. From PROM and PROM to transfer to the pause channel of output pulse code modulation data It includes having a demultiplexing circuit for demultiplexing and outputting the pulse code modulation data and idle signals sent to the sub-sub-way unit time switch device. Therefore, it is possible to prevent an error caused by a specific subhighway failure between the relay line matching device and the time switch device, and do not need to manage the idle signal to be actually loaded among the idle signals transmitted through the channel 0 of each subhighway.

Description

All-electronic exchange with pause signal generation using lookup table

1 is a functional block diagram of an all-electronic exchange for generating a pause signal in a conventional manner,

2 is a functional blur diagram of an electron exchanger having a function of generating a pause signal in accordance with the present invention.

* Explanation of symbols for main parts of the drawings

200: relay line matching device 210: time switch device

211 control memory 212 voice memory

213: PROM 214: Demultiplexing Circuit

The present invention relates to an all-electronic switch for transmitting a dormant signal together when transmitting and receiving data through a relay line, and more particularly, to an all-electronic switch for generating and transmitting a dormant signal using a look-up table. will be.

At the electronic switching center, data between the station connection, that is, the exchange and the exchange period, are transmitted and received through the relay line. The relay line extracts not only PCM data but also clocks from the transmission / reception signals during the exchange period. When the types of exchanges used are different from each other, an error occurs in the PCM data transmitted / received. It transmits and receives the pause signal through the idle channel which is not used during transmission.

In order to transmit and receive the idle signal as described above, the conventional electronic switchboard generates the idle signal in the relay line matching device, and loops the generated idle signal to the time switch device and transmits the idle signal together with other PCM data to the other station through the relay line matching device. It is implemented.

1 is a functional block diagram of an all-electronic exchange for transmitting a pause signal generated as described above. Referring to FIG. 1, the conventional idle signal generation process will be described in more detail as follows.

That is, the signal matching between the relay line matching device 110 and the time switch device 120 shown in FIG. 1 consists of sub-highways, and transmits and receives 32 channels of data per one sub-highway. The pause signal generated in the idle signal generation arc 111 provided in the matching device 110 is loaded on the channel 0 of the subhighway and transmitted to the multiplexing circuit 121 in the time switch device 120. At this time, the pause signal generated by the relay line matching device 110 is set differently according to the relay line matching method currently being used. When the relay line matching method is the European method (E1), it generates a 54H pause signal and the North American method. In the case of T1, a rest signal of 7 degrees is generated.

The multiplexing circuit 121 multiplexes the applied pause signal to the voice memory 123, and the voice memory 123 stores the pause signal transmitted from the multiplexing circuit 121 and then controls the control memory 122. By the PCM data is loaded on the idle channel is not transmitted to the relay line matching device 110 through the demultiplexing circuit 124. The relay line matching device 110 transmits PCM data including the pause signal to other stations through the relay line 100.

When the idle signal generated in this manner is transmitted, when the channel 0 of the specific subhighway of the subhighways to the time switch device 120 is loaded and transmitted, the pause signal generated by the relay line matching device 110 is transmitted. If the highway is bad, no pause signal is sent, resulting in an error. In addition, when the idle signal generated by the relay line matching device 110 is transmitted on the channel 0 of all subhighways to the time switch device 120, the time switch device 120 receives all of the signals received by the relay line matching device 110. When a channel of a subhighway recognizes that 0 is a pause signal, it has a disadvantage of managing which subhighway a channel 0 signal of a subhighway is to be carried when a pause signal is sent to a pause channel.

The present invention has been made to solve the above-mentioned disadvantages, and implemented to generate the corresponding pulse code modulation data and the corresponding idle signal using the look-up table in the time switch device without the involvement of the relay line matching device to transmit the relay signal to the relay line. The purpose is to provide an electron exchanger.

In order to achieve the above object, an apparatus according to the present invention, in the exchange having a function of generating a pause signal for matching between the exchanges when transmitting and receiving through the relay line between the exchange and the exchange period: A processor controlling a function of a time switch device; Among the idle signals stored in the lookup table method by the processor according to the processor, the corresponding pulse code modulation data is read out, and the idle channel data existing in the read pulse code modulation data and the predetermined control signal generated and controlled by the processor are stored. A tine switch device that reads a pause signal corresponding to a relay line method currently used and carries it on a rear channel existing in the read pulse code modulation data; And a relay line matching device that performs matching processing between the relay station and the exchange period so that the pulse code modulation data and the pause signal outputted from the time switch device can be transmitted to the other exchange through the relay station.

Next, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a functional blur diagram of an electronic switching system implemented to generate a pause signal in accordance with the present invention, wherein the relay line 100 for transmitting and receiving data of the exchange period and the exchange period and the relay line 100 and the relay line matching with the own exchange period Matching device 200, a processor 130 for controlling the idle signal is transmitted according to the present invention, the time switch device 210 is controlled by the processor 130 to transmit the PCM data and the pause signal to the relay line matching device 200 It is composed of

The time switch device 210 is controlled by the processor 130 and outputs the corresponding PCM data including the idle channel FFH by the control signal in which the corresponding PCM data and the idle signal are output. It stores each idle signal per row in the North American method, reads the corresponding idle signal by the control signal output from the control memory 211 and the idle channel data transmitted from the voice memory 212, and transmits it from the voice memory 212. And a demultiplexing circuit (214) for demultiplexing and transmitting the data transmitted from the PROM (213).

The all-electronic exchange configured as described above generates and transmits a stop signal as follows.

First, the control memory 211 in the time switch device 210 controlled by the processor 130 outputs a control signal corresponding to 13 bits so that the corresponding PCM data and the pause signal can be generated. Three bits of the output control signals are transmitted to the PROM 213 and 10 bits are control signals for reading from the voice memory 212.

The voice memory 212 stores a plurality of PCM data containing data (FFH) representing each idle channel, and reads the corresponding PCM data using 10-bit data transmitted from the control memory 211 as an address. Transfer to the PROM 213. That is, 1024 PCM data are stored in the voice memory 212, and each idle channel is present in the stored PCM data. When 10 bits of data are applied from the control memory 211, they are stored in the corresponding location. Read and print PCM data. At this time, the 10-bit control signal transmitted from the control memory 211 is generated so that the PCM data is randomly read.

The PROM 213 has a look-up table method and uses the data formed by the 3-bit control signal transmitted from the control memory 211 and the idle channel data FFH included in the PCM data transmitted from the voice memory 212 as an address. Read the corresponding pause signal among the stored pause signals. The read pause signal is loaded on the idle channel existing in the PCM data transmitted from the voice memory 212 and transmitted to the demultiplexed call 214.

The demultiplexing circuit 214 demultiplexes the PCM data and the pause signal transmitted from the PROM 213 in subhighway units and transmits the demultiplexed circuits to the relay line matching device 200.

The relay line matching device 200 performs a matching process so that the PCM clock and the pause signal provided from the time switch device 210 can be transmitted to the other station through the relay line 100.

As described above, the present invention stores a possible pause signal in a PROM and is provided in a time switch device, and loads a pause signal per line during PCM data generation processing into a pause channel existing in PCM data generated by reading from a PROM. Implementing the transmission prevents an error caused by a specific subhighway failure between the relay line matching device and the time switch device, and hassle to manage the idle signal to be actually loaded among the idle signals transmitted through channel 0 of each subhighway. There is an effect that can solve.

Claims (2)

An exchange having a function of generating a stop signal for matching between exchanges when transmitting and receiving through a relay line between exchanges in an exchange period, comprising: a processor controlling a function of a time switch device provided in the exchange; Read the corresponding pulse code modulation data is controlled by the processor, and stored in the look-up table method by the idle channel data present in the read pulse code modulation data and a predetermined control signal generated by the processor A time switch device which reads a pause signal corresponding to a relay line method currently used among the idle signals and loads it on a rear channel existing in the read pulse coat modulation data; And a relay line matching device configured to perform matching processing between the relay station and the exchange period so that the pulse code modulation data and the pause signal output from the time switch device can be transmitted to the other exchange through the relay station. All-electronic exchange with pause signal generation. The apparatus of claim 1, wherein the time switch device is controlled by the processor to generate a first control signal for generating a pause signal corresponding to the currently used relay line system and the corresponding pulse code modulation data. A control memory for outputting a second control signal; one pulse for storing a plurality of pulse code modulation data including respective idle channel data, and one row per row among the plurality of pulse code modulation data stored by the second control signal A voice memory for reading and outputting code modulated data; Among the idle signals stored by storing a plurality of idle signals according to the usable relay line method and using signals formed by the idle channel data included in the first control signal and the pulse code modulation data transmitted from the voice memory. A memory (PROM) implemented by a lookup table method for reading a pause signal and transmitting the read pause signal to a pause channel existing in a pulse code modulation data transmitted from the voice memory; And a demultiplexing circuit for demultiplexing the pulse code modulation data and the pause signal output from the memory into sub-wave units and transmitting the demultiplexing circuit to the relay line matching device.