KR19990086363A - Integrated Information Network Subscriber Access Module - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs

Integrated Information Network Subscriber Access Module

I. The technical problem that the invention is trying to solve

It provides an integrated telecommunication network subscriber access module that accepts ADPCM codec and allows four subscribers per port to make voice calls simultaneously.

All. Summary of the Solution of the Invention

The integrated telecommunication network subscriber access module consists of an S-reference point transceiver, a transmission transformer, an HDLC controller, a GCI-bus controller, a microprocessor, and an ADPCM codec.

la. Important uses of the invention

By adopting the ADPCM codec in the ICT subscriber access module, four subscribers per port can make voice calls simultaneously.

Description

Integrated Information Network Subscriber Access Module

The present invention relates to an integrated telecommunication network subscriber access module, and more particularly, to an integrated telecommunication network subscriber access module for accommodating an ADPCM codec so that four subscribers per port can simultaneously perform a voice call.

Generally, Integrated Services Digital Network (hereinafter referred to as ISDN) is a comprehensive digital communication network that provides not only voice communication but also non-voice services such as video and data. A facility that can efficiently transfer, accumulate, and process information.

In addition, the ISDN terminal can be connected to the back end S-interface of the network termination device to receive voice communication and ISDN supplementary services, and to access an existing telephone network terminal which is a non-ISDN terminal. It has a data terminal connection function and a packet communication function.

Since the conventional ISDN subscriber module transmits PCM coded voice data between terminals, only two subscribers can have voice calls per port.

Conventional ISDN subscriber module can accommodate 8 terminals in one port, but there is a problem in that efficiency is poor because only two subscribers can communicate at the same time.

Accordingly, an object of the present invention is to provide an ISDN subscriber access module for increasing the number of subscribers that can simultaneously talk to each ISDN subscriber port.

Another object of the present invention is to provide an ISDN subscriber access module that accommodates an ADPCM codec.

The present invention for achieving these objects is characterized by an ISDN subscriber access module, consisting of an S-reference point transceiver, a transmission transformer, an HDLC controller, a GCI-bus controller, a microprocessor, and an ADPCM codec.

The GCI bus according to the present invention is a serial bus composed of FSC, DCL, DIN, and DOUT, and has a structure capable of transmitting and receiving voice data, command data, and status data between devices without direct intervention of a microprocessor.

1 is a block diagram of a general information network subscriber access module according to an embodiment of the present invention.

2 shows the structure of a GCI-bus used in the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, terms to be described later are defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or a chip designer, and the definitions should be made based on the contents throughout the present specification.

1 is a block diagram of an ISDN subscriber access module according to an exemplary embodiment of the present invention. It consists of 160.

1, a schematic operation of an ISDN subscriber access module according to an embodiment of the present invention will be described. The microprocessor 100 transmits the signaling message extracted from the HDLC controller 130 to the main controller of the exchange via FIF0120. Meanwhile, the microprocessor 100 receives a signaling message from the main controller through FIF0120 and transmits it to the HDLC controller 130.

The RS-232C transceiver 120 connects a monitor to view the status of the ISDN subscriber module.

The HDLC controller 130 extracts the signaling message from the signal transmitted from the S-reference point transceiver 150. In addition, the HDLC controller 130 receives the signaling message through the GCI bus and transmits the signaling message to the S-reference point transceiver 150.

The GCI-bus controller 140 adapts the ADPCM-enriched data to the GCI-bus type. In addition, the GCI-bus controller 140 receives the recovered voice data from the signal transmitted from the S-reference point transceiver from the S-reference point transceiver, extracts only the voice ADPCM signal, and transmits it to the ADPCM codec 160. In addition, the GCI-bus controller 140 monitors the state of the S-reference point through the C / I channel of the GCI-bus and performs activation / deactivation control of the physical layer.

The S-reference point transceiver 150 restores the signal transmitted from the S-reference point and transmits it to the HDLC controller 130 and the GCI-bus controller 140. In addition, the S-reference point transceiver 150 receives the signaling message transmitted from the HDLC controller 130 (DIN) and transmits it to the S-reference point.

The ADPCM codec 160 converts the voice ADPCM signal transmitted from the GCI-bus controller 140 into PCM data and transmits it to the time switch of the exchange. On the contrary, ADPCM codec 160, which receives PCM data from the time switch of the exchange, converts the transmitted PCM data into ADPCM and transmits it to the S-Reference Point Transceiver 150 via the GCI-Bus controller 140. The ADPCM codec 160 converts PCM encoded data (64 KBPS) into ADPCM (32 KBPS), thereby compressing the data amount in half.

2 shows the structure of the GCI-bus used in the present invention. The GCI-bus is a serial bus composed of FSC, DCL, DIN and DOUT, and is a structure that can transmit and receive voice data, command data, and status data between devices without direct intervention of the microprocessor 100. In addition, the GCI-bus is a standardized structure that enables convenient simultaneous exchange of signaling message data and voice data between components in an ISDN subscriber access module according to an embodiment of the present invention. On the GCI bus, each component uses the DOUT and DIN pins for user data (two B-channel data), signaling data (D channel data), monitor channel data, and command / status display channel data (Command / Send and receive Indicetion (C / I). Referring to FIG. 2, the 210 signal is a DCL signal of 4.096 MHz, the 220 signal is an FSC signal of 8 KHz, the 230 signal is a DIN / DOUT signal of 2.048 Mbps, and the 240 signal is an enlarged one of the GCI buses.

1 and 2 will be described the operation of the ISDN subscriber access module according to an embodiment of the present invention.

First, the microprocessor 100 receives a signaling message from the main controller of the exchange via FIF0120 and transmits the signaling message to the HDLC controller 130. Then, the HDLC controller 130 receives the signaling message through the GCI bus as shown in FIG. 2 and transmits the signaling message to the S-reference point transceiver 150. The S-reference point transceiver 150 receives the signaling message transmitted from the HDLC controller 130 (DIN) and transmits it to the S-reference point. At this time, the GCI-bus controller 140 monitors the state of the S-reference point through the C / I channel of the GCI-bus and performs activation / deactivation control of the physical layer. When the PCPC data is received from the time switch of the exchange, the ADPCM codec 160 converts the transmitted PCM data into an ADPCM and transmits it to the S-Reference Point Transceiver 150 through the GCI-Bus controller 140. That is, the ADPCM codec 160 converts the transmitted PCM coded data (64 Kbps) into an ADPCM (32 Kbps), thereby compressing the data amount in half and transmitting it.

Meanwhile, the S-reference point transceiver 150 restores a signal transmitted from the S-reference point and transmits the signal to the HDLC controller 130 and the GCI-bus controller 140. The HDLC controller 130 extracts a signaling message from the signal transmitted from the S-reference point transceiver 150 and delivers the signaling message to the microprocessor 100. Then, the microprocessor 100 transmits the signaling message extracted from the HDLC controller 130 to the main controller of the exchange via FIF0120. In addition, the GCI-bus controller 140 receives the recovered voice data from the signal transmitted from the S-reference point transceiver 160 to the S-reference point, extracts only the voice ADPCM signal, and transmits it to the ADPCM codec 160. Then, the ADPCM codec 160 converts the voice ADPCM signal transmitted from the GCI-bus controller 140 into PCM data and transmits it to the time switch of the exchange.

As such, the voice data transmitted to the S-reference point in the ISDN subscriber access module according to the embodiment of the present invention can transmit twice as much as when transmitting data to the conventional PCM through the same voice data channel. Therefore, since the ISDN subscriber access module according to the embodiment of the present invention compresses and transmits voice data by 1/2 times, 4 subscribers per port simultaneously perform voice calls that two subscribers can simultaneously make a voice call per port. Make a call.

As described above, the present invention has an advantage of increasing the number of subscribers capable of simultaneously making a voice call per port by accommodating the ADPCM codec in the ISDN subscriber access module.

Claims (3)

An ISDN subscriber access module for connecting an exchange and an ISDN subscriber terminal, An HDLC controller for extracting a signaling message from a signal transmitted from a time switch of the exchange; A GCI-bus controller that adapts ADPCM encoded data to the GCI-bus type, An S-reference point transceiver for restoring a signal transmitted from an S-reference point to the HDLC controller and the GCI-bus controller, and transmitting the transmitted ADPCM to the S-reference point; And an ADPCM codec for extracting a voice ADPCM signal from the GCI-bus controller, converting the voice ADPCM signal to PCM data, and transmitting the PCM data to the ADPCM. The method of claim 1, wherein the GCI-bus controller, And receiving the recovered voice data from the signal transmitted from the S-reference point transceiver from the S-reference point transceiver, extracting only the voice ADPCM signal, and transmitting the extracted voice data to the ADPCM codec. The method of claim 1, wherein the GCI-bus controller, A module characterized in that for monitoring the status of the S-reference point through the C / I channel of the GCI-bus, and performs the activation / deactivation control of the physical layer.