KR20050079014A - Private branch exchange having the function of gain adjustment and gain adjustment method for private branch exchange - Google Patents

Abstract

The present invention is to improve the call quality provided for subscribers connected to an external communication network through a CO line connected to a private exchange, and to compensate for attenuation of gain values that may occur for signals transmitted and received through CO lines. To this end, we propose a gain value adjusting apparatus and method for a private exchange that can adjust a gain value for a signal transmitted and received through a private exchange.

Description

PRIVATE BRANCH EXCHANGE HAVING THE FUNCTION OF GAIN ADJUSTMENT AND GAIN ADJUSTMENT METHOD FOR PRIVATE BRANCH EXCHANGE}

The present invention relates to an apparatus and a method for improving call quality of a private exchange, and more particularly, to an apparatus and method for adjusting gain of an analog trunk card of a private exchange.

In general, private exchanges are used to connect private exchange networks to public networks.

1 is a diagram illustrating a communication network using a private exchange.

As shown in FIG. 1, the keyphone, that is, the private exchange 120 is connected to the telephone station 100 through the trunk line 110, and is connected to the at least one extension subscriber 122 through the extension. The private exchange 120 distributes the call received from the telephone company 100 through the trunk line 110 to the appropriate extension subscriber 122 for connection with the external communication network, and distributes the call requested from the extension subscriber 122. 110 to the telephone station 100. In addition, the private exchange 120 performs the connection between the subscribers 122.

However, in general, when the subscriber 122 of the private exchange 120 calls through a trunk line 110 via an analog trunk card, transmission (Tx) according to the loop length of the trunk line 110 is performed. And a receive (Rx) gain value is inversely proportional to the loop length. As the length of the trunk line 110 increases, the gain value attenuation generated on the loop increases, so that the internal subscriber 122 of the private exchange 120 connected to the telephone station 100 through the long trunk line 110 has a decrease in gain value. It occurs badly and receives a signal with poor gain characteristics. For example, the subscriber 122-2 connected to the private exchange 120-2 of the workplace B of FIG. 1 has a bad gain compared to the subscriber 122-2 connected to the private exchange 120-1 of the workplace A. FIG. Characteristics, and the call quality is reduced. Therefore, the extension subscriber 122-2 of the workplace B has a dissatisfaction with the call quality compared to the extension subscriber 122-1 of the workplace A. In order to resolve such complaints, in particular, it is necessary to compensate the gain value for the subscriber 122-2 having a low gain value, such as the subscriber 122-2 of the workplace B.

An object of the present invention is to provide a gain control device and method for a private exchange that compensates for attenuated gain values for signals received through an analog trunk card of a private exchange for improved performance of the private exchange.

Another object of the present invention is to provide a gain control device and method of a private exchange for compensating and outputting a gain value for a signal transmitted through an analog trunk card of a private exchange to improve the performance of the private exchange.

The present invention provides a digital gain control function for each trunk port in an analog trunk card as a means for improving the call quality provided to subscribers by compensating the gain value attenuated in the private exchange. Grant. Through this, in the present invention, the attenuated gain value is compensated, and if necessary, gain value compensation can be performed by freely adjusting the transmission and reception gain values.

The present invention performing such gain value compensation is as follows.

The private exchange of the present invention for performing gain value compensation for a received signal is a private exchanger connected to a telephone station through a trunk line and connected to at least one extension subscriber, wherein the analog signal received through the trunk line is converted into a digital signal. And a digital gain control unit including a codec for converting and a digital gain control unit for determining whether the digital signal received from the codec is a signal that requires compensation of a gain value, and compensating for and outputting a gain value if the signal requires compensation of the gain value. .

The private exchange of the present invention for performing gain value compensation for a transmission signal is connected to a telephone station through a trunk line, and is connected to an extension subscriber through an extension line. A digital gain controller configured to receive a digital signal to be transmitted to the digital signal to determine whether the digital signal to be transmitted is a signal requiring gain value compensation, and to compensate a gain value for the digital signal if the digital signal is a signal that requires gain value compensation; And a codec for receiving the digital signal from the digital gain control unit, converting the digital signal into an analog signal, and transmitting the converted analog signal through the trunk line.

In addition, the method of the present invention for performing the gain value compensation for the received signal, the private exchange is connected to the telephone station through the trunk line, and connected through the extension line and the extension station, receiving the analog signal through the trunk line; A first step, a second step of converting the received analog signal into a digital signal, a third step of determining whether the digital signal requires a compensation of a gain value, and a gain value compensation according to the determination result A gain control method of a private exchange comprising a fourth step of compensating a gain value for a required digital signal.

A method of the present invention for performing gain value compensation for a transmission signal comprises: a private exchanger connected to a telephone station through a trunk line, and connected to an extension subscriber through an extension, from the subscriber to the telephone station through the trunk line; A first step of receiving a digital signal to be received; a second step of determining whether the digital signal to be transmitted is a signal requiring gain value compensation; and a third step of performing gain value compensation for the digital signal according to the determination result And a fourth step of converting the digital signal into an analog signal and outputting the analog signal.

First, the terms used to describe the present invention as described above will be described.

"Gain" is a value expressed as a ratio of input level and output level, and its unit is dB. In general, the higher the gain, the better the call quality.

"Gain value compensation" means adjusting the gain value of the signal to the appropriate magnitude required. Gain value compensation reduces the gain value of the signal whose gain value is greater than the proper value, and increases the gain value of the signal whose gain value is less than the proper value.

On the other hand, in the present invention described below, in order to improve the phenomenon that the gain value of the signal transmitted through the trunk line decreases as the length of the trunk line connecting the telephone station and the private exchange increases, the gain value of the received or transmitted signal is increased. The gain value compensation is described. However, the gain value compensation of the present invention can be used to compensate not only the gain value reduction phenomenon occurring on the trunk line but also all the gain value reduction phenomenon.

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

Fig. 2 is a block diagram showing the configuration of the private exchange.

As shown in FIG. 2, the private switch 120 includes a trunk line circuit 200, a switch 210, a controller 220, a storage 230, a digital subscriber circuit 240, an analog subscriber circuit 250, and the like. It may include. The trunk line circuit 200 performs the connection with the telephone station 100 through the trunk line 110. The exchange unit 210 performs the connection between the external communication network and the internal subscriber 122 and the internal subscriber 122 between each other under the control of the controller 220. The controller 220 controls the switching unit 210 to correctly connect the called line and the called line. The storage unit 230 stores information required for the private exchange 120 to operate, such as information necessary for connecting each line. The digital subscriber circuit 240 connects with the subscriber subscriber 240 via a digital line. The analog subscriber circuit 250 performs a connection with the subscriber 122 through an analog line.

The trunk line circuit 200 may be classified into a digital trunk card and an analog trunk card. In the case of an analog trunk card, it is necessary to compensate a gain value that is attenuated as necessary. The trunk module controller (TMC) IC is mounted on the analog trunk card. The TMC IC has a function of collecting and analyzing all data generated on the trunk line 110.

In the present invention, the digital highway is allowed to pass through the TMC IC to freely adjust the transmit and receive gain values. An example of a Trunk Module Controller (TMC) IC mounted on an analog trunk card is the STL7053E. The STL7053E is an application specific integrated circuit (ASIC) IC.

3 is a diagram illustrating a TMC IC 300 mounted on an analog trunk card.

The function of the TMC IC 300 is as follows. First, it has a ring detection function. Second, it has loop occupancy and loop detection. It has a third caller ID detection function.

In the present invention, a digital gain control function is added to the TMC IC to perform compensation according to the attenuated gain value. Therefore, the TMC IC according to the present invention has a time slot assignment function, a relay control function, a port status read function, and a card ID / dial pulse mode selection. mode select) function and digital gain control function. The digital gain control function means a function of converting a signal having an appropriate gain value required by compensating a gain value of an input digital signal. The TMC IC 300 according to the present invention includes a digital gain control unit to perform such a digital gain control function.

In the gain compensation performed by the digital gain controller of the TMC IC 300, the path is performed differently from the signal received from the trunk line 110 and the signal to be transmitted to the trunk line 110. The difference is as follows.

First, the digital gain compensation performed by the digital gain controller on the signal received from the trunk line 110 will be described.

The signal received through the trunk line 110 is an analog signal. Therefore, in order to perform gain value compensation for this signal using a digital gain controller that receives a digital signal and performs gain value compensation, an analog signal must first be converted into a digital signal. This analog / digital conversion is performed in a codec.

The codec IC converts an analog signal received from the trunk line 110 into a digital signal and outputs the digital signal to the digital gain controller of the TMC IC 300. The digital gain controller determines whether the digital signal received from the codec is a signal requiring gain value compensation. If a signal needs gain value compensation, it is a signal having a gain value lower than a required gain value. The digital gain controller performs gain value compensation on a digital signal requiring gain value compensation, converts it into a signal having an appropriate gain value, and outputs the converted signal to the control unit 220. The controller 220 distributes the received signal having the appropriate gain value to the subscribers 122, who is requested to call.

Next, the digital gain compensation performed by the digital gain control unit on the signal to be transmitted to the trunk line 110 will be described.

When a signal to be transmitted to the trunk line 110 is input from any of the subscribers 122, the digital gain control unit determines whether the transmission signal is a signal requiring gain value compensation, and determines a suitable signal required for a signal requiring gain value compensation. Perform gain value compensation. The digital gain controller outputs a digital signal on which the gain value compensation has been performed to the codec. The codec receives a gain value compensated digital signal, converts it into an analog signal, and transmits the converted signal to the trunk line 110.

On the other hand, the degree of gain value compensation may be variously compensated such that the gain value of the signal is a desired gain value, compensated according to a preset value, or compensated according to a user input. Among them, it would be desirable to select a method that matches the characteristics of the system and apply it to the system.

On the other hand, in order to perform such a gain value compensation, the TMC IC 300 is used to store a predetermined gain value, a degree of gain value compensation, and the like, which are reference values for comparison to determine whether the gain value compensation is necessary. It may include a gain compensation value storage unit.

5 is a diagram illustrating a configuration of a TMC IC according to the present invention.

5 is a configuration diagram of STL7053E, which is one of the TMC ICs.

Each wire of the TMC IC 300 is used for functions such as ring detection, port state detection, power supply, ground, and the like.

A brief description of the purpose of each line of the TMC IC, STL7053E, follows.

The VCC lines 8, 22, 38, and 53 are used for powering the STL7053E, which is the TMC IC shown in FIG. The GND lines 15, 30, 46, and 60 are used for ground. The MODE line of 17 is used to select the function of the STL7053E. C4 to C6, R23 to R25, C99 and the like stabilize the power input to the STL7053E to reduce the impact that can be applied to the STL7053E.

FSX0 through FSX3 are used for Frame Sync. DP0 to DP3 are used for dial pulse signal control. H / RING0 to H / RING3 are used for ring detection. MUTE0 to MUTE3 are used to detect the caller ID. M / GND0 to M / GND3 are used for grounding, and RING0 to RING3 are used for power supply. The CLKSET lines 13 and 16 are used to set the clock for the operation of the STL7053E.

The FSX of No. 58 to 1MS of No. 14 are connected to the control unit and perform signal input / output with the control unit.

On the other hand, in order to help the understanding of the present invention Figure 4 shows the configuration of a conventional TMC IC.

Blocks indicated by thick lines in FIGS. 4 and 5 are particularly relevant to the present invention.

The lines used to implement the present invention in the TMC IC 300 shown in FIG. 5 are 49-52 lines. 4, that is, in the related art, the highway digital signal transmitted from the codec IC is transmitted toward the controller 220 without passing through the TMC IC 300. However, in the present invention, the digital signal input from or output to the codec IC passes through the TMC IC 300. The signal input to the TMC IC 300 is determined by the digital gain control unit of the TMC IC 300 whether or not gain value compensation is necessary for the signal, and is converted into a signal having a required gain value according to the determination result and output. do. In performing the gain value compensation for the input signal by the digital gain control unit, it is preferable to select a method suitable for the system, such as a method of changing the conversion into 15 steps at intervals of 1 dB, and the present invention provides a gain. It is not limited by the specific numerical value for performing value compensation.

As shown in FIG. 5, the TMC IC 300 receives a signal from a codec IC through highway lines 49 and 50. The TMC IC 300 performs gain value compensation on the input signal.

Referring to the operation of the present invention according to such a configuration as follows.

First, the gain value compensation of the signal received from the trunk line 110 input through Highway Txi will be described.

The analog signal received from the trunk line 110 is converted into a PCM (Pulse Code Modulation) which is a digital signal via the codec IC and input to the Highway Txi of the TMC IC 300. The Highway Txi PCM signal is compensated for its gain value as needed via the digital gain control of the TMC IC. When the gain value is compensated by the digital gain controller, the Highway Txi PCM signal may be converted into a signal having a gain value set by a user, or a signal having a gain value corresponding to a preset condition. The gain-compensated PCM signal is output to Highway Txo and transmitted to the control unit 220 of the private exchange. Through this, the subscriber 122 can receive a signal having a satisfactory call quality, the gain value is compensated.

Next, the gain value compensation for the signal to be transmitted to the trunk line 110 through the Highway Rx will be described. In transmission, the gain value compensation according to the present invention is performed through a path opposite to the path at the time of reception.

The digital gain controller of the TMC IC 300, which receives the Highway Rxi PCM signal requesting transmission from the subscriber station 122 to the trunk line 110, transmitted from the controller 220 of the private exchange, receives the received Highway Rxi PCM signal. It is determined whether a gain value compensation is required. Whether to perform gain value compensation may be preset or may be made by a user input.

The PCM signal gain-compensated by the digital gain control unit is output to the codec IC through the highway Rxo, converted into an analog signal by the codec IC, and transmitted to the trunk line 110.

Meanwhile, in the present invention, only the gain value adjusting apparatus and method of the private exchange for gain value compensation for increasing the attenuated gain value have been described. However, the present invention is not limited thereto, and the gain value if necessary. It is also possible to perform a gain value compensation that reduces.

In addition, the present invention can be applied not only to the example STL7053 for the purpose of understanding the description, but also to all private exchanges using the TMC having such a function.

Through the present invention, it is possible to correct the gain attenuation caused by the length of the loop connecting the telephone company and the private exchange, and to maintain the gain value of the transmitted / received signal at an appropriate value, thereby improving the call quality provided to the subscriber. Is improved. In addition, the sales of the private exchange can be improved by improving the call quality.

1 illustrates a communication network using a private exchange.

Fig. 2 is a block diagram showing the configuration of a private exchange.

3 shows a Trunk Module Controller (TMC) IC mounted on an analog trunk card.

4 is a diagram showing a configuration of a TMC IC according to the prior art.

5 is a diagram illustrating a configuration of a TMC IC according to the present invention.

Claims (14)

In a private exchange connected to a telephone station through a trunk line and to at least one extension subscriber, A codec for converting an analog signal received through the trunk line into a digital signal; And a digital gain controller for determining whether the digital signal received from the codec is a signal requiring compensation of a gain value, and compensating for and outputting a gain value if the signal requires compensation of a gain value. The method of claim 1, wherein the digital gain controller measures a gain value of the received digital signal and compares it with a predetermined first gain value, and when the measured gain value is smaller than the first gain value. And determining that the digital signal is a signal requiring compensation of a gain value. The digital gain control unit of claim 1, wherein the digital gain control unit reads a predetermined predetermined preset value, and if the instruction value is a value indicating a gain value compensation for a signal received through the trunk line, the digital signal is converted into a gain value. A private exchange that determines that a signal requires compensation. The private exchange of claim 1, wherein the digital gain control unit compensates a gain value for the digital signal such that the digital signal has a gain value satisfying a predetermined second gain value. The private exchange of claim 1, wherein the digital gain control unit compensates a gain value for the digital signal such that a gain value of the digital signal requiring compensation of the gain value is increased by a predetermined third gain value. In a private exchange connected to a telephone company through a trunk line and connected through an extension and an extension, Receives a digital signal to be transmitted to an external communication network through the CO line from any subscriber, and determines whether the digital signal to be transmitted is a signal requiring gain value compensation, and if the digital signal is a signal requiring gain value compensation, A digital gain controller for compensating a gain value for And a codec for receiving the digital signal from the digital gain control unit, converting the digital signal into an analog signal, and transmitting the converted analog signal through the trunk line. The digital gain control unit of claim 6, wherein the digital gain controller reads a predetermined predetermined predetermined value and, if the indicated value indicates a gain value compensation for the digital signal to be transmitted, compensates the digital signal for a gain value. A private exchange that determines that it is a necessary signal. 8. The private exchange of claim 7, wherein the indication value is determined according to an amount of attenuation of a gain value that may occur on the trunk line. 7. The private exchange of claim 6, wherein the digital gain control unit compensates the gain value for the digital signal such that the gain value of the digital signal requiring the gain value compensation is increased by a predetermined fourth gain value. . In a private exchange connected to a telephone company through a trunk line and connected through an extension and an extension, A first step of receiving an analog signal through the trunk line; A second step of converting the received analog signal into a digital signal; Determining whether the digital signal is a signal requiring compensation of a gain value; And a fourth step of compensating a gain value for a digital signal requiring gain value compensation according to the determination result. The method of claim 10, wherein the determination of the third step, A first step of measuring a gain value of the received digital signal; Comparing the measured gain value with a predetermined fifth gain value and determining that the digital signal is a signal requiring compensation of a gain value if the measured gain value is smaller than the fifth gain value. Gain control method of a private exchange comprising two steps. The gain control method of claim 10, wherein the gain value compensation in the fourth step is performed such that the digital signal has a gain value that satisfies a predetermined sixth gain value. The gain control method of claim 10, wherein the gain value compensation in the fourth step is performed such that the gain value of the digital signal is increased by a predetermined seventh gain value. In a private exchange connected to a telephone company through a trunk line and connected through an extension and an extension, Receiving a digital signal to be transmitted from the subscriber to the telephone station through the trunk line; Determining whether the digital signal to be transmitted is a signal requiring gain value compensation; Performing gain value compensation on the digital signal according to the determination result; And a fourth step of converting the digital signal into an analog signal and outputting the analog signal.