KR20000012538U - Digital subscriber line splitter card for reliable telephone service - Google Patents

Abstract

An object of the present invention is to provide a digital subscriber line splitter card for a reliable telephone service that can provide a reliable telephone service regardless of the mounting or dismounting of the DSL splitter card.

The configuration of the present invention is a DSL splitter card for classifying a PSTN service signal and a DSL service signal from an input line signal and transmitting the same to the PSTN 10 and the DSL side 30, respectively. A first card 70 passing through to transmit to the PSTN; A second card (80) capable of being mounted on the first card (70) and the line, and transmitting to the DSL (30) by passing a signal of a high frequency band from an input line signal; And a switching unit 90 for electronically switching the connection with the line when the second card 80 is mounted or dismounted.

Description

Digital subscriber line splitter card for reliable telephone service

The present invention relates to a Digital Subscriber Line (DSL) splitter card for stable telephone service, and more specifically, to the plain old telephone service (POTS) of the DSL. The present invention relates to a digital subscriber line splitter card for a reliable telephone service capable of providing a reliable telephone service regardless of a mounting or dismounting of a splitter card.

In general, a system using a DSL has a form as shown in FIG.

That is, in the case of a service using DSL, a splitter card 50 is used on the telephone station to enable simultaneous telephone service and data service, and the input / output signals are divided in frequency, so that the low frequency voice bandwidth signal is a public telephone network (PSTN). A public switched telephone network (hereinafter referred to as PSTN), and a high frequency band signal to a DSL device for data service.

The subscriber splitter card 60 is also mounted on the subscriber side to serve as the telephone station splitter card 50 so that the PSTN service and the DSL service can be selected and provided.

Therefore, both the PTSN service and the DSL service can be provided using one transmission path using the POTS splitter card 50 and the subscriber-side splitter card 60.

Hereinafter, a DSL splitter card of the related art will be described with reference to the accompanying drawings.

As shown in Figure 1, the configuration of the DSL splitter card 60 according to the prior art,

A high frequency band filter (HPF; High-Pass Filter, 51, hereinafter referred to as HPF) for transmitting a high frequency band signal from the input line signal to the DSL 30;

A low frequency band filter (LPF; 55, hereinafter referred to as LPF) passing through a low frequency band signal from the input line signal and transmitting toward the PSTN 10 is included.

The HPF 51 may include a first capacitor C51 connected in series to a first line to be input, a second capacitor C52 connected in series to a second line to be input, and the first capacitor (C52). C51) and a first coil L51 connected in parallel to the line at the telephone station side of the second capacitor C52.

The LPF 55 may include a second coil L55 connected in series to a first input line, a third coil L56 connected in series to a second input line, and the first coil L55. And a third capacitor C55 connected in parallel to the line at the telephone station side of the second coil L56.

The operation of the prior art made as described above is as follows.

The HPF 51 passes the high frequency band signal from the input line signal and transmits the signal toward the DSL 30.

The LPF 55 transmits the low frequency band signal from the input line signal to the PSTN 10.

By doing the above, the signal output from the HPF 51 is a signal used for data communication, so it goes to the DSL 30 and is used for data communication, and the signal output from the LPF 55 is used for a voice call. Therefore, go to the PSTN (10) is used for telephone service.

As described above, the DSL splitter card 50 may be used to provide the subscriber with the PSTN 10 service and the DSL 30 service using one transmission path.

The DSL splitter card 50 interfaces the PSTN 10 and the DSL 30 transmission signals, and noise generated by a transceiver (not shown) affects the PSTN 10. Don't be crazy.

However, the DSL splitter card is sometimes detached for performance checking and the like. In the conventional technology operating as described above, when the DSL splitter card is detached, the DSL splitter card may not only provide a DSL service but also provide a PSTN service. There is a problem that the subscriber cannot receive telephone service because it cannot.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and provides a digital subscriber line splitter card for a reliable telephone service that can provide a stable telephone service regardless of the mounting or dismounting of the DSL splitter card. It's there.

1 is a block diagram applying a system using a general digital subscriber line,

2 is a circuit diagram to which a digital subscriber line splitter card according to the prior art is applied;

3 is a block diagram applying a digital subscriber line splitter card for reliable telephone service according to an embodiment of the present invention;

4 is a diagram illustrating a case where a digital subscriber line splitter card is mounted for stable telephone service according to an embodiment of the present invention;

5 is a diagram illustrating a case where a digital subscriber line splitter card is mounted for stable telephone service according to an embodiment of the present invention.

The configuration of the present invention for achieving the above object is made as follows.

In the DSL splitter card which classifies the PSTN service signal and the DSL service signal from the input line signal and transmits them to the PSTN and DSL, respectively.

First signal detecting means for passing a signal of a low frequency band from an input line signal and transmitting the signal to a PSTN;

The first signal detection means and the mounting and detachment is possible in the line, and comprises a second signal detection means for passing the signal of the high frequency band to the DSL input line signal.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

As shown in Figure 3, the configuration of a digital subscriber line splitter card for a reliable telephone service according to an embodiment of the present invention is made as follows.

In the DSL splitter card which classifies the PSTN service signal and the DSL service signal from the input line signal and transmits them to the PSTN 10 and the DSL side 30, respectively.

A first card 70 which transmits a low frequency band signal from the input line signal to the PSTN;

A second card (80) capable of being mounted on the first card (70) and the line, and transmitting to the DSL (30) by passing a signal of a high frequency band from an input line signal;

And a switching unit 90 for electronically switching the connection with the line when the second card 80 is mounted or dismounted.

The configuration of the switching unit 90,

A resistor R90 through which the driving power supply VCC is input to one terminal;

A mechanical switch (SW90) connected with the other terminal of the resistor (R90) to one terminal and mechanically turned on / off according to the mounting and dismounting of the second card (80);

The other terminal of the mechanical switch SW90 is connected to the control terminal, and includes electronic switches SW91 and SW92 connected on / off according to a signal input to the control terminal to connect the signal line of the DSL to the line.

The operation of the embodiment of the present invention made as described above is as follows.

The DSL splitter card classifies the PSTN service signal and the DSL service signal from the input line signal and transmits them to the PSTN 10 and the DSL side 30, respectively. The first card 70 receives the low frequency band signal from the input line signal. Pass through the PSTN, and the second card 80 passes the signal of the high frequency band from the input line signal and transmits it to the DSL 30, so that the first card 70 and the line can be dismounted. It is configured separately.

In addition, the switching unit 90 electronically switches the connection with the line when the second card 80 is dismounted, and thus the first card due to an electric shock generated when the second card is dismounted mechanically. (70) Ensure that no disturbance occurs in the telephone service.

As shown in FIG. 3, since the first card 70 is directly connected to a line, and the second card 90 is configured to be detachable, the second card 90 is required. Since the connection with the line of the first card 70 is not released even if it is removed, the low frequency signal can be detected and transmitted to the PSTN 10 through the LPF 71, and the telephone service can be continuously provided.

Hereinafter, the operation of the switching unit 100 will be described in detail with reference to FIGS. 4 and 5.

As shown in FIG. 4, when the second card 80 is mounted, the mechanical switch SW90 of the switching unit 90 is connected, and accordingly, the high voltage is increased through the resistor R90 by the driving power supply VCC. Signal is outputted, and the electronic switches SW91 and SW92 are turned on.

Accordingly, the second card 80 may provide a DSL service by detecting the high frequency signal among the signals input from the line using the HPF 81 and transmitting the signal to the DSL 30.

On the other hand, as shown in Figure 5, when the second card 80 is mounted, the mechanical switch (SW90) of the switching unit 90 is disconnected, so that a low signal is output through the resistor (R90) , The electronic switches SW91 and SW92 are turned off.

Therefore, although the second card 80 is separated from the line and cannot provide DSL service, the telephone service by the first card 70 continues even in such a situation.

By operating as described above, the telephone service by the existing PSTN can proceed continuously and stably regardless of the mounting or dismounting of the DSL splitter card.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, conversions, and modifications are possible within the scope without departing from the technical spirit of the present invention. It will be apparent to those who have knowledge.

Therefore, the present invention operating as described above can provide a stable telephone service regardless of the mounting or dismounting of the DSL splitter card, it is possible to prevent the electrical shock caused by the mounting failure to affect the telephone service by the PSTN It can be effective.

Claims (3)

In the DSL splitter card which classifies the PSTN service signal and the DSL service signal from the input line signal and transmits them to the PSTN and DSL, respectively. First signal detecting means for passing a signal of a low frequency band from an input line signal and transmitting the signal to a PSTN; The first signal detecting means and the mounting and detachment is possible in the line, the digital signal for stable telephone service characterized in that it comprises a second signal detection means for passing the high frequency band signal to the DSL input line signal Subscriber Line Splitter Card. The method of claim 1, Stable telephone service, characterized in that it further comprises a switching means for eliminating the occurrence of the disturbance to the first signal detection means generated by the electronic signal by switching the connection with the line when the second signal detection means when mounting. Digital Subscriber Line Splitter Card. The method of claim 2, wherein the configuration of the switching means, Seal mounting signal output means which is turned on and off according to the mounting of the second signal detecting means and outputs an electrical signal accordingly; A digital subscriber line splitter card for reliable telephone service, comprising: electronic switching means for switching on and off in accordance with a signal output from the seal signal output means and connecting a signal line and a line of a second signal detection means therebetween .