KR100611960B1 - High speed data modem having asymmetric and symmetric channel - Google Patents

Abstract

A high speed data modem apparatus having an asymmetric and symmetric channel using an Asymmetric Digital Subscriber Line (ADSL) modem is disclosed. The apparatus of the present invention includes a first modem unit for transmitting data at high speed and receiving data at low speed, a second modem unit for transmitting data at low speed and receiving data at high speed, the first modem unit and the second modem unit Selectively forming two channels of the upstream and two channels of the downward, and includes a data processor for selectively transmitting and receiving data by combining the channels.

Description

High speed data modem having asymmetric and symmetric channel

1 is a block diagram showing an ADSL system using a conventional ADSL modem.

2 is an overall block diagram of a high speed data modem device having an asymmetrical and symmetrical channel using an ADSL modem according to the present invention.

FIG. 3 is a detailed diagram of the transmission mother modem apparatus 220 of FIG. 2 when two voice services are simultaneously received.

4 is a detailed view of the system data processing unit of FIG. 3.

FIG. 5 is a detailed diagram of the transmitter node modem apparatus of FIG. 2 when a voice service is simultaneously received.

6 is a detailed view of the subscriber data processing unit 550 of FIG.

7 shows a data path in accordance with the inventive arrangements.

The present invention relates to a high speed data modem device, and more particularly, to a high speed data modem device having an asymmetric and symmetric channel using an Asymmetric Digital Subscriber Line (ADSL) modem.

In general, the ADSL modem, which is an asymmetric subscriber station, transmits most of the data downward (from the home station to the local station) and about 1/10 of the data in the opposite direction.

1 is a block diagram showing an ADSL system using a conventional ADSL modem, in which a transmission mother station apparatus 110 and a transmission host apparatus 120 are connected by a telephone line.

The transmission mother station apparatus 110 is connected to an external data network (for example, the Internet) and converts data to a data control unit 112, and an ADSL central office (114) modem 114 modulating data to be transmitted by an ADSL algorithm. ), A splitter 116 for separating the voice signal to the exchange. Here, the ADSL Central Office (114) modem 114 maintains an output signal (downward) at a high transmission rate and maintains an input signal (upward) at a low transmission rate.

Transmitting station apparatus 120 is an ADSL RT (Remote Control) modem 122 for extracting data by demodulating ADSL signals input through a telephone line connected to a telephone station, and between a personal computer and a modem capable of processing data through an application program. Data control unit 124 for converting the data of the user, and a splitter 126 for separating the voice signal input from the telephone station switch and outputting to the subscriber telephone. The ADSL RT (Remote Control) modem 122 maintains the input signal (downward) at a high transmission rate and maintains the output signal (upward) at a low speed.

The operation of the block diagram of FIG. 1 will be described in detail.

ADSL CO modem 114 and ADSL RT modem 122 are respectively installed in the telephone company and the subscriber's home to handle signal modulation and demodulation, and to transmit signals using a band (approximately 32 kHz to 1.1 MHz) excluding the voice band. The transmission speed changes according to the distance between the subscriber and the subscriber's house. In addition, the ADSL CO modem 114 and the ADSL RT modem 122 have a maximum of 8 Mbps in the subscriber station (hereinafter downward) at the telephone station and a maximum of 640 Kbps in the subscriber station (hereinafter upward) by the ADSL algorithm. The data control unit 112 converts data input from an external network (Internet communication network) into an appropriate format and is distributed to each subscriber ADSL CO modem 114. The ADSL CO modem 114 which inputs the distributed data is modulated by the ADSL algorithm and outputs (downward) to the ADSL RT modem 122 which is the subscriber device via the telephone line. The splitter 116 in the transmission mother station apparatus 110 separates the voice signal input from the telephone station switchboard from the data.

The splitter 126 in the transmitter local station 120 separates the voice and the ADSL signal input through the telephone line and outputs the voice signal to the subscriber telephone and the ADSL signal to the ADSL RT modem 122. The ADSL RT modem 122 demodulates the ADSL signal into a digital signal and transmits the ADSL signal to the data controller 124 to be connected to the personal computer.

The direction (upward) of moving from the personal computer in the subscriber's home to the external network operates in the same way.

As described above, in the conventional ADSL system shown in FIG. 1, the amount of downstream data transmitted from the transmitting mother station apparatus 110 to the transmitting station apparatus 120 is much larger than the amount of upstream data. 640Kbps is suitable when there is a lot of data input from the Internet or VOD (Video On Demand) server, and the data sent by the user to the Internet or VOD server is small.

However, in both SOHO and general offices that require high transmission rates in both directions, the conventional ADSL system as shown in FIG. 1 has an inadequate design of a newly designed system.

The technical problem to be achieved by the present invention is to provide a high-speed data modem device having a high data transfer rate in both directions even by using an existing ADSL device by selectively using asymmetric and symmetric channels according to the user's request using the ADSL modem. Having

In order to solve the above technical problem, the present invention provides an asymmetric high speed data modem apparatus for connecting a subscriber station to a high speed data network through a telephone line,

A first modem unit transmitting data at high speed and receiving data at low speed;

A second modem unit transmitting data at a low speed and receiving data at a high speed;

A high speed data modem comprising selecting a first modem unit and a second modem unit to form two channels upstream and two channels downstream, and combining the channels to selectively transmit and receive data Device.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is an overall block diagram of a high speed data modem device having an asymmetrical and symmetrical channel using an ADSL modem according to the present invention.

The apparatus of FIG. 2 establishes two data transmission lines having symmetry by connecting the transmission mother modem device 220 and the transmission mother modem device 230 with two telephone lines 222 and 224 to one subscriber. The transmission mother station modem device 220 is connected to the external data network 216, and the transmission host modem device 230 is connected to the subscriber home data network 238.

In the apparatus of FIG. 2, when the voice switch 210 is connected to two lines 212 and 214 and two telephone lines 232 and 234 are connected to two telephones 240 in the subscriber's home, both telephone lines 222 and 224 are voiced. Used as a signal combination. In addition, if only one telephone service is desired, one telephone line is connected to the voice switch 210 and the subscriber's home telephone 240 while leaving the connection lines 222 and 224 of the transmission modem modem device 220 and the transmitter station modem device 230 intact. Connect

FIG. 3 is a detailed diagram of the transmission mother modem apparatus 220 of FIG. 2 when two voice services are simultaneously received.

The first and second splitters 320 and 350 transmit a low frequency voice signal connected to the voice exchanger 210 to the subscriber or separate voice signals received from the subscriber and transmit the voice signal to the voice exchanger 210.

The system data processing unit 310 demultiplexes the ADSL CO modem unit 340 and the ADSL RT modem unit 330 after converting the shape of the data received through the data line 218, and then transmits the transmission mark modem device. In operation 230, the received data is multiplexed to convert the data, and then transmitted to the external data network 216. The ADSL CO modem unit 340 and the ADSL RT modem unit 330 that receive data from the system data processing unit 310 convert the digital signal into an ADSL signal by the ADSL modulation method, and then, the first and second splitters 320 and 350. And synthesized with the voice signal to transmit to the transmitter station modem device (230).

4 is a detailed view of the system data processor 310 of FIG. 3.

The data converter 410 converts the data received from the data line 218 into a predetermined form. The data mux multiplexes the data received from the telephone line and outputs the multiplexed data to the data converter. The data DEMUX 430 separates the data received from the data converter 410 into an ADSL CO modem unit 340 and an ADSL RT modem unit 330 and outputs the data.

FIG. 5 is a detailed diagram of the transmitter node modem apparatus 230 of FIG. 2 for simultaneously receiving a voice service.

First, the first and second splitters 510 and 540 receive a voice signal and an ADSL signal through two telephone lines 222 and 224, and transmit the voice signal to the telephone 240 through the subscriber's home telephone lines 232 and 234. The ADSL CO modem unit 520 and the ADSL RT modem unit 530 are transmitted.

The ADSL CO modem unit 520 and the ADSL RT modem unit 530 convert the ADSL signal into digital data and transmit it to the subscriber data processing unit 550. The subscriber data processing unit 550 converts the type of data received through the subscriber premises data network line 236 and then demultiplexes the ADSL CO modem unit 520 and the ADSL RT modem unit 530 to be transmitted. In addition, the received data is multiplexed to convert its shape and then transmitted to the subscriber premises data network line 236. The ADSL CO modem unit 520 and the ADSL RT modem unit 530 that receive the data from the subscriber data processor 550 convert the digital signal into the ADSL signal by the ADSL modulation method, and then the first and second splitters 510 and 540. And synthesized with the voice signal through the transmission to the transmission mother modem device (220).

6 is a detailed view of the subscriber data processing unit 550 of FIG.

The data converter 630 converts the data received from the data line 236 into a predetermined form. The data mux multiplexes the data received from the telephone line and outputs the multiplexed data to the data converter 630. The data DEMUX 620 separates and receives the data received from the data converter 630 into an ADSL CO modem unit 520 and an ADSL RT modem unit 530.

Meanwhile, the case in which data and voice signals are transmitted in the subscriber home data network 238 in the direction (upward) of the external data network 216 is operated in the same manner as described above.

7 shows a data path in accordance with the inventive arrangements.

710 is a data path transmitted between the ADSL CO modem unit 712 and the ADSL RT modem unit 714 via the first telephone line 224 of FIG. 2, that is, the maximum downlink is 8 Mbps and the maximum is up to 640 Kbps. 720 is a data path transmitted between the ADSL CO modem unit 722 and the ADSL RT modem unit 724 via the second telephone line 222 of FIG. 2, that is, the maximum is 640 Kbps and the maximum is 8 Mbps. Therefore, the data path of up to 8Mbps and 640Kbps in both directions can be used by the present invention. Subscribers may also be used selectively by any combination of the following:

Combination (1): Downward ① + Downward ② ----> Downlink Communication Channel / Upward ① + Upward ② -----> Upward Communication Channel

Combination (2): Downward ①: High speed downlink communication channel, Upward ②: High speed uplink communication channel

          Down ②: Low speed downlink communication channel, Up ①: Low speed uplink communication channel

          ------> Combination used for high speed up / down communication channel and low speed up / down communication channel

Combination (3): Downward ①: High speed downlink communication channel, Upward ①: Low speed uplink communication channel

          Downward ②: Low speed downlink communication channel, Upward ②: High speed uplink communication channel

        ------> Combination used as low speed up / down communication channel and low speed up / down communication channel

The present invention is not limited to the above-described embodiment, and of course, modifications by those skilled in the art are possible within the spirit of the present invention. That is, the present invention can be applied to all systems for transmitting data to a network, and can be applied to all hardware and software algorithms when transmitting data to a data network.

As described above, according to the present invention, it is possible to provide a data service of the existing ADSL method according to the subscriber's request, and even without a modem device of a new method for a subscriber that requires the same data transfer rate in both directions in addition to the modem. Increased flexibility can reduce the burden of device expansion on network operators that provide data services. If you do not want a new voice service, you only need to add a telephone line from the transmission mother station to the transmission station, so you can receive two data services with the same transmission speed in both directions without having to apply for a new phone. You can optionally use a relatively low data rate path.

Claims (4)

delete An asymmetric high speed data modem apparatus for connecting a subscriber station to a high speed data network through two communication channels, A first modem unit transmitting data at high speed and receiving data at low speed; A second modem unit transmitting data at a low speed and receiving data at a high speed; The first modem unit and the second modem unit are selected to form two uplink channels and two downlink channels, the two uplink channels are selected as one uplink communication channel, and the two downlink channels are downlinked. And a data processing unit for transmitting and receiving data at the same speed in both directions by selecting the communication channel. 3. The high speed data modem apparatus of claim 2, wherein the up / down channel is selected for high speed, and the another up / down channel is selected for low speed. delete

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