KR19980022934U - Multipoint-to-multipoint ADSL device - Google Patents

Abstract

The present invention relates to a multipoint-to-multipoint ADSL device for improving circuit usage efficiency and communication reliability by sharing a single circuit with multiple subscribers.

Conventional ADSL device has a problem that a single line can be used only by a single subscriber and the frequency use band can also be used by a single subscriber, thereby degrading line use efficiency and communication reliability.

In order to solve this problem, the present invention provides a downlink multi-subscriber data accumulator that accumulates and accumulates very large frequency band data coming from a downlink multi-subscriber transmission side according to each subscriber's use frequency and accumulates the data by each channel, Uplink multiple subscriber data accumulators that accumulate lower data rates than the incoming downlink data and unnecessary data in real time for each channel, and for each channel according to a transmission rate to transmit data accumulated for each channel from downlink multiple subscriber data accumulators. Downlink subscriber unique frame pattern inserter to give a unique frame pattern, Uplink subscriber unique frame pattern inserter to give a unique frame pattern corresponding to each channel accumulated from the uplink multiple subscriber data accumulator, Downlink subscriber high Each channel to which a unique frame pattern is assigned from the U frame pattern inserter is modulated and transmitted to the other station through the line, and each channel is received through the line from the second modulation and demodulation unit. Receives a demodulated first modulated demodulator and each channel modulated from the first modulated demodulator through a line, demodulates each channel to which an original unique frame pattern has been assigned, and a unique frame pattern from an uplink subscriber unique frame pattern inserter A second modulation and demodulation unit for modulating each of the assigned channels and transmitting them to a counterpart station via a line, a unique frame pattern detection and distribution unit for the downlink signal sequence distributed to each channel demodulated from the second modulation and demodulation unit, and a first modulation and demodulation unit. Detect unique frames from each demodulated channel, remove them, and distribute only the corresponding data to the corresponding channel. Effort signal column is composed of a unique pattern detection and frame distribution.

Description

Multipoint-to-multipoint ADSL device

A conventional Asymmetric Digital Subscriber's Line (ADSL) device, as shown in FIG. 1, includes a downlink transmission data accumulator 1 that sequentially accumulates data coming from a downlink subscriber transmitter and an uplink subscriber. An uplink transmission data accumulator (2) that accumulates data coming from the transmitting side in sequence, a downlink ADSL frame portion (3) for generating an ADSL frame between the data accumulated from the backward transmission data accumulator (1), and The uplink ADSL frame section 4 for generating an ADSL frame between the data accumulated from the uplink transmission data accumulator 2 and the transmission data stream generated from the downlink ADSL frame section 3 are modulated to transmit to the other station through a line. A first modulator 5 for demodulating the data received from the second modulator demodulator 6 via the line and the modulated data from the first modulator 5; And a second modulation and demodulation unit 6 for demodulating the original data and demodulating the original data and modulating the transmission data sequence generated from the uplink ADSL frame unit 4 to transmit to the other station through the line. A downlink ADSL frame detection unit 7 for detecting a start point of the ADSL frame existing between the demodulated transmission data from the unit 6, removing the frame, and transmitting the handmade data to a receiving subscriber, and the first demodulation unit 5 The uplink ADSL frame detection unit 8 detects the starting point of the ADSL frame existing between the demodulated transmission data, removes the frame, and transmits pure data to the receiving subscriber.

When the operation of the conventional ADSL device configured as described above is divided into a downlink transmission and reception and uplink transmission and reception as follows.

First, the downlink transmission data accumulator 1 accumulates data coming into the downlink subscriber transmitter in order and transmits the accumulated data in the order in which the data has been received.

Then, the downlink ADSL frame unit 3 generates and transmits an ADSL frame between data accumulated from the downlink transmission data accumulator 1.

Accordingly, the first modulation and demodulation section 5 modulates the transmission data stream generated from the downlink ADSL frame section 3 and transmits it to the counterpart station via the line.

Then, the second modulated demodulator 6 receives the modulated data from the first modulated demodulator 5 through the line and demodulates the original data into the original data.

Accordingly, the downlink ADSL frame detection unit 7 detects the start point of the ADSL frame existing between the demodulated transmission data from the second modulation and demodulation unit 6, removes the frame, and transmits pure data to the receiving subscriber. .

Next, the uplink transmission data accumulator 2 accumulates the data coming in to the uplink subscriber transmission side in order and transmits the accumulated data in the order in which the data is received.

Then, the uplink ADSL frame unit 4 generates and transmits an ADSL frame between the data accumulated from the uplink data accumulator 2.

Accordingly, the second modulation and demodulation section 6 modulates the transmission data stream generated from the uplink ADSL frame section 4 and transmits it to the counterpart station via the line.

Then, the first modulation and demodulation unit 5 receives the modulated data from the second modulation and demodulation unit 6 through the line and demodulates the original data into the original data.

Accordingly, the uplink ADSL frame detector 8 detects the start point of the ADSL frame existing between the demodulated transmission data from the first modulator 5, removes the frame, and transmits pure data to the receiving subscriber. .

However, the conventional ADSL device has a problem in that a single line can be used only by a single subscriber and a frequency use band can also be used by a single subscriber, thereby degrading line usage efficiency and communication reliability.

Accordingly, an object of the present invention is to provide a multipoint-to-multipoint ADSL device for improving circuit usage efficiency and communication reliability by sharing a single circuit with multiple subscribers.

1 is a block diagram of a conventional ADSL device.

Figure 2 is a block diagram of a multipoint-to-multipoint ADSL device according to the present invention.

Explanation of symbols on the main parts of the drawings

101: downlink multiple subscriber data accumulator

102: uplink multiple subscriber data accumulator

103: downlink subscriber unique frame pattern insertion unit

104: uplink subscriber unique frame pattern insertion unit

105: first variation demodulation unit 106: second variation demodulation unit

107: detection and distribution of the unique frame pattern of the downlink signal sequence

108: unique frame pattern detection and distribution unit of the upstream signal sequence

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

2 is a block diagram of a multipoint-to-multipoint ADSL device according to the present invention. Downlink multiple subscriber data accumulator 101 for adjusting and accumulating by frequency for each channel, and uplink multiple for accumulating and accumulating data for each channel that is not necessary for a lower data rate and real-time processing than the downlink data coming from uplink multiple subscriber transmitter. Subscriber data accumulation unit 102 and downlink subscriber unique frame pattern insertion unit for assigning a unique frame pattern for each channel according to the transmission rate to transmit data accumulated for each channel from the downlink multiple subscriber data accumulation unit 101 103 from the uplink multiple subscriber data accumulator 102 By modulating the uplink subscriber unique frame pattern inserting unit 104 which provides a unique frame pattern corresponding to each of the channels, and the unique frame pattern assigned by the downlink subscriber unique frame pattern inserting unit 103 A first modulation demodulator 105 for demodulating each of the original channels with a unique frame pattern for each channel received by the second modulation demodulator 106 and received through the line through a line, and the first modulation demodulator ( Each channel modulated from the channel 105 is received through the line and demodulated into the channels to which the original unique frame pattern is assigned, and the original frame pattern to which the unique frame pattern is given from the upstream subscriber unique frame pattern inserter 104 is received. A second modulation and demodulation unit 106 for modulating and transmitting the respective channels to a counterpart station through a line, and a unique program from each channel demodulated from the second modulation and demodulation unit 106. A unique frame pattern detection and distribution unit 107 of a downlink signal sequence for detecting a frame, removing the corresponding data, and distributing only the corresponding data to the corresponding channel, and a unique frame from the respective channels demodulated from the first demodulation unit 105. It is composed of a unique frame pattern detection and distribution unit 108 of the upstream signal sequence that detects and removes it and distributes only the corresponding data to the corresponding channel.

When the operation and effect of the present invention configured as described above is divided into a downlink transmission and reception and uplink transmission and reception described as follows.

First, the downlink multiple subscriber data accumulator 101 adjusts the data of a very large frequency band coming into the downlink multiple subscriber transmitter according to the use frequency of each subscriber, bundles and accumulates the data for each channel, and transmits the accumulated data according to the order in which they are received. Done.

Then, the downlink subscriber unique frame pattern inserting unit 103 gives and transmits a unique frame pattern for each channel according to a transmission rate to transmit data accumulated for each channel from the multiple subscriber data accumulator 101. .

Accordingly, the first modulation and demodulator 105 modulates each channel to which a unique frame is assigned from the downlink subscriber unique frame pattern insertion unit 103 and transmits the channels to the counterpart station through a line.

Then, the second demodulation unit 106 receives each channel modulated by the first demodulation unit 105 through the line and demodulates and transmits each channel to which the original unique frame pattern is assigned.

Accordingly, the unique frame pattern detection and distribution unit 107 of the downlink signal sequence detects and removes a unique frame from each of the channels demodulated from the second modulation and demodulation unit 106 and distributes only the corresponding data to the corresponding channel. .

Next, the uplink majority subscriber data accumulating unit 102 aggregates and accumulates data having unnecessary transmission rates and unnecessary real-time processing for each channel than the downlink data coming into the uplink majority subscriber transmission side and transmits the accumulated data in the order in which they are received. .

Then, the uplink subscriber unique frame pattern inserter 104 assigns and transmits a unique frame pattern for each channel according to a transmission rate to transmit data accumulated for each channel from the uplink multiple subscriber data accumulator 102. .

Accordingly, the second modulation and demodulation unit 106 modulates each channel to which a unique frame is assigned from the uplink subscriber unique frame pattern inserting unit 104 and transmits the channels to the counterpart station through a line.

Then, the first demodulation unit 105 receives each channel modulated from the second demodulation unit 106 through the line and demodulates and transmits each channel to which the original unique frame pattern is assigned.

Accordingly, the unique frame pattern detection and distribution unit 108 of the upstream signal sequence detects and removes a unique frame from each of the demodulated channels from the first modulation and demodulation unit 105, and distributes only the corresponding data to the corresponding channel. .

As described above, the present invention has the effect of improving circuit usage efficiency and communication reliability by sharing a single circuit with multiple subscribers.

The present invention relates to an ADSL device, and in particular, a multipoint-to-multipoint ADSL for improving line usage efficiency and communication reliability by sharing a single line with multiple subscribers. Relates to a device.

Claims (1)

A downlink multiple subscriber data accumulator 101 for accumulating and accumulating very large frequency band data from downlink multiple subscriber transmitters according to a frequency used by each subscriber and grouping and accumulating the data for each channel; An uplink multiple subscriber data accumulator 102 for accumulating and accumulating data having a lower transmission rate and unnecessary data in real time than the downlink data coming from the uplink multiple subscriber transmitter for each channel; A unique subscriber frame pattern inserter (103) for assigning a unique frame pattern for each channel according to a transmission rate to transmit data accumulated for each channel from the multiple subscriber data accumulators (101); An uplink subscriber unique frame pattern inserter 104 for assigning a unique frame pattern corresponding to each channel accumulated from the uplink multiple subscriber data accumulator 102; Each channel to which a unique frame pattern is assigned is transmitted from the direction subscriber unique frame pattern insertion unit 103 to a counterpart station through a line and received through a line from a second modulation / demodulation unit 106 to receive unique channels. A first demodulation unit 105 for demodulating each original channel to which a pattern has been assigned; Each channel modulated by the first modulation and demodulation unit 105 is received through the line, demodulated into respective channels to which an original unique frame pattern is assigned, and a unique frame from the uplink subscriber unique frame pattern insertion unit 104. A second modulation and demodulation unit 106 for modulating each channel to which a pattern is assigned and transmitting the same to a counterpart station through a line; A unique frame pattern detection and distribution unit 107 of a downlink signal sequence which detects and removes a unique frame from each channel demodulated from the second demodulation unit 106 and distributes only the corresponding data to the corresponding channel; And a unique frame pattern detection and distribution unit 108 of an upstream signal sequence that detects and removes a unique frame from each of the demodulated channels from the first demodulation unit 105 and distributes only the corresponding data to the corresponding channel. Featured Multipoint-to-Multipoint ADSL devices.