JPH0232635A - Subscriber line multiplex transmission system - Google Patents

Abstract

PURPOSE:To economically and easily perform fast data transmission in a branch and toll data transmission by performing the fast data transfer in the branch by attaching an optical transmission equipment usable by personal management on a fast private line service and utilizing a nonuse time slot effectively, and taking dependent synchronization with a transmission line offered by a telecom munication server. CONSTITUTION:The optical signal 301b of a branch optical transmission equip ment 701 is inputted to a signal synthesizing device 50 with the optical signal 301a of an optical transmission/reception equipment 60 offered by the telecommu nication server. The time of time slots (P1-Pn) for branch are selected for the optical signal 301b side, and that of time slots (T1-Tn) for toll transmission are selected for the optical signal 301a side, and they are outputted as an optical signal 302. The optical signal 302 is converted to a terminal frame by a line terminating device 20, and is inputted to a terminal 101 as a reception signal 303. When a terminal 102 performs the toll transmission, the conversion of the time slot from the down Tn to the up Pn is performed by the terminal 101. In such a way, it is possible to economically and easily perform the fast data transmission with high quality and the toll data transmission in a firm.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention is applied to a subscriber line multiplex transmission system using optical fibers for data communication. In particular, it relates to a subscriber line multiplex transmission system that adds high-speed transmission media for private premises, such as optical transmission equipment for corporate premises, to the high-speed private line service provided by telecommunications carriers.

〔overview〕

In the subscriber line multiplex transmission system, the present invention adds an optical transmission device that can be managed by individuals to the high-speed leased line service provided by telecommunications carriers, and effectively utilizes unused time slots to transfer high-speed data within the premises. By doing so and subordinating and synchronizing with the transmission lines provided by telecommunications carriers, it is possible to economically and easily perform high-speed data transmission within the premises and data transmission to and from outside the city.

[Conventional technology]

Conventionally, terminals, multiplexers, modems, private branch exchanges (PBXs), and subscriber transmission lines connecting these communication devices have been used to construct an in-house data communication network. Also,
Relay transmission to other areas often uses Nippon Telegraph and Telephone's data communications network (DDX) or high-speed digital transmission services.

For example, data transmission within factory premises has traditionally been carried out via modems, but since modems are relatively low-speed media, in order to transmit high-speed data, Nippon Telegraph and Telephone Broadband transmission means provided by digital transmission services etc. must be used.

[Problems to be solved by the invention] However, in such conventional subscriber line multiplex transmission systems, even local communication within a company's premises must be communicated through the telecommunications carrier's maintenance station. However, there was an economic problem in that line usage fees were equivalent to those for long-distance transmission sections. In addition, optical LAN systems and simple wireless systems in the 50 GHz band are available as broadband transmission media for premises, but these need to be constructed independently from the telecommunications carrier's system in the long-distance transmission section, and the latter is generally preferred. On the other hand, since the former does not have slave synchronization, there is a problem in that it requires technical considerations regarding synchronization when transferring data to a long-distance transmission section.

The present invention solves the above-mentioned problems, and aims to provide a subscriber line multiplex transmission system that can economically and easily perform high-speed data transmission within a company's premises and data transmission with outside areas. shall be.

[Means for solving problems]

In a subscriber line multiplex transmission system with a plurality of terminals installed in a premises, the present invention relates to an optical transmitter/receiver provided by a telecommunications carrier connected to a station-side transmission device, and an optical transmitter/receiver provided by a telecommunications carrier that is installed as premises equipment. a first premises optical transmission device; a first line termination device connected to one of the plurality of terminals and provided by the telecommunications carrier; and an optical signal of the first line termination device a signal distribution device that distributes to the transmitting/receiving device and the first indoor optical transmission device; and a signal distribution device that combines the optical signals of the optical transmitting/receiving device and the first indoor optical transmission device and provides the synthesized optical signals to the first line terminating device. a signal combining device, a second line terminating device each connected to a terminal other than the above-mentioned two terminals, and a second line terminating device each inserted between the second line terminating device and the first in-premises optical transmission device. The optical transmitter/receiver, the first and second line terminating devices, and the first and second intra-premise optical transmission equipment are configured to transmit the same optical signal frame in advance for intra-premise and commercial use. It is characterized in that it includes means for transmitting and receiving using a time slow defined for external transmission.

[Effect]

The first line control device provided by the telecommunications carrier converts the signal from its own terminal into a frame, and transmits data for long-distance transmission and data for within-premises to a signal distribution device using a predetermined time slot of the same optical signal. give to The signal distribution device distributes the output optical signal of the first line control device to the optical transmitting/receiving device and the first optical transmission device for premises. The station-side transmission device extracts data for long-distance transmission from the output of the optical transmitting/receiving device, and relays the data for long-distance transmission. The second local optical transmission device supplies the output optical signal of the first local optical transmission device to the second line # and end device. The second line termination device performs frame conversion on this output optical signal and provides it to its own terminal. This terminal extracts its own local data from the output signal of the second line termination device. The second line control device converts the frame of the signal from its own terminal, and uses a predetermined time slot of the same optical signal to send the internal optical signal to the first premises via the second internal optical transmission device. to an optical transmission device. The signal synthesizing device synthesizes the output optical signal of the first indoor optical transmission device and the transmission data a transmitted from the optical transmitting/receiving device using a predetermined time slot, and provides the synthesized signal to the first concave line control device.

The first line control device performs frame conversion on the combined optical signal and provides it to its own terminal. The own terminal extracts its own internal signal and long-distance transmission data from the output signal of the first line control device. By the above-described operation, high-speed data transmission within the company premises and data transmission to and from outside the city can be performed economically and easily.

〔Example〕

Embodiments of the present invention will be described with reference to the drawings. 1st
The figure is a block diagram of a subscriber line multiplex transmission apparatus according to a first embodiment of the present invention. In FIG. 1, the subscriber line multiplex transmission device includes a plurality of terminals 10. ．． 102.

Here, the feature of the present invention is that the station-side transmission device 80
an optical transmitter/receiver 60 provided by a telecommunications carrier that is connected via an optical fiber transmission line 101 to a first premises optical transmission apparatus 701 installed as premises equipment; A first line termination device 20 provided by a telecommunications carrier connected to the terminal 10□, and a signal distribution device 40 that distributes the optical signal 202 of the line termination device 20 to the optical transmitting/receiving device 60 and the optical transmission device 701 for premises. , an optical transmitting/receiving device 60 and an optical transmission device for premises 70 . a signal combining device 50 which combines the optical signals 301a and 301b and provides the signal to the line terminating device 20, a second line terminating device 30 connected to each of the above-mentioned terminals 10□, and a line terminating device 30 and an in-premise optical transmission. A second local optical transmission device 702 is inserted between the optical transmitting and receiving device 60, a line termination device 20, 30, and a second local optical transmission device 7.
0. ．． 702 includes means for transmitting and receiving the same optical signal frame using time slots determined in advance for local and long-distance transmission.

The operation of the subscriber line multiplex transmission apparatus having such a configuration will be explained. FIG. 2 shows the frame format of the optical signal of the subscriber line multiplex transmission device.

In FIG. 2, M is a time slot for synchronous maintenance, P1
˜P indicates a time slot for local transmission, and T˜T indicates a time slot for long-distance transmission.

In FIG. 1, this device is operated in slave synchronization with an optical signal sent out by a station-side transmission device 60 of a telecommunications carrier.

First, the terminal 10□ sends out a transmission signal 201 to a time slot assigned to it on the interface defined between the terminal 10 and the line termination device 20, dividing it into internal data and long-distance transmission data. . The line termination device 20 has means for performing frame conversion into the optical signal frame shown in FIG.

(n=1.2, ), time slot T for long distance transmission. (n=1.2, ). The transmitted optical signal 202, which has been multiplexed and has a frame structure, is divided into two parts by the signal distribution device 40, one of which is connected as an optical signal 203a to an optical transceiver device 60 provided by a telecommunications carrier, and sent to the station via an optical fiber transmission line 101. It is sent to the side transmission device 70. The station-side transmission device 70 extracts only the contracted time slots from the time slots T+ to T0 for long-distance transmission and performs long-distance relay transmission. The other signal is connected to the indoor optical transmission device 70 as an optical signal 203b and sent to the opposing indoor optical transmission device 702 through the optical fiber transmission line 102. In the premises optical transmission equipment 702, the second
The optical signal 501 having the frame structure shown in the figure is transmitted to the line terminal device 3.
Connect to 0. The optical signal 501 is subjected to terminal frame conversion by the line termination device 30 and is connected to the terminal 10° as a received signal 502. The terminal 10□ extracts signals from the local time slots P1 to P, assigned to itself. In the case of transmission, the opposite is true, and the transmission signal 40 from the terminal 10□
1 is transmitted using the in-house time slots P1 to P7, and is frame-converted by the line termination device 30 to become an optical signal 4.
02 and is manually input to the indoor optical transmission device 702, and the indoor optical transmission device 70. will be received.

Here, the optical signal 301b of the indoor optical transmission device 702 has a frame structure shown in FIG. This optical signal 301b is input to the signal combining device 50 together with the optical signal 301a of the optical transmitter/receiver 60 provided by the telecommunications carrier.

On the optical signal 301b side, the times of the local time slots P1 to Ph are selected, and on the optical signal 301a side, the times of the long distance transmission time slots) T, -T are selected and output as an optical signal 302. The optical signal 302 is converted into a terminal frame by the line terminating device 20 and sent as a received signal 303 to the terminal 10. is input. By the way, when terminal 10□ performs long-distance transmission, terminal 10. Go down T, then go up P. This can be achieved by performing time slot conversion to .

〔Effect of the invention〕

As explained above, the present invention has the excellent effect of being able to economically and easily perform high-speed, high-quality data transmission within a company premises and data transmission outside the city.

Side transmission device, 101.102... optical fiber transmission line,
201.401--Transmission signal, 202.203a,
203b, 301a, 301b.

302.402.501... Optical signal, 303.502
...Received signal, M...Time slot for synchronization maintenance,
Pl~P.

. . . time slot for on-premises use, 'r, -Tn . . . time slot for long-distance transmission.

Claims (1)

[Scope of Claims] 1. In a subscriber line multiplex transmission system equipped with a plurality of terminals installed in a premises, an optical transmitting/receiving device (60) provided by a telecommunications carrier connected to a station-side transmission device; , a first premises optical transmission device (70_1) installed as premises equipment; a first line termination device (20) connected to one of the plurality of terminals and provided by the telecommunications carrier; a signal distribution device (40) that distributes the optical signal of the first line termination device to the optical transmitter/receiver and the first optical transmission device for premises; and the optical transmitter and receiver and the first optical transmission device for premises; A signal combining device (50
), a second line terminating device (30) each connected to a terminal other than the one terminal, and a second line terminating device (30) inserted between the second line terminating device and the first in-premises optical transmission device. a second local optical transmission device (70_2); A subscriber line multiplex transmission system characterized by including means for transmitting and receiving using time slots determined for within-premises and long-distance transmissions.