KR200160167Y1 - Transmitter/receiver using single line optical fiber for atm switching customer board - Google Patents

Abstract

The present invention relates to a single-line optical fiber transmitter / receiver for asynchronous transfer (ATM) switch subscriber board, and by using directional division multiplexing (DDM), it is possible to transmit / receive data in common through one optical fiber line. In addition, it is economical to construct an optical line at half price of the conventional method when constructing an optical access subscriber network. The transmission distance of the present invention is a technology capable of transmitting up to 15 km in a single mode optical fiber.

Description

Single-line fiber-optic transmitter / receiver for asynchronous transfer switch subscriber boards

The present invention relates to a single-line optical fiber transmit / receive device for an Asynchronous Switching (ATM) Switchboard Subscriber Board, and to transmit / receive data in common through one optical fiber line. It is about a technology to reduce the.

In general, as shown in FIG. 1, the ATM switch subscriber board includes transmitting optical fiber links 1 and 4 and receiving optical fiber links 2 and 3 separately, so that two optical transmission fibers ( 5) was required.

This is the simplest form of bidirectional communication and uses Space Division Multiplexing (SDM) technology.

This method avoids the effects of light reflections in the network by physically dividing the transmission path, and does not need to consider the problem of combining and separating upstream and downstream transmissions.

However, its main drawback is that the cost of fiber cables and passive components increases the cost of the entire system, since the fiber and connectors are doubled.

The present invention aims to reduce the number of fibers and connectors in a network by connecting subscribers using one fiber in order to solve the conventional problems as described above.

1 is a block diagram illustrating a construction of an optical fiber transmitter / receiver using two general lines.

2 is a schematic block diagram of an optical fiber transmission / reception apparatus using a single line according to the present invention.

3 is a detailed block diagram of FIG.

<Description of the symbols for the main parts of the drawings>

100, 200: optical transmission module 300: optical fiber

10: data transmitter 20: data receiver

30: optical separation stage 11: transmission driver

21: reception driver 31: laser diode

32: optical separator 33: photodiode

34 limiting amplifier 35 data reproducing unit

In order to achieve the above object, in the present invention, it is possible to transmit / receive optical data using one optical fiber; Optical separation for each data transmitter / receiver that transmits / receives data at the same wavelength, and a signal transmitted from each transmitter / receiver, which transmits the transmitted data and extracts only the received data from which the transmitted reflected light is removed from the received data. A first optical transmission module comprising a stage; It has the same configuration as the first optical transmission module, it characterized in that it comprises a second optical transmission module connected via one optical fiber.

The above objects, features, and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic block diagram of an optical fiber transmit / receive connection device using a single line according to the present invention, and includes a data transmitter (TxD) 10, a data receiver (RxD) 20, and the transmitter / receiver 10 and 20. The first optical transmission module is composed of an optical separation stage 30 for transmitting the input / output signal from the output by using the respective reflected power ratio, removes the noise from the received light and separates the received light 100; A second optical transmission module 200 having the same configuration as the first optical transmission module 100; And one optical fiber 300 connecting the optical transmission modules 100 and 200.

Referring to the detailed block of each part in the optical transmission module (100, 200), as shown in Figure 3 it is a transmission driver 11 for amplifying the power of the data to be transmitted, and a reception driver for amplifying the power of the received data ( Each data transmitting / receiving end (10, 20) each consisting of 21); The laser diode 31 which receives the transmission data which is the electrical signal output from the transmission driver 11 and converts it into light, and outputs the optical signal output from the laser diode 31 to the optical fiber 300, and vice versa The optical splitter 32 separates the reflected reflected light reflected during transmission from the received data input through the optical fiber 300, and the received reflected light from which the transmitted reflected light is separated through the optical separator 32 is received as an electrical signal. Reproducing data from the photodiode 33 for conversion, the limiting amplifier 34 for amplifying the received data output through the photodiode 33 to remove noise, and the received signal output from the limiting amplifier 34. And an optical separation stage 30 including a data reproducing section 35.

The optical fiber transmit / receive connection device configured as described above uses a Directional Division Multiplexing (DDM) transmission scheme to separate the received light from the reflected light generated at the connector and the network terminal in the network. In this DDM transmission method, transmission / reception data have the same wavelength, and the optical splitter 32 detects the reception data using the ratio of the reflected power of the transmission data and the power of the reception data.

The optical splitter 30 receives data to be transmitted through the transmitter 10 and transmits the transmission data to the counterpart optical transmission module 200 through the optical fiber 300 as it is.

However, the transmitted optical signal is synthesized when a part of the optical fiber 300 is reflected and receives the received data from the counterpart optical transmission module 200.

However, the synthesized signal is input to the optical separator 32 of the optical separation stage 30 and then the transmission reflection signal is removed through the limiting amplifier 34 and only the pure received data is reproduced, and then input to the reception driver 21. do.

In addition, since the system constructed using the present invention has a large effect of light reflection due to external conditions, the connector installed in the point-to-point network is required to use an inclined connector (Angle Polish Connector: APC).

As described in detail above, the present invention has an economical advantage in that an optical line can be constructed at half the price of an existing method when constructing an optical access subscriber network by simultaneously transmitting / receiving data with one optical fiber. The transmission distance can be up to 15 km in single-mode fiber.

In addition, the preferred embodiment of the present invention is disclosed for the purpose of illustration, and those skilled in the art will be able to make various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications and modifications belong to the following claims You will have to look.

Claims (3)

To transmit / receive optical data using one optical fiber; Optical separation for each data transmitter / receiver that transmits / receives data at the same wavelength, and a signal transmitted from each transmitter / receiver, which transmits the transmitted data and extracts only the received data from which the transmitted reflected light is removed from the received data. A first optical transmission module comprising a stage; Single line optical fiber transmitter / receiver for asynchronous transfer type (ATM) switchboard subscriber board having the same configuration as that of the first optical transmission module and comprising a second optical transmission module connected through one optical fiber. . The single-line optical fiber transmission / output for an asynchronous transfer method (ATM) exchange subscriber board according to claim 1, wherein each data transmission / reception terminal for transmitting / receiving data with the same wavelength uses directional division multiplexing (DDM). Receiving device. The single line optical fiber transmit / receive for an asynchronous transfer method (ATM) exchange subscriber board of claim 1, wherein the connector installed in the network forming a point-to-point configuration through each optical module uses an inclined connector (APC). Device.