KR100601622B1 - Optical signal transmitting module - Google Patents

Abstract

An optical signal transmission module is disclosed. The optical signal transmission module includes a light emitting device for outputting an optical signal corresponding to a signal input from a signal transmitter, a light receiving device for outputting an electrical signal corresponding to light reception of the optical signal to a receiver, and a light signal to be transmitted to the light receiving device. A main transmission channel section having at least one main transmission channel having the installed optical fiber as a unit transmission channel, and at least one unit transmission channel so that a signal output from the signal transmitter can be output to the receiver when an error occurs in the main transmission channel. A switch selector configured to select and output one or more preliminary transmission channels, a signal generated by the signal transmitter, to one of a corresponding main transmission channel and a preliminary transmission channel selected to correspond to the main transmission channel; The signal output from each light receiving element of each transmission channel is input to determine whether there is a signal transmission error in each of the main transmission channels. For the main transmission channel, the switch selection control unit controls the switch selection unit so that the signal output from the signal transmitter can be transmitted to the selected preliminary transmission channel. According to such an optical signal transmission module, even if an abnormality occurs in the main transmission channel and difficulty in normal signal transmission occurs, the signal transmission can be resumed through the spare transmission channel, so that the usable life time is extended and the main transmission is performed. Whenever an abnormality occurs in the channel, the number of repairs required can be reduced, thereby improving user convenience.

Description

Optical signal transmitting module

1 is a view showing a general optical signal transmission module,

2 is a view showing an optical signal transmission module of a first embodiment according to the present invention,

3 is a block diagram illustrating an example of the switch selection controller of FIG. 2;

4 is a view showing an optical signal transmission module of a second embodiment according to the present invention;

5 is a view showing an optical signal transmission module of a third embodiment according to the present invention.

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

10, 40: signal transmitter 20, 50: receiver

31, 61, 71: light emitting elements 32, 62, 72: optical fiber

33, 63, 73: Light receiving element 34: Transmission channel

51: amplifier 64: main transmission channel

74: spare transmission channel 80: switch selection control unit

90: switch selector 150: second switch selector

160: second switch selection control unit

180, 280: first switch selector 190: first switch selector

270: third switch selector

The present invention relates to an optical signal transmission module. Specifically, when an error occurs in a main transmission channel for transmitting an optical signal, the optical signal transmission module is capable of resuming signal transmission to a receiver through a bypass path. It is about.

1 is a view showing a general optical signal transmission module.

Referring to the drawings, a plurality of transmission channels 34, in which the light emitting element 31, the optical fiber 32, and the light receiving element 33 form one unit transmission channel, are connected between the signal transmitter 10 and the receiver 20. It is.

The unit transmission channel, which is a constituent unit of the optical signal transmission module, includes a light emitting element 31 for generating an optical signal and a light receiving element 33 for outputting an electrical signal corresponding to the received optical signal to the receiver 20; An optical fiber 32 for guiding the transmission of the optical signal generated by the light emitting element 31 to the light receiving element 33 is provided. The signal generator 10 controls the driving of the light emitting element 31 so that an optical signal corresponding to the input signal is generated from the light emitting element 31.

The optical signal transmission module has less advantages of noise interference due to electromagnetic interference than the electrical signal transmission module, and has a relatively high signal transmission speed. Therefore, the optical signal transmission module is an electrical signal transmission module that occupies most of short-range or long-distance signal transmission. It is gradually being replaced.

However, when any one of the elements constituting the optical signal transmission module, that is, the light emitting element 31, the light receiving element 33, and the optical fiber 32 is broken or abnormal, the signal transmission is not normally performed. do. When the elements constituting the optical signal transmission module do not operate normally, most users who use a device (not shown) connected to the receiver 20 that is to receive a signal from the optical signal transmission module are responsible for the failure. It is not easy to find. Therefore, the inconvenience that the device can not be used until repaired with the help of a professional repair personnel.

The present invention was devised to improve the above problems, and when an abnormality occurs in the transmission channel, it is possible to continue the signal transmission through the bypass path, which can immediately recover the signal transmission failure due to the transmission channel failure The object is to provide an optical signal transmission module.

In order to achieve the above object, according to the present invention, a light emitting device for outputting an optical signal corresponding to a signal input from a signal transmitter, and an optical signal emitted from the light emitting device to receive an electrical signal corresponding to the light reception to the receiver An optical signal transmission module having a main transmission channel unit having an output light receiving element and at least one main transmission channel having an optical fiber provided to transmit light emitted from the light emitting element to the light receiving element as a unit transmission channel. At least one preliminary transport channel configured as the unit transport channel to output a signal output from the signal transmitter to the receiver through a bypass transmission path when an abnormality occurs in the main transport channel; A switch selector configured to select and output a signal generated by the signal transmitter to any one of the corresponding main transmission channel and the preliminary transmission channel selected to correspond to the main transmission channel; Receiving a signal output from the light receiving element of each of the main transmission channel to determine whether there is a signal transmission abnormality of each of the main transmission channel, the preliminary transmission in which the signal output from the signal transmitter is selected for the abnormal main transmission channel And a switch selection controller for controlling the switch selection unit to be transmitted through a channel.

Alternatively, according to the present invention, a light emitting device for outputting an optical signal corresponding to the signal input from the signal transmitter, and a light receiving for receiving an optical signal emitted from the light emitting device to output an electrical signal corresponding to the light reception to the receiver An optical signal transmission module comprising a main transmission channel unit having an element and at least one main transmission channel using an optical fiber provided to transmit light emitted from the light emitting device to the light receiving element as a unit transmission channel, wherein the main transmission A preliminary transmission channel unit having a plurality of preliminary transmission channels of the unit transmission channel so as to output a signal output from the signal transmitter to the receiver when a channel error occurs; A first switch selector configured to select one of the corresponding main transmission channel and the preliminary transmission channel unit and output the signal output from the signal transmitter; Receiving a signal output from each light receiving element of each of the main transmission channel to determine whether there is a signal transmission error of each of the main transmission channel, the signal output from the signal transmitter is the pre-transmission channel for the abnormal main transmission channel A first switch selection control unit controlling the first switch selection unit to be output to a negative unit; A second switch selection installed on the signal transmission path between the first switch selection unit and the preliminary transmission channel unit to output a signal output from the first switch selection unit to the preliminary transmission channel selected according to a predetermined control signal; Wealth; The signal output from the light receiving elements of each of the preliminary transmission channel units is input to determine whether each of the preliminary transmission channels is used, and the signal output from the first switch selector is output to the non-used preliminary transmission channel. And a second switch selection control unit for controlling the second switch selection unit to allow the second switch selection unit to be controlled.

In another embodiment, a third switch selector is further provided to selectively switch an output terminal of each light receiving element of each of the preliminary transmission channel units to a main output terminal leading from the light receiving elements of the main transmission channel unit to the receiver. The first switch selector controls the third switch selector so that an output terminal of the preliminary transmission channel selected as an alternative transmission path may be connected to the main output terminal of the main transmission channel in which there is an error.

Hereinafter, an optical signal transmission module according to preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing an optical signal transmission module of the first embodiment according to the present invention.

Referring to the drawings, the optical signal transmission module includes a main transmission channel unit 60 having a plurality of main transmission channels 64 for relaying signal transmission between the signal transmitter 40 and the receiver 50, and a plurality of preliminary transmissions. The output of the preliminary transmission channel section 70 having the channel 74 and the signal generated from the signal transmitter 40 to one of the main transmission channel section 60 and the preliminary transmission channel section 70 can be selected. The switch selection control part 80 and the switch selection control part 80 which control the switch selection part 90 are provided.

The signal transmitter 50 outputs a signal such that an optical signal corresponding to the data to be transmitted is emitted from the selected light emitting elements 61 and 71.

The main transmission channel unit 60 is provided with a plurality of main transmission channels 64 having the light emitting element 61, the optical fiber 62, and the light receiving element 63 as unit transmission channels. The amplifier 51 installed between the light receiving element 63 and the receiver 50 is installed to amplify and output the signal output from the light receiving elements 63 and 73 when the signal is weak.

The preliminary transmission channel unit 70 is provided with a plurality of preliminary transmission channels 74 in unit transmission channels, that is, the light emitting element 71, the optical fiber 72, and the light receiving element 73.

The switch selector 90 selects and outputs a signal output for each channel from the signal transmitter 40 as one of the light emitting element 61 of the main transmission channel 64 and the light emitting element 71 of the preliminary transmission channel 74. A plurality of switch elements 91 provided to be provided are provided.

The switch selection controller 80 receives a signal output from the light receiving elements 63 of each of the main transmission channels 64 to determine whether there is a signal transmission error in the main transmission channel 64, and the abnormal main transmission channel 64. ), Each switch element 91 of the switch selector 90 is controlled to transmit a signal output from the signal transmitter 40 to a pair of preliminary transmission channels 74.

The switch selection controller 90 converts the current signal i output from the light receiving element 63 into a voltage signal in the current-voltage converter 81, as shown in the example, and converts the voltage signal level. The discriminator 83 determines whether there is a signal transmission abnormality in the main transmission channel through the result obtained by comparing the set comparison criteria Vref with the comparator 82. In the transmission signal output on the binary level, the low level signal and the high level signal are mixed at a predetermined ratio, so that the discriminator 83 outputs the low signal output from the comparator 82 according to the clock signal at a set time period. When the level signal (which may select the high level signal as the count signal) exceeds the set count value, the switch selector 90 controls to output the signal output from the signal transmitter 40 to the selected preliminary transmission channel 74. It can be configured to output a signal.

According to such an optical signal transmission module, when a failure occurs in any one of the elements constituting the main transmission channel 64, that is, the light emitting element 61, the optical fiber 62, and the light receiving element 63, the switch selection control unit ( By controlling the switch selector 90 so that the signal detected by the signal generator 80 can be transmitted to the selected preliminary transmission channel 74, the signal transmission stop can be recovered immediately. Depending on whether the transmission signal output from the signal generator 40 to each main transmission channel 64 is common or independent for each channel, or according to the signal processing structure of the data received through each channel of the receiver 50, As described above, the output terminal of the spare transmission channel 74 is input to the receiver 50 through a path different from the output terminal of the primary transmission channel 64. The signal lines may be connected such that the output terminals of the transmission channels 74 can be output to the output terminals of the paired main transmission channels 64.

4 is a view showing an optical signal transmission module of a second embodiment according to the present invention. Elements having the same function as in the above-described drawings are denoted by the same reference numerals.

Referring to the drawings, the optical signal transmission module includes a main transmission channel unit 60, a preliminary transmission channel unit 70, a first switch selection unit 190, a first switch selection control unit 180, and a second switch selection. The unit 150 and the second switch selection control unit 160 are provided.

The first switch selector 190 transmits a signal output for each channel from the signal transmitter 40 to the corresponding main transmission channel 64 of the main transmission channel unit 60 and the preliminary transmission channel unit 70. A plurality of switch elements 191 provided to selectively output to any one of the two switch selection unit 150 is provided.

The first switch selection controller 180 receives a signal output from the light receiving elements 63 of each of the main transmission channels 64, determines whether there is a signal transmission error in the main transmission channel 64, and the main transmission channel having an abnormality. For reference numeral 64, each switch element 191 of the first switch selector 190 is controlled to output a signal output from the signal transmitter 40 to the second switch selector 150.

The circuit of FIG. 3 may be applied to the first switch selection controller 180 as it is.

The second switch selector 150 is installed on the signal transmission path between the first switch selector 190 and the preliminary transmission channel unit 70 and outputs a signal output from the first switch selector 190 to the second switch. Controlled by the position selection control unit 160 to output to the selected preliminary transmission channel (74).

The second switch selection controller 160 receives a signal output from the light receiving element 73 of each of the preliminary transmission channels 74 constituting the preliminary transmission channel unit 70, and whether the preliminary transmission channels 74 are used. And control the second switch selector 150 to output a signal output from the first switch selector 190 to the second switch selector 150 to the non-used preliminary transmission channel 74. do.

According to such an optical signal transmission module, the utilization efficiency of the reserve transmission channel 74 is increased by increasing the number of reserve transmission channels 74 provided with the number of reserve transmission channels 74 that can be replaced with respect to one primary transmission channel 64. Can be increased.

Meanwhile, since the transmission signal to be output from the signal transmitter 40 to each main transmission channel 64 is independent for each channel, the signal is transmitted to the preliminary transmission channel 74 even though the signal is transmitted through the preliminary transmission channel 74 which is a bypass path. An example of the optical signal transmission module in the case where it is necessary to output the transmission signal to the output terminal of the main transmission channel 64 in which the signal transmission path is replaced is shown in FIG. Elements having the same function as in FIG. 4 are denoted by the same reference numerals.

Referring to the drawings, the optical signal transmission module is further provided with a third switch selector 270 as compared to the optical signal transmission module of FIG.

The third switch selector 270 may include an output terminal of each of the light receiving elements 73 of each of the preliminary transmission channel units 70 and is connected to the receiver 50 from the light receiving elements 63 of the main transmission channel unit 60. 51a) can be selectively switched on.

The first switch selector 280 stores the channel address of the abnormal main transmission channel 64 and selects a spare transmission path selected as the alternative transmission path for the main output terminal 51a of the abnormal main transmission channel 64. The third switch selector 270 is controlled to connect the output terminal of the transmission channel 74.

The optical signal transmission module is configured to output the main signal of the corresponding main transmission channel 64 even though a signal to be output from the signal transmitter 40 through the designated main transmission channel 64 is transmitted through the preliminary transmission channel 74 as the bypass path. It can be input to the receiver 50 through the output terminal (51a), it is suitable when the transmission signal for each channel is independent.

As described so far, according to the optical signal transmission module according to the present invention, even if an abnormality occurs in the main transmission channel and difficulty in normal signal transmission occurs, the signal transmission can be resumed through the spare transmission channel. The usable life is extended and the user's convenience is improved by reducing the number of repairs required every time an abnormality occurs in the main transmission channel.

Claims (3)

A light emitting device for outputting an optical signal corresponding to a signal input from a signal transmitter, a light receiving device for receiving an optical signal emitted from the light emitting device, and outputting an electrical signal corresponding to the light reception to a receiver; An optical signal transmission module comprising a main transmission channel section having at least one main transmission channel using an optical fiber provided as a unit transmission channel for transmitting light to the light receiving element, At least one preliminary transport channel configured as the unit transport channel to output a signal output from the signal transmitter to the receiver through a bypass transmission path when an abnormality occurs in the main transport channel; A switch selector configured to select and output a signal generated by the signal transmitter to any one of the corresponding main transmission channel and the preliminary transmission channel selected to correspond to the main transmission channel; Receiving a signal output from the light receiving element of each of the main transmission channel to determine whether there is a signal transmission abnormality of each of the main transmission channel, the preliminary transmission in which the signal output from the signal transmitter is selected for the abnormal main transmission channel And a switch selection controller for controlling the switch selection unit so as to be transmitted through a channel. A light emitting device for outputting an optical signal corresponding to a signal input from a signal transmitter, a light receiving device for receiving an optical signal emitted from the light emitting device, and outputting an electrical signal corresponding to the light reception to a receiver; An optical signal transmission module comprising a main transmission channel portion having at least one main transmission channel using an optical fiber provided as a unit transmission channel so as to transmit light to the light receiving element. A preliminary transport channel unit having a plurality of preliminary transport channels of the unit transport channel so that a signal output from the signal transmitter can be output to the receiver through a bypass transmission path when an error occurs in the main transport channel; A first switch selector configured to select one of the corresponding main transmission channel and the preliminary transmission channel unit and output the signal output from the signal transmitter; Receiving a signal output from each light receiving element of each of the main transmission channel to determine whether there is a signal transmission error of each of the main transmission channel, the signal output from the signal transmitter is the pre-transmission channel for the abnormal main transmission channel A first switch selection control unit controlling the first switch selection unit to be output to a negative unit; A second switch selection installed on the signal transmission path between the first switch selection unit and the preliminary transmission channel unit to output a signal output from the first switch selection unit to the preliminary transmission channel selected according to a predetermined control signal; Wealth; The signal output from the light receiving elements of each of the preliminary transmission channel units is input to determine whether each of the preliminary transmission channels is used, and the signal output from the first switch selector is output to the non-used preliminary transmission channel. And a second switch selection controller for controlling the second switch selection unit so as to control the second switch selection unit. The method of claim 2, And a third switch selector for selectively switching the output terminal of each light receiving element of the preliminary transmission channel unit to the main output terminal from the light receiving elements of the main transmission channel unit to the receiver. And the first switch selector controls the third switch selector to connect an output terminal of the preliminary transmission channel selected as an alternative transmission path to the main output terminal of the main transmission channel in which there is an error. .

Images