KR100861770B1 - Variable optical attenuator with optical power monitoring contact - Google Patents

Abstract

According to the present invention, when the optical signal incident on the attenuator body via the light incidence connector is attenuated by the optical filter or the light attenuating member and exited from the light outgoing connector, the variable attenuation-light signal is branched to measure the optical power. The present invention relates to a variable optical attenuator with an optical power sensing function for application to identification.

According to a preferred embodiment, the variable type optical attenuator includes a light incidence connector in which an optical signal is incident on the attenuator body and a light output connector in which a variable attenuated optical signal is emitted from the attenuating body. An optical splitter is arranged at the front end of the connector to measure / confirm the optical power of the optical signal attenuated by the optical attenuator. The attenuating base unit links the optical signal branched by the optical splitter to the optical power measurement. Optical power measurement connector is installed integrally.

Preferably, according to the present invention, the optical power measurement connector includes an APC (Angled Physical Contact) connector with less influence of reflection of the optical signal.

In addition, a corresponding optical attenuator is packaged in a case and modularized, in which case a power ratio branched by the optical splitter is recorded to facilitate measurement of the optical power.

Description

Variable optical attenuator with optical power sensing function {VARIABLE OPTICAL ATTENUATOR WITH OPTICAL POWER MONITORING CONTACT}

1 is an exemplary view for explaining the configuration of a variable type optical attenuator according to a conventional example;

2 is a view for explaining the configuration of a variable type optical attenuator according to another conventional example;

3 is a view for explaining the configuration of a variable optical attenuator to which an optical power sensing function is added according to a preferred application of the present invention;

4 is a view for explaining the configuration of a variable optical attenuator to which an optical power sensing function is added according to another preferred embodiment of the present invention;

5 and 6 are diagrams for explaining an application example of the variable attenuator to which the optical power sensing function is added according to the present invention.

* Description of the symbols for the main parts of the drawings *

10,20: variable optical attenuator, 12,22: light incidence connector,

14: condenser lens, 16: light filter (light attenuation member),

16-1: displacement member, 18, 24: light output connector,

26: optical power meter, 30, 40: attenuator body,

32,42: light incident connector, 34,44: light exit connector,

36,46: optical splitter, 38,48: optical power measurement connector.

The present invention relates to a variable type optical attenuator having an optical power sensing function. More specifically, when the optical signal transmitted from the optical transmission system is variably attenuated in the attenuation body, the variable attenuated optical signal is branched to measure the optical power. The present invention relates to a variable optical attenuator with an optical power sensing function that can be performed simply.

Recently, the optical communication method using the optical fiber has been rapidly applied to practical use based on the feature that it is possible to transmit a large amount of information at high speed.

In particular, in the optical communication using optical fibers, as the technology of the optical switch develops, an optical exchange network that converts light without converting the light into an electrical signal is noticed. In such an optical exchange network, the optical signal paths of a plurality of optical fibers are different. Because they are switched, multichannel optical switches are applied.

In the multi-channel optical switch, since the length of the optical path is changed by switching the optical path and the amount of passage attenuation is changed by changing the optical switch portion through which the optical signal passes, for example, light having the same intensity is input to the input side. Even if there is a deviation in the intensity of light output from the output side, the intensity of the output light also changes in the same output terminal by switching.

Therefore, in response to switching of the optical signal, a variable optical attenuator for adjusting the intensity of the output light to be kept constant is required.

1 is an exemplary view for explaining the configuration of a variable type optical attenuator according to a conventional example.

Referring to the drawings, the variable optical attenuator denoted by 10, when an optical signal transmitted from the optical transmission system is incident through the optical incident connector 12, the optical signal is incident on the optical filter or the optical attenuation member 16 by the condenser lens 14. After the light intensity is adjusted, the light is output through the light output connector 18 via the condenser lens 14.

The optical filter or the light attenuating member 16 is mounted to the displacement member 16-1 which is displaced in the front / rear direction inside the corresponding variable optical attenuator, and thus is incident through the light incident connector 12. The optical signal is adjusted to a constant level according to the displacement of the displacement member 16-1 and outputted through the light output connector 18.

However, in the variable type optical attenuator 10 according to the conventional example illustrated in FIG. 1, when the variable attenuated optical power is to be checked or the optical power currently output is checked, only the optical connector connected to the outside is possible. Therefore, when observing the operation of the system while continuously changing the optical power, not only does it cause the trouble of repeatedly connecting and disconnecting the optical connector in order to check the optical power, but also to confirm the optical power. If the connection and disconnection of the optical connector is repeated, there is a possibility of not being connected under the same conditions, and the disadvantage of shortening the life of the optical connector for checking the optical power is caused.

In view of such a point, the structure of the variable type optical attenuator shown in FIG. 2 is assumed. In the variable type optical attenuator 20, light incident from the light incident connector 22 is applied to an optical filter or an optical attenuating member (not shown). In the case of being attenuated by < RTI ID = 0.0 >) and exiting to the light exit connector 24, an optical power meter 26 for measuring and visually displaying the power of the attenuated light is provided integrally.

However, in the variable type optical attenuator 20 shown in FIG. 2, since the optical power meter 26 is integrally integrated, the cumbersome operation of connecting and disconnecting the optical connector for checking the optical power can be eliminated. Since the optical power meter 26 is integrally provided in the attenuator 20, the overall size of the corresponding variable optical attenuator 20 is not only increased, but also becomes expensive.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described prior art, and has a light for branching a part of the optical signal to the side on which the optical signal variably attenuated by the optical filter or the optical attenuating member is emitted so as to be applied to the measurement / confirmation of optical power. It is an object of the present invention to provide a variable optical attenuator with an optical power sensing function that enables a simple measurement / confirmation of the optical power of the variable attenuation-optical signal by adding a power sensing function.

In order to achieve the above object, according to a preferred embodiment of the present invention, a variable type optical attenuator in which a light incident connector into which an optical signal is incident on the attenuator body and a light exit connector in which a constant variable attenuated optical signal is emitted from the attenuating body are output. In the front end of the light output connector of the attenuator is an optical splitter for branching the optical signal attenuated in the optical attenuator main body for the measurement / confirmation of the optical power, the attenuating base is branched by the optical splitter A variable optical attenuator having an optical power sensing function, which is integrally provided with an optical power measurement connector for linking an optical signal to an optical power measurement, is provided.

Preferably, according to the present invention, the optical power measurement connector includes an APC (Angled Physical Contact) connector with less influence of reflection of the optical signal.

It is also preferable if the corresponding optical attenuator is packaged in a case and modularized, in which case the power ratio branched by the optical splitter is recorded to facilitate the measurement of the optical power.

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

3 is a view for explaining the configuration of a variable type optical attenuator to which an optical power sensing function is added according to a preferred application of the present invention.

Referring to the drawings, the variable type optical attenuator according to the present invention is provided with a light incidence connector 32 at one end of the attenuating base body 30, and a light output connector 34 at the other end thereof, and the light inside the light. An optical filter or an optical attenuating member (not shown) that variably attenuates the optical signal incident from the incident connector 32 is incorporated.

Preferably, according to the present invention, a front end of the light output connector 34 branches a portion of the variable attenuation-optical signal to measure / confirm the optical power of the optical signal variably attenuated by the optical filter or the optical attenuation member. An optical splitter 36 is disposed as an optical splitter for the optical splitter 36, and a part of the optical signal branched by the optical splitter 36 is connected to an optical power meter (not shown) to connect the optical output connector 34. An optical power measurement connector 38 for measuring / checking the power of the variable attenuating-optical signal emitted through) is provided integrally.

Therefore, in the variable type optical attenuator of the present invention, when the optical signal of the attenuation target is incident on the corresponding attenuation basic body 30 through the optical incident connector 32, the optical signal is variably attenuated by the optical filter or the optical attenuating member. The variable attenuated optical signal is emitted through the light output connector 34.

In addition, a portion of the variable attenuation-optical signal emitted from the attenuation base 30 to the light output connector 34 is branched by the optical splitter 36 to receive light through the optical power measurement connector 38. The ratio of the optical signal branched by the optical splitter 36 to the power meter side is set so small that the optical power measurement can be performed without affecting the optical signal transmitted through the light output connector 34. You can do it.

Here, the optical power ratio of the optical signal output through the light output connector 34 and the optical power measurement connector 38 is the same regardless of the magnitude of the total optical power input to the optical power measurement connector ( When measuring / calculating the optical power output through the 38) it is possible to calculate the power of the optical signal output through the light output connector 34.

4 is a view for explaining the configuration of a variable optical attenuator to which the optical power sensing function is added according to another preferred embodiment of the present invention, the variable optical attenuator according to the present example compared to the variable optical attenuator of FIG. The light splitter 42 and the light exit connector 44 of the attenuating base 40 are defined differently, and an optical splitter for branching a part of the variable attenuated light signal emitted from the light exit connector 44 ( 46 and the optical power measurement connector 48 for coupling a portion of the optical signal branched by the optical splitter 46 to an optical power meter (not shown).

That is, according to the present invention shown in Figures 3 and 4, the attenuating base 30 (40) of the variable optical attenuator is in a state that can be used only in one direction, the light in front of the light output connector (34, 44) The splitters 36 and 46 are positioned so that a portion of the variable attenuated optical signal passing through the attenuating bases 30 and 40 of the corresponding variable optical attenuator is separated by the optical splitters 36 and 46 to provide optical power. Applied to sensing.

The optical splitters 36 and 46 shown in FIGS. 3 and 4 are formed at the front end of the light exit connectors 34 and 44 to branch the optical signals output through the light exit connectors 34 and 44. Although the state is disposed outside the damping bases 30 and 40, it is preferable that the damping bodies 30 and 40 are disposed inside the damper bodies 30 and 40 for the sake of simplicity of the optical power sensing structure.

5 and 6 are diagrams showing an application example of the variable type optical attenuator to which the optical power sensing function according to the present invention shown in FIGS. 3 and 4 is added.

Referring to the drawings, the variable optical attenuator system including the optical splitters 36 and 46 is made of one module packaged in the corresponding case 50 and 60 to provide simplicity and convenience in actual use.

Preferably, the power ratio branched by the optical splitters 36 and 46 in the corresponding variable optical attenuator is recorded at predetermined positions of the cases 50 and 60 to facilitate calculation of the optical power of the signal.

That is, the optical splitters 36 and 46 split the input optical power into two outputs, and the power ratio is constant at the time of branching so that the power ratio is measured and the value is measured. By recording at a predetermined position, the calculation becomes easy.

For example, when the power ratio is 9: 1, it is easy to know that the signal transmission becomes 9W when the power at the output power reading position is 1W.

On the other hand, if you calculate the dB, you can see that if there is a difference of 20 dB, the signal is transmitted at 10 dBm when the power at the output power reading is -10 dBm. Values may be recorded in the cases 50 and 60 to facilitate calculation.

In addition, according to the present invention, the optical power measurement connectors 38 and 48 minimize the reflection at the interface between the optical fibers of the coupling target, and use the optical power measurement connector when the APC connector has excellent optical characteristics. It is possible to minimize the effect of reflection from (38,48).

In general, the attenuating bases 30 and 40 of the variable type optical attenuator are manufactured by a mechanical method or a method using a semiconductor process, and the optical power sensing structure according to the present invention is a variable type manufactured by any of the above methods. It is also applicable to a light attenuator.

On the other hand, the present invention is not limited to the application examples described above, of course, various changes and modifications can be carried out within the scope not departing from the technical gist and gist of the invention.

As described above, according to the variable type optical attenuator with the optical power sensing function according to the present invention, the optical signal incident on the attenuator main body through the optical incidence connector is fixed by the optical filter or the optical attenuating member in the attenuating base. When the variable attenuated light is emitted through the light output connector, a part of the variable attenuated light signal is separated by the optical splitter to measure the power of the current optical signal, thereby realizing a low cost. While only the operation of linking the optical power meter to the optical power measurement connector if necessary, it is possible to simply perform the measurement / confirmation of the power of the optical signal emitted through the light output connector.

Claims (3)

delete delete In the variable type optical attenuator in which a light incident connector into which an optical signal is incident on the attenuator body and a light output connector in which a constant variable attenuated optical signal is emitted from the attenuator body are connected, In front of the light output connector of the attenuator is arranged an optical splitter for branching the variable attenuated optical signal in the optical attenuator body for the measurement / confirmation of the optical power, The attenuator is integrally provided with an optical power measurement connector for linking the optical signal branched by the optical splitter to the optical power measurement, The optical power measurement connector includes an APC (Angled Physical Contact) connector with a low reflection effect of the optical signal, A corresponding optical attenuator is packaged in a case and modularized, and the case includes recording a power ratio branched by the optical splitter to facilitate measurement of optical power.

Images