RU71766U1 - NORMALIZING COMPENSATION COIL FOR OPTICAL REFLECTOMETER (OPTIONS) - Google Patents

Abstract

The utility model relates to electrical instrumentation, in particular to devices used in conjunction with testing equipment for evaluating elements of optical systems, networks, equipment, in particular with reflectometers for measuring optical parameters of the connection of a measured optical fiber with a coil. The utility model allows to eliminate optical heterogeneities, increase mechanical protection, maintain the shape of the fiber bay, prevent the occurrence of bends of the optical fiber and provide mechanical protection of the bay during operation, transportation and storage. In addition, when using two compartments in the housing, the use of the first open compartment for laying leads and detachable connectors ensures that the leads are laid with the required minimum bending radius and protecting the leads during transportation; the presence of a second compartment enclosed by a metal casing for the optical fiber bay provides protection for the bay during operation , transportation and storage. A normalizing compensation coil for an optical reflectometer includes a housing, a segment of a single-mode or multimode optical fiber with central and end parts, optical connectors mounted at the ends of a fiber segment. The central part of the segment is folded into a bay fastened by means of an adhesive and placed in the body cavity. The end parts of the segment are conclusions with fasteners made in the form of an optical cable. For the second option, the normalizing compensation coil for the optical reflectometer includes a housing with a cover, and the optical connectors and terminals are located in the housing. For the third option, the normalizing compensation coil for an optical reflectometer includes a housing with two compartments and a cover, the second compartment being closed by a casing, the terminals and optical connectors are located in the first compartment, and a bay is located in the second compartment. 3 n.p. f-ly, 14 wp f-ly, 7 ill.

Description

The utility model relates to electrical instrumentation, in particular to devices used in conjunction with testing equipment for evaluating elements of optical systems, networks, equipment, in particular with reflectometers for measuring optical parameters of the connection of a measured optical fiber with a coil.

For the first embodiment, the closest common set of essential features with the claimed utility model is a normalizing compensation coil for an optical reflectometer, including a housing, a piece of optical fiber, the central part of which has no sheath, the end parts are conclusions, and optical connectors are mounted at the ends of the segment. (see US patent No. 2004136369, publ. 02.09.2004).

Significant disadvantages of the known coil are the complexity of its design, insufficient prevention from bending of the optical fiber, which (bends) lead to signal loss, the absence of elements in the places where the leads exit the housing, which prevent bending of the optical fiber with a small radius and its scrapping.

For the second embodiment, the closest common set of essential features with the claimed utility model is a normalizing compensation coil for an optical reflectometer, including a housing, a piece of optical fiber, the central part of which has no sheath, the end parts are conclusions, and optical connectors are mounted at the ends of the segment ( see US Patent No. 2004136369, publ. 02.09.2004).

Significant disadvantages of the known coil are the complexity of its design, insufficient prevention from bending of the optical fiber, which (bends) lead to signal loss, the absence of elements in the places where the leads exit the housing, which prevent bending of the optical fiber with a small radius and its scrapping.

For the third embodiment, the closest common set of essential features with the claimed utility model is the normalizing compensation

a coil for an optical reflectometer, including a housing, a piece of optical fiber, the central part of which has no sheath, the end parts are conclusions, optical connectors are mounted at the ends of the segment (see US patent No. 2004170369, publ. 02.09.2004).

Significant disadvantages of the known coil are the complexity of its design, insufficient prevention from bending of the optical fiber, which (bends) lead to signal loss, the absence of elements in the output points of the terminals from the housing, which can prevent bending of the optical fiber with a small radius and its breaking, increased dimensions coil thickness.

The task to which the proposed utility model is aimed for all three versions is to create a coil that allows you to see on the trace the initial section of the measured fiber and measure the optical parameters of the connection of the measured fiber with the coil, eliminate the influence of near dead center of the optical reflectometer zone on the measurement results.

The technical result for the first embodiment is aimed at eliminating optical inhomogeneities by using one single piece of optical fiber, increasing mechanical protection by using a housing for the bay, maintaining the shape of the fiber bay, preventing the occurrence of bends of the optical fiber (which lead to signal loss) and providing mechanical protection by bonding fiber coils with adhesive, and the presence of a housing protects the coils during operation, transportation and storage.

The technical result for the first embodiment is achieved due to the fact that in the normalizing compensation coil for an optical reflectometer, which includes a housing, a segment of a single-mode or multimode optical fiber with central and end parts, optical connectors mounted at the ends of the fiber segment, the central part of the segment is folded into a bay fastened by means of an adhesive and placed in the cavity of the housing, and the end parts of the segment are conclusions made in the form of an optical cable I, on the mounts to the body. The housing may be made of metal and / or plastic. The bay can be fixed in the housing. The pitch of the fiber winding in the bay may be equal to the diameter of the fiber. The normalizing compensation coil can be equipped with shanks installed at the points where the leads exit the housing.

According to the first embodiment, the distinguishing features of the proposed coil from the known one, the closest to it is the execution of a single-mode or multimode optical fiber segment, the central part of the segment coiled into a bay, fastened by adhesive and placed in the body cavity, and the end parts of the segment are conclusions made in as an optical cable, with attachment points to the housing. The technical result for the second embodiment is aimed at eliminating optical inhomogeneities by using one single piece of optical fiber, increasing mechanical protection by using a housing for the bay, maintaining the shape of the fiber bay, preventing the occurrence of bends of the optical fiber (which lead to signal loss) and providing mechanical protection by bonding fiber coils with adhesive, the presence of a housing with a lid that contains fiber coils and conclusions provides laying of conclusions with the required minimum bending radius and protection of conclusions during transportation, and the presence of the case also provides protection of the bay during operation, transportation and storage. The technical result for the second embodiment is achieved due to the fact that in a normalizing compensation coil for an optical reflectometer, including a housing with a cover, a segment of a single-mode or multimode optical fiber with central and end parts, optical connectors mounted at the ends of the fiber segment, the central part of the segment is folded into a bay fastened by means of an adhesive and placed in the cavity of the body, the end parts of the segment are conclusions made in the form of an optical Abel, with mounts to the housing, and the optical connectors and the terminals are located in the housing.

The housing may be made of metal and / or plastic.

The normalizing compensation coil may be provided with elements for laying and fixing the terminals.

The bay can be fixed in the housing.

The pitch of the fiber winding in the bay may be equal to the diameter of the fiber.

At the points of output of the terminals, shanks can be installed.

According to the second variant, the distinguishing features of the proposed coil from the known one closest to it is the execution of a housing with a cover, a single-mode or multimode optical fiber segment, the central part of the segment coiled into a bay, fastened by adhesive and placed in the body cavity, the end parts of the segment are conclusions made in the form of an optical cable, with attachment points to the case, and optical connectors and terminals are located in the case.

The technical result for the third embodiment is aimed at eliminating optical inhomogeneities by using one single piece of optical fiber, increasing mechanical protection by using a housing for the bay, maintaining the shape of the fiber bay, preventing the occurrence of bending of the optical fiber (which lead to signal loss) and providing mechanical protection by bonding fiber coils with adhesive and by performing two compartments in the housing that allow size stitch in each a bay, leads and detachable connectors, using the first open compartment for laying leads and detachable connectors, provides laying leads with the required minimum bending radius and protecting the leads during transportation, and the presence of a second enclosed compartment for the bay of optical fiber provides protection for the bay during operation, transportation and storage.

The technical result for the third embodiment is achieved due to the fact that in a normalizing compensation coil for an optical reflectometer, which includes a housing with two compartments and a cover, a segment of a single-mode or multimode optical fiber with central and end parts, optical connectors mounted at the ends of the fiber segment part of the segment is folded up a bay fastened by adhesive, and the end parts of the segment are conclusions made in the form of an optical cable, with Lamy fastening to the housing, terminals and optical connectors are placed in the first compartment, the second compartment is placed bay, the second compartment closed casing.

The housing may be made of metal and / or plastic.

The normalizing compensation coil may be provided with elements for laying and fixing the terminals.

The bay can be fixed in the housing.

The pitch of the fiber winding in the bay may be equal to the diameter of the fiber.

The normalizing compensation coil can be equipped with shanks installed in the places where the leads exit the first compartment of the housing.

According to the third variant, the distinguishing features of the proposed coil from the known one, closest to it, are the housing with two compartments and a cover, a single-mode or multimode optical fiber segment of the central part of the rolled-up coil section bonded with adhesive, the end parts of the segment are conclusions made in the form optical cable, with attachment points to the case, the leads and optical connectors are located in the first compartment, a bay is placed in the second compartment, the second compartment is closed .

The utility model is illustrated by drawings.

The figure 1 presents a bay of fiber, fixed with adhesive.

The figure 2 presents the coil normalizing with the housing (option 1).

The figure 3 presents a normalizing coil with a housing and a cover (option 2).

Figure 4. presents a normalizing coil (option 3) in isometry.

The figure 5 presents the coil normalizing (option 3) - General view - with the cover open

The figure 6 presents the normalizing coil (option 3) - General view - with the housing cover closed.

The figure 7 presents the normalizing coil is a view of the optical output mounting element

The first embodiment of the coil.

A normalizing compensation coil for an optical reflectometer includes a housing 1 made of metal or plastic, a segment of a single-mode or multimode optical fiber with central and end parts, optical connectors 2 mounted at the ends of the fiber segment. The central part of the segment is folded into a bay 3 (figure 1), fastened by means of an adhesive, placed and fixed in the cavity of the housing 1 (figure 2). The end parts of the segment are conclusions 4, made in the form of an optical cable, with attachment points 5 (Fig.7) to the housing 1. The step of winding the fiber in the bay can be equal to the diameter of the fiber. The fastening of the conclusions 4 can be performed by adhesive and / or mechanical. Normalizing the compensation coil can be equipped with shanks 7 (figure 2), installed at the points of output of the conclusions from the housing 1.

The second embodiment of the coil.

The normalizing compensation coil for an optical reflectometer includes a housing 1 of metal or plastic with a cap, a segment of a single-mode or multimode optical fiber with central and end parts, optical connectors 2 mounted at the ends of the fiber segment. The central part of the segment is folded into a bay 3 (Fig. 1), fastened by adhesive, placed and fixed in the cavity of the housing 1. The end parts of the segment are conclusions 4, made in the form of an optical cable, with nodes 5 (Fig. 7) of fastening to the housing 1, and the optical connectors 2 and the conclusions 4 are located in the housing 1. The coil can be equipped with elements 6 for laying and fixing conclusions 4. The step of winding the fiber bay 3 may be equal to the diameter of the fiber. The fastening of the conclusions 4 can be performed by adhesive and / or mechanical. Normalizing the compensation coil can be equipped with shanks 7 (Fig.3), installed in the places of output of pins 4 from the housing 1.

The third embodiment of the coil.

A normalizing compensation coil for an optical reflectometer includes a housing 1 made of metal or plastic with two compartments and a lid (drop-down case), a segment of a single-mode or multimode optical fiber with central and end parts, optical connectors 2 mounted at the ends of the fiber segment. The central part of the segment is folded bay 3 (figure 1), bonded by means of an adhesive. The end parts of the segment are conclusions 4, made in the form of an optical cable, with nodes 5 (Fig.7) fastening to the housing 1. Terminals 4 and optical connectors 2 are located in the first compartment. In the second compartment, a bay 3 is placed and fixed. The second compartment is closed by a casing (8). The normalizing compensation coil can be equipped with elements 6 for laying and fixing the findings 4. The step of winding the fiber in the bay can be equal to the diameter of the fiber. The fastening of the terminals 2 can be performed by glue and / or mechanical. Normalizing the compensation coil can be equipped with shanks 7 (Fig.4, 5) installed in the output points of the conclusions 4 from the casing 8.

1st manufacturing method.

The fiber bundle 3 is wound on a collapsible spool in a way that prevents bending of the fiber with a radius less than the minimum, for example, the fiber is wound on a spool with a radius greater than the minimum with a step equal to the diameter of the fiber.

In the process of winding fiber onto a spool, glue is applied to the fiber immediately before winding.

After winding the required fiber length and hardening the glue, the coil is disassembled, and the fiber bundle 3 is removed.

The coil is made of a material to which the adhesive used does not adhere (e.g. fluoroplastic) or is coated with it (e.g. thick grease, fluoroplastic).

2nd manufacturing method.

The fiber bundle 3 is wound on a collapsible spool in a way that prevents bending of the fiber with a radius less than the minimum, for example, the fiber is wound on a spool with a radius greater than the minimum with a step equal to the step of the fiber diameter. After winding the required fiber length, the fiber is impregnated throughout the volume with low viscosity adhesive. After the adhesive has hardened, the coil is disassembled, and the fiber bundle 3 is removed.

The coil is made of a material to which the adhesive used does not adhere (e.g. fluoroplastic) or is coated with it (e.g. thick grease, fluoroplastic). Using a coil.

The coil is a piece of optical fiber of the required length, at the ends of which optical connectors are mounted. The coil has protection against external mechanical influences, as It is intended for use in conjunction with portable measuring instruments, specifically with an optical reflectometer. The end parts of the segment are conclusions 4. Conclusions 4 have protection against mechanical influences: a power element that protects against tensile forces and a protective coating that protects from breaking and bending with a small radius, that is, are made in the form of an optical cable. The power elements of the terminals 4 are attached to the housing 1 by the fastening units 5.

One end of the coil fiber is connected to the measuring optical port of the OTDR using an optical connector.

The second end of the coil fiber is connected to the measured optical fiber.

Using a coil allows you to see on the trace the initial portion of the measured fiber and measure the optical parameters of the connection of the measured fiber with the coil.

The main applications of the coil:

1. To normalize the honey composition of the test radiation in the optical fiber (in the case of multimode fiber).

2. To eliminate the influence on the measurement results of the near dead zone of the optical reflectometer.

3. To measure the parameters of the optical connector of the optical cable connected to the coil (the coil serves as a reference portion of the fiber, its output connector as a reference).

4. Protection and increase the durability of the output optical connector of the OTDR (once connecting the coil to the OTDR, you can take several measurements.

In order for the coil to be used to normalize the mode composition in the optical fiber of the test radiation, it is necessary that there are no optical inhomogeneities on the fiber.

In order for the coil to be used to eliminate the influence on the measurement results of the near dead zone of an optical reflectometer, it is necessary that the fiber length exceeds the value of the near dead zone of an optical reflectometer.

In order for the coil to be used to measure the parameters of the terminal optical connector, it is necessary that there are no optical heterogeneities on the fiber and the connector connected to the measured optical fiber is a reference.

The absence of optical inhomogeneities ensures the use of one single piece of optical fiber in the coil and the laying of the optical fiber in a manner

preventing the appearance of bends (including microbends and bends) with a radius less than the minimum allowable (at which insertion loss of the optical signal occurs).

The length of the fiber of the coil should be large enough on the one hand to eliminate the effect of the near dead zone of the optical reflectometer.

On the other hand, as the fiber length of the coil increases, the insertion loss of the optical signal in it increases, which reduces the useful dynamic range of the optical reflectometer.

The fiber bay 3 is glued, which allows it to maintain its shape and prevent the occurrence of bends of the optical fiber (which lead to the occurrence of signal loss) and provides mechanical protection.

Claims (17)

1. Normalizing compensation coil for an optical reflectometer, including a housing, a segment of a single-mode or multimode optical fiber with central and end parts, optical connectors mounted on the ends of a fiber segment, the central part of the segment being folded into a bay fastened by adhesive and placed in the cavity of the housing , and the end parts of the segment are conclusions made in the form of an optical cable, with attachment points to the housing. 2. The normalizing compensation coil according to claim 1, characterized in that the housing is made of metal and / or plastic. 3. The normalizing compensation coil according to claim 1, characterized in that the bay is fixed in the housing. 4. The normalizing compensation coil according to claim 1, characterized in that the step of winding the fiber in the bay is equal to the diameter of the fiber. 5. The normalizing compensation coil according to claim 1, characterized in that it is equipped with shanks installed at the points where the leads exit the housing. 6. Normalizing compensation coil for an optical reflectometer, including a housing with a cover, a segment of a single-mode or multimode optical fiber with central and end parts, optical connectors mounted on the ends of the fiber segment, the central part of the segment being rolled into a bay fastened by adhesive and placed in body cavities, end parts of the segment are conclusions made in the form of an optical cable, with attachment points to the body, and optical connectors and conclusions are located wives in the case. 7. The normalizing compensation coil according to claim 6, characterized in that the housing is made of metal and / or plastic. 8. The normalizing compensation coil according to claim 6, characterized in that it is equipped with elements for laying and fixing the conclusions. 9. The normalizing compensation coil according to claim 6, characterized in that the bay is fixed in the housing. 10. The normalizing compensation coil according to claim 6, characterized in that the step of winding the fiber in the bay is equal to the diameter of the fiber. 11. The normalizing compensation coil according to claim 6, characterized in that the shanks are installed at the output points of the terminals. 12. Normalizing compensation coil for an optical reflectometer, including a housing with two compartments and a cover, a segment of a single-mode or multimode optical fiber with central and end parts, optical connectors mounted on the ends of the fiber segment, the central part of the segment being rolled up by a bonding agent, and the end parts of the segment are conclusions with attachment points to the body, made in the form of an optical cable, the conclusions and optical connectors are placed in the first compartment e, in the second compartment there is a bay, the second compartment is closed by a casing. 13. The normalizing compensation coil according to item 12, wherein the casing is made of metal and / or plastic. 14. The normalizing compensation coil according to item 12, characterized in that it is equipped with elements for laying and fixing the conclusions. 15. The normalizing compensation coil according to item 12, characterized in that the bay is fixed in the casing. 16. The normalizing compensation coil according to item 12, wherein the step of winding the fiber in the bay is equal to the diameter of the fiber. 17. The normalizing compensation coil according to item 12, characterized in that it is equipped with shanks installed in the places where the leads exit the casing.