DE2640548A1 - METHOD OF MANUFACTURING OPTICAL FIBERS WITH MINIMAL WEAKENING - Google Patents

Description

Process for making optical fibers with minimal weakening

The invention relates to a method of making optical fibers with minimal attenuation from lines of
jacketed glass rods of substantially uniform diameter. The invention relates to optical fibers made by such a process and optical fiber cables composed of such fibers. The invention further relates to covered glass rods, optical fibers and optical fiber cables with minimal
Weakening.

Postal checking account: Karlsruhe 76979-754 Bank account: Deutsche Bank AG Villingen (BLZ 69470039) 146332

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As is known, jacketed glass rods consist of one Core rod made of glass with a coating or cladding made of a second type of glass, which is setting and the optical properties of the type of glass of the core differs. Such a sheathed glass rod can further become a sheathed glass fiber for the Use as an optical light guide in fiber optics. A number of such coated glass fibers can be combined into one optical fiber cable.

When drawing an optical fiber from a preformed one With the jacketed glass rod it is desirable to ensure that there is no contamination during the manufacture of the jacketed Rod occurs and that the rod has a substantially constant diameter. Even very small amounts Contamination in the rod can significantly weaken the light emitted by one produced from the rod Fiber is sent, due to its influence on total internal reflection at the interface between cause the core and the clad.

In conventional methods of manufacturing jacketed glass rods, it has been difficult to define the interface between to keep the glass of the core and the glass of the cladding completely free of contaminants, especially with the Methods based on the insertion of a rod made of core glass into a tube made of clad glass have proven to be the case difficult to obtain the required optical properties, in particular a suitable minimum attenuation in which to get coated rod. Significant additional costs can be incurred when a coated rod is formed.

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det and intestine, is drawn into a fiber, at the sieve, then it turns out that it is unusable due to the high weakening due to contamination. In particular, costly production time is lost because the drawing system goes through production such unusable Pasern is occupied. However, it is not easy to get contaminated by common methods the inspection of the coated rods.

The object of the invention is to create a method by which optical fibers with minimal attenuation, which are reliable for use in fiber optics, e.g. for the production of optical fiber cables can be made from a coated glass rod.

This object is achieved according to the invention in a method of the type mentioned at the outset in that the weakening of the by samples of the encased glass rod it is measured that a glass rod with a weakening is selected below a predetermined value and that the selected rod is drawn into a fiber.

It is preferred to use a jacketed glass rod made by a process such as that disclosed in the United Kingdom Patent 1,313,106 is described. An im. essential uniform diameter of the coated glass rod can be achieved by a. Procedures are obtained as it is in the same time filed patent application according to the British patent application ITr. 37831/75 of 9/15/1975 is. . . '.

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The rod used can have a diameter between 1.5 mm and 8 mm.

The predetermined maximum value for the attenuation in the Glass rods, which determines the selection of rods for drawing into fibers, depends on the maximum weakening which are approved for the fibers for the special purpose for which they are intended can. A coated glass rod with an attenuation of less than 8o dB / km proves to be a typical value, preferably at wavelengths above 66o nm, as acceptable for most applications.

The measurement of the light attenuation in the rod can be carried out by focusing light on the core of the rod at one end and at the other At the end, the intensity of the light is measured, which is emitted after passing through the core of the clabe. Preferably, the measurement of the intensity of the emerging light after cutting off a predetermined Repeated length of the rod so that the attenuation is determined by differential measurement. The measurement of the intensity can be repeated several times after cutting a corresponding number of rod lengths and the weakening is calculated from the difference measurements using a linear regressin.

Preferably, for each length of the rod, the intensity measurements are made at a number of different wavelengths of light carried out. This number can be ten in the 6oonm range to 1050 nm at intervals of 50 nm.

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The invention also includes coated optical fibers which are produced by the above process and have an attenuation of the light passing through not greater than 100 dB / Jon and preferably less than 4-0 dB / km. The invention further comprises an optical fiber cable with Λ to 100 fibers of at least 1 oo meters in length, each fiber being a sheathed optical fiber which was produced according to the method according to the invention. The invention further comprises coated glass rods with an attenuation of less than 80 dB / km.

The invention further includes jacketed optical fibers with an attenuation of the light passing through not greater than 100 dB / km, and preferably an attenuation less than 4-0 dB / km and further an optical fiber cable

with 1 to 100 fibers of at least 100 meters in length, wherein the fibers are jacketed optical fibers with the minimum attenuation mentioned above.

In the following the invention is illustrated by means of an exemplary embodiment with reference to the accompanying drawings explained in more detail. Show it :

Fig. 1 schematically shows an apparatus for measuring the Light weakening in a coated glass rod in front of the. Pulling to an optical fiber, and

Fig. 2 results obtained with a typical rod and a fiber drawn therefrom, wherein the rod is manufactured according to the method according to GB-PS 1 313 1o6.

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A length of jacketed glass rod 1o is first cut so that a clean break is obtained at one end 15 of the rod. This end of 15 des The rod is then firmly clamped in a clamp 9. The other end 16 of the rod 1o is then cut with a tungsten carbide blade cut and inserted into an integrating sphere 11 a given distance.

Chopped monochromatic light at a number of wavelengths is incident on the core of the rod at the end 15 focused. The monochromatic light is from a tungsten-halogen light source 1 with 15o W, which is through a not shown current-stabilized supply source is operated, "and through the use of 1o interference filters, their wavelengths each have a distance of about 50 nm with a bandwidth at half power of about 2o nm. These filters are on a rotating filter wheel 6 supported so that they can be put into operation one after the other. A suitable range of 1o Wavelength is 6oo - 1o5o nm in steps of 5 ° nm. The optical system of the light source is completed by known components, namely a condenser lens 2, a light chopper 3, iris diaphragms 4- and 8 and converging lenses 5 and 7-

Care is taken to ensure that the incident light falls only on the core of the rod and not on the numerical aperture of the rod fills. This is achieved by carefully adjusting the diaphragm 8.

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The integrating ball 11 is of conventional construction and essentially comprises a shield 12 and a silicon photodiode 13. It has an inner white, difus reflective surface. This, together with the shield 12, prevents direct transmission of the incoming light from the end 16 of the rod to the photodiode 13. That from the end of the The light emitted by the rod is reflected several times on the inner surface. That way, that's on de Photodiode incident light is a function of the light emitted from the end of the rod.

The silicon photodiode 13 measures in this way the intensity of the light emerging from the end of the rod, being a conventional jase sensitive detection used in amplifying the signal received at the photodiode. In this process of reinforcement only the signal that is chopped with a reference frequency is amplified, so that the influence of External light or the noise is greatly reduced. A reference signal for the amplifier, not shown is removed from the photodiode 14.

The signal is measured at each wavelength and then a length of the rod, as a typical example 5 cm, cut off and the measurement is repeated. The difference between the measured intensities before and after cutting off the length of the rod gives a measure of the weakening in the cut! ten length for each Wavelength. About eight sets of readings are taken and then a greater length of the stick is made

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removed before taking a final eight sets of readings. Then, using a linear regression, the attenuation can be calculated for each wavelength. The above procedure can be used for long rods (up to about 100 m in length). Alternatively, randomly selected samples of the sheathed rod can be tested. Long rods are generally made with a diameter of 2 to 3 µm, with 2 mm being nearly the smallest diameter normally drawn from a tub and 3 ^ ™ · ^ - being essentially the largest diameter that can be drawn into a large one Drum can be wound. The minimum diameter of the rod is usually 1.5 mm and the maximum diameter is 8 mm. 8 mm rods can only be produced in shorter lengths of around 2 m, as they cannot be wound onto a drum.

The following table gives examples of types of glass that are used as glass for the core and as glass can be used for the coat:

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Qxid'l „■ stood il

PbO

K ₂ O

Sb ₂ O ₅

telgias
weight%) Core glass
(Weight%) 56.4-5 4-5.03 30.50 4-5-92 3.90 2.52 8.4-0 6.29 0.50 - o.2o o.2o o.2o

The weakening in such rods can be prepared by the above method, AAF better than - 8 dB / km at wavelengths between 600 nm and determined 1o5o nm. The method is relatively simple and allows information regarding the quality of the raw material, the glass melt and der.Stabproduktion to receive an additional fitness mm to Besti ung of the rod for drawing into fibers from the viewpoint of weakening. It has been shown that rods which have a weakening of less than a predetermined value are suitable for reliable optical visualization

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Fibers of acceptably low attenuation are drawn, with the predetermined value for the attenuation in the rod depends on the acceptable value for the fiber. To a fiber with a weakening less than To get 1oo dB / km, the rod should have a weakening have less than 80 dB / km.

The graphical representation of Figure 2 shows results obtained using the invention. It the attenuation (dB / km) is plotted as the ordinate against the wavelength (nm) as the abscissa. The curve A is is a typical absorption curve for a jacketed glass rod, while curve B is a typical absorption curve for an optical fiber "pulled out of the rod." became. From curve A it can be seen that the attenuation in the rod for wavelengths above 660 nm is below 80 dB / km and curve B shows that the attenuation in the fiber is below 100 dB / km for is essentially the same wavelength range.

The inventive methods are jacketed glass rods of substantially constant diameter, the variations - is 5% of the characteristic diameter, drawn by a method known per se to the individual optical fibers having a weakening of not larger than I00 dB / km at a wavelength of 85o nm and in the most favorable case an attenuation of less than 40 dB / km at a wavelength of 85> o nm.

- 11 -

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It is also possible to use optical fiber cables with i to 100 fibers at least 100 meters in length and preferably several kilometers in length, each fiber being an optical fiber of minimal attenuation is.

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Claims (1)

Claims Method of making optical fibers with minimal weakening by drawing jacketed fibers Glass rods with a substantially uniform diameter, characterized in that the Attenuation of the light sent through samples of the coated glass rod is measured so that a glass rod with a weakening below a predetermined value is selected and that the selected rod is pulled to an easer. Method according to claim 1, characterized in that the rod used has a diameter between 1.5 now and 8mm has. 3- The method according to claim 1 or 2, characterized in that that the measurement of the attenuation of light in the rod is carried out by applying light to the core of the rod is focused at one end and the intensity of the light at the other end which emerges after passing through the core of the rod. - 15 - 70 9812/07 70 INSPECTED 4. The method according to claim 3 _5, characterized in that the measurement of the intensity of the exiting light is repeated after cutting off a predetermined length of the rod, so the ^. the attenuation is determined by a differential measurement. 5. The method according to claim 4-, characterized in that that measuring the intensity several times after cutting off an appropriate number of lengths of the rod is repeated and that the attenuation is determined by means of a linear regression from the difference measurements is calculated. 6. The method according to claim 4 or 5, characterized in that that the measurements of the intensity for each length of the rod at a number of different Wavelengths of light are carried out. 7. The method according to claim 6, characterized in that that ten different wavelengths in the range from 600 nm to 1050 nm are used at intervals of 5ö nm will. 8. The method according to any one of the preceding claims, characterized in that the selected sheathed Glass rods have an attenuation of less than 80 dB / km. - 14 - 709812/0770 Method according to one of claims 1 to 7? through this characterized that the selected coated glass rods have an attenuation of less than 8o dB / km for wavelengths above 66o µm. 1o. Jacketed optical fiber, produced according to the method according to one of the preceding claims, characterized in that characterized in that the fiber does not weaken the light passing through by more than 100 dB / km having. 11 »Sheathed optical fiber, produced according to the method according to one of claims 1 to 9> characterized in that the fiber has an attenuation of the light passing through of less than 40 dB / km. 12. Optical fiber cable with 1 to 100 fibers of at least 100 m in length, characterized in that each fiber a coated optical fiber according to claim 1o or 11 is. 13 · Sheathed glass rod, characterized in that the Rod shows an attenuation of the light passing through of less than 80 dB / km. 14. Jacketed optical fiber, characterized in that the bevel? the attenuation of the light passing through is not greater than 100 dB / km. 709812/0770 15 Sheathed optical fiber, thereby core-stretched, that the fiber is a weakling of less than 4-0 dB / km. 16. Optical fiber cable with 1 "to 100 fibers of at least Ίοο m length, characterized in that each fiber is a jacketed optical fiber according to claim 14 or 15. 709812/0770