Optical waveguides – Optical transmission cable – Tightly confined
Reexamination Certificate
2000-01-06
2002-07-23
Ullah, Akm E. (Department: 2874)
Optical waveguides
Optical transmission cable
Tightly confined
Reexamination Certificate
active
06424770
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention concerns an optical cable with a cable core composed of a multiplicity of strand elements and an outer sheath layer which envelops the cable core, and a method for its production.
It is known to equip optical waveguides with a plastic layer resistant to tensile and compression forces (fixed conductors) and to strand several such fixed conductors together or around a central element. In this construction, each optical waveguide is protected individually.
The cost in this case is very high and therefore a cable constructed in such manner is economical only if small numbers of fibers are required.
Furthermore, optical cables are known in which several optical waveguides are arranged loosely in a conductor sheath (bundle conductors) and several such bundle conductors are stranded around a central element. The optical waveguides lie in the conductor sheath with a certain excess length. The protection of the fibers in the conductor sheath is very good; however, such cable has the drawback that space utilization is not satisfactory.
A further known cable consists of several fiber bundles each of which is enveloped by a spiral. The spirals are colored differently. Several such fiber bundles are loosely encircled by a sheath. This construction is generally only selected in the case of cables with optical waveguides arranged in the center of the cable.
Such a cable allows high fiber counts (up to around 100 fibers are customary) in a sheath and requires only a small cabling expenditure. However, space utilization is also not optimal in this cable. In addition, because of necking resulting from spiral wrapping, the fibers easily react with attenuation. The identification of the fibers is often difficult because of the large pitch of the spirals.
In a further known cable, a multiplicity of optical waveguides are firmly encircled by a fiber sheath and several such fiber bundles are stranded together or around a central element. The cable core formed in such manner is encircled by a cable sheath. The advantage of this construction is its very good space utilization. A drawback is that only little mechanical protection of the fibers against radial pressure is available. Therefore, this cable is very sensitive with respect to increases in attenuation.
SUMMARY OF THE INVENTION
The object of the present invention is to provide an optical cable in which space utilization is optimized and the transverse forces are decoupled.
This object is achieved by the an optical cable with a cable core composed of a multiplicity of strand elements and an outer sheath layer which envelops the cable core, wherein the strand elements each comprise a multiplicity of bundles loosely arranged in a first sheath, and the bundles are composed of a multiplicity of unstranded optical waveguides running substantially parallel to each other which are tightly encircled by a thin-walled second sheath.
In addition to the advantages resulting directly from the definition of the problem, the cable as maintained by the invention also has the advantage that it is insensitive to increases in attenuation. The optical cable has a high fiber density with relatively small outside diameter. The invention basically resides in the fact that in a cable according to the bundle conductor principle, each optical waveguide is replaced by a fiber bundle composed of a multiplicity of optical waveguides. As a result, at approximately same outside cable diameter, the fiber count is higher by almost a power of ten than in the known bundle conductor cable. The “excess length” of the fibers arises as a result of the fact that the fiber bundles encircled by a sheath are arranged loosely in a mechanically stable sheath and can shift within the sheath in the event of the cable being bent.
In addition, an “excess length” occurs through the stranding of the strand elements. The fiber bundles are protected against transverse compressive stress forces in the mechanically stable sheath.
REFERENCES:
patent: 4176910 (1979-12-01), Noethe
patent: 4331379 (1982-05-01), Oestreich et al.
patent: 5222173 (1993-06-01), Bausch
Alcatel
Ullah Akm E.
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