Optical waveguides – With optical coupler – Input/output coupler
Reexamination Certificate
2002-02-27
2004-02-10
Lee, John D. (Department: 2874)
Optical waveguides
With optical coupler
Input/output coupler
C385S015000, C385S031000, C385S033000, C385S060000
Reexamination Certificate
active
06690858
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to optical collimators and methods for assembling them, and more particularly to an optical collimator which has simple structure and is easily assembled.
2. Description of Prior Art
Optical fibers are becoming increasingly important in many applications involving transmission of light. Over long distances, single-mode silica optical fibers are used in optical communications networks to transmit large amounts of data with low loss and with immunity from electromagnetic interference.
The light transmitted through the fiber can also be manipulated in a variety of ways such as filtering, modulation, splitting, and combining. In most cases, two or more fibers are fed into an enclosure encasing an optical system. Input light enters the enclosure via one or more fibers, and interacts with an optical device within the enclosure. The light resulting from the interaction exits the enclosure via one or more fibers. One example of such a two-port system is an optical isolator in which two polarizers sandwiching a Faraday rotator therebetween are positioned between two fibers that have collimating lenses at their free ends. The polarization angles are set such that light can propagate in one direction through the isolator, but is prevented from propagating in the opposite direction. Another example is a dielectric interference filter which transmits or reflects selected wavelengths.
In practice, the fibers used in such optical systems are typically held in collimator assemblies which are easily aligned to the enclosure of the optical system. A commercial collimator includes as its most fundamental components the fiber, a small glass tube (sometimes referred to as a capillary) which holds an exposed end of the fiber, and a graded index (GRIN) lens. A GRIN lens used with optical fibers is a generally cylindrical piece of optical glass having a length greater than its diameter. It is fabricated to have a radially varying index of refraction that is greater toward a center thereof. Therefore, it produces a focusing effect similar to that of a conventional convex lens. Both the fiber and the GRIN lens are inserted and held in the glass tube. Thus the GRIN lens collimates light diverging from the smaller core of the optical fiber, or focuses light to the smaller core.
U.S. Pat. No. 6,168,319 discloses a collimator
100
illustrated in cross-sectional view in FIG.
1
. An optical fiber
112
is received within a central axial aperture of a glass capillary
114
. The fiber
112
typically includes a silica-based core, a cladding, and a surrounding polymeric coating such as that of an acrylate material. The polymeric coating is stripped from the fiber
112
at a portion thereof to be received by the capillary
114
. For strength and thermal stability, the polymeric coating extends into a conical aperture (not labeled) defined in an end of the capillary
114
but does not touch the capillary
114
itself. As a result, the capillary
114
typically holds only the core and cladding of the fiber
112
. Additional adhesive may be applied to strengthen the joint between the fiber
112
and the capillary
114
.
The capillary
114
is slidably fitted within a central bore of a glass tube
118
snugly but easily, and is eventually bonded to the glass tube
118
. A GRIN lens
120
also fits within the bore of the glass tube
118
, and is bonded to the glass tube
118
. The glass tube
118
encasing the capillary
114
and the GRIN lens
120
is held by an aligning apparatus. The aligning apparatus is adjusted to accurately align the capillary
114
and the GRIN lens
120
. After alignment, the glass tube
118
is fitted into and bonded to a stainless steel tube
119
.
Alignment of the capillary
114
and the GRIN lens
120
must be performed in the glass tube
118
, and the glass tube
118
is subsequently encased in and protected by the stainless steel tube
119
. The required number of components is unduly great, and complicates the assembly process. Furthermore, in order to adjust the capillary
114
and the GRIN lens
120
to be in accurate alignment, a gap between an inner end of the capillary
114
and an inner faceted end of the GRIN lens
120
must be provided to prevent the ends from rubbing against each other. Therefore, a length of the GRIN lens
120
must be less than 0.25 pitch, to ensure that a focal point of the GRIN lens
120
is beyond the inner faceted end thereof. A GRIN lens
120
having a length of 0.25 pitch cannot be used in the optical collimator
100
.
Thus, it is desired to provide an optical collimator which has relatively few components and which can be easily assembled.
SUMMARY OF THE INVENTION
An object of the present invention is to provide an optical collimator having relatively few components.
Another object of the present invention is to provide an optical collimator which can be assembled easily.
To achieve the above objects, the present invention provides an optical collimator and a method of assembling the collimator. The collimator comprises an optical fiber, a capillary, a GRIN lens and a glass tube. A bore is defined in the capillary. A conical depression is defined in an end of the capillary and in communication with the bore. The optical fiber is retained in the bore of the capillary. An end of the capillary is bonded with an end of the GRIN lens. The capillary and the GRIN lens are encased in the glass tube.
Other objects, advantages and novel features of the present invention will be drawn from the following detailed description of embodiments of the present invention with attached drawings, in which:
REFERENCES:
patent: 5555330 (1996-09-01), Pan et al.
patent: 5734762 (1998-03-01), Ho et al.
patent: 5815614 (1998-09-01), Pan
patent: 5841591 (1998-11-01), Zhu et al.
patent: 6168319 (2001-01-01), Francis
patent: 6353691 (2002-03-01), Li et al.
patent: 6454465 (2002-09-01), Uschitsky et al.
Tsai Ming-Chiang
Wu Kun-Tsan
Chung Wei Te
Doan Jennifer
Hon Hai - Precision Ind. Co., Ltd.
Lee John D.
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