Alignment of an optical transceiver for a free-space optical communication system
First Claim
Patent Images
1. A system, comprising:
- a fixture having a designated location where an optical transceiver, with an optical transmitter and an optical receiver, is to be placed;
a reflector on said fixture to receive an output beam from the optical transmitter of the optical transceiver, said reflector operable to reflect the output beam as a second beam;
an illumination light source on said fixture, positioned to project an illumination beam to the optical receiver at said designated location;
a beam splitter on said fixture to reflect the second beam as a third beam and to receive and partially transmit scattered light from the optical receiver produced by scattering of the illumination beam in a direction of the third beam;
an optical imaging element on said fixture in an optical path of the third beam to receive and image the third beam and the scatter light from the optical receiver;
an imaging array positioned on said fixture to receive an image of the third beam and an image of the optical receiver; and
an adjustment mechanism engaged to one of said reflector and said beam splitter and operable to adjust a direction of the third beam.
5 Assignments
0 Petitions
Accused Products
Abstract
Systems and techniques for aligning relative orientation of an optical transmitter and an optical receiver that are mounted to a common fixture in an optical transceiver.
38 Citations
12 Claims
-
1. A system, comprising:
-
a fixture having a designated location where an optical transceiver, with an optical transmitter and an optical receiver, is to be placed;
a reflector on said fixture to receive an output beam from the optical transmitter of the optical transceiver, said reflector operable to reflect the output beam as a second beam;
an illumination light source on said fixture, positioned to project an illumination beam to the optical receiver at said designated location;
a beam splitter on said fixture to reflect the second beam as a third beam and to receive and partially transmit scattered light from the optical receiver produced by scattering of the illumination beam in a direction of the third beam;
an optical imaging element on said fixture in an optical path of the third beam to receive and image the third beam and the scatter light from the optical receiver;
an imaging array positioned on said fixture to receive an image of the third beam and an image of the optical receiver; and
an adjustment mechanism engaged to one of said reflector and said beam splitter and operable to adjust a direction of the third beam. - View Dependent Claims (2, 3, 4)
a frame grabber coupled to said imaging array to produce position information of the image of the third beam and the image of the optical receiver; and
a signal processor coupled to receive the position information from said frame grabber and operable to determine a position error between the image of the third beam and the image of the optical receiver on said imaging array, wherein said signal processor controls said adjustment mechanism to automatically adjust one of said reflector and said beam splitter to reduce the position error during calibration.
-
-
3. The system as in claim 1, wherein said imaging array is located on said fixture near a focal plane of said optical imaging element.
-
4. The system as in claim 1, further comprising a video display coupled to said imaging array to produce a video display of said images of the third beam and the scattered light from the optical receiver.
-
5. A method for aligning an optical transceiver that has an optical transmitter and an optical receiver, comprising:
-
positioning the optical transceiver at a designated location on a fixture;
directing an output beam from the optical transmitter of the optical transceiver to a reflector and then to a beam splitter on the fixture, wherein the beam splitter reflects a portion of the output beam to an imaging array on the fixture to form an image of the optical receiver;
adjusting the orientation of the optical transceiver to position the image of the optical transmitter within a target area of the imaging array;
projecting an illumination beam to the optical receiver to produce scattered light so that a portion of the scattered light from the optical receiver transmits through the beam splitter to form an image of the optical receiver on the imaging array;
detecting a position difference between the image of the optical transmitter and the image of the optical receiver on the imaging array; and
adjusting the optical receiver to reduce the position difference without adjusting the optical transmitter. - View Dependent Claims (6, 7)
positioning another pre-aligned optical transceiver at the designated location on the fixture in which an optical transceiver and an optical transmitter are aligned relative to each other;
adjusting the orientation of the pre-aligned optical transceiver to position the image of the optical receiver within a target area of the imaging array, wherein the image of the optical receiver is formed from scattered light from the optical receiver under illumination by the illumination beam; and
adjusting an orientation of at least one of the reflector and the beam splitter to place an image of the optical transmitter over the image of the optical receiver on the imaging array.
-
-
7. The method as in claim 6, further comprising using an electrical-mechanical servo control mechanism to automate the calibration process.
-
8. A system, comprising:
-
a fixture;
a reflector positioned on said fixture to receive an output beam from an optical transmitter of an optical transceiver, reflecting said output beam as a second beam;
a beam splitter positioned on said fixture to reflect a portion of said second beam towards the optical transceiver as a third beam to reach an optical receiver therein;
an imaging array positioned on said fixture to receive an image of the optical receiver through said beam splitter to determine a position of said third beam on the optical receiver; and
a light source to illuminate said optical receiver to form the image of the optical receiver on said imaging array. - View Dependent Claims (9, 10, 11, 12)
-
Specification