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Christopher D Robson, Age 5523 Ripple Ln, Honesdale, PA 18431

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Known as:
Christopher A Robson Christoph D Robson Christopher K Smith Christophe Robson Chris Robson
Related to:
Elizabeth G O'Donnell 57

Christopher Robson Phones & Addresses

23 Ripple Ln, Honesdale, PA 18431 (607) 737-6910

45 Ripple Ln, Honesdale, PA 18431 (570) 253-3643

Rochester, MN

98 Jerusalem Hill Rd, Elmira, NY 14901 (607) 737-6910

Elmira Heights, NY

Horseheads, NY

Potsdam, NY

Jackson, MI

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Mentions for Christopher D Robson

Christopher Robson resumes & CV records

Resumes

Christopher Robson Photo 43

Owner/President At The Robson Company, Inc.

Position:
Owner/President at The Robson Company, Inc.
Location:
Vinemont, Alabama
Industry:
Plastics
Work:
The Robson Company, Inc. since Feb 1994
Owner/President
Skills:
Injection Molding, Plastics, Molding, Mold, Tooling, Mold Making, Product Development, Machine Tools, Machining, Multitasking Skills, Inventor, Engineering, Manufacturing, Continuous Improvement, Cnc, Design for Manufacturing, Lean Manufacturing, Manufacturing Operations Management, SPC, Manufacturing Engineering, Kaizen, Automotive, Value Stream Mapping, ISO, Product Design
Certifications:
Certification-Innovation Engineering
Certification of completion-Root Cause Analysis
Certification of completion-FMEA
Certificates in Plastic Injection Molding set up & Processing
Christopher Robson Photo 44

Christopher Robson

Location:
United States

Publications & IP owners

Us Patents

Apodization Of Optical Filters With Multiple Exposures Of Photosensitive Media

US Patent:
6694075, Feb 17, 2004
Filed:
Jun 30, 1999
Appl. No.:
09/340481
Inventors:
Vikram Bhatia - Painted Post NY
Thomas A. Cook - Corning NY
Robert A. Modavis - Painted Post NY
Christopher D. Robson - Elmira NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
G02B 634
US Classification:
385 37, 359569
Abstract:
Filter gratings are formed in optical waveguides having photosensitive cores by exposing the cores to actinic radiation in the form of interfering beams having peak intensities that are relatively displaced along an optical axis of the waveguides. Each of the interfering beams has a single-lobed intensity profile and a degree of spatial coherence required to achieve a desired fringe contrast between the two relatively displaced beams. Index modulations in the photosensitive core match the illumination (interference) pattern of the radiation. The relative displacement of the interfering beams reduces side lobes of the gratings spectral responses by leveling the average refractive index of the index modulations. A second exposure with the two beams but without the beams interference effects further levels the average refractive index.

Fiber Optic Coupler

US Patent:
5305404, Apr 19, 1994
Filed:
Jun 11, 1993
Appl. No.:
8/075665
Inventors:
Christopher D. Robson - Horseheads NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
E02B 626
US Classification:
385 43
Abstract:
A fiber optic coupler is formed by providing a glass tube having a longitudinal bore and first and second funnels connecting the bore to the ends of the tube. The protective coating is stripped from the central portion of two optical fibers. The first and second fibers are threaded into the tube bore until the uncoated portions thereof are located within the bore. The protective coating of only one of the fibers extends into the first end of the bore, and the protective coating of only one of the fibers extends into the second end of the bore. The fibers extend beyond the tube ends. The bore diameter is just slightly larger than the sum of the diameter of the first fiber and the diameter of the coating of the second fiber. The resultant tight fit of the fibers in the tube promotes the retention the fibers in parallel alignment during the subsequent tube collapse step. The midregion of the tube is heated, collapsed about the fibers, and drawn to form a coupling region.

Low Loss Fiber Optic Coupler And Method

US Patent:
5754720, May 19, 1998
Filed:
Apr 17, 1996
Appl. No.:
8/635038
Inventors:
Richard A. Quinn - Horseheads NY
Christopher D. Robson - Horseheads NY
Latha I. Swaroop - Painted Post NY
David L. Weidman - Corning NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
G02B 626
G02B 642
US Classification:
385 43
Abstract:
A method of making 1. times. 2 or 2. times. 2 overclad couplers, switches and the like such that the process is more reproducible and loss characteristics are improved. Such couplers are typically made by inserting the stripped portions of two active optical fibers into a tube, heating the tube midregion to collapse it onto the fibers and stretching the central portion of the collapsed midregion to achieve the desired coupling characteristics. The improvement involves the insertion of one or two spacer fibers into the tube bore along with the active fibers to take up empty space that had been present in tube bore and to prevent an active fiber from sagging and crossing over the other fiber when the tube is heated during the tube collapse step.

Method Of Making A Fiber Optic Coupler

US Patent:
5240489, Aug 31, 1993
Filed:
Sep 11, 1992
Appl. No.:
7/944193
Inventors:
Christopher D. Robson - Horseheads NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
G03B 23207
US Classification:
65 42
Abstract:
A fiber optic coupler is formed by providing a glass tube having a longitudinal bore and first and second funnels connecting the bore to the ends of the tube. The protective coating is stripped from the central portion of two optical fibers. The first and second fibers are threaded into the tube bore until the uncoated portions thereof are located within the bore. The protective coating of only one of the fibers extends into the first end of the bore, and the protective coating or only one of the fibers extends into the second end of the bore. The fibers extend beyond the tube ends. The bore diameter is just slightly larger than the sum of the diameter of the first fiber and the diameter of the coating of the second fiber. The resultant tight fit of the fibers in the tube promotes the retention the fibers in parallel alignment during the subsequent tube collapse step. The midregion of the tube is heated, collapsed about the fibers, and drawn to form a coupling region.

Possible Relatives

Cynthia J Robson  David E Robson  Daniel T Robson  Aaron L Robson  Diane Robson  Dorothy M Robson  Edward T Robson  Christopher E Stamps  Christopher L Stancil  Christopher C Standifer 

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