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Mark Walter Spriggle

from Conover, NC
Age ~57
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Also known as:
Mark W Spriggle
Phone and address:
6387 Valwood Rd, Conover, NC 28613
(828) 446-7336
Related to:
Nathan K Johnson, 50Meghan Johnson, 33William L Spriggle, 81Julia P Spriggle, 54Lisa P White, 58Mary H Parkhurst, 78Wm L Spriggle, 81Jackie D Parkhurst, 54
Connected to:
Jamie K Spriggle, 55Alexander J Spriggs, 31Arnold E Spriggs, 83Austine R Spriggs, 53Brenda Q Spriggs, 55Chantell L Spriggs, 53Chelsea R Spriggs, 35Christina D Spriggs, 40Collin L Spriggs, 28Curtiss L Spriggs, 39

Mark Spriggle Phones & Addresses

  • 6387 Valwood Rd, Conover, NC 28613 (828) 446-7336
  • Hickory, NC
  • Taylorsville, NC

Work

Company: Us conec ltd. Jun 2010 Position: Product testing product manager

Skills

Product Management • Fiber Optics • Telecommunications • Product Development • Continuous Improvement • Product Marketing • Microsoft Excel • Manufacturing • Testing • Process Improvement • Sales Management • Engineering • Inventory Management • Cross Functional Team Leadership • Product Design • Optical Fiber • Microsoft Office • Troubleshooting • Design of Experiments • Electronics • Marketing Strategy • Six Sigma

Industries

Telecommunications

Public records

Vehicle Records

Mark Spriggle

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Address:
6387 Valwood Rd, Conover, NC 28613
Phone:
(828) 446-7336
VIN:
1GNSKJE78CR197201
Make:
CHEVROLET
Model:
SUBURBAN
Year:
2012

Resumes

Resumes

Mark Spriggle Photo 1

Product Testing Product Manager

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Location:
Lenoir, NC
Industry:
Telecommunications
Work:
Us Conec Ltd.
Product Testing Product Manager
Skills:
Product Management
Fiber Optics
Telecommunications
Product Development
Continuous Improvement
Product Marketing
Microsoft Excel
Manufacturing
Testing
Process Improvement
Sales Management
Engineering
Inventory Management
Cross Functional Team Leadership
Product Design
Optical Fiber
Microsoft Office
Troubleshooting
Design of Experiments
Electronics
Marketing Strategy
Six Sigma

Publications

Us Patents

Field Installable Multifiber Connector

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US Patent:
6379054, Apr 30, 2002
Filed:
Dec 13, 2000
Appl. No.:
09/736503
Inventors:
Rodney A. Throckmorton - Newton NC
Jeffrey D. Palmer - Ft. Worth TX
Mark W. Spriggle - Hickory NC
Michael de Jong - Ft. Worth TX
Assignee:
Corning Cable Systems LLC - Hickory NC
International Classification:
G02B 638
US Classification:
385 66, 385 65, 385 56, 385 67
Abstract:
A multifiber connector is provided according to one embodiment which includes a multifiber ferrule, splice components and a crimp tube that defines a lengthwise extending passageway having a lateral cross-sectional shape that is generally oval for receiving and maintaining a plurality of optical fibers in a lateral side-by-side relationship. The crimp tube therefore provides the optical fibers to the splice components in an aligned and properly spaced manner for alignment and optical interconnection with respective optical fiber stubs. According to another embodiment, a fiber optic connector is provided that includes a ferrule, mechanical splice components, an associated cam member for actuating the mechanical splice components and means for controlling the position of the cam member relative to the mechanical splice components such that the cam member can be precisely moved from a first unactuated position to a second actuated position. As such, the fiber optic connector can be mechanically spliced to a plurality of optical fibers in a reliable manner so as to facilitate the field installation of a multifiber connector. the multifiber connector can also include a ferrule holder for aligning the ferrule and the splice components.

Angled Spring Push For Optical Ribbon Cable

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US Patent:
20040120656, Jun 24, 2004
Filed:
Dec 18, 2002
Appl. No.:
10/323120
Inventors:
Vladimir Banas - Mount Airy NC, US
Mark Spriggle - Hickory NC, US
Karl Wagner - Stockdorf, DE
International Classification:
H01R043/00
G02B006/36
US Classification:
385/086000, 029/868000, 029/861000, 029/857000
Abstract:
A multifiber optical ribbon cable and a multifiber optical ribbon cable connector assembly allow the cable to extend from the rear of the connector assembly at an angle of ninety (90) degrees. The multifiber optical ribbon cable connector assembly includes a two piece spring push adapter that holds a coil spring between the spring push adapter and an optical ferrule . The spring push adapter includes a curved, closed channel , which completely encloses that segment of the cable , a provides for a smooth transition as a multifiber optical ribbon cable segment bends and twists through ninety degrees. This two piece spring push adapter can also be assembled on the cable after the optical fibers are terminated to the ferrule

Optical Connector Preassembly

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US Patent:
52838498, Feb 1, 1994
Filed:
Feb 1, 1993
Appl. No.:
8/011589
Inventors:
Terry L. Cooke - Hickory NC
Mark W. Spriggle - Taylorsville NC
Assignee:
Siecor Corporation - Hickory NC
International Classification:
G02B 636
US Classification:
385 77
Abstract:
Disclosed is an installation fixture for preassembly of a portion of a fiber optic connector. The fixture can be separately assembled including a ferrule, a ferrule holder, coupling hardware, and heat shrinkable tubing to seat an optical fiber during curing.

Field Installable Multifiber Connector

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US Patent:
61730971, Jan 9, 2001
Filed:
Jul 1, 1998
Appl. No.:
9/108451
Inventors:
Rodney A. Throckmorton - Newton NC
Mark W. Spriggle - Hickory NC
Jeffrey D. Palmer - Fort Worth TX
Assignee:
Siecor Operations, LLC - Hickory NC
International Classification:
G02B 638
US Classification:
385 59
Abstract:
A multifiber connector is provided according to one embodiment which includes a multifiber ferrule, splice components and a crimp tube that defines a lengthwise extending passageway having a lateral cross-sectional shape that is generally oval for receiving and maintaining a plurality of optical fibers in a lateral side-by-side relationship. The crimp tube therefore provides the optical fibers to the splice components in an aligned and properly spaced manner for alignment and optical interconnection with respective optical fiber stubs. According to another embodiment, a fiber optic connector is provided that includes a ferrule, mechanical splice components, an associated cam member for actuating the mechanical splice components and means for controlling the position of the cam member relative to the mechanical splice components such that the cam member can be precisely moved from a first unactuated position to a second actuated position. As such, the fiber optic connector can be mechanically spliced to a plurality of optical fibers in a reliable manner so as to facilitate the field installation of a multifiber connector. the multifiber connector can also include a ferrule holder for aligning the ferrule and the splice components.
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Mark Walter Spriggle from Conover, NC, age ~57 Get Report