Resumes
Resumes
Paul Kolesar Phones & Addresses
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4229 Thursley Rd, Wilmington, NC 28412 (215) 366-5767
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177 Green Oak Blvd, Middletown, NJ 07748 (732) 671-7803
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New Monmouth, NJ
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6912 Echo Canyon Dr, McKinney, TX 75070 (972) 540-1136
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Port Monmouth, NJ
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3 Keith Ct, Jackson, NJ 08527 (732) 905-0290
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Colton, TX
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Hatboro, PA
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6912 Echo Canyon Dr, Mc Kinney, TX 75070 (214) 578-4346
Work
Position:
Executive, Administrative, and Managerial Occupations
Education
Degree:
High school graduate or higher
Emails
Publications
Us Patents
High-Speed Multi Mode Fiber Optic Link
View pageUS Patent:
6510265, Jan 21, 2003
Filed:
Apr 20, 2000
Appl. No.:
09/552773
Inventors:
Giorgio Giaretta - Westfield NJ
Steven Eugene Golowich - New Providence NJ
Paul Francis Kolesar - Middletown NJ
Martin C Nuss - Holmdel NJ
Albert John Ritger - Lawrenceville GA
Ian A White - Dunwoody GA
Steven Eugene Golowich - New Providence NJ
Paul Francis Kolesar - Middletown NJ
Martin C Nuss - Holmdel NJ
Albert John Ritger - Lawrenceville GA
Ian A White - Dunwoody GA
Assignee:
Lucent Technologies Inc. - Murray Hill NJ
International Classification:
G02B 642
US Classification:
385 38, 385 33
Abstract:
A method and apparatus for overcoming modal noise penalties associated with multi-mode fiber optic links operating at high data rates on the order of 10 Gb/s. The method involves restricting the center launch condition of optical signals into the multi-mode fiber while permitting loose tolerances between source and fiber.
Optical Fiber Array Connectivity System With Indicia To Facilitate Connectivity In Four Orientations For Dual Functionality
View pageUS Patent:
7416347, Aug 26, 2008
Filed:
May 25, 2006
Appl. No.:
11/440622
Inventors:
Joseph C. Livingston - Frisco TX, US
Timothy W. Anderson - Omaha NE, US
Paul Kolesar - McKinney TX, US
Richard L. Case - Omaha TX, US
Timothy W. Anderson - Omaha NE, US
Paul Kolesar - McKinney TX, US
Richard L. Case - Omaha TX, US
Assignee:
Commscope Solutions Properties, LLC - Sparks NV
International Classification:
G02B 6/36
US Classification:
385 53
Abstract:
A fan-out unit for a data communication system includes: a plurality of optical fibers; and a faceplate with a plurality of ports arranged in at least one row, each of the ports being optically interconnected with a respective one of the optical fibers and configured to received a mating optical fiber. The faceplate includes a first visual indicia associated with the ports that indicates an arrangement in which mating optical fibers are to be inserted into the ports, the first visual indicia being easily readable when the faceplate is in either a first horizontal orientation or a first vertical orientation, but not being easily readable when the faceplate is in a second horizontal orientation that is inverted from the first horizontal orientation or a second vertical orientation that is inverted from the first vertical orientation.
Quad Small Form Factor Pluggable (Qsfp) Adapter Module
View pageUS Patent:
8406587, Mar 26, 2013
Filed:
May 6, 2010
Appl. No.:
12/774919
Inventors:
Ronald L. Mudd - Coppell TX, US
Bradley S. Billman - Denton TX, US
Richard L. Case - Omaha NE, US
Paul F. Kolesar - McKinney TX, US
Bradley S. Billman - Denton TX, US
Richard L. Case - Omaha NE, US
Paul F. Kolesar - McKinney TX, US
Assignee:
CommScope, Inc. of North Carolina - Hickory NC
International Classification:
G02B 6/26
G02B 6/00
G02B 6/00
US Classification:
385 31, 385134
Abstract:
Fiber adapter modules for use as interfaces at both ends of multi-fiber trunk cables position the channels of plural fiber optic transceivers onto fibers of the trunk cables in an efficient manner, such that normally dark fibers of a trunk cables are utilized. The fiber adapter modules include trunk-side ports for receiving adapters of multi-fiber trunk cables and transceiver-side ports for receiving adapters carrying both transmit channels and receive channels of fiber optic transceivers. Optical interconnections are provided within the fiber adapter modules to place at least one transmit channel or at least one receive channel of a first fiber optic transceiver at a first trunk-side port and to place at least one transmit channel or at least one receive channel of a second fiber optic transceiver at the first trunk-side port.
Optical Fiber Array Connectivity System For Multiple Transceivers And/Or Multiple Trunk Cables
View pageUS Patent:
8485737, Jul 16, 2013
Filed:
Oct 29, 2009
Appl. No.:
12/608230
Inventors:
Paul Kolesar - McKinney TX, US
Assignee:
CommScope, Inc. of North Carolina - Hickory NC
International Classification:
G02B 6/36
US Classification:
385 76, 398142, 385 24
Abstract:
A transition device for an optical fiber connection system adapted to interconnect a trunk cable with a plurality of transceivers includes: a first set of at least four optical fibers, each of the optical fibers having a trunk end and a transceiver end; a single trunk end terminal having a plurality of trunk ports arranged in a first row, each port connected with a respective one of the set of optical fibers at its trunk end, wherein a first axis of symmetry divides the ports; and a plurality of transceiver end terminals, each of the transceiver end terminals having at least one couplet of transceiver ports, each of the couplets of transceiver ports receiving a respective couplet of the set of optical fibers at their transceiver ends.
Optical Fiber Array Connectivity System For Multiple Row Trunk Cables And Terminals
View pageUS Patent:
8622631, Jan 7, 2014
Filed:
Jan 18, 2011
Appl. No.:
13/008175
Inventors:
Paul Kolesar - McKinney TX, US
Assignee:
CommScope, Inc. of North Carolina - Hickory NC
International Classification:
G02B 6/36
US Classification:
385 77, 385100
Abstract:
A fiber optic trunk cable that can be used for connecting multi-channel transceivers includes: a plurality of optical fibers; and first and second terminals attached to opposite ends of the fibers, each of the terminals having an alignment key. The fibers enter the first terminal in an arrangement of 2N rows, wherein N is an integer, and enter the second terminal in an arrangement of 2N rows. Each fiber defines a position in the first terminal with respect to the alignment key that is laterally transposed and row-inverted to the position the fiber defines in the second terminal Such a cable can be employed with appropriate equipment cords and transceivers.
Communications Cable Having Electro-Optical Transceivers And Method Of Using Same
View pageUS Patent:
20120251058, Oct 4, 2012
Filed:
Mar 28, 2012
Appl. No.:
13/432310
Inventors:
Paul Kolesar - McKinney TX, US
Terry R. Cobb - Ft Worth TX, US
Lance Cobb - FT. Worth TX, US
Terry R. Cobb - Ft Worth TX, US
Lance Cobb - FT. Worth TX, US
International Classification:
G02B 6/36
US Classification:
385 92
Abstract:
A communications cable includes a first electro-optical transceiver mounted in a first housing, the first housing being configured to electrically connect the first electro-optical transceiver to an electrical connector, a first keyed connector half connected to the first housing, the first keyed connector half including at least one first key element, and an optical cable having a first end connected to the first keyed connector half. Also a method of using such a communications cable.
Optical Fiber Array Connectivity System For Multiple Transceivers And/Or Multiple Trunk Cables
View pageUS Patent:
20130343700, Dec 26, 2013
Filed:
Jul 15, 2013
Appl. No.:
13/942212
Inventors:
Paul Francis Kolesar - McKinney TX, US
International Classification:
G02B 6/28
US Classification:
385 24
Abstract:
A transition device for an optical fiber connection system adapted to interconnect a trunk cable with a plurality of transceivers includes: a first set of at least four optical fibers, each of the optical fibers having a trunk end and a transceiver end; a single trunk end terminal having a plurality of trunk ports arranged in a first row, each port connected with a respective one of the set of optical fibers at its trunk end, wherein a first axis of symmetry divides the ports; and a plurality of transceiver end terminals, each of the transceiver end terminals having at least one couplet of transceiver ports, each of the couplets of transceiver ports receiving a respective couplet of the set of optical fibers at their transceiver ends.
Distribution Module For Optical Couplings
View pageUS Patent:
59872039, Nov 16, 1999
Filed:
Oct 9, 1997
Appl. No.:
8/947598
Inventors:
John N. Abel - Avon IN
Paul F. Kolesar - Middletown NJ
Richard M. Flynn - Noblesville IN
Daniel L. Stephenson - Lilburn GA
Paul F. Kolesar - Middletown NJ
Richard M. Flynn - Noblesville IN
Daniel L. Stephenson - Lilburn GA
Assignee:
Lucent Technologies Inc. - Murray Hill NJ
International Classification:
G02B 636
US Classification:
385 51
Abstract:
A distribution module for use in a traditional electrical panel that provides coupling functionality for optical and electrical connectors. The distribution module is comprised of a housing with a passage defined therein. The distribution module further includes high density, modular coupling strips, which are chosen based on the type of connectors to be coupled. These coupling strips are joined together and then secured in the passage formed in the housing. Once assembled, the distribution module is received into an opening in the panel thereby integrating both optical and electrical couplers in a single panel.