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Adam M Scotch

from Amesbury, MA
Age ~50
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Also known as:
Adam S Scotch
Phone and address:
15 Spindle Tree Ln, Amesbury, MA 01913
(978) 388-0380
Related to:
Madeline M Scotch, 31Timothy W Scotch, 61Cornelius DrainMichael GrantLisa Drain, 53Shelilah T Drain, 47Koressa Moore, 58
Connected to:
Anthony Scotch, 101Joseph S Scotch, 52Kim Scotch, 49Lynn A Scotch, 68Marjorie M Scotch, 76Ruth A Scotch, 64Lawrence J Scotchie, 86Adam J Scotchlas, 33Anthony V Scotellaro, 34Bonnie A Scotella, 69

Adam Scotch Phones & Addresses

  • 15 Spindle Tree Ln, Amesbury, MA 01913 (978) 388-0380
  • Frederick, MD
  • 3125 Glen Ave, Palmer, PA 18045
  • Easton, PA
  • Danbury, CT
  • Homerville, OH

Work

Company: Osram sylvania Mar 2011 Position: Manager, research and development

Education

School / High School: Lehigh University- Bethlehem, PA Jan 2003 Specialities: Ph.D. in Materials Science and Engineering

Skills

Materials Science • Materials • Ceramics • Solid State Lighting • Lighting • Led Lighting Systems • Polymers • Characterization • Design of Experiments • Spectroscopy • Product Development • Thermal • Engineering • R&D • Failure Analysis • Nanomaterials • Scanning Electron Microscopy • Cross Functional Team Leadership • Electronics • Thin Films • Coatings • Powder X Ray Diffraction • Ceramic • Optoelectronics • Semiconductors • Testing • Electron Microscopy • Six Sigma • Thermal Management • Nanotechnology • Optical Microscopy • Spc • Sensors • Simulations • Tem • Thermal Analysis

Interests

Innovation • Lighting • Technology • Flexible Electronics • Light Emitting Diodes (Leds) • Printed Electronics

Industries

Electrical/Electronic Manufacturing

Resumes

Resumes

Adam Scotch Photo 1

Director Of Process Development And Manufacturing

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Location:
15 Spindle Tree Ln, Amesbury, MA 01913
Industry:
Electrical/Electronic Manufacturing
Work:
Osram Apr 2011 - Jul 2017
R and D Manager
Wafer Systems Ltd Apr 2011 - Jul 2017
Director, Product Development, Engineering, Manufacturing
Osram Sylvania Sep 2004 - Apr 2011
Principal Scientist
National Institute of Standards and Technology Oct 2002 - Sep 2004
Materials Research Engineer
Lehigh University 1996 - 2002
Graduate Student and Research Assistant and Teaching Assistant
Education:
Cornell University 2007 - 2008
Lehigh University Jan 2003
Lehigh University 1996 - 2002
Doctorates, Doctor of Philosophy, Materials Science, Engineering Lehigh University 1992 - 1996
Bachelors, Bachelor of Science, Materials Science, Engineering National Institute of Standards and Technology
Doctor of Medicine, Doctorates
Skills:
Materials Science
Materials
Ceramics
Solid State Lighting
Lighting
Led Lighting Systems
Polymers
Characterization
Design of Experiments
Spectroscopy
Product Development
Thermal
Engineering
R&D
Failure Analysis
Nanomaterials
Scanning Electron Microscopy
Cross Functional Team Leadership
Electronics
Thin Films
Coatings
Powder X Ray Diffraction
Ceramic
Optoelectronics
Semiconductors
Testing
Electron Microscopy
Six Sigma
Thermal Management
Nanotechnology
Optical Microscopy
Spc
Sensors
Simulations
Tem
Thermal Analysis
Interests:
Innovation
Lighting
Technology
Flexible Electronics
Light Emitting Diodes (Leds)
Printed Electronics
Adam Scotch Photo 2

Adam Scotch Amesbury, MA

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Work:
OSRAM SYLVANIA

Mar 2011 to 2000
Manager, Research and Development
OSRAM SYLVANIA
Beverly, MA
Sep 2004 to Mar 2011
Principal Scientist, Solid State Lighting and Materials
National Institute of Standards and Technology, Ceramics Division
Gaithersburg, MD
Oct 2002 to Sep 2004
Materials Engineer, National Research Council Fellowship, Postdoctoral Research
Doctoral Research
Bethlehem, PA
Aug 1996 to Oct 2002
Research Assistant
Education:
Lehigh University
Bethlehem, PA
Jan 2003
Ph.D. in Materials Science and Engineering
Lehigh University
Bethlehem, PA
Jun 1996
B.S. in Materials Science and Engineering

Publications

Us Patents

Hid Lamp With Rapid Relight Aid

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US Patent:
7663318, Feb 16, 2010
Filed:
Sep 18, 2007
Appl. No.:
11/901532
Inventors:
William D Koenigsberg - Concord MA, US
Adam Scotch - Amesbury MA, US
Walter P Lapatovich - Boxford MA, US
Victor Perez - Manchester NH, US
Assignee:
OSRAM SYLVANIA Inc. - Danvers MA
International Classification:
H01J 61/54
H01J 17/30
US Classification:
313595, 313600
Abstract:
The restrike time for re-light up of an arc discharge lamp may be decreased by including at least one refractory bimetallic start up electrode that provides a shorter arc path intermediate the main arc path in a cool state, but when heated withdraws to have a relatively longer arc path. The longer arc path in the hot state results in a relatively higher path impedance that can be used by itself or in combination with a supplemental impedance device to extinguish the starting arc in favor of the main arc. The withdrawn bimetallic starting electrode then does not interfere with the main arc function.

Lighting Module

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US Patent:
8022626, Sep 20, 2011
Filed:
Sep 16, 2008
Appl. No.:
12/211359
Inventors:
David Hamby - Andover MA, US
Adam M. Scotch - Amesbury MA, US
John Selverian - North Reading MA, US
Assignee:
Osram Sylvania Inc. - Danvers MA
International Classification:
B60Q 1/00
US Classification:
313512, 313 1, 362227, 362241, 443 23
Abstract:
A lighting module comprising a base panel and a plurality of light-emitting diode (LED) chips attached directly to the base panel. The LED chips are in electrical communication with conductive traces on the base panel, which deliver a current to the LED chips. Various embodiments of this generally described lighting module are also presented. Additionally, methods of preparing such a lighting module, and system components of the lighting module are presented.

Led With Light Transmissive Heat Sink

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US Patent:
8071997, Dec 6, 2011
Filed:
Oct 6, 2006
Appl. No.:
11/543863
Inventors:
Adam M. Scotch - Amesbury MA, US
George C. Wei - Weston MA, US
Assignee:
OSRAM SYLVANIA Inc. - Danvers MA
International Classification:
H01L 23/36
US Classification:
257 99, 257707, 257E33058
Abstract:
An more efficient or higher luminance LED assembly may be formed from a high power LED chip having a first surface, and a second surface, the first surface being mounted to a substrate; the second surface being in intimate thermal contact with a light transmissive heat sink having a thermal conductivity greater than 30 watts per meter-Kelvin. The LED chip is otherwise in electrical contact with at least a first electrical connection and a second electrical connection for powering the LED chip. Providing light transmissive heat sink can double the heat conduction from the LED dies thereby increasing life, or efficiency or luminance or a balance of the three.

Lighting Module

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US Patent:
8183585, May 22, 2012
Filed:
Sep 16, 2008
Appl. No.:
12/211351
Inventors:
Adam Scotch - Amesbury MA, US
John Selverian - North Reading MA, US
David Hamby - Andover MA, US
Assignee:
Osram Sylvania Inc. - Danvers MA
International Classification:
H01S 5/00
US Classification:
257 97, 257 98, 257 99
Abstract:
A lighting module comprising a base panel and a plurality of light-emitting diode (LED) chips attached directly to the base panel. The LED chips are in electrical communication with conductive traces on the base panel, which deliver a current to the LED chips. Various embodiments of this generally described lighting module are also presented. Additionally, methods of preparing such a lighting module, and system components of the lighting module are presented.

Optical Disk For Lighting Module

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US Patent:
8188486, May 29, 2012
Filed:
Sep 16, 2008
Appl. No.:
12/211325
Inventors:
Walter P. Lapatovich - Boxford MA, US
David Hamby - Andover MA, US
Adam Scotch - Amesbury MA, US
John Selverian - North Reading MA, US
Assignee:
Osram Sylvania Inc. - Danvers MA
International Classification:
H01L 27/15
US Classification:
257 79, 257 98, 257 99, 257100
Abstract:
An optical disk for use in converting light emitted from a light-emitting diode chip to white light. The optical disk includes a tapered surface such that a center area of the disk has a width greater than a width of an outer area of the disk. The optical disk is formed of a silicone having at least one weight percent mix of phosphor. Various embodiments of this generally described optical disk are also presented.

Led Lighting Apparatus, Systems And Methods Of Manufacture

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US Patent:
8480267, Jul 9, 2013
Filed:
Jun 28, 2011
Appl. No.:
13/170265
Inventors:
David W. Hamby - Andover MA, US
Adam M. Scotch - Amesbury MA, US
John H. Selverian - North Reading MA, US
Assignee:
Osram Sylvania Inc. - Danvers MA
International Classification:
F21V 3/00
US Classification:
36231102, 362 84, 362 973, 362235, 36224902, 362613, 362607
Abstract:
A light emitting diode (LED) lighting apparatus including an array of first optic elements overlying an array of LED chips, wherein each of the LED chips is configured to emit light of a first wavelength range through a light emitting surface of the overlying first optic element. The array of first optic elements are also underlying an array of second optic elements, wherein each of the second optic elements is configured to convert light of the first wavelength range to be emitted through the light emitting surface of the underlying first optic element to light of a second wavelength range different from the first wavelength range.

Led Lighting Apparatus, Systems And Methods Of Manufacture

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US Patent:
8585243, Nov 19, 2013
Filed:
Jun 28, 2011
Appl. No.:
13/170256
Inventors:
David W. Hamby - Andover MA, US
Adam M. Scotch - Amesbury MA, US
John H. Selverian - North Reading MA, US
Assignee:
OSRAM Sylvania Inc. - Danvers MA
International Classification:
F21V 29/00
US Classification:
36224902, 362294, 362373
Abstract:
A light emitting diode (LED) lighting system including a lighting apparatus comprising at least one printed circuit board having an array of light emitting diode (LED) chips mounted thereto, the printed circuit board including a segmented conductor pathway configured to electrically couple at least a portion of the array of LED chips, and a portion of the printed circuit board forming a card edge connector, the card edge connector including a portion of the segmented conductor pathway which provides an electrical contact configured to electrically couple the segmented conductor pathway to a power source.

Optical Cup For Lighting Module

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US Patent:
20100067240, Mar 18, 2010
Filed:
Sep 16, 2008
Appl. No.:
12/211334
Inventors:
John SELVERIAN - North Reading MA, US
David Hamby - Andover MA, US
Adam M. Scotch - Amesbury MA, US
International Classification:
F21V 7/00
US Classification:
362350, 36229601
Abstract:
A lighting module comprising a base panel and a plurality of light-emitting diode (LED) chips attached directly to the base panel. The LED chips are in electrical communication with conductive traces on the base panel, which deliver a current to the LED chips. Various embodiments of this generally described lighting module are also presented. Additionally, methods of preparing such a lighting module, and system components of the lighting module are presented.
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Adam M Scotch from Amesbury, MA, age ~50 Get Report